Sotech 12 5 final b by KMI Media Group

Worldâ&#x20AC;&#x2122;s Largest Distributed Special Ops Magazine

SO/LIC Trailblazer Michael D. Lumpkin

www.SOTECH-kmi.com

Assistant Secretary of Defense for SO/LIC

June 2014

Volume 12, Issue 5

leadership insight:

Institutionalizing Lessons Learned from Combat

Advancement In Technology O USVs Harsh Weather Warrior Gear O Identity Masking Technologies

Complete Satellite CommuniCationS SolutionS. all FRom one Company.

L-3 GCS

If youâ&#x20AC;&#x2122;re looking for complete satellite communications solutions, look to L-3 GCS. Our combined expertise in satellite systems, airtime, network architecture and field support allows us to provide you with the tools for critical communications on and off the battlefield. We understand todayâ&#x20AC;&#x2122;s missions and are equipped to deliver reliable, interoperable solutions when you need them, where you need them. For more information, visit L-3com.com/GCS. GCS

L-3com.com

Special Operations Technology Features

June 2014 Volume 12, Issue 5

Cover / Q&A Advancement in Technologies

Leadership Insight: Institutionalizing Lessons Learned from Combat

SOCOM is always looking for innovative solutions to increasing warfighter survivability, mobility, lethality and connectivity.

An exclusive interview with Brigadier General Darsie Rogers, commander, U.S. Army Special Forces Command (Airborne).

4 6

Harsh Weather Gear

SOF personnel are often forced to complete their mission in the harshest of conditions. From the deserts of Iraq to the mountains of Afghanistan to the steaming rainforests of Africa, these harsh conditions pose a range of problems. By Chris McCoy

Departments

16 Michael D. Lumpkin

The U.S. Navy is taking an increasing interest in unmanned surface vehicles. The littoral combat ship program is currently conducting a competition for unmanned boats that would conduct minesweeping operations. By Peter Buxbaum

Unmanned Surface Vehicles

Masking Who’s Talking

Industry Interview

2 Editor’s Perspective 3 Whispers/People 14 BLack WAtch 27 Resource Center

Brian Keller

Vice President, Army Strategic Account Executive Leidos

Assistant Secretary of Defense for SO/LIC

“We’re doing great work with upgrading and recapitalizing our mobility fleet, ground and air, as well as fielding the newest capabilities in information technology, night vision and trauma medical care.” –Michael D. Lumpkin

Special Operations Technology Volume 12, Issue 5 • June 2014

World’s Largest Distributed Special Ops Magazine Editorial Editor

Chris McCoy chrism@kmimediagroup.com Managing Editor

Harrison Donnelly harrisond@kmimediagroup.com Online Editorial Manager

Laura McNulty lauram@kmimediagroup.com Copy Editor

Sean Carmichael seanc@kmimediagroup.com Correspondents

Peter Buxbaum • Henry Canaday • John Doyle Hank Hogan • Scott Nance • William Murray

Art & Design Art Director

Jennifer Owers jennifero@kmimediagroup.com Ads and Materials Manager

Jittima Saiwongnuan jittimas@kmimediagroup.com Senior Graphic Designer

Scott Morris scottm@kmimediagroup.com Graphic Designers

Andrea Herrera andreah@kmimediagroup.com Amanda Paquette amandak@kmimediagroup.com

Advertising Account Executive

Philippe Maman philippem@kmimediagroup.com

KMI Media Group Publisher and Chief Financial Officer

Constance Kerrigan connik@kmimediagroup.com Chief Executive Officer

Jack Kerrigan jack@kmimediagroup.com Editor-In-Chief

Jeff McKaughan jeffm@kmimediagroup.com Controller

Gigi Castro gcastro@kmimediagroup.com Trade Show Coordinator

Holly Foster hollyf@kmimediagroup.com

Operations, Circulation & Production Operations Administrator

Bob Lesser bobl@kmimediagroup.com Circulation & Marketing Administrator

Duane Ebanks duanee@kmimediagroup.com Circulation

Barbara Gill barbg@kmimediagroup.com Denise Woods denisew@kmimediagroup.com Data Specialist

Raymer Villanueva raymerv@kmimediagroup.com

A Proud Member of: Subscription Information

Special Operations Technology ISSN 1552-7891 is published 10 times a year by KMI Media Group. All Rights Reserved. Reproduction without permission is strictly forbidden. © Copyright 2014. Special Operations Technology is free to qualified members of the U.S. military, employees of the U.S. government and non-U.S. foreign service based in the U.S. All others: $75 per year. Foreign: $159 per year.

Corporate Offices

KMI Media Group 15800 Crabbs Branch Way, Suite 300 Rockville, MD 20855-2604 USA Telephone: (301) 670-5700 Fax: (301) 670-5701 Web: www.SOTECH-kmi.com

EDITOR’S PERSPECTIVE I recently attended the annual SOFIC conference in Tampa, Fla. The show was a great experience and I spent much of my time on the exhibition floor and attending the session meetings held by SOCOM. I also attended a benefit auction onboard a ship that was hosted by the The Green Beret Foundation. Admiral Bill H. McRaven took the stage at SOFIC for a question and answer session. He once again touched on the subject of the prevalence of suicide within SOF ranks. Other questions pertained more to acquisitions for SOCOM. SOCOM’s Theater Special Chris McCoy Operations Commanders then took part in a panel discussion on Editor important acquisition, requirements, operations and technology issues from the point of view of theater operations. Maintaining the global SOF network was a common theme to the SOFIC SOCOM sessions. This point was driven home all the more by an international special operations exercise held on the second day of SOFIC. U.S. and partner nation special operations forces displayed their interoperable tactical capabilities during the exercises. The series of specialized tactics that the special operations forces demonstrated featured a MC-130, MH-60 Black Hawks and MH-6 Littlebirds. More specifically, there was a military free fall water jump, helocast and fastrope insertions and the insertion of a Navy SEAL diver team. The tactics demonstrated by the international team of special operations forces were all highly complex maneuvers. They also demanded a very high degree of talent and skill that was evident to everyone in attendance. An interesting fact about SOFIC is that at a time when so many conferences are being canceled as the military budget is slashed by sequestration and inaction from Congress, the number of people involved in SOFIC is growing. Every year, the number of attendees at SOFIC has increased. This point was made vividly clear via a graphic during one of the SOCOM sessions. Compared to other sections of the military market, special operations is still receiving a large amount of financial support. As usual, feel free to contact me with any questions or comments for Special Operations Technology.

WHISPERS

Compiled by KMI Media Group staff

Tactical Control System Contract

Enhanced Ground Control System and Software for Small Unmanned Aircraft

Raytheon Co., Intelligence, Information and Services, Dulles, Va., is being awarded a $15,844,476 cost-plus-incentive-fee, cost-plus-fixed-fee, cost contract for nonrecurring research and development support for the Tactical Control System (TCS). This effort continues the transition from the TCS baseline into the Unmanned Aerial System Control Segment architecture, integrates modern intuitive controls as identified during testing with fleet operators, automates testing procedures in support of future integration and production, and supports the software baseline operating in the field. Work will be performed in Sterling, Va. (80 percent); Dahlgren, Va. (9 percent); Carson, Calif. (6 percent); and Garland, Texas (5 percent), and is expected to be completed in April 2016. Fiscal 2014 research, development, test and evaluation and fiscal 2014 operations and maintenance Navy funds in the amount of $4,214,507 will be obligated at time of award, $100,000 of which will expire at the end of the current fiscal year. This contract was not competitively procured pursuant to FAR 6.302-1.

Lockheed Martin’s Group 1 family of unmanned aircraft systems is migrating to enhanced automation capabilities using its Kestrel “Fly Light” flight control systems and industry-leading mobile Ground Control Station (mGCS) software. The increased automation allows operators to focus on executing the mission, rather than flying various aircraft. Earlier this year, Lockheed Martin’s Desert Hawk III small unmanned aircraft system demonstrated these enhancements by delivering improved situational awareness to operators. The mGCS enhancements also proved to substantially reduce operator workload through an intuitive interface, user-friendly touchscreen and joystick options, as well as a sophisticated set of operator warnings, cautions and advisories. “The mGCS is a derivative of our proven VCS-4586 software that focuses on providing capabilities to the small unit level,” said Kevin Westfall, director of unmanned solutions at Lockheed Martin’s Mission Systems and Training business. “MGCS is a single, portable system capable of conducting missions that would typically require multiple controllers and federated software applications in order to manage the many different types of UAS.” MGCS was developed on an open system using commercial off-the-shelf technology that is interoperable with a variety of portable computers, hand controllers, autopilots, data links and sensors. The mGCS software is compliant with NATO’s Standardization Agreement 4586 and also includes a full software development kit to provide other UAS manufacturers the ability to add systems and other capabilities without restriction. This significantly eases integration while reducing support and sustainment costs as well.

PEOPLE Europe, and director, special operations, U.S. European Command, Stuttgart-Vaihingen, Germany.

New Individual First Aid Kit Chinook Medical Gear, a distributor and manufacturer of tactical medical kits, unveiled the TMK-IFAK, a new individual first aid kit (IFAK) for use in any tactical situation. Chinook’s TMK-IFAK offers a unique design comprised of a pouch and insert, which can be used separately or combined into one complete system for quick and easy access to TCCC/TECC recommended supplies. Designed to standard double magazine pouch size specifications, this kit features rapid one-handed deployment and a tether system so that life-saving supplies are always within reach. The unique design eliminates digging for or dumping contents by allowing for individual deployment of supplies without dislodging other supplies.

www.SOTECH-kmi.com

Compiled by KMI Media Group staff

Maj. Gen. Marshall B. Webb

Air Force Major General Marshall B. Webb has been nominated for appointment to the rank of lieutenant general and for assignment as commander, North Atlantic Treaty Organization Special Operations Headquarters, Supreme Headquarters Allied Powers Europe, Mons, Belgium. Webb is currently serving as commander, Special Operations Command

Col. Eric T. Fick

Colonel Eric T. Fick has been selected for the grade of brigadier general, and will move from his current position of program executive officer for intelligence, surveillance, reconnaissance

and special operations forces, Air Force Life Cycle Management Center, Air Force Materiel Command, Wright-Patterson Air Force Base, Ohio, to program executive officer for fighters and bombers, Air Force Life Cycle Management Center, Air Force Materiel Command, Wright-Patterson AFB. Brigadier General Michael J. Warmack, deputy chief, operations, Office of the Defense Representative-Pakistan, Pakistan, has been assigned as deputy commanding general, U.S. Army John F. Kennedy Special Warfare Center, Fort Bragg, N.C.

SOTECH 12.5 | 3

LEADERSHIP INSIGHT

Institutionalizing Lessons Learned from Combat An interview with Brigadier General Darsie D. Rogers Jr.

Brigadier General Darsie D. Rogers Jr. was commissioned a second lieutenant from Auburn University in 1987. Following his initial assignment to the 24th Infantry Division, Fort Stewart, Ga., he completed the Special Forces Qualification Course and was awarded the Green Beret. Rogers has commanded Army and special operations forces at every level, from second lieutenant to his current rank. Notable assignments include the Joint Staff, the Joint Readiness Training Center, Fort Polk, La., and commander of the 10th Special Forces Group (Airborne). He has participated in numerous contingency and combat operations including Operation Desert Shield/Desert Storm, Operation Provide Comfort, peacekeeping operations in Bosnia, and five deployments in support of Operation Iraqi Freedom and Operation New Dawn, where he commanded Army, Air Force and naval special operations forces. He served as the deputy commanding general for Support, 4th Infantry Division and Fort Carson, and most recently served as the deputy commanding general for United States Army Special Operations Command (USASOC). Q: Are there any recent programs or initiatives at USASFC(A) that you can discuss with us? A: USASFC(A) has two key ongoing initiatives in support of the USASOC commander’s Army Special Operations Forces (ARSOF) 2022 Concept. First, USASFC(A) has restructured one battalion per Special 4 | SOTECH 12.5

Forces group to improve the regiment’s ability to execute our primary mission: unconventional warfare (UW). While UW will remain the primary focus of every battalion in the regiment, the 4th Battalion’s organization, structure, manning and training will specifically focus on the early phases of a UW campaign. In close coordination with the theater special operations commands (TSOCs) and the joint, interagency, intergovernmental and multinational (JIIM) communities, the redesign will provide our nation’s leaders a viable UW option when considering national responses to global unrest or aggression against the United States. The second initiative consolidates Army Special Warfare (SW) elements (special forces, civil affairs, military information support operations, SOF logistical personnel) underneath a new, singular command. The primary function of the command is to better synchronize, tailor and scale SW support to the TSOCs. In addition to providing training, readiness and oversight of subordinate units, this new headquarters will also have the ability to deploy up to a two-star level headquarters to command and control special operations forces during contingency operations. The transformation will institutionalize many of the lessons learned from the past decade of combat operations and provide the Army and TSOCs a readily available, organic, senior SOF command capable of commanding and controlling full-spectrum SOF operations in various environments.

