I N N O V A T I O N W O R K S
ROOTED IN THE HARDWARE
As the internet continues to grow and our dependence on devices such as our phones, computers, and tablets increases, so does the security risk and vulnerability. Information such as addresses, birthdays, social security numbers and more can be exposed instantly without the proper protections. While some may assume that those protections are embedded in the device software, a brief conversation with Kevin Kornegay, PhD of the School of Engineering will have you thinking differently.
WHAT DRIVES INNOVATION?
Innovation Drivers are the factors that drive both “big I” (new and potentially disruptive innovation), and “little i” (incremental) innovation. Common drivers of organizational innovation include: consumer need, improved quality, creation of new markets, reduced labor and material costs, improved efficiency, reduced environmental damage and energy consumption, and conformance to regulations. Innovators themselves may be driven by a personal or emotional connection
Each issue of Innovation Works will provide the reader a window on what drives Morgan’s innovators.
Prior to joining Morgan in 2012, Dr Kornegay was an electrical engineer by trade who built and designed electrical systems for industry and academia, including for IBM, Purdue University, Cornell University, and Georgia Tech His natural progression from reverse engineering hardware to hardware security was seamless In conversation with Dr Kornegay about the foundations of cybersecurity, you will quickly learn that: “It’s all in the hardware Trust is established in the hardware, the root of everything; Cyber is the trust business. Any and every vulnerability within systems and software is through exploitations of the hardware. Adversaries find the openings (vulnerabilities) in the software and the damage is done.” He emphasizes that communication to hardware can be intercepted, and control can be relinquished, further exposing data and other vulnerable information. He continues to seek innovative approaches that will improve quality, efficiency, and address the consumer need for secure devices and systems.
ROOTED IN THE HARDWARE
This innovation takes place in Morgan’s Cybersecurity and Assurance Policy Center, referred to as the CAP Center, where Dr. Kornegay serves as the center director. He provides guidance to staff and students, focusing on hardware reverse engineering and security vulnerabilities of the Internet of Things (IoT). Within the Center, NSA researchers work side-by-side with students to further cybersecurity as the field evolves, especially as the use of artificial intelligence expands, providing additional need for enhanced security and hardware infrastructure
As an advocate for minority advancement in STEM fields, Dr. Kornegay is proud that the CAP Center is reflective of his efforts to graduate minority PhDs – in which the CAP center is among the leaders for output throughout the University. He believes that graduate programs should reflect the undergraduate student population; the CAP center states that 30% of their graduates are women and 83% are African American in both undergraduate and graduate programs – meeting the goal of: “PhD production.” Through various programs within the community, Dr. Kornegay intends to maintain those graduation rates for years to come. A stat that he is most proud of is the number of minority PhD holders produced by the CAP Center, and he’s especially proud of the female graduates, as the STEM fields are often male dominated.
The CAP Center has a program that is helping to develop a pipeline of minority PhDs starting at the middle school level, specifically young women The Females are CyberStars (FACS) program is a summer program that allows participants to gain exposure to the fundamentals of cybersecurity through hands-on activities, engage with STEM leaders through female mentors in the field, and develop confidence through personal development and character activities The FACS program exposes young women in the greater Baltimore area to the cybersecurity field and shows them the possibilities available to them in pursuing the field upon reaching college The mentors provide an example of the lucrative opportunities available in the career field The foundation of the PhD pipeline is rooted in this program and allows Morgan to engage and serve their neighboring community, furthering the economic impact of the university.
Dr. Kornegay’s efforts have a direct impact on the vision Dr. Wilson has of the University achieving R1 research status. When asked what R1 designation translates to as an undergraduate student who is unfamiliar with its value, or someone outside of the higher education, Kornegay simply states emphatically, “ resources. ” “The additional resources will have a domino effect and provide more access and enable the University to continue to plant the seed for the next level of education.
