JACOB EMIL INGEMANN JENSEN
PORTFOLIO INDUSTRIAL DESIGN
Hej My name is Jacob Emil Ingemann Jensen and I am a Danish industrial designer. I started pursuing a career within the field of industrial design seven years ago. Along the way I have gained professional experience working within consumer goods, toy design and design for the pharmaceutical industry. The following pages will show a selection of work that highlights my keen interest for building and testing concepts, and bringing them to life, that combines hardware and a strong focus on the user experience.
@
Jacobeijensen@gmail.com +4525156737
in
www.linkedin.com/in/jacob-emil-ingemann-jensen
JACOB EMIL INGEMANN JENSEN Industrial Designer
Education UMEÅ INSTITUTE OF DESIGN MFA in Advanced product design 2018 Umeå, Sweden
THE ROYAL DANISH ACADEMY OF FINE ARTS SCHOOL OF DESIGN Bachelor’s degree in Industrial design 2013 - 2016
The Royal Danish Academy of Fine Arts Schools of Architecture, Design and Conservation
Copenhagen, Denmark
POLI.DESIGN CONSORZIO DEL POLITECNICO DI MILANO Summer school (design research) 2011-2013 Milano, Italy
TEKO DESIGN + BUSINESS VIA UNIVERSITY COLLEGE Design technoligist, Furniture design and manufacturing 2011-2013 Herning, Denmark
Software 3D MODELLING Rhinoceros - Advanced level Solidworks - Intermediate level Creo - intermediate level (course certificate) Siemens NX- Beginner level
ADOBE Photoshop - Advanced level (course certificate) Indesign - Advanced level Premiere Pro - Intermediate level Illustrator - Intermediate level After effects - Beginner level Audition - Beginner level VISUALIZATION Keyshot - Advanced level (course certificate) Vray - Intermediate level Sketchbook pro- Intermediate level
Work experience NOVO NORDISK 1 YEAR 6 MONTH INDUSTRIAL DESIGNER, STUDENT HELPER 2021 Hillerød, Denmark
MASTER THESIS STUDENT 2021 Hillerød, Denmark
INDUSTRIAL DESIGNER, STUDENT HELPER 2019 - 2020 9 MONTHS Hillerød, Denmark
INDUSTRIAL DESIGN INTERN 2019 - 2019 6 MONTHS Hillerød, Denmark
GUEST TEACHER - DESIGN VISUALIZATION Design School Kolding 2016 - 2017 8 MONTHS Kolding, Denmark
EXTERNAL PRODUCT DESIGNER LEGO GROUP 2016 - 2018 1 YEAR 4 MONTHS Billund, Denmark
FREELANCE PRODUCT DESIGNER JEIJ product design 2014-2018 4 YEARS
CHRISTIAN TROELS PRODUCT DESIGNER 4 YEARS PRODUCT DESIGNER 2015 - 2018 3 YEARS 6 MONTHS Copenhagen, Denmark
PRODUCT DESIGN INTERN 2014 - 2015 6 MONTHS Copenhagen, Denmark
INDUSTRIAL DESIGN INTERN SYDDANSK SUNDHEDSINNOVATION 2012 -2013 6 MONTHS Odense, Denmark
CONTENT
1
ARRAY ECG MONITORING
ECG monitoring in intensive care units ECG monitoring is one of the most basic vital sign measurements carried out in hospital intensive care units. The sensor setup often has to stay on the patient's body for weeks, gets unplugged, is cleaned and is part of the daily workflow of caregivers. Untangling the current five-cable setup means a lot of effort for intensive care nurses. Array reduces this five-cable ECG monitoring setup to an elegant single-line solution that feeds gathered data wirelesssly into the current monitoring system.
in collaboration with
Ti m S ch wa rz , Jo h a n n es R i eder , M ar ius Kindler
01 MISSON STATEMENT
CURRENT FIVE-CABLE ECG SETUP
"WE WISH FOR A ECG SOLUTION WITH AS FEW CABLES AS POSSIBLE" Intensive care staff at Umeå Hospital
01 RESEARCH
FIELDTRIP
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01 DESIGN PROCESS
MOCKUP SPRINT In total we built and tested over 25 different prototype iterations during this project and rated them based on four functional attributes: product architecture, patient comfort, cleanability and handling. This way we were able to get from a large pool of promising ideas to one proven concept direction - the Array.