Q: Many Special Forces soldiers have received awards for their heroic actions in Operation Iraqi Freedom and Operation Enduring Freedom. Can you tell us about your efforts to ensure your quiet professionals are properly recognized? A: First, we are extremely proud of our Medal of Honor recipients, both past and present. Whether from the Vietnam Conflict, Operation Enduring Freedom or Operation Iraqi Freedom, these Special Forces soldiers represent the very best our Army and nation have to offer. The inherent creativity, flexibility, training and education of Special Forces soldiers make them uniquely qualified for operations that require an understanding of the political implications and long-term effects of their actions. Those characteristics often make Special Forces soldiers the primary choice for missions that garner little attention and publicity. While these types of operations do not normally make the headlines, as a command, we work hard to ensure we formally recognize our soldiers for their outstanding service and contributions. Q: With combat missions for conventional forces decreasing in Afghanistan, do you find missions for Special Forces in Afghanistan have also decreased, allowing more time for training, or have additional demands been put on your command in various regions of the world? www.SOTECH-kmi.com

A: While the number of Special Forces soldiers operating in Afghanistan has declined, the cumulative demand for Special Forces soldiers across the globe continues to increase—a testament to the effectiveness and performance of our soldiers. Every day we have several thousand Special Forces soldiers supporting operations around the world. Operational/training management remains a delicate balancing act and a key focus of the command, as does the physical and mental health of our soldiers and families. USASFC(A) will continue to ensure that our soldiers receive world-class training and support commensurate with the tasks we levy against them. We owe that to our soldiers. Q: Are the Special Forces soldiers who have departed Afghanistan able to take what they’ve learned in advising missions and translate that in places like the littorals with the Pacific rebalance? A: While not all tactics, techniques, procedures and authorities transfer from one geographical region to the other, experiences in Afghanistan have helped to synchronize systems and procedures across the Geographical Combatant Commands, streamlining the Global SOF Network. Combat operations over the past 12 years have created a combat-hardened force that understands operations in semi-permissive to permissive environments and can leverage that experience when working with foreign militaries. Operations in Iraq and Afghanistan have also greatly increased interoperability between SOF and conventional forces—a relationship that must continue for the Army and joint force to succeed in future conflicts and engagements around the world. I find it important though to emphasize that Afghanistan or Iraq experience alone does not guarantee success for USASFC(A) soldiers in other theaters. To effectively execute our UW mission, special forces soldiers must become regional experts, master the language and culture of their operational area, operate effectively in permissive to denied environments, and function effectively in the JIIM environment. That amount of expertise requires focus, study and experience in a specific region over a long period of time. www.SOTECH-kmi.com

Q: Can you speak to the resiliency of your units? How has Preservation of the Force and Family (POTFF) benefitted your command?

and stand-off and better fully integrated and networked communications systems for more effective command and control during the most complex operations.

A: The POTFF program directly addresses one of our fundamental SOF truths: People are more important than hardware. Investing in the physical, mental and spiritual resiliency of our soldiers and their families remains one of my top priorities. The Special Forces soldier of the next 10 to 20 years must have the physical, mental and emotional capacity to operate effectively in the most difficult and complex environments in the world. While selection and the special forces training pipeline set the conditions for success, truly optimizing a soldier’s potential requires consistent maintenance and investment. As a regiment, we do that partly through advanced skills training and talent management, but we also achieve it through optimizing the individual him/herself. POTFF programs such as the Tactical Human Optimization Rapid Rehabilitation and Reconditioning Program have paid significant dividends to the force by preventing injuries and rehabilitating soldiers injured during combat or training.

Q: In what ways do you see the Special Forces soldier evolving over the next five years?

Q: Technologically speaking, is there a particular piece of kit you’re looking for to help best execute the Special Forces Green Berets’ nine principal tasks? A: The past decade of sustained combat operations have led to immense improvements in the technology Special Forces soldiers utilize to accomplish their missions. From radios to unmanned aircraft systems, these advancements have helped enable the Special Forces soldier to outperform adversaries on the battlefield. Although I firmly believe that humans are more important than hardware, the advances we have seen in technology over the last decade have positively impacted nearly every aspect of SOF operations. In the SOF community, we fully expect to continue efforts that make the SOF operator more effective and lethal with a focus on a complementary suite of equipment rather than a singular piece of kit. Examples of these efforts include body armor and helmets that improve survivability and enhance movement on the ground, target engagement systems to improve lethality

A: In the next five years, we need a Special Forces soldier who feels as comfortable engaging with an ambassador, foreign civilian/military official or senior Army leader as he does fighting in the mountains alongside his Afghan counterparts. We need a soldier who has the technical and tactical skills to operate in permissive, semi-permissive and denied environments in support of the TSOC commanders’ objectives while accomplishing the mission and minimizing risk to the force. As a country, we have a combat-seasoned, proficient, experienced and capable group of special operators. We now need to take that knowledge base and continue to expand our soldiers’ capabilities to meet the demands of the future operating environment. Q: What final thoughts do you have for the soldiers, civilians and other SOF supporters of USASFC(A)? A: First and foremost, I’d like to thank the soldiers, civilians and their families for their continued commitment and sacrifice to our nation. Their contributions do not go unnoticed and I’m both proud and humbled to lead the outstanding men and women of this regiment. Secondly, [I’d tell them to] embrace the changes occurring throughout the regiment. Special Forces have performed exceptionally over the past decade in Iraq, Afghanistan, the Philippines and across the globe, but we have an adaptive and resilient enemy and must evolve as an organization to prepare for the future fight. All special soldiers must understand the concepts outlined in ARSOF 2022 and become a master of their profession. We owe that to our nation, the Army and to the individuals on our right and left. O For more information, contact SOTECH Editor Chris McCoy at chrism@kmimediagroup.com or search our online archives for related stories at www.sotech-kmi.com.

SOTECH 12.5 | 5

Special fabrics and clothing are designed to enable SOF to function at peak performance. By Chris McCoy SOTECH Editor

SOF are often forced to complete their mission in the harshest of conditions. From the deserts of Iraq to the mountains of Afghanistan to the steaming rainforest of Africa, these harsh conditions pose a range of problems. Luckily, there is a great deal of clothing designed to meet the rigors of such harsh environments. Some of this clothing is even available commercially off-the-shelf to the average American consumer. Often, materials worn by SOF are also sold to hunters, mountain climbers and athletes.

Moisture Wicking Socks North Carolina-based Thorlos offers a special line of socks that are primarily made from a proprietary acrylic blend of fibers. Thorlos uses acrylic blends for their ability 6 | SOTECH 12.5

to wick moisture away from the foot (there are more sweat glands in your feet than any other part of your body), and their ability to stay resilient provides more cushion. They also utilize Cool Max and some wool when the activity demands. “When we set out to make a product, we spend an incredible amount of time studying all the stresses the foot will experience in this activity. We look at stresses delivered from the external environment outside the shoe and, more importantly, the environment inside the shoe,” said Eric Cody, product line manager, Thorlos Outdoor and Snow. “We look closely at the footwear that will be worn with the product and how it comes into contact with the foot. We take all of these factors into consideration and apply over 30 years of experience in developing

activity-specific foot protection to develop the product.” Once Thorlos develops a product, they test it on multiple users in the most extreme environments possible. For example, the Extreme Cold Foot Protection sock was tested by climbers ascending to the summit of the tallest mountains in the world. After these tests, this sock was awarded a “Guides Choice” award from the American Alpine Institute as a recommended item. The company also asked several professional sled dog mushers to test the Extreme Cold Foot Protection sock in their activity. They quickly adopted this as their sock of choice and it was worn by Dallas Sweeney, who won the 2014 Iditarod. “We understand that our heritage is authenticity and real value derived from a www.SOTECH-kmi.com

product that does what it says it will do and that lasts for years,” said Cody. “We take that very seriously. Simply put, Thorlos will make the absolute best foot protection in the world for an activity and guarantee our product. On the package of every pair of Thorlos is a simple money-back guarantee that assures the user that our product will do what we say or we will refund their purchase price.” Thorlos founder Jim Throneburg was a Navy man, having served on a submarine. Before the company became Thorlos, it was a hosiery mill that made socks for various concerns, including the military. “Our history goes back over 50 years of providing high quality products for the military. Today, we make a variety of products for our military customers, from dress socks to anti-fatigue products. A very large percentage of our customers first experienced Thorlos products while serving,” said Cody. “We take great pride in receiving letters and emails from service men and women from all over the world thanking us for providing such a great product for

them. The letters usually speak of how much they took their feet for granted before they were in the service and that after experiencing foot pain, they were grateful for our product protecting their feet, which allowed them to concentrate on their important work.” Moreover, the company employs numerous ex-military personnel in all facets of the business. “We are an American company that is extremely proud to honor and help our military by providing them with the best foot protection on the planet,” said Cody.

Merino Wool Armadillo Merino specializes in nextto-skin protective clothing that utilizes the unique properties of merino wool. The garments are constructed for demanding environments using a range of merino performance fabrics that deliver superior protection, performance and comfort to wearers. The company works with

professionals operating in high risk environments around the world in occupations such as military, police, fire, ambulance, search and rescue, heavy industry, and other outdoor professions. Armadillo Merino is a brand managed by Ministry of Wool Ltd., a British-based company operating from Derbyshire, England. “The merino fiber we use has been specially grown by merino sheep and selected for its fineness so that it can be worn nextto-skin and provide superior wearer protection, performance and comfort over a wide range of climatic conditions,” said company spokesman Andy Caughey. “Merino is a superfine quality of wool prized for it softness and strength. The merino is a special breed of sheep that thrive in harsh, dry conditions. The merino sheep are farmed in many countries throughout the world, but the majority of the high quality wool is grown in Australia, New Zealand and South Africa.” Armadillo Merino garments are being worn as next-to-skin performance garments covering from head to toe when worn as

PML7032-2 Rev(14.0)

Variable COMbaT OpTiCal

GunsiGhT The Trijicon 1-6x24 VCOG.

™

SEE THE

1-800-338-0563

Trijicon_SpecOpsTechnology_PML7032-2 Rev(14.0).indd 1

www.SOTECH-kmi.com

www.trijicon.com

LINK 5/27/2014 10:35:07 AM

SOTECH 12.5 | 7

beanie hats, neck gaiters, gloves, socks, tops and bottoms. The most significant attribute is that the fabric has no-melt, no dripproperties and is flame resistant up to 1,000 degrees Fahrenheit. However, the fabric has many other benefits including thermoregulation, so the wearer keeps cooler when it is hot and warmer when it is cold. It manages sweat in both the vapor stage and as liquid perspiration, pulling moisture away from the body and keeping the skin dry. In addition to softness and stretch, it also has the ability to suppress offensive odors when worn for days at a time, reducing the presence of dismounted soldiers. “Armadillo Merino designs and manufactures the most advanced next-to-skin garments in the world,” said Caughey. “Our fabric ranges have been manufactured for specific end use applications taking into consideration durability, breathability, heat management, moisture movement and garment styling. These fabrics perform well under a multilayered system, assisting the user to stay stronger for longer because the garments help delay the onset of sweating and reduce the rate of perspiration.”

PrimaLoft Insulation

Above: The NemesisTurkeyAOR2 file is a signature management product. [Photo courtesy of W. L. Gore & Associates Inc.] Left: Thorlos’ socks are designed to wick away sweat from the feet. [Photo courtesy of Thorlo Inc.]

8 | SOTECH 12.5

In 1983, the U.S. Army Research Laboratory commissioned Albany International to develop a synthetic insulation that would be comparable to goose down in weight, compressibility and warmth, but also retain heat while in the presence of moisture. In 1988, PrimaLoft became a business subsidiary of Albany International Corp. and the PrimaLoft brand was born. “Since then, we’ve been working hard to constantly shake up the category with the development of our innovative comfort solutions that mimic down in dry conditions, but surpass down’s capabilities when wet,” said David Newey, global marketing director, PrimaLoft Inc. “Almost two years ago, the subsidiary spun off from Albany International to become the privately held PrimaLoft Inc. This change has put us in a better position to reinvest in research and development and explore new comfort solution categories, like fleece and fabric.” PrimaLoft offers best-in-class synthetic insulations that are the highest in performance when it comes to wet weather conditions, warmth to weight ratio, quick drying capabilities, breathability, packability, softness, and comfort.

“Our products are currently used in more than 700 brands across multiple industries in addition to military wear, including outdoor, home furnishings, hunting and fashion,” said Newey. As a generality, PrimaLoft synthetic insulation is made with ultrafine polyester fibers that feature high quality, performancefocused characteristics like incredible lightweight softness, warmth, breathability and compressibility. “The supplemental materials are dependent on the specific PrimaLoft product being made, as we currently offer approximately 25 varieties,” said Newey. “For example, PrimaLoft ECO is made of 90 percent post-consumer recycled fibers from plastic bottles.” The U.S. Marine Corp Extreme Cold Weather, Special Operations Forces Protective Combat Uniform (PCU)/Naval Special Warfare, U.S. Army Extended Cold Weather Clothing System and the U.S. Air Force all make use of PrimaLoft insulation. “U.S. Navy Seals first validated PrimaLoft insulation as an optimum performing product. It allows the user to walk, or ‘cook dry,’ in less than 30 minutes after being fully immersed in water at 33 degrees Fahrenheit, providing a tactical advantage over the enemy under extreme wet and cold conditions,” said Newey. “Nicknamed the ‘happy suit,’ the PrimaLoft Parka and Trouser are crucial to the USMC solider in the field due to the product’s performance and comfort in extreme conditions. To date, more than 1 million sets of PrimaLoft insulated jackets and trousers have been issued to U.S. troops.”