INNOVATION AT MORGAN
Intellectual Property Disclosures
Innovations from: 1/1/2023 - 12/31/2023
Physical Science Innovations
Anticancer Rhenium Complexes Against Breast, Colon, and Pancreatic Cancers
Dr Santosh Mandal
Hybrid Renewable Energy System
Dr. Dong Hee Kang, Erjon Rembeci, Enrique Pajardo
Culturing Method for Soft Shell Clams
Dr Ming Liu, Brittany Wolfe-Bryant, Jon Farrington
Methods for Altering Substrate Specificity of a Bacterial Capsule Polymerase
Dr. Pumtiwitt McCarthy, Dr. James Wachira, Subhadra Paudel
Soft Shell Clam Deployment Cage and Sieve Gear Type
Brittany Wolfe-Bryant, Jon Farrington
Multi-stage Thermal Desalination
Dr. Dong Hee Kang, Erjon Rembeci, Enrique Pajardo
Unmanned Aerial System Safety Assurance with Explainable
Dr Kevin Kornegay, Denzel Hamilton
Soft Shell Clam Hanging Sand Cages
Leigh Wolfe-Bryant
Golf Training Apparatus
Al Wilson, Wayne Swann
N N O V
Detection and Survival Method against Adversarial Attacks on Automated Driving Systems
Dr. Kevin Kornegay, Shelaniece Clash, Dr. Md Tanvir Arafin
Jamming Detection and Mitigation Methods for Low Powered Wide Area Networks
Dr Kevin Kornegay, Sean Richardson
Framed Soft Shell Clam Bags
Leigh Wolfe-Bryant
Life Science Innovations
Supported Drug Formulations Showing Delayed Release and a MechanoChemical Method of Their Preparation
Dr. Alexandr Samokhvalov
Enhanced System for Diagnosis of Pancreatic Cancer
Dr. Simon Nyaga
Biocrude Production from Cyanobacteria via Hydrothermal Liquefaction
Dr. Viji Sitther, Dr. Samson Gichuki, Dr. Benham Tabatabai, Yavuz Yalcin
Life Science Innovations continued
Methods to Promote Cyanobacterial Growth, Pigment Accumulation and ATP
Synthase Function with TiO2 Nanoparticles
Dr. Viji Sitther, Mst. Sayadujjhara
Combination Drug Therapy in Cancer Treatment
Dr Simon Nyaga
Methods to Enhance Photosynthesis in Cyanobacteria
Dr. Viji Sitther, Mst. Sayadujjhara, Dr. Roshan Paudel
Low-Salinity and Disease Resistant Diploid Oysters
Dr. Ming Liu
Methods to Diagnose Small and Large Fiber Neuropathy
Timothy Meeker
Pharmaceutical Shaped Bodies for Delayed Drug Release
Dr. Alexandr Samokhvalov
Method for Quantitative Analysis of Natural Products Using Machine Learning and Spectroscopic Data
Jiangnan Peng, Hua Deng, Dr. Hongtao Yu
Fast Growth and Low-Salinity Maryland Oysters
Dr. Ming Liu
Information Science Innovations
LIDAR-Based Traffic Mobility and Safety Data in Baltimore City
Dr Mansoureh Jeihani
Nursing Social Justice Collaborative
Maija Anderson, Jacqueline Callari-Robinson, Margaret Glembocki, Elizabeth Louden
Method to Extract Ca2+ Spark Attributes at Subcellar Level
Dr Roshan Paudel, Dr Moshin Saleet Jafri
Efficient Biomass Pre-Drying Process for a Feeding Hopper System
Dr. Seong Lee, Fadipe Opeyemi, Mohammed Haruna, Nasirudeen Raji, Oludayo Samuel Alamu
Nursing Social Justice Collaborative
Maija Anderson, Jacqueline Callari-Robinson, Margaret Glembocki, Elizabeth Louden
Clinical Assessment Instrument
Maija Anderson, Kim Dobson-Sydnor, Angela Davis, Pawn Johnson-Hunter
Project Complexity Assessment Instrument
Abirami Radhakrishan, Dr Sanjay Bapna, Joel Weymouth, Dr Gregory Ramsey, Akeila Richter
I N N O V A T I O N W O R K S
Information Science Innovations continued
Method to Link Clinical Faculty with Teaching Institutions
Maija Anderson, Kim Dobson-Sydnor, Angela Davis, Pawn Johnson-Hunter
Permission Blockchain-based Network Among Hospitals Invovled in Interfacilty Transport Care
Shirin Hasavari
A Methodology for Digital Cognitive Debiasing
Gabriella Waters
Safe Intersection for Vulnerable Road Users
Dr Mansoureh Jeihani, Anam Ardeshiri, Alireza Ansariyar
MORGAN ISSUED PATENTS
Issued: CY2023
#11,543,429
Nanoscale Scanning Electrochemical Microscopy Electrode MethodIssued 1/3/2023
Dr Birol Ozturk, Alperen Guver, Dr Peker Milas
#11,565,711
System and Method for Generating Vehicle Speed Alerts - Issued 1/31/2023
Dr. Mansoureh Jeihani, Samira Ahangari, Zohreh Rashidi Moghaddam
#11,583,470