01 DESIGN PROCESS
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EXPERT VALIDATION
01 CONCEPT OVERVIEW
DOCK Mounted next to patient's bed. Charging and battery storage.
ARR
Wireless single-ling
RAY
g ECG transmitter.
60 98 20
RECEIVER Enables wireless data transfer to excisting ICU infrastructure.
01 USER JOURNEY
01/
Remove sensor-array from charging dock
02/
Place the head on the p
04/
Single handed attachment
05/
Arrange cable to achieve
07/
Single touch for battery status check
08/
Exchange battery - Array
atient's shoulder
03/
Place the individual leads on electrodes
e optimal fit
06/
Place excess cable in designated holder
y remains on the patient
STEP BY STEP The sensor-array consists of the head which houses the battery, the antenna as well as a subtle light interface and a flexible cable with sensor-clips that can be arranged freely on the patient's body. This device is designed to sit on the human skin. Its minimalist shape makes it not only easy to clean, it also simplifies daily routines for caregivers and declutters the patient's appearance.
01 CONCEPT
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https://vimeo.com/514902795
CONCEPT VIDEO
01 FEATURES
Soft silicone housing Press sides to snap it on electrodes
Switch shoulder pos
Turn dial to choose left or rig
Turn!
ELECTRODE PLACEMENT The Mason-likar placement starts at the patient's shoulder and follows a standardized pattern. Depending on the specific treatment, nurses need to be able to swith the starting point between the left or right shoulder
sition
ght mode
Start here!
RA
LA V
RL
LL
Mason-likar system (standard) Color and letter combination indicates order and placement of leads on the body. The order can be reversed if the preferred shoulder might not be accessible
01 FEATURES
Spring-loaded clip Top part turns against bottom part to open clip feature
CABLE & CLIPS The usual five cables are combined into one tangle free solution which connects the five electrode clips
LED and mechanics inside Discrete colored LED lights through, in the designated lead color
Five cables inside All cables are arrange in a single cable setup, compared to the current five individual cable ECG solution
01 FEATURES
DOCK & STORAGE When the Array is not in use or needs to be temporarily taken off the patient, it can be quickly placed in the charging dock next to the patient's bed.
Multi directional hanger
Cable turtle
The adjustable hook allows for easy storage in the ICU environment
The cable turtle declutters the dock apperance and prevents cable mess
2
IRGRILL INFRARED BBG THERMOMETER
Brandboard and parametric design This project is a three week project done during first year of studying Advanced Product Design at Umeå Institute of Design. The goal of the course is to introduce the complexities of product development and construction. An infrared thermometer was taken apart and redesigned, with the design attributes from the American BBQ brand Weber. The result was a working prototype, designed to fit within the style of Weber
In collaboration with
28
29
02 BRANDBOARD
As one of the world’s leading providers with the most comprehensive range of products and services in the industry, today Weber is internationally synonymous with barbecuing innovation, perfect barbecue products and the ultimate barbecue experience. With offices in over 40 countries on all continents, we continue to promote the Weber BBQ culture around the world. Weber America company statement
CMF Red
RGB: 159,54,51 CMYK: 26,86,74,23 LAB: 39,45,26
Grey
RGB: 169,169,169 CMYK: 37,28,28,7 LAB: 69,0,0
High Gloss plas
Brushed Alumin
Dark Grey
RGB: 32,32,32 CMYK: 76,65,60,79 LAB: 12,0,0
Black
RGB: 35,35,35 CMYK: 74,64,59,77 LAB: 14,0,0
Plastic rubber f
DETAILS
stic
nium
feel
Red detail
Bold splitline
Signature shape
02 SKETCH PROCESS
KEYSKETCH
02 CONCEPT
! STORYBOARD
02 GUI
Choosing the program The first step when setting up the thermometer is to choose a program. The user has two options: coal temperature or meat surface temperature.
36
Not re
After choice of program the th when the correct temperatur user has chosen coal tempera the coal has not reach
eady!
hermometer will show the user re is reached. In this case the atur, and the device shows that hed ideal temperature.