Multiple Multipurpose Technical Fabrics Maryland-based W. L. Gore & Associates Inc. offers a range of products specialized for harsh environments. Best recognized for waterproof, windproof and breathable Gore-Tex fabric, traditionally seen in garments, footwear and gloves, Gore’s portfolio of technologies has expanded to heat and flame protection, chemical and biological protection, and signature management. “Gore continues to develop high performing fabric technologies for the protection of warfighters in varying temperatures and environments worldwide. Research to deliver increased performance is ongoing, with continued focus on areas such as weight reduction, minimizing pack volume, fast dry out and enhanced comfort,” said www.SOTECH-kmi.com

Jason Rodriguez, marketing communications at Gore. Gore Pyrad flame retardant is a new fabric innovation offering protection against arc flash and flash fire threats that makes use of a self-extinguishing technology when exposed to these threats. Gore Pyrad flame retardant is currently being designed in protective garments, and most recently in the USMC Arctic Shelter. Other new innovations by Gore include Gore Multispectral Concealment materials. This fabric is used to create a unique collection of multispectral concealment products, including garments, covers and hides. The technology significantly reduces the probability of detection against visual, near infrared, short-wavelength infrared, mid-wavelength infrared and long-wavelength infrared. By providing concealment from multiple concurrent sensor threats, the products aid in the infiltration and exfiltration to and from target objectives with minimal detection. A variety of Gore fabrics are being used in protective gear currently procured by

the Department of Defense. Some of the items include the Level 6 jacket and trouser in the Gen III Extended Cold Weather Clothing System, Air Force All Purpose Environmental Clothing System (APECS), Navy Working Uniform parka and trouser, and the USMC Lightweight Exposure Suit. “Gore continues to work at understanding the challenges military personnel face in the field and develop performance fabrics that attribute to enhancing mission effectiveness. Existing protective garments currently being used by SOCOM that are designed with Gore fabric include the PCU Level 6 jacket and trouser, the Level 3B jacket, and signature management garments utilizing Gore Multispectral Concealment technology.” Gore’s expertise in working with proprietary polymers and fluoropolymer materials has led to the development of fabric solutions engineered to improve performance and comfort. To ensure quality, Gore requires products to go through a rigorous series of lab tests and field trials to verify the long-term durability of the product.

Key technical parameters from waterproofness and breathability to wear resistance and comfort are evaluated. “This process is part of Gore’s fitnessfor-use philosophy, which ensures that end items designed with our fabrics will do what we say they will do. Special operations forces encounter different conditions and challenges in their deployments. As a result, the gear used has undergone significant advancements to ensure they can function at peak performance,” said Rodriguez. Altogether, Thorlos, Armadillo Merino, PrimaLoft and W. L. Gore & Associates offer a sampling of the clothing and materials designed to allow SOF to function at that level of peak performance in harsh environments. O

For more information, contact SOTECH Editor Chris McCoy at chrism@kmimediagroup.com or search our online archives for related stories at www.sotech-kmi.com.

NV-Compatible Holographic Weapon Sights

For more TSSi offerings, request a catalog. NEW Clothing & Protective Equipment catalog coming out soon!

Call 877 535-8774 or build an RFQ at agency.tssi-ops.com. www.SOTECH-kmi.com

SOTECH 12.5 | 9

Remotely piloted boats accomplish dangerous mission objectives without loss of life. By Peter Buxbaum SOTECH Correspondent

an operational area are some of the functions that can be handled by The U.S. Navy is taking an increasing interest in unmanned USVs.” surface vehicles (USVs). The littoral combat ship (LCS) program is The Navy’s Program Executive Office Littoral Combat Ships (PEO currently conducting a competition for unmanned boats that would LCS) is developing in its Unmanned Maritime Systems Program conduct minesweeping operations. A number of companies have Office a family of modular unmanned surface vehicles for employdeveloped USVs capable of being deployed on a variety of missions, ment with the LCS. “These USVs will provide a flexible and adaptable including the gamut of intelligence, surveillance and reconnaissance platform that can be outfitted with a variety of payloads for different operations. Some innovative technologies are being brought to bear missions while keeping sailors out of tasks that are dirty, dull and on some of these projects for powering the surface vehicles and for dangerous,” said Captain David Honabach, program manager for other functions. unmanned maritime systems at PEO LCS. Common to many of the USVs that have been developed, or that The first variant of the LCS USV, called the Unmanned Influence are under development, is their modularity. Thanks to a modular, Sweep System (UISS), will provide a low-cost, long-endurance, semiopen architecture, they are able to function as multi-mission, multiautonomous minesweeping capability for magnetic payload vessels—allowing users to quickly deploy and acoustic mines. “It is also expected to form the USV any of several payloads, including weapons—which is foundation for low-cost capabilities in mine hunting, necessary to satisfy mission requirements such as towneutralization and future missions,” said Honabach. ing, mine countermeasures, communications relay, “In fiscal year 2014, the Navy initiated investments unmanned aircraft launch and recovery, and ISR. into Flight 2 minehunting USVs to leverage LCS AN/ “Navies around the world have great regions of AQS-20A sonars with a reconfigurable USV.” ocean they are supposed to be patrolling but few assets The UISS will minimize LCS sailors’ exposure to with which to do that,” said retired Navy Captain Don the minefield while minimizing workload for shipJagoe, director of business development at Liquid board personnel. “It is being procured to initially Robotics National Security. “USVs will give them the augment and eventually replace the aging manned ability to be out there when they are needed regardless Capt. Don Jagoe (Ret.) minesweeping capabilities of the Navy,” said Honaof the time of day or weather conditions.” Much of the bach. “It will fill the requirement for rapid clearance of world’s population lives near the coast, noted Jagoe, magnetic and acoustic influence sea mines to support making USV operations in the littorals particularly apt. operations in the littoral zones, confined straits, choke “Many of the threats the U.S. military is looking at points and amphibious objective areas.” An influence are surface threats,” said Pete Klein, a systems engimine is one that is able to detect the presence of a neer at Elbit Systems of America. “The utility of the target vessel without direct contact. USV is similar to that of the unmanned aerial system. “As an unmanned surface vehicle, the UISS will be They can be put into harm’s way without endangering capable of operating independently in shallow water the lives of service personnel. They can be placed in regions of the ocean,” Honabach added. “The UISS areas where sensors need to collect data for extended will achieve dramatic acquisition and especially operaperiods of time. USVs are better capable of prosecuttional cost reductions compared to current manned ing a target of the surface of the ocean than UAVs. Capt. David Honabach sweeping assets.” Minesweeping, target detection, and the analysis of 10 | SOTECH 12.5

www.SOTECH-kmi.com

LITHIUM CR123 “A A”

LIT

” AA E“

LIN

www.SOTECH-kmi.com

NSN# 6230-01-613-4312 Of all the variables you contend with in battle, the performance of your field light shouldn’t be among them. That’s why we made the Sidewinder Compact® II incredibly intuitive and easy to use. Featuring a red, white, blue and IR LED, and four intensities for each, plus a strobe function, the Sidewinder Compact® II is like 20 flashlights in one. With a 185˚articulating head, you can clip it onto your gear, a headstrap or mount it on your helmet to ensure you illuminate what you need to see. Plus you get the flexibility of multiple power source options with the Sidewinder Compact® II. Use either Alkaline “AA”, Lithium “AA” or Lithium CR123 batteries.

THE SIDEWINDER COMPACT® II – THE LIGHT HEROES TRUST. MULTI-TASK LIGHTING:

ROTATES 360°ON HELMET MOUNT

CLIPS ANYWHERE

PIVOTS 90°ON HEADSTRAP

HELMET RAIL MOUNT AVAILABLE

The system will be launched, operated and retrieved from both variants of the LCS. “It is one component of a system of systems in the mine countermeasure mission package for LCS,” said Honabach. “The UISS will interface with existing hardware, software and communications systems aboard LCS. The UISS acquisition builds upon years of basic Bill Leonard and applied research by the Office of Naval Research, and the fabrication and testing of prototype systems by PEO LCS.” Textron Systems’ Common Unmanned Surface Vessel (CUSV) is one of the boats in the running for the UISS contract. Textron demonstrated the mine-detection capabilities of the vessel for the U.S. Navy in 2012. “We leveraged the AAI command and control architecture that has over 800,000 hours of combat operations on unmanned aerial vehicles and adapted that to create a maritime platform,” said Bill Leonard, director of unmanned surface systems at AAI Textron. “CUSV has more than 1,600 hours in the water demonstrating its abilities to function on multiple missions.” CUSV is currently in its fourth generation of development. “We have included enhancements that make the vessel more effective and open it up for more mission sets,” said Leonard. “We also partnered with another division of the company, Textron Marine and Land, to draw on their expertise in vessel design and manufacturing capability.” Among the recent enhancements to the CUSV are an improved propulsion system that produces higher speeds and better ranges, and an optimized hull structure for better stability and endurance. “One of the key features we think we have that provides a great advantage is the proven survivability of the system,” said Leonard. “It can operate in higher sea states and includes an expanded payload bay with the ability to carry more weight and tow more underwater. As the technology has matured we have also rolled in simplified electronics to reduce weight and complexity.” In a demonstration with the Navy, the CUSV performed sonar mine neutralization operations, ISR capabilities and the ability to deploy some non-lethal weapons. “This kind of vessel is going to improve the Navy’s mine countermeasures,” said Leonard. “We are working with the Navy to understand their road map.” On the ISR front, the CUSV has already demonstrated the capability to carry cameras, radar, LiDAR and signals intelligence packages. “We have also investigating the possibility of installing a 360-degree camera system that can detect objects and isolate them,” said Leonard. The LCS UISS requirements set maximum sizes and weights for the USV’s communications apparatus. “The Navy is primarily looking for modularity so that they can run their missions on it,” said Leonard. “The CUSV’s electronics and communications capabilities are designed to be compatible with the LCS architecture, but we also designed the CUSV so that it can be adapted beyond the LCS.” The vessel is adaptable to multiple missions thanks to its modularity. “Multiple kinds of payloads can be swapped in and out,” said Leonard. “We think the vessel can be put to good use in maritime domain awareness operations, harbor patrols, intercepttypes of activities and any expeditionary warfare type of mission. The main thing is can it stay out for long periods of time, watch,

30 EAGLEVILLE ROAD, EAGLEVILLE, PA 19403 | 800.523.7488 CONNECT WITH US WWW.STREAMLIGHT.COM

SOTECH 12.5 | 11

monitor, listen, report back, and use a range of lethal and non-lethal armaments.” Elbit Systems has developed an unmanned naval vehicle for maritime patrol missions equipped with a weapon station as well as observation and communication systems that is capable of autonomous operation in ranges up to 500 kilometers. Called Silver Marlin, the Elbit USV is designated for ISR missions, force protection, anti-terror missions, anti-surface and anti-mine warfare, search and rescue, port and waterway patrol, as well as electronic warfare. “The Silver Marlin is a second-generation USV,” said Klein. “While most currently available USVs are remote-controlled, the Silver Marlin is an autonomous USV. The secondgeneration Silver Marlin is fully capable of performing complete missions independently, such as departing and returning to home port and maintaining an observation point.” The autonomous system is designed for The Navy, in conjunction with Spatial Integrated Systems Inc., holds a demonstration of a fully autonomous unmanned surface at Fort Monroe. A harbor patrol scenario depicts how the USV uses its autonomous maritime navigation systems to patrol optimal performance on low-level control vehicle and scan designated areas for intruders using onboard sensors and obstacle avoidance software in order to carry out its mission activities such as optimal turning rate, opti- and report back its findings to a command center. [Photo courtesy of the U.S. Navy/by Seaman Joshua Nuzzo] mal speed for fuel consumption, and accurate The company has 400,000 nautical miles in operations on the sailing and navigation with cruise sensors and stabilization sys200 vehicles it has sold to customers in the oil and gas industry, tems to prevent capsizing. “It has an adaptive feature, capable of academic institutions, oceanographic organizations, and the self-tuning the control system in response to environmental or Department of Defense. “We have ongoing work with the Navy and mission changes,” said Klein. Air Force and we are expanding on both of those areas,” said Jagoe. Elbit Systems took advantage of mission management “Additionally, we do a lot of ISR support work for the intelligence systems originally developed for unmanned aerial vehicles and community.” modified them for the USV, to overcome marine-related commuThe satellite communications system Iridium is the standard nication and line-of-sight barriers. Elbit Systems is also developcommunications package on the Shark, but, Jagoe noted, “ISR ing an obstacle avoidance system for the Silver Marlin and the customers frequently go with custom communications packages.” Autonomous Helmsman system, an expert system using heuristic The USV can support a variety of ISR sensors including signals methods for autonomous high-level decision making. This will intelligence sensors, electronic sensors across a range of frequenallow a completely external intervention-free mission operation. cies, and radiological sensors. The Shark, when used for ISR, can The system also has the capability to support weapons. be equipped with a capability called Sentinel that allows the vessel The Silver Marlin is equipped with an electro-optical/infrared to be sent out to a prepositioned point to establish a loitering and sensor and a radar system. “The radar system can be used to patrol area. “There are hundreds of interfaces to provide a real detect obstacles in water and can be programmed to take evasive plug-and-play capability for a variety of ISR sensors,” said Jagoe. action,” said Klein. “The sensors can be upgraded as technology This enables the boat to keep close watch on vessel and air trafchanges.” fic close to the shore. Its very low profile prevents it from being Liquid Robotics produces a long-duration unmanned surdetected. face vehicle whose original purpose was to do ocean testing in “It can pick up an incoming target on the surface by means of very remote areas. The Shark, as the naval version of the USV is radar or radio communications,” said Jagoe. “As it gets closer, the known, dispenses not only with the crew, but also with the fuel boat can transfer to a passive acoustic sensor that calculates a line normally required to propel the craft. of bearing and do a target acquisition analysis, then switch to an “We us a proprietary methodology that captures the power electro-optical or infrared sensor to get a good look at whatever of waves,” said Jagoe. “As the vertical motion of the waves go by, is approaching and determine whether [or not] that is something the system captures that and translates it into forward propulsive that should be there.” power. Waves as small as 1 inch in height can provide one-quarter The autonomous operations built in to the system allow a of a knot of forward speed. There is no fuel on board and it is a school of Sharks to be deployed, for example, to patrol a coastline completely green product.” or an entrance to a port, while automatically maintaining their Electrical power is generated by solar panels and stored on positions and keeping the proper distance from each other. They board in a lithium ion battery pack. “The electricity is distributed benefit from a swarming and self-meshing capability that enables during the duty cycle by a power distribution system that optithem to know their own position and the position of the others in mizes the utility of available solar energy, tops off the batteries, their unit. and deploys at night,” said Jagoe. 12 | SOTECH 12.5