Pulmonary Vest for Electro-sonic Stimulation TreatmentIssued 2/21/2023
Dr. Timothy Akers, Dr. Kofi Nyarko, Dr. Gregory Ramsey, Cassandra Dickerson
#11,595,434
Method and System for Intrusion Detection - Issued 2/28/2023
Dr Wondimu Zegeye, Dr Richard Dean, Dr Farzad Moazzami
#11,655,446
Method for Using Bivalve Waste as Media for Micro-Algal ProductionIssued 5/23/2023
Dr Thomas Ihde, Rebekah Borgert
#11,687,717
System and Method for Monitoring and Routing of Computer Traffic for Cyber Threat Risk Embedded in Electronic Documents - Issued 6/27/2023
Dr. Garfield Jones
#11,705,017
Supply Chain Management Instructional Board Game - Issued 7/18/2023
Dr. Ziping Wang
MORGAN ISSUED PATENTS
#11,716,236
Systems and Methods for OFDM Performance Enhancement on Frequency Selective Fading Channels - Issued 8/1/2023
Dr. Richard Dean, Tasmeer Alam
#11,756,138
System and method for Stormwater Utility management - Issued 9/12/2023
Dr James Hunter, Dr Dong Hee Kang, Hye Joeng Lee
#11,766,031
System and Method for Promoting Attachment and Growth of Bivalve Organisms on Coastal Structures - Issued 9/26/2023
Dr Thomas Ihde, Richard Lacouture, Amber Demarr
#11,782,011
Ultrasensitive Electrochemical Biosensors - Issued 10/10/2023
Yongchao Zhang, Aeshah Alsheri
#11,810,215
System and Method for Public Housing Evaluation - Issued 11/7/2023
Jacqueline Holland
#11,284,700
Systems and Methods for Peak-to-Average Power Ratio (PAPR) Reduction in OFDM Signals - Issued 11/21/2023
Dr. Richard Dean
I-BITS
Innovation Insights, Session 3
Wednesday, May 15
12 p.m.
Click here to register.
The Office of Technology Transfer will host the final installment of our three-part Innovation Insights series that covered topics including innovation, intellectual property and patents and economic development.
All Innovations Insights sessions will be available for viewing via the Office of Technology Transfer website in June 2024.
Science Magazine featured articles
The Office of Technology Transfer has partnered with Science Magazine for an awareness campaign to highlight various MSU State sponsored Centers and our ascension to R1 Research University destination. The main goal of this CY 20232024 project is to support a well-respected, well-known and well-rounded external view of the institution A second goal is to provide foundational support ahead of achieving R1 status and support a longer-term increase in Carnegie metrics through increased visibility of the institution. Click below to view the first two featured articles in the series of six.
Artificial Intelligence & Cybersecurity Article Urban Health Impact Article
I N N O V A T I O N W O R K S
ROOTED IN HARDWARE
continued from page 2
The designation will position Morgan to address a void in the in the HBCU research infrastructure and closing the digital divide between predominantly white institutions and HBCUs ” As the home of Maryland’s first Secure Embedded Systems PhD program in Maryland, and home of the most minority graduates in STEM statewide, Morgan is poised to attain R1 status as additional research funding is secured, and the graduate schools can subsequently graduate a larger number of doctoral degree holders.
Dr Kornegay’s dedication to innovation and providing experiential learning experiences to his students is evident As a university leader in intellectual property disclosure submissions in the Information science category among his colleagues, as well as including at least one student on over 50% of his active disclosures Dr Kornegay’s hands-on learning experiences has enabled two of his students to be named on issued U S patents as co-inventors, and he has equipped them with knowledge that will prove beneficial once they enter the workforce upon graduation He is also a two-time winner of the Innovator of the Year award for his contributions to the Smart Antenna System in 2021 and the Detection and Survival Method against Adversarial Attacks on Automated Systems in 2022.