Ready! When the coal has the ideal temprature, and is scanned by the thermometer, the product will tell the user that the coals are ready.
37
02 FEATURES
Program navigator Navigate through the different preinstalled programmes
Infrared sensor A discretly hidden infrared sensor
39
02 RESULT
WORKING PROTOTYPE
02 PARTS LIST
1
2
3
4
5
DISPLAY FRAME 1 ABS chrome finish
DISPLAY COVER 2 ABS high gloss
BODY 3
ABS textures finish
5
TRIGGER 4
ABS chrome finish
GRIP 5
ABS textured finish
BATTERY TRAY 6
ABS textured finish
3
COIE COMPANION IN EMERGENCIES
Aid for panic attacks Panic disorder is the most common mental disorder that affects 2-4% of the population in Europe. In the US it affects 6 million adults or 2.7% of the U.S. population. Women are twice as likely to be affected as men. It typically strikes in young adulthood. Around half of all people who have this disorder develop the condition between ages 20-30 This projects wants to address this by presenting a product that accompanies the user and guides them through a panic attack by utilizing breathing patterns, that is orchestrated by light, sound and haptic feedback. in collaboration with M ari o K a psa l i s, Na n cy Va l erdi, Ashutosh Bilthar ia
03 HOW MIGHT WE
HMW UTILIZE BREATHING PATTERNS AND SHIFT OF FOCUS TO AID DURING A PANIC ATTACK? Panic disorder is an anxiety disorder where a person regularly has sudden attacks of fear. It is one of the most common anxiety disorders in the general population.
BREA
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ATHING TECHNICS
SHIFT OF FOCUS
03 USER INTERVIEW
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WIZARD OF OZ
Prototyping visual, auditive and tactile stimuli To evaluate our approach and assumptions we created functional prototypes and tested our ideas on visual, haptic and sound feedback. This was done in a “Wizard of Oz” exercise with people who have experienced or suffer from a panic attack condition.
03 USER QOUTES
“I LIKE TO TOUCH THE GRASS TO FEEL GROUNDED"
“ T S B
I’VE BEEN TOLD I SHOULD B R E AT H E ”
“I DON’T KNOW PROPER TECHNIQUES TO AVOID PANIC ATTACKS”
How do people handle a panic attack To understand the situation better we had the chance of interviewing people who suffer from panic attacks and were so kind as to share their experiences with us. Based on the insights from the interview, we focused on creating stimuli through the different senses.
03 CONCEPT
PANIC ATTACK BEGINS
SHIFT FOCUS
Lead focus to the haptic feedback
Shift your focus to light pattern
BREATH P
Breathe in and o sound a
PATTERN
out guided by the and light
GROUNDED Ground your feelings through the tactile pattern
RETURN Slowly return to your daily routines
03 SOUND DESIGN
BA
Ba
A calm sound, wit vib
Inhale
Rising and and gives p
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E Cxahlaml ei n g
sound, w cleans
CKGROUND
ckground
and friendly h dicsrete pitch brations
4-6 sec
INHALE
strengthening, the feeling of power
2-3 sec
EXHALE
and releasing which gives a sing feeling
2-3 sec
SOUNDBOARD
03 FEATURES
Tactile
An impleme the user thr pattern can
To cre app th product dat
ented tactile pattern will subtly capture and guide rough a panic attack. An insight showed that the n help some users feel grounded.
Personalize your experience
eate the best experience for the user, we designed an hat allows personalization of every feature of the COIE (sound, light, vibration). The app also collects relevant ta, i.e. attack time and duration, to give the user more knowledge about the panic attacks.
03 FEATURES
Vibration patterns In combination with sound and light, COIE will provide a gentle vibration pattern to give the user an even better feeling of being grounded and guiding through a panic attack.