www.SOTECH-kmi.com

SOTECH_NewNetworking:Layout 1 5/27/14 9:19 AM Page 1

“They are fed with their course and speed and the operator can fire and forget,” said Jagoe. “They can be programmed to return to their home station and the Shark will navigate around any obstacles it may find between its starting and ending point.” Liquid Robotics is currently working to enhance the system by providing an onboard processing capability. This will obviate the need to transmit data to shore for analysis and further instructions. The Shark also benefits from the ability to be deployed for extremely long durations. “The longest we’ve had one out was two and a half years,” said Jagoe. “After a year, the vessel needs to be cleaned to prevent excessive drag. Realistically, these USVs are good for missions of six months to a year on a regular basis. This far outpaces the abilities of traditional ISR platforms. UAV duration can be measured in days or even hours. Ships can be sent out for 30 or 40 days, but there are crew and fuel constraints and costs to be dealt with.” For USVs to claim their place in the sun, according to Klein, more work must be done on providing them with higher levels of autonomy, especially when it comes to sensing and avoiding obstacles and innocent traffic on the waterways they will be patrolling. The issue may not come up when the USV is on the open water, but Klein sees the best utility for the vessels being deployed in the littorals, as the Navy already plans to do, as well as in or near ports and on local waterways. “That is where USVs will pay off: close to shore and in harbors and bays where there may be a number of threats inbound to populated areas and where USVs can decrease operational costs. The biggest obstacle to USV deployment is the capability that would allow the vehicle to make decisions that are deterministic so that the boat will do the right thing and act in a proper manner when deployed in a waterway. Industry is not there yet with respect to a level of autonomy that would allow the boats to operate in a safe manner and with minimal threats to commercial and public activities on the waterways.” In the future, Klein added, USVs will be able to apply artificial intelligence to imagery and data that would allow then to maneuver on their own. As Klein sees it, USV development has outpaced the definition of requirements for the vehicles by navies and coast guards. “USVs have a lot of capabilities waiting for applications around which to tailor sensor and weapons suites,” he said. “Companies have developed these products, but navies and coast guards around the world have yet to figure out what if anything they want to do with them.” The U.S. Navy has at least taken some preliminary steps in that direction. The Navy intends to procure up to 52 UISS systems for minesweeping. “By approximately 2025, USVs will be the Navy’s only minesweeping system,” Honabach predicted. Industry proposals for UISS were submitted in October of last year and are currently being evaluated by the Navy. The Navy intends to make up to two UISS contract awards in fiscal year 2014. “The Navy is currently in source selection for the competitive award of contracts for design and fabrication of one engineering development model from up to two teams, with options for low rate initial production for up to two systems per year, between 2017 through 2019,” said Honabach. “This will be followed by a full rate production contract.” O For more information, contact SOTECH Editor Chris McCoy at chrism@kmimediagroup.com or search our online archives for related stories at www.sotech-kmi.com.

www.SOTECH-kmi.com

modular rf

Other ar divisions: rf/microwave instrumentation • receiver systems • ar europe The Battle Tested logo is Reg. U.S. Pat. & TM. Off. # 3,821,099. Copyright© 2014 AR. The orange stripe on AR products is Reg. U.S. Pat. & TM. Off.

SOTECH 12.5 | 13

BLACK WATCH New MRAP Variants

Semi-automatic Rifle

Oskhosh Defense

Beretta

Oshkosh Defense, a division of Oshkosh Corporation, introduced its new mine-resistant ambush protected all-terrain vehicle (M-ATV) variants at the Special Operations Forces Exhibition & Conference in Amman, Jordan. Oshkosh is evolving the combat-proven M-ATV family of vehicles to meet a more diverse range of mission requirements and needs for armed forces in the Middle East, North Africa region and around the world. The expanded global M-ATV family of vehicles includes two multi-mission models—the M-ATV Standard and M-ATV Extended, each with multiple variants. The M-ATV Standard is designed to provide response and support capabilities for a range of offensive and defensive missions in off-road environments. The M-ATV Extended delivers increased capacity for additional troops and equipment to support a wider assortment of mission profiles, such as mounted infantry support, explosive ordnance support and command-and-control. Variants include: • M-ATV Standard Base • M-ATV Extended Intervention • M-ATV Standard Upgrade • M-ATV Extended Engineer • M-ATV Standard Special Forces • M-ATV Extended Command

All M-ATVs deliver industry gold standard off-road performance and feature common components, such as the Oshkosh TAK-4 independent suspension system, and offer integrated cab crew protection. Collectively, the family meets a wider range of protection, performance, payload and transportability requirements for peacekeeping, internal security, border security, special forces, counterinsurgency and conventional military operations.

The Italian-designed, Americanmade Beretta ARX100 semi-automatic rifle is currently in production in Accokeek, Md., with a manufacturers suggested retail price of $1,950. Unlike other third generation battle rifles currently on the market, the Beretta ARX100’s multi-caliber capability is a reality due to the toolfree, quick-change barrel design and cold hammer forged barrel. Operators can go from the standard 5.56 NATO round to the .30 caliber stopping power of the .300 Black Out in seconds with the optional 300 Black Out barrel kit available through the Beretta Pro-Shop. Both cold hammer forged barrels are manufactured by Beretta in their Accokeek facility. Customizing the rifle to the needs of the operator doesn’t end with the barrel and caliber; the fully ambidextrous controls on the ARX100 adapt to left- or righthanded shooters. Operation of the bolt release, safety selector and magazine release from either side of the rifle showcases its ambidextrous design; however, the ability to change the rifle’s ejection from left to right with a push of a button and swing-through charging handle to accommodate the shooter’s left/right preference makes the rifle a game changer.

MX-10 Surpasses 10,000 Operational Hours Onboard the Lynx Mk9A Helicopter L-3 Wescam L-3 Wescam announced that the Joint British Forces fleet of MX-10 electro-optical and infrared (EO/IR) imaging systems has successfully logged 10,000 hours onboard the Lynx Mk9A helicopter. Since its deployment in late 2011, the Mk9A and MX-10 pairing has effectively demonstrated full mission capability, leading key find-and-escort roles throughout Afghanistan in support of the United Kingdom’s Operation Herrick. “The 10,000-flight-hour milestone is a great reason to celebrate the tremendous performance of our MX-10 EO/IR imaging system,” said Paul Jennison, vice president of government sales and business development for L-3 Wescam “With its battle-proven design and optical capability, the 14 | SOTECH 12.5

MX-10 fleet has demonstrated its effectiveness in extreme environments, with prolonged exposure to sand and temperatures over 50 degrees Celsius [posing no threat].” Able to provide positive identifications and accurate targeting information, the MX-10s have proven to be a force multiplier onboard the Lynx Mk9A. Complete with 4-axis stabilization, the systems are used to track insurgent activity and troop movement around forward operating bases in Afghanistan. This dependable overwatch capability is credited to the longrange EO and IR imaging sensors that complement the MX-10’s patented stabilization technology, coupled with the system’s laser rangefinder, laser illuminator and MX-GEO technologies. www.SOTECH-kmi.com

Compiled by KMI Media Group staff

Facility Paves the Way for More Radio Connections of MUOS Communication Satellites Lockheed Martin The number of end users connecting to the U.S. Navy’s Mobile User Objective System (MUOS) will grow as radio terminal providers begin using a testing facility that simulates the satellite network. A team from Harris recently used the lab to connect the AN/PRC-117G Falcon III radio to MUOS systems developed by Lockheed Martin. It’s one of several terminals that are well underway in testing their connections with the constellation. Many terminals—from handheld radios to satellite links on ships, planes and ground vehicles— can easily integrate this new type of signal, and Lockheed Martin’s facility helps developers test those connections. While some terminals are new products, the lab also helps existing terminals connect. Enabling access for radios in inventory means more users can use MUOS without the cost of all new gear. “MUOS provides a leap in capability that can save lives and improve missions, so naturally we want as many users to connect as possible,” said Dave Helseth, Lockheed Martin director of Systems Engineering, Integration and Test for MUOS. “Over 55,000 currently fielded terminals could be upgraded for full MUOS capability as

Degraded Visual Environment Sensor Solution Telephonics Corporation

early as 2016. Our simulation lab helps providers quickly complete their integration work and move forward with government certification.” According to Harris, the Department of Defense uses more than 30,000 AN/PRC-117G terminals. With a MUOS update, all could be ready for MUOS connections pending government certification. Additionally, the General Dynamics AN/PRC-155 manpack radio is the terminal program of record and offers more connections. MUOS delivers secure, priority-based voice and high-speed data to mobile users using an advanced waveform similar to commercial cell phone technology. The radio testing facility incorporates a full ground station, satellite payload, radio instrumentation and simulators that emulate radio links in challenging conditions, such as rain, forest canopy and urban canyons. Lockheed Martin Space Systems, Sunnyvale, Calif., is the MUOS prime contractor and system integrator. The Navy’s Program Executive Office for Space Systems and its Communications Satellite Program Office, San Diego, Calif., are responsible for the MUOS program.

Augmented Features for Advanced Camera Core Products FLIR

Telephonics Corporation, a wholly owned subsidiary of Griffon Corporation, recently presented its VisionEdge Degraded Visual Environment sensor solution. VisionEdge addresses the life-threatening challenges associated with degraded visual environment situations, enhancing the military aviator’s ability to maneuver through adverse weather conditions, hard-to-detect wires and other flight path obstacles. VisionEdge is a millimeter wave radar sensor that provides a constant, real-time image of the aircraft’s forward viewing area via a 3-D visual display. With no moving parts, the small size, light weight and low power consumption of VisionEdge enhances overall system reliability and easily integrates with a wide variety of fixed and rotary wing aircraft platforms. Telephonics’ advanced spatial audio positioning technology, when combined with VisionEdge, offers an added capability that provides aural cues and warnings directly to the pilot, heightening situational awareness. VisionEdge is a commercial enhanced flight vision system solution already in development at Telephonics, which can be leveraged by the U.S. military, providing fiscal benefits in this constrained budgetary environment.

www.SOTECH-kmi.com

The Tau 2 and Quark 2 now offer built in temperature measurement for radiometry, analytics and telemetry. This is a first in the industry, particularly for a small, shutterless

long-wavelength infrared camera like the Quark 2. Users can set isotherm thresholds in the gray scale to colorize temperatures of interest (e.g., a people finder).