Dr. Kornegay’s accolades continue to speak for themselves as he prepares undergraduates and graduate students to thrive in the workforce, while also reaching out to adolescents and effectively shaping their career path. Innovation never takes a day off in his lab, nor is the vision of PhD production ever altered as he continues his part in, “Growing the Future, Leading the World.”
INNOVATION INSIGHTS
Innovation: GAN Augmented Text Anomaly Detection Method
Inventors: Mariem Ben Fadhel, Dr Kofi Nyarko
School/College: School of Engineering
Innovation Drivers: Consumer need, improved quality, and efficiency
Summary: The invention relates to identifying anomalous data, including malicious text data that can be embedded in text documents, based on a certain set of measures. The invention is a framework for anomaly detection that incorporates a deep multi-layer neural network for data augmentation and classification, which improves at recognizing anomalous data with experience The anomalous data may be detected from among any type of data collection, but the invention is especially useful for detecting text anomalies.
Commercialization Potential: This innovation is one of multiple technologies available for licensing to commercial entities in the rapidly growing cybersecurity sphere More specifically, GAN neural networks are growing in demand, and this novel method would increase effectiveness in protection against anomalies.
Economic & Social Impact: The global neural network software market was estimated at $830 billion in 2020 and projected to increase at a rapid rate of 35% to $5066 billion in 2026. The innovation addresses current market needs by providing enhanced stability, quality, and classification of detected outliers to GAN neural networks.
Innovation: Multi-Layer Hidden Markov Model Based Intrusion Detection System
Inventors: Dr. Wondimu Zegeye, Dr. Farzad Moazzami, Dr. Richard Dean
School/College: School of Business & Management, Information Science & Systems
Innovation Drivers: improved quality, consumer need
Summary: Intrusion Detection Systems (IDS) that incorporate machine learning and artificial intelligence can significantly improve network defense against intruders. This technology can be trained to learn and identify uncommon patterns given a massive volume of traffic and notify system administrators for investigation This enhanced IDS design makes use of machine learning algorithms such as Hidden Markov Model (HMM) using a multi-layer approach. This approach has been verified to resolve common flaws in the application of HMM to IDS. It factors the key problem of dimensionality to a discrete set of manageable elements The multi-layer approach can be expanded beyond two layers to capture multi-phase attacks over longer spans of time.
Commercialization Potential: A U.S. patent was issued in February 2023. This technology addresses vulnerabilities that cannot be detected by existing traffic monitoring tools and improves the state of intrusion detection systems and applies it in layered form to cover multiple forms of attacks over longer durations. All industries including government, finance, healthcare and more that interact and engage with secure information can benefit from the technology
Economic & Social Impact: The IDS market is estimated at $4.6 billion in 2020 and anticipated to grow to $6.2 billion by 2025. The potential of this technology to significantly enhance defense against the ever-growing army intruders and hackers presents an intriguing opportunity to impact this industry
K S INNOVATION OF THE YEAR AWARDS
The Innovation of the Year Awards celebrate Innovation at Morgan and recognize the innovative contributions of University faculty, staff, and students in a number of categories These categories include: innovations in life, physical and information sciences; U S Patent awardees (selected from intellectual property disclosure submissions) and student, instructional and staff innovations
The 2023 ceremony was held in the University Student Center on November 15, 2023
Intellectual Property Innovation Awardees
Physical Science Awardee
Quantum Sensing Device
Dr. Birol Ozturk, Dr. Peker Milas, Sheikh Mahtab
Information Science Awardee
Machine Learning Method for Quantitative Cyber Risk Management
Dr Wondimu Zegeye, Dr Richard Dean, Dr Farzad Moazzami
Life Science Awardee
Anticancer Rhenium Complexes Against Breast, Colon, and Pancreatic Cancers
Dr Santosh Mandal
Tarrin Morgan II I N N O V A T
Morgan Community Innovator Awardees
Student Innovator of the Year
Shelaniece Clash
Instructional Innovator of the Year
Dr. Gonzalo Baptista
Staff Innovator of the Year
Office of Technology Transfer
Earl S. Richardson Library, Suite 207 443.885.1003
technology.transfer@morgan.edu www.morgan.edu/technologytransfer
Office of Technology Transfer Team: Wayne Swann, Director
Ray Dizon, Associate Director
Alexa Morris, Senior Manager of Programs
Shamia Boone, Program Specialist
LeQuita Harrison, Administrative Assistant