4
PX MOTION FUTURE.AGILE
Communication tool and software Next to the radical increase of remote collaborations, studies show that the lack of human interaction and authenticity in remote collaborations have a negative effect on the quality of communication as well as motivation. PX Motion is a portable solution that enhances the quality of communication and allows more intuitive interaction among colleagues. Pen as an input device paired with a digital application captures its users body language and creates an abstract visualization to improve authentic interaction. PX motion is an extension of the personality which enhance workflow and creates a stronger connection between coworkers. in collaboration with A n n a G e ba l a , D a n i el D i erm eier
60
04 CONCEPT
VISI WHAT?
A COMMUNICATION SYSTEM
WHY?
TO INCREASE THE QUALITY O
WHEN? HOW?
IN 2022
BY CAPTURING AND C
ION.
M CONSISTING OF SOFTWARE AND HARDWARE
OF REMOTE WORK
COMMUNICATING BODY LANGUAGE
04 RESEARCH
ZOOM
HOW DO WE COMMUNICATE WITH EACH OTHER? During the user observation we concluded that the participants firstly tried to explain the shape with words but when that failed, they turned hand gestures. We also saw that several of the participants often asked if the other participant was listening. Based on this we conclued that to achieve a rich online cummunication, the user should be able to show body language and use hand gestures to enhance the explanation of for example shapes.
55% 38%
BODY LANGUAGE
VOICE/TONE
7% SPOKEN WORDS
04 CONCEPT REGUIREMENTS
"
I WOULD LIKE TO EXPERIENCE REAL REACTIONS AND EMOTIONS DURING REMOTE WORK MEETINGS"
AGILE TOOLS
The concept combines the most common work features, such as mouse, styles and 3d-toggle.
BODY LANGUAGE
The concept will capture the body language of the user.
PRESENCE
The software will through subtle movement give feedback of presence from the other users.
PERSONALITY
The software and hardware combined will allow you to communicate shapes and personality
04 MOCKUP EXPLORATION
1
2
5
6
9
10
3
4
7
8
11
12
04 SKETCH DEVELOPMENT
Design language based on a common core We created a design language based on the common core exercise. The common core crystalizes the main design elements from the Logi products into two totems. These totems were then used as the main inspiration for the form development
KEY SKETCH
04 MODEL
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FINAL MODEL
04 CONCEPT
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? https://vimeo.com/419657532
CONCEPT VIDEO
04 FEATURES
Captures your hand gestures The pen works as your intelligent work device and communicator of your hand gestures. The large interaction surface, combined with two IMU sensors, and a pressure sensor allows you to scroll, toggle and take notes through all of your work tasks.
ALL IN ONE TOOL
04 CASE FEATURES
Open design The open design keeps the pen securely in place, with magnets placed on the bed of the case. The shell of the case is designed in shock absorbant silicone.
Powerbank when you are on the go The case has two large internal batteries, that flash charges your pen through induction chargeing.
AN AGILE EXPERIENCE
04 SOFTWARE FEATURES
VIRTUAL MEETING SPA YOUR AVATAR REMOTE COLLEAGUE
Presence Your avatar will during meetings have a floating movement, that will communicate your presence. The input will be created while working with the pen
ACE
Behavior When talking with the pen in hand, your avatar will communicate speed and style of your movement
Communication When explaining a shape your hands, the pen will capture this and communicate this through your avatar
INCREASE YOUR PRESENCE
5
DIGIPIGI NEXT GENERATION MONEY BOX
A money box for the digital age Digipigi allows your kids to learn about the concept of money by setting goals and reaching them, while parents can pay out pocket money and agree on a reward for special chores. It helps kids handle cash on one hand while also helping them learn about virtual money in online & mobile banking on the other. Alongside the people of Shape and Credit Suisse, I have been working closely with Industrial Designer Christian Troels as well as Audio Designer Esben Valloe, while exploring, conceptualizing and designing the look, feel and sounds of the Digipigi moneybox. in collaboration with
01 CONCEPT
DIGIPIGI COM DIGITAL AND PHYSIC
Set goal
Tell Digipigi
Earn digital p
MBINES YOUR CAL POCKET MONEY
pocket money
Earn physical pocket money
Digipigi keeps track of both
05 SKECTH EXPLORATION
05 DESIGN PROCESS
FINAL MODEL
05 FEATURES
Safe storage Digipigi's large body allows for a easy storage of all the childs pocket money, while the intelligent coin slot counts and keep track. Digipigi protects your pocket money with a secure magnetic lock.