Tau 2—Industry leader for UAVs, thermal weapon sights and handheld imagers: • • • •

Increased sensitivity (<30 mK) Options for 640/60 Hz frame rates Advanced image processing modes Temperature measurement

Quark 2—Industry leader in terms of size, weight and power • • • •

Silent shutterless non-uniformity correction Options for 640/60 Hz frame rates Advanced image processing modes Temperature measurement

SOTECH 12.5 | 15

SO/LIC Trailblazer

Q& A

Supervising Special Operations and Low Intensity Conflict Activities

Michael D. Lumpkin Assistant Secretary of Defense for SO/LIC Michael D. Lumpkin is currently the assistant secretary of defense for special operations/low-intensity conflict (SO/LIC), performing the duties of the under secretary of defense for policy (USD(P)). When performing the duties of USD(P), Lumpkin provides advice and assistance to the secretary of defense and deputy secretary of defense on all matters concerning the formulation of national security and defense policy and the integration and oversight of DoD policy and plans to achieve national security objectives. Lumpkin was sworn in as the assistant secretary of defense for special operations/low-intensity conflict on December 2, 2013, following his nomination by President Barack Obama and confirmation by the U.S. Senate. In his role as assistant secretary (SO/LIC), Lumpkin is the principal advisor to the U.S. secretary of defense on special operations and low intensity conflict. He is responsible primarily for the overall supervision, to include oversight of policy and resources, of special operations and low intensity conflict activities. These activities include: counterterrorism, unconventional warfare, direct action, special reconnaissance, foreign internal defense, civil affairs, information operations and counter-proliferation of weapons of mass destruction. In his role as assistant secretary (SO/LIC), he also oversees the DoD counter-narcotics program, building partnership capacity initiatives and humanitarian and disaster relief efforts. Prior to his assuming duties as assistant secretary (SO/LIC), Lumpkin served as a senior executive at both DoD and the Department of Veterans Affairs. His previous positions include special assistant to the secretary of defense, principal deputy assistant secretary of defense for SO/LIC, and deputy chief of staff for operations at the Department of Veterans Affairs. Lumpkin has also significant experience in the private sector where he served as the chief executive officer at Industrial Security Alliance Partners and executive director of business development at ATI. Lumpkin has more than 20 years of active duty military service as a U.S. Navy SEAL where he held every leadership position from platoon commander to team commanding officer. He has participated in numerous campaigns and contingencies throughout the world to include both Operations Iraqi Freedom and Enduring Freedom. Lumpkin holds a M.A. from Naval Postgraduate School in national security affairs. He is a recognized subspecialist in special operations/low-intensity conflict and Western Hemisphere affairs. 16 | SOTECH 12.5

Q: Could you describe for our readers the role of your office? A: In addition to serving in my Senate-confirmed position as the assistant secretary of defense for special operations and low-intensity conflict (ASD SO/LIC), I am also concurrently performing the duties of the undersecretary of defense for policy, which broadens my focus to include all areas of defense and national security policy formulation. As the ASD SO/LIC, I am the principal civilian advisor to the secretary of defense on a number of functional defense portfolios. On behalf of the secretary of defense, I provide overall supervision, including oversight of policy and resources, of special operations and low intensity conflict activities. These activities include: counterterrorism, unconventional warfare, direct action, special reconnaissance, foreign internal defense, civil affairs, information operations and counter-proliferation of weapons of mass destruction. I also oversee the DoD counternarcotics program, stability operations, humanitarian affairs and disaster relief efforts. My top priority and focus each day is doing all I can to keep our nation safe from terrorists and acts of violent extremism. I work closely with my interagency counterparts ensuring we have a common understanding of the threat and that we are taking necessary action to disrupt and defeat those seeking to harm us. At the same time, we work diligently with partner nations to build their counterterrorism capacity, enabling them to take effective action on www.SOTECH-kmi.com

their own. My role is making certain our special operations forces are aligned and prepared to face the threat worldwide—not just in the current fight, but in areas of instability that could develop into direct threats to the U.S. our allies and international partners. There’s no short-term fix to the unprecedented level of global instability we’re experiencing now. Our strategic approach focuses on having the special operations forces and capabilities we need now and in the future. I oversee the development of our SOF budget, working in partnership with my counterparts from the services and other Office of the Secretary of Defense offices, I advise the secretary of defense on DoD’s resource strategy. I interact with Admiral Bill McRaven and the U.S. Special Operations Command leadership team about our special operations resources, making sure we are strategically aligned, our operators are trained and employed to maximum effectiveness, and the welfare of our force is well-managed and safeguarded for the long haul. Additionally, it is SO/LIC’s job to notify or, in some cases, brief the appropriate congressional defense committees on specific SOFrelated activities. I believe it is important that we be responsive to those who make the decisions that affect our operations, plans and organization. I meet with the members, staff directors and staff of all four of our defense committees, ensuring we have open lines of communication and that I have a good understanding of their concerns as we work through various issues. Q: As the military landscape and budget are changing, it surely impacts SOF. What are the new priorities for your office and how does your office address these changes? A: DoD is in a time of transition. As we enter the final stages of transferring security to the Afghans and ceasing combat operations in Afghanistan at the end of this year, DoD is also ending the longest period of historic growth in military budgets. We are looking at how to make the most efficient and effective use of the taxpayer dollar. Against this changing political and fiscal backdrop, we are also adapting to an ever changing security environment; overseas threats are taking new forms and arising more swiftly and unpredictably than ever before. My priority is to provide the secretary of defense and the president with the best special operations capabilities possible in this difficult budget environment. We have doubled the size of USSOCOM since 2001, adding new components, such as the Marine Corps Forces Special Operations Command; introducing new organic capabilities, particularly in the realm of ISR platforms; and substantially upgrading our fleet of air and maritime mobility assets, most notably phasing out the venerable MH-53 Pave Low helicopter to field the CV-22 tilt-rotor Osprey. We also developed new ways of employing special operations forces that have led to revised SOF doctrine, revolutionizing the way we think about enemy threat networks. These are just a few of the many enhancements and improvements to our force over this long period of conflict. All of this now needs to be institutionalized within our force, and properly sustained and adapted to the future environment. As we complete our transition in Afghanistan, the challenge ahead is balancing our force to sustain a significant level of ‘steady-state’ deployments across the globe, while ensuring we are organized, equipped and prepared for an uncertain future www.SOTECH-kmi.com

security environment. The Quadrennial Defense Review (QDR) for 2014 underscored the imperative to conduct persistent, networked, distributed operations, where SOF are uniquely configured and optimized. We made difficult choices in the last program review, and after a decade of continuous growth we’re on track to level SOF growth by 2015 to an end-strength of 69,700. Barring some unforeseen circumstance, we do not expect future growth. We have to work within this level of resources to have the right mix of capabilities across our force—operators, enablers and organic support. At the same time, we are working in concert with the services to align non-organic support, such as ISR, fire support, medical care and strategic mobility, to our steady state and surge requirements in support of the geographic combatant commands (GCC). This will become increasingly difficult as resources are stretched thin; requiring a more deliberate process to ensure we’re moving in sync across DoD. Q: Are there any new programs or initiatives that you could discuss? A: Operator survivability dominates our acquisition focus. Across DoD we’re always looking to improve our use of technology to protect our force while enhancing our ability to move, shoot and communicate. Special operations is often at the forefront for development of new capabilities. Innovation is constant in our community. Last year USSOCOM executed more than 500 programs and awarded $3.1 billion to acquire new equipment and capabilities. The Tactical Assault Light Operator Suit initiative is the most notable example, and we will continue to press industry to develop the technologies we need to protect our force in the most demanding environments. We’re doing great work with upgrading and recapitalizing our mobility fleet, ground and air, as well as fielding the newest capabilities in information technology, night vision and trauma medical care. Aside from acquisition initiatives, we are making significant adjustments to our force design that will enable a wider range of future operational capabilities. This includes a major reshaping of Army Special Forces to provide a force that can cover the spectrum of SOF missions, from direct action to unconventional warfare. Likewise, we’re resetting our Air Force special operations fleet to balance ISR, fire support and mobility capabilities across the range of operational scenarios we expect to encounter. Our maritime SOF, both Navy Special Warfare and Marine Corps Forces special operations, are fully engaged in rebalancing their capabilities towards the Asia-Pacific region, while sustaining key strengths to continue contributing globally across the geographic combatant commands. On the operational side, the decision last year to shift combatant command of theater special operations commands (TSOCs) to USSOCOM is already paying benefits. The drawdown in Afghanistan allows us to reallocate and redistribute SOF more evenly across the GCCs. The role of the TSOC commanders will become even more critical than in the past. We’re also revolutionizing how we develop and preserve special operations personnel throughout their careers. This entails providing better professional education opportunities that equip our operators with the intellectual tools they need to work side by side with interagency and international partners in complex and politically sensitive operating environments. It also includes developing tailored wellness programs for our force, comprised mainly SOTECH 12.5 | 17

of career servicemembers who remain in physically demanding jobs for most of their military life, and sadly one that has a disproportionate suicide rate. Q: Are you concerned that SOF can be ‘overstretched’ in the not-too-distant future? A: I am concerned, but I believe we have come a long way since early 2011 when Admiral Eric Olson, then the USSOCOM commander, indicated his concerns about the ‘fraying’ of SOF. At that time, we had almost 12,000 SOF deployed around the world when SOF end strength was at 60,000. Today, we’re resourced to grow to nearly 70,000, and our day-to-day operational tempo has declined significantly from the peak periods when we had large numbers of forces in Iraq and Afghanistan. Over the rest of this year, we will continue to ramp down as we complete the transition in Afghanistan. Thanks to the outstanding work of Admiral Bill McRaven to identify GCC SOF requirements, USSOCOM is postured to redistribute SOF capabilities in other areas to deal with growing unrest in Africa and the Middle East, while at the same time shifting some of our force to the U.S. Navy students of the Special Operations Corpsman Preparatory Program prepare to participate in a tactical casualty combat care run on Joint Base San Antonio-Fort Sam Houston. [Photo courtesy of the U.S. Air Force/by Airman 1st Class Krystal Ardrey] Asia-Pacific region. We have an overarching current component and theater missions. Overall, events like these plan to manage this at a sustainable level, but there’s always the are great forums for both special operations and industry to conpossibility of surge requirements or contingency operations that nect, stay engaged and continue supporting our mutual goals of can stress the force. strengthening the global SOF network. The larger issue is one of balance across the USSOCOM compoAs we continue operating within budget constraints, the SOF nents. We’ve had time over the past decade to examine and analyze community must prioritize requirements and accurately convey our force structure and make adjustments to relieve the burden capability gaps in order to get the required deliverables, which on those elements that were being stretched thin. For example, requires timely engagement with our industry counterparts. we increased the size of our SOF operator pool by roughly 30 perSO/LIC’s Combating Terrorism Technical Support Office (CTTSO) cent in the 2006 QDR, and followed up in 2010 by increasing our is an important intermediary between SOF warfighters and induscombat support forces, including aviation, intelligence, civil affairs trial organizations. CTTSO’s program managers continuously work and military information support operations. We’ve also improved to identify the high-priority needs of the combating terrorism comintegration between SOF and the general purpose forces so we can munity in order to articulate SOF-specific needs and advance our more effectively partner with them in a way that reduces overall technological abilities. pressure on SOF. One area of increasing importance where I anticipate SOF facing challenges is cyberspace. SOF will need to understand cyber Q: How can industry better partner with the special operations technology, such as social media, advanced analytics, hacking and community? viruses, to accomplish their missions and to protect themselves. This means we will need tactical, user-friendly IT solutions, ISR, A: The defense industry remains a contributing factor in maksecure communications, advanced analytics and other advanced ing SOF the superior force it is today, and I believe that a strong, capabilities to operate securely. diverse and creative partnership with industry is in our national security interest. I was recently in Tampa, Fla., for the annual Q: What is currently done to protect and maintain the SOF International Special Operations Forces/SOF Industrial Conferoperator? ence where our partners in industry showcased their current and emerging capabilities. Throughout the week-long conference, A: SOF relies upon numerous capabilities that protect our operaindustry learned about SOF’s challenges, trends and interests and tors, such as improved personal armor, cyber tools, training for how they can help support these areas. USSOCOM’s component force protection and systems that help sustain them in austere commanders, TSOC commanders and senior enlisted advisors proenvironments. These systems improve our capacity to identify vided industry leaders an understanding of SOF’s key acquisition and fix the location of our adversaries and provide operators with requirements, operations and technology issues in the context of 18 | SOTECH 12.5

www.SOTECH-kmi.com

situational awareness critical to their protection. We’re amassing more data, developing more accurate assessments and delivering information more rapidly to SOF in the field exactly when they need it. Equally important are mobility platforms, air-, ground- or sea-based, that afford increased survivability due to characteristics such as speed, mobility and stealth. I believe SOF has only scratched the surface with respect to undersea systems and I see room to enhance our capabilities in that domain. We’re also pursuing better ways for operators to communicate with each other and their partners as we respond to the increased demand for SOF from the GCC. This means having systems, equipment, education and training and a mindset that encourages in-depth, country-specific expertise and language skills. We recognize that SOF will need to continue sharpening their proficiency in language and regional expertise, including the political, cultural and military history of regions where they deploy. Equally important is our need to maintain the SOF operator, which means providing tailored support for post-deployments that consider the unique stresses a SOF career places on one’s family. Admiral Marines with 2d Marine Special Operations Battalion, U.S. Marine Corps Forces, Special Operations Command, use their McRaven has taken strong steps towards these objec- rifle optics to scan the horizon during a patrol through Bala Morghab, Badghis Province, Afghanistan. [Photo courtesy of the U.S. Marine Corps/by Sergeant Edmund L. Hatch] tives and we fully support his initiatives. western Pacific serves as a strategic hub, and is where Navy Special The office of the ASD SO/LIC is committed to working to build Warfare Unit One is based. Guam also provides resources to rotatour SOF to be the best, most effective force worldwide. In light ing littoral combat ships in Singapore that improve the ability to of the complex environment in which we operate, I am diligently counter a range of transnational threats in the region. working toward further developing and supporting our SOF comAdditionally, at the request of the Philippine government, SOF, munity so it continues to be the effective and efficient force that in a non-combat role, works with the Armed Forces of the Philipour nation requires. pines to defeat terrorists, eliminate safe havens and create conditions necessary for peace and stability. USPACOM has expanded Q: The ‘tyranny of distance concept’ and the Pacific region go combined and joint training and exercises in the region, notably hand in hand. How are SOF mitigating the problem of operating with Indonesia, Malaysia, and other Association of Southeast in such a vast region? Asian Nations members. We continue using multilateral forums to build partner capacity in humanitarian assistance and disaster A: I don’t believe this problem is as real as it is perceived, at least relief, intelligence cooperation, counter-narcotics, maritime secunot for SOF. After more than a decade of war in Iraq and Afghanirity, maritime domain awareness, cybersecurity and peacekeeping stan, the U.S. military is devoting greater energy and resources to operations. revitalizing partnerships across the Asia-Pacific region. It plans to do so by widening its scope and deploying forces and energies in a Q: Social media is becoming pervasive and geopolitical challenges manner more consistent with the deeper economic and geopolitical seem to arise faster now. How do you address these developments? realities of our time. U.S. military presence in the Pacific, including approximately 330,000 personnel, 180 ships, 2,000 aircraft, the A: Social media is proving to be a transformation technology that 3rd Marine Expeditionary Force and five Army brigades, provides is changing our entire information environment and presents SOF unparalleled capabilities. This infrastructure supports our increaswith various challenges. ing role in building partnership capacity and cooperative security First is the protection of U.S. information and personnel, what relationships, which is a fundamental part of U.S. strategy. we refer to as information assurance. Across DoD, this is a policy The relationships we build with our allies are key to mutual and training issue focusing on how we limit the use of social media defense and form the basis for multilateral security arrangements sites on government information systems, and how we educate to that can strengthen efforts to address Asia-Pacific security chalthe efforts of adversaries seeking to gain unauthorized access to our lenges. The U.S.-Japan alliance remains the cornerstone of both systems. In SOF, we adhere to the same policies as the rest of the countries’ security policy in the region, and is where Special Operadepartment. We further stress with our operators that, regardless tions Command, Pacific (SOCPAC) under U.S. Pacific Command of their position and status, they must be mindful of the risks to (USPACOM) is headquartered, along with the 1st Battalion-1st Speoperational security posed by the use of social media, particularly cial Forces Group and the 353rd Special Operations Group. SOCPAC the posting of information that could disclose sensitive operations, maintains a honed, ready capability that can operate as a rapidly deployments and other valuable data. deployable joint task force when called upon. Guam’s position in the www.SOTECH-kmi.com

SOTECH 12.5 | 19

Second is the development of our capabilities to exploit adversary use of social media that can be viewed as an opportunity to better understand the information environment and anticipate future threats to U.S. interests. The special operations community is concentrating on understanding this new domain—the totality of physical, cultural, political, social and information environments within a conflicted region. Third is the necessity to counter enemy narratives that mislead foreign audiences to foment distrust and anti-U.S. sentiment among those we seek to assist and protect. A good example of this is the Department of State’s Center for Strategic Counterterrorism Communications (CSCC), established by the president in September 2011 to coordinate U.S. public communications activities against violent extremists and terrorist organizations, with the goal of using communication tools to reduce radicalization that threatens the interests and national security of the United States. DoD is an active participant in the CSCC Steering Committee, and our information operations specialists provide resources and expertise to enhance the whole-of-government effort in this domain. Q: With all that is happening in Nigeria, Congo and the Central African Republic do you see SOF playing a greater role in the future in sub-Saharan Africa? A: As the president indicated in his speech at the United States Military Academy on May 28, 2014, the U.S. strategy has to match the diverse threat, one that expands U.S. reach, without sending forces that stretch the military too thin or stir up local resentments. In order to achieve this, the U.S. and SOF need to more effectively partner with countries in areas where U.S. interests and personnel are at risk. I expect there will be times when SOF are called upon to play a greater role in U.S. efforts to build sub-Saharan African security and stability. SOF are a uniquely specialized component of the U.S. armed forces trained to conduct operations in areas under enemy control or in politically sensitive environments. SOF has already expanded their role on the African continent with the creation of the Special Operations Command Africa. Groups of geographically dispersed, diverse and loosely affiliated violent extremists are evolving into a threats to U.S. personnel and interests overseas. In places such as sub-Saharan Africa, there tends to be a lack of strong central government, military or existing infrastructure, which creates a security vacuum amplified by porous borders. These areas provide extremists sanctuary, allowing them to act with impunity. However, not all threats to U.S. interests in Africa are from violent extremist organizations. In the Central African Republic and South Sudan, political instability has escalated into violence requiring international intervention, and regional issues such as the effort to eradicate the Lord’s Resistance Army from Central Africa. The volatility of these situations was underscored last December when three of our CV-22 Ospreys took fire while supporting humanitarian operations in South Sudan, wounding four U.S. special operations personnel in the process. Currently, and in the future, SOF will be called upon to assist our partners and allies through security cooperation. This includes training, equipping, advising and assisting U.S. partners’ security forces. By building partner capacity, our partners and allies are able to conduct their own military operations, provide 20 | SOTECH 12.5

for their own security and contribute to regional stability. These efforts are not only cost effective, but strengthen the U.S. national security posture while developing lasting relationships and alliances with partner nations. Q: What is the most important contribution you are planning to make in the world of SOF? A: Given the current political climate and shrinking budgets, it is extremely important for SO/LIC to maintain an active role in the oversight of SOCOM’s activities to ensure that SOF and SOCOM continue to be structured, resourced and postured to meet current and future demands placed on them. This demands engagement in three critical domains. First is within DoD, where I personally represent the secretary of defense in a wide range of resourcing and policy deliberations that drive SOF capabilities for the future. I am developing a new process for doing this that will strengthen collaboration and coordination across the various elements within the Office of the Secretary of Defense, the Joint Staff and with the service secretaries. Second is with our interagency colleagues. As a member of the National Security Council Deputies Committee, I am fully engaged in the formulation of our national security policies, which includes how we deploy and employ SOF to address threats to our nation and to implement our defense strategies. I am committed to working closely with my counterparts here in Washington, D.C., to ensure we are fully synchronized in our planning and execution of operations and activities, which span the spectrum from training to advising, and when necessary, military operations. Third, but perhaps the most critical in terms of what I can provide as the ASD SO/LIC, are my engagements with Congress. I meet regularly with the leadership of the House and Senate Armed Services committees, and the Defense Appropriations subcommittees. In today’s world, this alone is not sufficient because so much of what we do in SOF affects our Foreign Relations and Intelligence oversight committees that we need to continue developing and maintaining productive dialogue with theses members and staffers. Working closely with colleagues from the Department of State and our intelligence community, I fully support engaging with Congress to help bridge collective efforts to maximize the effectiveness of our special operations forces to protect our nation and personnel at home and abroad. Q: Is there anything else that you would like to discuss? A: In a time of unpredictable threats and uncertain budgets, USSOCOM will continue to serve as our nation’s leading force addressing our most difficult national security challenges around the globe. Since its inception, SOF’s purpose has been to conduct operations in hostile, denied or politically sensitive areas to achieve national objectives by unconventional means. Today, it is crucial that we retain and enhance this unique capability. Our recent wartime experiences have validated what we have long known about the SOF community; it is a key player in any conflict or crises. I am proud to represent the soldiers, sailors, airmen, Marines and civilians of USSOCOM. I thank these individuals for their service, as well as their contributions to the special operations community, and our nation’s security. O www.SOTECH-kmi.com

SOCOM is always looking for innovative solutions to increasing warfighter survivability, mobility, lethality and connectivity. Compiled by KMI Media Group Staff

SOCOM has a long-term goal to develop technologies to meet special operations forces mission requirements. The intent is to accelerate the delivery of these innovative capabilities to the SOF warfighter. Prior SOCOM studies and analysis have determined that a number of technical challenges exist for SOF equipment that require improvements for future missions. Those challenges are 1) trade space between weight, protection, power and mobility; 2) cost; and 3) system component integration. To that end, SOCOM’s Special Operations Research, Development, and Acquisition Center (SORDAC) has issued its 2014 broad agency announcement seeking solutions providing for the design, construction and testing of SOF related technologies. Outlined here are the technologies that SORDAC is interested in.

Command, Control, Communications and Computers • Antenna low visibility and low profile. Antenna designs combining broad banded and performance, such as 1.5 or lower Standing Wave Ratio from 30 MHz-5.8 GHz that have dismounted (lightweight and ruggedized), mounted and fixed site applicability, but are visually difficult or impossible to distinguish from their mounted platform. • Conduct secure, low probability of intercept communications. Capability to conduct secure, low probability of intercept communications in line-ofsight (LOS), beyond LOS, and over-thehorizon scenarios. • Device on a chip. Modular, configurable electronic devices that maximize common interfaces. www.SOTECH-kmi.com

»» Match grade 7.62 mm and .338

Enabling technologies such as advances in semiconductors, field programmable gate arrays, and microcomputers with multiple devices collapsed into a single platform/enclosure that would allow SOF operators to plug and play their modules for varying missions without having to jump between multiple interfaces.

Comprehensive Signature Management Multispectral signature reduction for the individual soldier and his equipment including materials or technologies that reduce the likelihood of detection/identification/ targeting of SOF operators and vehicles.

•

Fires • Airburst/Counter Defilade Capability. Proximity and/or bounding warheads in addition to time/turn counting air burst options and enhanced fire control. Maximize the adaptation of current individual and crew served weapons to incorporate an airburst/ counter defilade capability. • Advanced Sniper Rifle Barrel Technologies. »» Applicability of hot hard alloys (e.g., H-11, H14, H19) to cold hammer forged barrel making technology and cryocooling to create longer life sniper grade barrels in 7.62 mm NATO, 300 Winchester Magnum, and/or .338 Lapua Magnum. The rifling of interest is 5R and/or 6 land and groove with 1 in 9.5 inch twist in .338 and 1 in 10 inch twist in 300WM.

•

caliber rhenium and/or rhenium alloy lined rifle barrels. The rifling of interest is 5R and/or 6 land and groove with 1 in 9.5 inch twist for .338 and 1 in 10 inch twist in 300WM. Six of each type of barrels are to be lapped and mated to M24/ M2010 actions in 300WM and .338 Lapua Magnum. »» Other advanced sniper barrel concepts, designs, materials and/or processes that significantly enhance barrel life and maintain accuracy. Advanced Small Arms Propellant. Advanced propellants for assessment in standard military calibers that have a higher energy density (12-20 percent), temperature stable pressure/velocities from -40F to 160F, and standard deviation velocities of less than 10 feet/second. Lightweight RPG-7 Launcher or Trainer. Modernized lightweight (less than 9 pounds) 40 mm rocket propelled grenade launcher or trainer with enhanced fire control that can safely, reliably and accurately fire U.S. and allied produced RPG-7 family of ammunition. M4A1 Belt Feed Kit. The M4A1 belt feed kit enables the operator to convert the M4A1 from magazine fed to a belt fed lightweight machine gun. M4A1 belt feed kit desired characteristics include quick change barrels (12 inch, 14.5 inch, 20 inch), lightweight (less than 10 pounds), and accuracy within burst dispersion 50 percent improvement over M249 SAW. Concealable/Take Down Urban Sniper Rifle (CUSR). The CUSR is a small and SOTECH 12.5 | 21

•

light sniper rifle that can be rapidly disassembled for concealed carry and rapidly reassembled by the operator to engage target. CUSR desired characteristics include accurate (one minute of angle at 300 meters), lightweight (12pound Threshold, 8-pound Objective), fit in small case (12-by-20-inch Threshold, 12-by-16-inch Objective), and compatible with current suppressor or include suppressed barrel. Personnel Defense Weapon (PDW). The PDW is significantly smaller and lighter than the M4A1 with capabilities beyond those of any pistol. There are two types of interest, those based on an operator/ unit armor modification to a M4A1 carbine and those based on a unique weapon design, both of which must fire standard 5.56-by-45-mm NATO ammunition. PDW desired characteristics include lightweight (6-pound Threshold, 5-pound Objective), concealable (18-inch Threshold, 16-inch Objective), effectively fired in its collapsed configuration, semi/ full automatic and rapidly employed from concealed carry. 338 Lapua Magnum Anti-Materiel Ammunition. .338 Lapua magnum anti-materiel ammunition that would be fired from the Precision Sniper Rifle at ranges from 500-1,500 meters. Antimateriel .338 Lapua desired characteristics include armor piercing capability to penetrate Level IV body armor (500meter Threshold, 800-meter Objective), cinder block greater than 12 inches, 10 percent Gel, and stop vehicle/small boat engines. Stopping/Disabling Individuals. Technologies that can stop/disable individuals for an extended duration, remain less lethal, and be useable on combatant and noncombatant individuals. The effect must immediately prohibit the individual's ability to perform a useful function at ranges greater than 6 feet. Deny Area/Isolate Objective. Technologies that use less lethal payloads to prevent combatant and noncombatant individuals from entering a specific area for a specified period of time. Precision Guided Small Arms Munitions. Small unit organic munitions capable of delivering highly accurate kinetic effects on stationary, moving, soft targets, or the interior of

22 | SOTECH 12.5

hardened targets at ranges beyond crew served weapons effective range. Potential material approaches may include guided 40 mm tube launched grenades; self-propelled, precisionguided, handheld grenades; guided 84 mm Carl Gustav munitions; and handheld guided kinetically armed unmanned aerial systems.