D P
DIGI PIGI Screen with emotions Digipigi has a large face, that works as an interaction surface. When you interact with Digipigi, it will respond to you with 25 unique sounds and facial animations.
05 RESULT
05 CONCEPT
DIGIPIGI
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6
CODAS COMPACT DRILL ALIGNMENT SYSTEM
Tool for aerospace assembly This project identifies and address the relevant design opportunity for a new hand tool solution to optimize the assembly of the aircraft wing. Codas is a compact drill alignment tool that minimizes hand-held drilling mistake by providing am intelligent drill jig, and optimizes the location of the fastener hole by guiding the operator with a magnetic sensor/transmitter system. The project was carried out in joined collaboration with Atlas Copco Industrial Technique AB, a world-leading provider of industrial tool solutions for the assembly industry. in collaboration with
01 MISSON STATEMENT
HM OPTIMIZE THE HANDHELD
OF FASTENER HOLES DURI
MW DRILLING AND LOCATION
ING THE WING ASSEMBLY
06 FIELDTRIP
LOST CONSTRUCTION TIME DURING WING ASSEMBLY During the fieldtrip we saw an design opportunity within the construction of the aircraft wing. Further research of the topic showed that the problem occures when the operator has to locate the drill position for the fastener hole. The indsutry method is that the operator crawls inside the wing and transfers a hole to the outside, by drilling through a prehole
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06 PROBLEM ANALYSIS
Prehole in the aircraft rib
AIRCRAFT W SKIN AND
WING RIB
MISSALIGNED PILOT HOLE THROUGH PREHOLE
MISALIGNED PILOT HOLE CAUSES MISTAKE
THE WING ASSEMBLY STEPS When the operator crawls inside the wing and drills a pilot hole through the ribs prehole the operation is done in a cramped area and the accuracy is only up to the skill level of the operator. One misaligned hole ends up in lost construction time and in the worst case the parts have to be scrapped
06 WORKSHOP
PROCESS MAPPING
OPPORTUNITY AREA
ROLEPLAY
REDUCE DRILL STEPS
DECREASE TOOL VOLUME
INCREASE ACCURACY
Concept direction As a result of the workshop I saw a design opportunity within optimizing the steps that goes into the drilling task when assembling the skin and rib. The concept aimed to reduce the operation steps, by eliminating the need to drill from the inside of the wing. I also wanted to focus on the workload of the operators by decreasing the product volume as much as possible and finally increase the accuracy by adding a optimized locating system and drill guide.
06 CONCEPT
PRECISE
PERPENDICULAR
AGILE
ERGONOMIC
Engine
Battery pack
Suction cup
Drill guide
Sensor
TECHNICAL VOLUME
06 SKETCH DEVELOPMENT
KEY SKETCH
06 RESULT
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u? https://vimeo.com/463581694
CODAS
COMPACT DRILL ALIGNMENT SYSTEM
06 SEARCHING
REDUCED DRILL STEPS
Magnetic transmitter inside the wing Drilling from inside the wing is now eliminated, with the magnetic sensor. The operator will crawl inside the wing and place the magnet in the prehole in the rib and secure it with the suction cup
01 LOCATING
DRILL LOCATION GUIDANCE
Intuitive Searching After placing the transmitter inside the wing, the operator uses the main unit with an inbuilt sensor to search for the magnetic signal.
Seaching
Signal
Located
01 ATTACHMENT
When the dril cups will be acti to the aircraft skin
DECREASED TOOL SIZE
Electric suction cup
ll position is located the two large electric suction ivated and the main unit will be securely attached n. This solution will remove the need for external pneumatic hoses and power cables
Off
On
01 DRILLING
IMPROVED ACCURACY
Perpendicular drill guide
Ø 6 mm
Ø 9 mm
The last step is to drill the pilot hole through the skin. To ensure a perpendicular hole the main unit has a drill guide. The drill guide comes in two sizes. Ø6mm for the pilot hole and Ø9mm to widen the hole.
THANK YOU Jacobeijensen@gmail.com
@
+4525156737 www.linkedin.com/in/jacob-emil-ingemann-jensen
in