Human Performance • Human performance tracking, sensors, monitoring and analyzing in a tactical environment. Physiological status monitors/novel applications for remote medical monitoring devices. These sensors/ monitors must be low power, platform agnostic, provide real time monitoring, and include analysis devices for biosignals applicable to medical triage and treatment. • Databasing tools with algorithmic calculation and prediction potential to track and analyze collected information from on-body, proximal and/or nonimpeding sensors. • Capability to provide or determine realtime hydration monitoring for tactical operation. • Enhanced operator physiological performance/enhanced resiliency for the tactical operator (physical, cognitive, psychological). • Novel approaches and aspects to training tactics, techniques and procedures; systems/mechanisms to measure and record baseline performance characteristics (e.g., high speed camera systems/ body sensors/accelerometers/software for recording and analyzing collected data). • Human augmentation devices to optimize support and enhance operator performance. • Holistic analysis of mild traumatic brain injury (mTBI)/TBI exposure and counter-mechanisms TBI and mTBI exposure measurement tools, cochlear implants/optic nerve measurement devices and systems, specific timereleased drug delivery systems to prevent auditory injury. • Enhanced neurocognition and ability to be effective under varying and/or extreme neurocognitive loading. • Electroencephalography monitors for real-time measurement of brain activity and quantification of loading, applicable

technologies to measure/quantify neurocognitive loading, technologies (i.e., nanotechnology/biotechnology), and neutraceutical and/or pharmacological enhancements to increase neuroperformance. • Modeling and simulation tools to determine physical strain/mental stress of operator under varying conditions. • Real-time and logging monitors to assess training and events. • Baselining studies and analysis to determine design parameters of future human performance enhancing devices and mechanisms.

Human Protection • Lightweight body armor (less than 5.5 pounds per square feet) able to defeat the following rounds with less than 44 millimeters of backface deformation: »» One round of 7.62-by-54R API. »» Three rounds of 7.62-by-39 API at 2.5-inch spacing. • Lightweight helmet (less than 2 pounds per square feet) able to defeat 7.62-by-39 mm rifle rounds with the following backface deformations: »» Less than 25.4 millimeters on the front and back of the helmet. »» Less than 16.0 millimeters on the crown, left and right sides of the helmet. • Thin, lightweight concealable body armor (less than 0.2 inches thick) that protects against 7.62-by-39 mm mild steel core rounds. • Non-destructive inspection techniques for body armor and helmets with complete inspection times faster than computed tomography scans and the ability to evaluate all typical armor materials (and bonding between those materials) better than X-rays.

Mobility • Noise Reduction of Vehicles During Operations. Acoustic reduction kits consisting of muffler, intakes, baffling, etc., tailored to each specific vehicle to reduce its acoustic signature by at least 30 percent. • Vehicle Armor »» Innovative armor solutions that reduce weight by 20 percent with same protection capabilities against 7.62-by-63 mm M2AP. www.SOTECH-kmi.com

»» Reduction in cost for Spinel, ALON

and Sapphire ceramic armor. »» Novel manufacturing improvements to produce large format curved transparent armor that protects against 7.62-by-63 mm M2AP.

Mobility Small Unmanned Aerial System (SUAS) Groups 1-3

•

UAS System Improvements • Reduced acoustics and visual signature technologies. • Access sensitive or denied areas. • External/internal bay payload solutions.

•

• Endurance/Power Plant • Increased endurance. • Improved motor. • Advanced fuel cell/battery propulsion.

•

Weaponization • • Kinetic engagement. • Advanced integrated day/night fire control. • Increased electronic attack capabilities. Reduced Operator Workload

•

• Common ground control station. • Common digital data link. Intelligence, Surveillance, Reconnaissance and Exploitation • Tagging, tracking and locating devices/ technologies. • Advanced micro/nanoscale sensors. • Advanced visual augmentation systems. • Survey, detect, geolocate and collect radio frequency emitters. • Automated threat detection and cueing. • Advanced antennas. • High bandwidth technologies. • Cyberspace operations-exploitation and counter-threat technologies. • Military information support operations. • Highly localized weather forecasting systems/technologies.

Optics • Find, Fix, Finish, Exploit, Analyze, and Disseminate (F3EAD). Baseline improvement in intelligence, surveillance, and reconnaissance (ISR) www.SOTECH-kmi.com

•

• •

for F3EAD. Improvements in performance without increasing size, weight, power and cost. The objective is to improve performance in one or more areas without reducing performance in other areas. Increase in image resolution in terms of modulated transfer function, optical transfer function, or phase transfer function. Alternatively increase in image resolution in terms of the National Imagery Interpretability Rating Scale (NIIRS). Increase in field of view and situational awareness while maintaining same NIIRS rating and MTF. Precise target geolocation to CAT 1/CAT 2 coordinates that is robust to any battlefield situation that degrades geolocation. Increase of adaptive multispectral fusion for tactical advantage in all battlefield situations. Digital, analog, hardware or software techniques are viable. Decrease in latency of ground systems to less than one millisecond from external activity to viewing by operator. Decrease in latency of ground systems to less than one millisecond from operator activity to external action. Full motion video (FMV) technology that is high resolution, high bit depth (16 bit plus), high frame rate (60 to 1,000 Hz), and not truncated through passage of electronic processing or transfer from one point to another. Heads up display technology for day or night operations that is low profile (e.g., form factor of eyeglasses/sunglasses), securely and wirelessly imports and exports FMV or data feeds, supports augmented reality, integrated sensors, is configurable with software applications (apps), offers or collects actionable battlefield information, and provides map displays with situational awareness data. Low SWaP soldier central processing unit to analyze and exploit ISR, FMV and data feeds, then sends to soldier, small team, or external asset. Miniaturization of visual augmentation systems. Through-wall imaging/sensing.

Power and Energy/Lighten the Load (Dismounted Operator) • Lighten the load for the dismounted SOF operator to the extent that he is

safe and unencumbered while executing the mission, without adversely impacting his survivability and ability to communicate, move and shoot. Reduce the mass and volume of carried equipment. • Decrease the overall carried equipment mass and/or volume for the dismounted SOF operator (i.e., objective is fighting load plus mission load total less than 45 percent of operator body weight) with no decrease in current capability (i.e., reduce size and/or weight for all nonpowered and powered equipment to the extent possible, which includes intelligent, efficient power and distribution management). • Design solutions that incorporate the dismounted operator as a system, with his powered and non-powered equipment (e.g., navigation system, radios, antennas, computers, visual augmentation systems, displays, NVGs, combat ID systems, armor, etc.) as subsystems. • Design solutions that incorporate advanced power technologies and provide: »» Centrally wearable power on dismount. »» Intelligent and highly efficient power and distribution management. »» Automatic power charging/ recharging capability. »» Seamless integration for all powered subsystems. »» Novel power systems.

Power and Energy (Undersea Vehicles/Unattended Sensors) • Undersea Vehicles: Provide safe and increased power and longer endurance for PEO-Maritime undersea operations. Primarily interested in air independent systems, advanced fuel cells in confined/inhabited areas, and non-flammable battery technologies. • Unattended Sensors: Provide safe and reliable power for unattended sensors in both submerged and land environments capable of operating for at least 10 years. Provide significant energy storage capacity and power to transmit data. O

For more information, contact SOTECH Editor Chris McCoy at chrism@kmimediagroup.com or search our online archives for related stories at www.sotech-kmi.com.

SOTECH 12.5 | 23

Major advances in identity masking can aid the SOF operator.

By Hank Hogan, SOTECH Correspondent

Staying concealed while communicating is vital to successful special operations force missions. This masking of identity can be physical or electronic. For either, innovations promise improvement. Vendors are pushing the boundaries of technology. For instance, the specialty of Baltimore-based Brimrose Technology Corp. is very fast, solid-state acousto-optic tunable filters. Hidden in that mouthful are technologies that could help special operations forces stay out of sight while communicating. Acousto-optic tunable filters use sound waves to change the optical properties of crystals. As a result, light can be directed where desired without mechanical movement, making switching faster and enabling the deployment of specialized and very capable imaging. “You can take an image and look at its spectra—red, blue, green. We do that in to the near infrared. Now we’re building crystals that can do this tunability into the long wavelength infrared. That opens up a technology called hyperspectral imaging,” said Ronald Rosemeier, president and CEO of Brimrose. The technique works by creating spectral notch filters, which only allow a small swath of wavelengths through. Moving the notch around and taking successive images at different wavelengths leads to hyperspectral imaging. With no moving parts, Brimrose technology can handle 16,000 wavelengths per second and can jump the notches around as needed. Being able to capture the spectra of objects from the visible at about 500 nanometers out to the long-wave thermal infrared at 5,000 nanometers or longer has some advantages, according to Rosemeier. For one thing, it allows taggant technology that works in both broad daylight and at night. The technology can be used to distinguish friendlies from enemies. Hyperspectral imaging also allows the spotting of snipers and others who desire to remain hidden. Clothing may blend in with the surroundings to the eye or a system with a limited spectral range. However, the difference can be stark when viewed via hyperspectral imaging. But hyperspectral imaging presents potential problems. After all, it could penetrate current camouflage, possibly revealing friend and foe alike. What’s more, the present advantage offered by the technology is not likely to be permanent. The history of night vision technology illustrates this point. Increasingly capable versions of what was once a major plus for the U.S. military can now 24 | SOTECH 12.5

be purchased in retail stores. Thus, there is a need to address the possibility that hyperspectral imaging may in the future become widespread. Brimrose is aware of this and is already working on a solution, Rosemeier said. “You use the hyperspectral imagers as an instrument to actually find how you hide better. “You figure out what pigments you put into the material and what natural materials you use. Then you use the hyperspectral imager to discern what wavelengths are sticking out, and how do you blend them in so it doesn’t stick out,” he continued. The company’s technology could thus be used to ensure special ops forces remain hidden when communicating. It’s a way to mask identity on the physical level. As for masking ID in other ways, that involves various versions of communication security. For instance, there’s transmission security, or TRANSEC. This can be a particular concern and challenge for special ops forces. They may be operating in the field with no access to secure, wired networks. Also, they could be communicating using battery-powered devices, making low power consumption highly desirable. “TRANSEC is not just one technology. It’s a family, or umbrella, of different feature sets,” said Karl Fuchs, vice president of technology for iDirect Government Technologies. Known as iGT, the Herndon, Va.-based company offers satellite communication using IP, or Internet protocol, technologies. One of the features employed to achieve low probability of interception and detection (LPI/LPD) communication is spread spectrum technology, in which communication hops from channel to channel. The channel sequence is known to the transmitter and receiver, but not to others. The signal therefore is harder to detect and the probability that transmitted waveforms will be intercepted drops. Other measures can improve transmission security. Increasingly, data is today transmitted in packets. One issue is that even highly secure systems may send some parts of packets in the clear. For instance, the type of service request field may be transmitted in the open, which means an adversary may pick up a largescale switch from normal priority voice traffic to something else. Encrypting that header eliminates that possibility. “As part of the TRANSEC offering of our system, we FIPS [Federal Information Processing Standards] encrypt that, using an AES www.SOTECH-kmi.com

move or at rest, according to Todd Moore, vice [Advanced Encryption Standard] encryption core. So president for product management of encryption we do our own encryption,” Fuchs said. products. The company has a mix of commercial Such care to mask identities and activities is and government customers. not part of commercial off-the-shelf satellite com“There’s a very strong movement throughout munication offerings. The extra bit of encryption DoD to leverage commercial products for governdoes require a special relationship between hub and ment use,” Moore said. remote users in the field beyond what is needed for Discussing using commercial products, he said, commercial offerings. “In a lot of cases, we’ll add some features that are Other elements of transmission security involve specific to the government. But it’s not as many as masking communication activity itself. Algorithms Karl Fuchs you’d think. It’s really kind of a plus to the commermay randomly distribute traffic and acquisition slots cial product. It’s a little bit of a delta. And we do take so that there seems to be a constant level of activity. those through the government certification cycle. Quite a few of Doing so ensures no change appears at the start or end of an operaour commercial products have been certified for government use.” tion, thereby providing a measure of protection and masking. One benefit of leveraging commercial offerings is it keeps For special operations and other forces dependent on batterythe technology moving forward at a rapid pace. For instance, powered communications, keeping up a constant level of what recommended key lengths are getting steadily longer, in part amounts to white noise runs up against the need to conserve power. because computers are getting more powerful. Using longer keys Hence, the communications gear for such forces may reduce or keeps communications security one step ahead of computing eliminate the information-free electronic camouflage. In that case, advances. the statistical nature of the signal when it is actually transmitted In the commercial arena, a safe bet is to assume that encrypthides it to some extent. What’s more, communications from forward ing algorithms are known, according to Moore. That makes it operating forces are likely only a small part of the overall network critically important to properly manage encryption keys. They traffic, further masking any transmission that occurs. have to be distributed, rotated and destroyed periodically. There A final element of TRANSEC is non-repudiation, according to also has to be strong authentication, thereby ensuring a device Fuchs. This ensures that those devices connecting to a network entering a network and requesting a connection is legitimate. should be doing so and are not spoofing the label of a trusted device. This authentication is done by using encryption keys, which are secure and can be used to positively identify devices in the field. All of this communication security requires that keys exist and be maintained. Key management is a challenge, as good practice 9th ANNuAl demands that keys be secure and changed on a regular basis. IGT has developed methods to do so automatically and over the air, with no human intervention. The approach brings several benefits. “It makes it easier on the soldier in the field. They don’t even have to know what TRANSEC means. It’s all done automatically. Keys are updated on a regular basis. They don’t have think about it. They don’t have to worry about it. There’s no ‘Oops, I forgot,’” Fuchs said. July 21-23, 2014 Washington, DC Keeping people out of the key-management loop also improves security, as it eliminates the chance that an individual can creLeveraging NexGen Technology, Commercial ate a breach by revealing keys either inadvertently or on purpose. Innovation, and Unmanned Systems to Aid the Warfighter Transmission security is further enhanced with the use of technologies that zero out compromised encryption equipment, a feature What’s new for iDgA’s 2014 event? required by FIPS 140-2 certification. • Hear about the latest advancements in thermal imaging capabilities As for the future, identity masking during communication and and their applicability to new realms of asymmetrical warfare anti-jamming will both benefit from advances in spread spectrum • Learn about the adaptability of commercial technology that is available for the military technology. Dropping the power spectral density of transmission, which is what spread spectrum techniques do, makes it harder to • First ever presentation from Virginia Tech, one of only six FAA approved jam a signal. Also, if the power density is low enough, an adversary launch sites for UAV testing and may not know anyone is broadcasting, Fuchs noted. learn about their future night vision program A third aspect of identity masking is communication security, or • Understand the latest developments in COMSEC. This involves the actual content of a signal, and is an area the field of unmanned aerial systems of commercial interest and activity. Banks, after all, depend upon • Recognize the benefits available their communications with one another being secure, as do millions to the United States from a of consumers who shop online daily. Like the military, commercial well established international presence in night vision interests rely on encryption, with the goal of rendering any captured research content unintelligible. SafeNet Inc. of Belcamp, Md., provides a mix of software and www.nightvisionevent.com hardware encryption products designed to protect data on the

Night VisioN systems

www.SOTECH-kmi.com

SOTECH 12.5 | 25

making the devices visible only to other devices Some of SafeNet’s products operate at the link that have suitable authentication certificates. In level, which means they protect data in motion. theory, this would make it possible to conduct Consequently, data moving from point A to point B communications across public networks, enabling or even to many points looks like any other traffic, drone and other traffic to travel without detection. important for ID masking in a special operations Someone looking at the network would see the use case. In such a scenario, an image may be traffic but would be unable to tell what it was being encrypted before transmission and then travel over used for or who was using it. a variety of networks, some commercial, before Another area of attention is the development of arriving at a destination. Transmission security mesh networking in full encrypted fashion. Mesh keeps an adversary from gleaning any information Joseph Ford networking offers advantages in forward operations by being able to detect a difference in the special as it can be more robust than point-to-point or ops-related traffic. one-to-many configurations. But one challenge is encryption key As for commercial trends, a strong one is virtualization, in management, particularly when attempting to keep data secure which a remote device runs software at a distant server. A benat both rest and in motion. Solutions to accomplish this exist, efit is that it makes available a lot of computing power though but the bandwidth consumed by encryption is probably still a bit some small devices, including handhelds. It does, however, make much for forward deployment, according to Ford. demands on communication security. That fact highlights the point that most of the thrust in the “When people work in a virtualized environment and a virconsumer space is for devices with bigger screens or that are tual machine, they don’t necessarily know what infrastructure faster. For forward deployed units, the demand is for technology they’re running on. It could be in a local data center or it could that is smaller and more compact. A commercial firewall may be halfway around the world in a public data center. Security is need to be able to handle 150 gigabits per second throughput, very important there so that you’re protecting the data as you’re something that would be overkill for a unit operating in the field. working in that virtualized environment,” Moore said. “We need a firewall that can be the size of a pack of cigarettes While such technology may be a trend, it does require a conand have much more limited capabilities,” Ford said. nection of sufficient bandwidth back to the server. That may be Because of this need to fit within a more constrained size, the case for any work done in most of the United States. For forces weight and power envelope, some of the best-of-breed commerin the field outside the United States, connections of proper qualcial technology is not a fit for forward-deployed military. The list ity may be hard to achieve. includes firewalls, intrusion prevention, anti-malware and other The communication needs of special ops forces are changing, solutions. However, the introduction of networked devices into noted Joe Ford, a solutions engineer with the federal team at Denforward operations and the battlefield makes these elements of ver-based Accuvant, a company that provides information security cyber defense and warfare important. services and solutions to enterprises across North America. Finally, an important trend is the proliferation of mobile Twenty years ago, forces operating the field would go out with devices. As noted, there are software solutions for these that a photo and could possibly transmit back the same. Today, forenable them to be used more securely and thereby enable IDward operating forces receive and may send real-time full motion masking communication. video, along with a host of other rich media. Fortunately, there Some of these mobile friendly solutions come from SafeLogic has been an explosion of mobile devices that have the computing Inc. The Palo Alto, Calif.-based company offers Suite B and FIPS horsepower and display necessary to handle this data. There are 140-2 compliant encryption solutions for mobile devices, applicustom software builds for some of these that support NSA Suite ances and the cloud. B cryptography, making them suitable for unclassified and some Ray Potter, SafeLogic CEO and co-founder, noted that the flow classified information. of technology from the commercial to military sector is a reverse The January 2014 approval of the 802.11ac wireless standard of the traditional direction. The military benefits from this, as it promises mobile units with connection rates approaching a half gets technology that’s been proven effective by millions of cona gigabit per second or higher, three times the speed of the cursumers and businesses. rent 802.11n mainstay. Coverage will extend further than current This is true in some of the very technology used to mask comtechnology. When combined with Suite B encryption, devices munication. Suite B, for example, is used to encrypt a significant using 802.11ac should make it easier for special ops forces to amount of military information, using algorithms deployed in securely transmit and receive the data they need, including full mobile products and proven daily by civilians on a massive scale. motion video. As Potter said, “Suite B is the designation of a collection of Accuvant is in cybersecurity, working with the data pipes that commercial algorithms deemed acceptable for processing data in connect devices together. Granular control of what’s allowed to classified environments. Examples of the latter include AES and connect to—and communicate over—a network can make it posSHA-256/512.” O sible to render devices effectively invisible. “If you’re controlling who can talk to whom, you’re masking all that traffic and everything that’s going on,” Ford said. He added, “The other component to that is encryption. Obviously you can only decrypt what you have the keys to decrypt.” For more information, contact SOTECH Editor Chris McCoy at chrism@kmimediagroup.com or search our online archives for related stories Technologies under development would take these concepts a at www.sotech-kmi.com. step further. They would, for example, hide devices on a network, 26 | SOTECH 12.5

www.SOTECH-kmi.com

The advertisers index is provided as a service to our readers. KMI cannot be held responsible for discrepancies due to last-minute changes or alterations.

SOTECH RESOURCE CENTER Advertisers Index

Calendar

AR Modular RF. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 www.arworld.us L-3 GCS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C2 www.l-3com.com/gcs MBDA Inc. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C4 www.brimstonemissile.com Night Vision Systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 www.nightvisionevent.com Streamlight Inc.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 www.streamlight.com Trijicon Inc.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 www.trijicon.com TSSi. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 http://agency.tssi-ops.com

June 24-25, 2014 Soldier Equipment & Technology Expo & Conference Fort Bragg, N.C. www.soldierequipmentexpo.com

www.SOTECH-kmi.com

July 21-23, 2014 Night Vision Systems Washington, D.C. www.nightvisionevent.com September 23-25, 2014 Modern Day Marine Quantico, Va. www.marinecorpsexpos.com

October 13-15, 2014 AUSA Washington, D.C. www.ausa.org November 3-5, 2014 SOFEX Fort Bragg, N.C. www.sofex.org November 18-20, 2014 SpecOps East Warfighter Expo Fayetteville, N.C. http://defensetradeshows.com/specopswarfighter-east-expo-2014

SOTECHâ&#x20AC;&#x2C6; 12.5 | 27

INDUSTRY INTERVIEW

Special Operations Technology

Brian Keller Vice President, Army Strategic Account Executive Leidos Q: After the split from SAIC, what is Leidos focused on?

big data analytics, to deliver the next generation of information-enabled environments.

A: Leidos is serving three large addressable markets—national security, health and engineering—with a successful track record and scale in each. We see growth opportunities across the board. One example is data analytics and cybersecurity. We developed our capability in national security, but it’s increasingly important in managing natural resources, energy infrastructure and the environment.

Q: Can you provide a few success stories?

Q: What solutions does Leidos offer the military and special forces, in particular? A: Leidos integrates, operates and supports as many as 35 multi-INT aircraft. These aircraft are outfitted with a wide range of unique sensors that target IED manufacture and employment. We have also integrated capabilities for persistent surveillance enabling long dwell observation, patterns of life development, and the tracking of high value individuals (HVI). Our aircraft have been directly tied to the capture of hundreds of HVIs and the detection of significant number of IEDs and IED materials. Leidos is the prime for the NATO SOF Training and Education Program and supports the NATO Special Operations Headquarters with special operations analysts, instructors, and support personnel. As a subcontractor supporting the NATO SOF HQ Medical Branch on the NATO SOF Medical Development Initiative program, we also provide medical experts and curriculum developers for resident and distance learning courses. Q: What unique benefits does Leidos provide its customers? A: We’re leveraging capabilities across the full breadth of Leidos. Several years ago the processes to detect our enemies making and assembling IEDs would take nearly 48 hours. By working with military and government partners, we refined the processes, tools, tactics and procedures for targets detected with high confidence; this timeline is reduced to under an hour. 28 | SOTECH 12.5

Q: What are some interesting new programs or initiatives at Leidos? A: Today’s target specific environment demand warfighters have tools that identify and locate the enemy. We developed XRT (eXpeditionary RT), a scalable system that distills real-time, context sensitive situational awareness from vast quantities and disparate sources of data. It is a high-performance computing platform that conducts data warehousing, performs data enrichment, and executes advanced analytics all in a small form factor. Leidos works with NSHQ to meet training priorities, including the development of a professional military education course for mid-level officers and non-commissioned officers; a special operations component command core deployable capability; and an air development program. Q: What is Leidos doing to position itself for the future in uncertain business times? A: Our country faces the challenge to reset, modernize and smartly maintain our military to support future missions and meet new world threats. The split has enabled us to have a very competitive cost structure. Leidos is well positioned to tackle the biggest challenges in our markets and enable new levels of performance for our customers. Q: How is Leidos positioned in the market for expansion? A: We’re able to leverage our entire base of technical capabilities and rapidly develop and deliver innovative solutions across the markets. We have a unique opportunity to horizontally integrate our success in developing mission-critical systems with our rapidly emerging technologies in cyber defense, together with our demonstrated solutions in

A: Leidos supports the U.S. Army multifunctional teams (MfTs) with their first true crew-served weapon. Our work enables the MfT to deliver tactical commanders access to many theater and national intelligence capabilities through on-board sensors that provide precise, real-time data en route to an objective, while enabling pursuit and exploitation, precision maneuver and immediate triage/site exploitation during actions on the objective. Leidos was also the lead systems integrator for a U.S. Air Force’s near-real-time, multi-intelligence QRC (quick reaction capability) system. Q: We are almost halfway through 2014; what are Leidos’ objectives in 2014 for the military market? A: The military is shifting resources and strategic focus to regions like the Pacific, and we’re expanding our support for those evolving missions. Leidos supports a government program (ACTUV) for the design and construction of a vessel originally designed for an anti-submarine warfare mission. The unmanned vessel will track quiet diesel-electric submarines months at a time with minimal human input. Leidos is also a subcontractor for Combatant Craft Medium Mk-1. Q: How do you customize solutions? A: One example is AIMES, a next-generation full-motion video imagery exploitation tool we developed through internal research and development efforts aligned with ISR trends. It enables motion imagery, geospatial data, snapshots, and mass of associated data in near real time. Q: Any final thoughts? A: Leidos works to address evolving needs across the spectrum, including intelligence, communications and logistics. Our solutions are distinctively designed to fulfill SOF operational and mission requirements. O www.SOTECH-kmi.com

Next Issue

July 2014 Volume 12, Issue 6

Worldâ&#x20AC;&#x2122;s Largest Distributed Special Ops Magazine

Cover and In-Depth Interview with:

Col. Christopher S. Vanek Commander 75th Ranger Regiment special section Night Vision Review Industry leaders discuss their greatest advancements in night vision systems for the special operations warrior.

Features Compact Communication Systems Simple no-nonsense communications systems are an indispensable tool to the SOCOM community. Full Motion Video Full motion video is an intelligence rich ISR asset. Part of the problem with the technology, however, is its bandwidth costs.

Recon Rotary Wing Aging helicopters have their critics, and the large companies that build them are banking on future U.S. military orders for replacements. Rugged Computers Industry leaders discuss the latest technologies and advancements in ruggedizing computers for combat.

Insertion Order Deadline: June 17, 2014 | Ad Materials Deadline: June 24, 2014

Dual Mode Brimstone® Missile Successfully Demonstrated on the MQ-9 Reaper

•Defeats fast moving and maneuvering targets •Combat-proven off fighter aircraft in Afghanistan and Libya •Dual Mode mmW and SAL seeker for first pass lethality

When missing is not an option

For more information please go to brimstonemissile.com Follow us on Twitter @MBDAIncUSA

Contact: sales@mbda-us.com 703-387-7136