Professor Jukka Riekki - Trondheim Helseklynge

Professor Jukka Riekki
Dean, Faculty of Information Technology and Electrical Engineering
University of Oulu, Finland
TEACHING
ITEE Faculty in Numbers
 Electrical Engineering &
Communications Engineering
 Computer Science and Engineering
 Information Processing Science
 Nearly 5000 MScs have graduated
SPEARHEAD AREAS
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Networked Environments
Connected Health
Connected Industry
Connected Citizens
WORLD CLASS RESEARCH
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Machine vision
Wireless communications
High-speed electronics and optoelectronics
ICT electronics components
Ubiquitous computing
Empirical software engineering
ICT in health and wellbeing
ITEE’s STRATEGIC RESEARCH MAP
INFRASTRUCTURE
COMPANIES AND THE SOCIETY
NETWORKED
ENVIRONMENTS
PILOTING
ENVIRONMENTS
SHARED RESEARCH
ENVIRONMENTS
RESEARCH
LABORATORIES
CONNECTED
HEALTH
CONNECTED
INDUSTRY
CONNECTED
CITIZENS
BUSINESS
COMPANY
R&D
COLLABORATION WITH COMPANIES
ENABLING TECHNOLOGIES
ENABLING TECHNOLOGIES
Research is collected
under strategic portfolio
NEW KNOWLEDGE AND TECHNOLOGIES
APPLIED
RESEARCH
BASIC
RESEARCH
FOCUSING ON CONNECTED HEALTH
Connected Health is a joint theme
for all key ITEE research teams
Large academic, medical and
commercial project network
Collaboration with Oulu
University Hospital and
Faculty of Medicine
3 MAIN AREAS IN CONNECTED HEALTH RESEARCH
SERVICES
PERSONAL
SENIOR CITIZEN CARE
DIGITAL BIOBANK SERVICES
PARTICIPATORY DESIGN
REHABILITATION SYSTEMS
WELLBEING SERVICES
LARGE-SCALE ICT
ARCHITECTURES
PERSUASIVE TECHNOLOGY
MOBILE APPLICATIONS
METHODS
HEALTH DATA
ARCHITECTURES
SYSTEMS
NOVEL HCI
TECHNOLOGIES
SENSING FOR HEALTH
PRINTED ELECTRONICS
FOR DIAGNOSTICS
BIG DATA FOR
HEALTH ANALYTICS
User driven methods,
applications and practices
TRANSFORMATIONAL
Convergence of health
and ICT solutions
MEDICAL IMAGING
BIOSIGNAL PROCESSING
ACCURATE MEASUREMENTS
WIRELESS HOSPITAL
BODY AREA NETWORKS
TECHNOLOGIES
TECHNOLOGICAL
Enablers for
smart health technologies
THE 4P’s OF CONNECTED HEALTH:
SHIFTING THE EMPHASIS FROM DISEASE TO WELLNESS
CONNECTED
HEALTH
CONNECTION
DIGITAL
REVOLUTION
TECHNIQUES
SENSING & DATA
Note: 4P’s courtesy of Leroy Hood (P4MI.ORG)
SERVICES
SYSTEMS
MEDICINE
METHODS
ARCHITECTURES
CONSUMER-DRIVEN
HEALTHCARE
EXAMPLES OF ITEE’s
HEALTH ICT RESEARCH PROJECTS
 Our effort in realizing the 4P’s
OPTICS IN PRECISE HEALTH ANALYTICS
Noncontact trapping and manipulation of
micro and nanoparticles with optical tweezers
Calibration of optical
trapping and test setup
Optical tweezers are
focused laser beams
TEST SETUP
EXPERIMENT
Drag velocity to decompose cells
Full disggregation of red blood cells
CELLULAR LEVEL
ANALYSES
Contact: Dr. Matti Kinnunen, [email protected]
PRINTED DIAGNOSTIC SENSORS
Fabricating low cost activity sensors
using printing technologies (R2R)
Biosensors, activity and
movement sensors by printing
Printed optics for
imaging applications
SAMPLES
Movement sensor
prototype
New materials combined to with
printed electronics technologies
POLYMER OPTICS
Measuring glucose concentrations on water
LOW-COST
DIAGNOSTICS
Contact: Dr. Tapio Fabritius, [email protected]
ULTRA PRECISE MEASUREMENTS
Time-gating method resolves Raman spectrum
Raman spectroscopy
Absorption and
time-transit imaging
SOLUTION
2D SPAD ARRAY
EXAMPLE
256 channel TDC
HIGH-SPEED
ELECTRONICS
Contact: Prof. Juha Kostamovaara, [email protected]
WIRELESS MEDICAL COMMUNICATION
On-body and
implanted antennas
COGNITIVE APPROACH
SECURITY
WBAN
NANOSCALE COMMS
MEDICAL
On-body and in-body
communications
WiMeC
LOCATION
IMPLANTED
Wireless communications
for medical ICT
MOBILE CLOUDS
VISIBLE LIGHT COMMS
WBAN
DENSE NETWORKS
Room access point
WIRELESS BODY
AREA NETWORK
Body access point
Link inside WBAN
Body sensor
Contact: Prof. Jari Iinatti, [email protected]
WIRELESS BODY
AREA NETWORKS
NANOSCALE COMMUNICATIONS
Health monitoring by nanodevices in blood vessels
Nanomachines communicate wirelessly
Nanoscale wireless
communications
Molecular
communications
EM communications
Terahertz and
Room access point
VHF bands
WIRELESS BODY
AREA NETWORK
Body access point
Link inside WBAN
Body sensor
Contact: Prof. Markku Juntti, [email protected]
WIRELESS BODY
AREA NETWORKS
Developing services and business models
for future wireless networks
Open 5G Test Network at the university
campus; closed one at VTT Oulu
Developing 5G
technologies
TARGET
TEST NETWORKS
NEW SERVICES
5G WIRELESS COMMUNICATION
5G
MULTIMEDIA SERVICES
NOVEL BUSINESS MODLES
CLOUD SERVICES
LOW LATENCY
FLEXIBLE BASE STATION USAGE
REDUCED MATERIAL AND
ENERGY CONSUMPTION
Room access point
Body access point
Link inside WBAN
Body sensor
Contact: Prof. Matti Latva-aho, [email protected]
WIRELESS
COMMUNICATION
ADVANCED BIOSIGNAL UNDERSTANDING
Recognition of
emotions
Diagnostic methods
for brain damage
Cardiovascular
condition
HEARTRONIC
Sensorial Matrix
Sensors
Array
GPRS
UMTS
Data
Acquisition
Unit
Data
Elaboration
Unit
Bluetooth
Module
Piezoelectric
accelerator
NN for filtering
ECG pattern recognition
fMRI
EEG
NIRS
ECG
Host Server
BIO INDICATOR
METHODS
Contact: Prof. Tapio Seppänen, [email protected]
COMPARING TREATMENTS
High-throughput drug screening
Machine vision based analysis
Cellular samples
ANALYSIS
SAMPLES
SPECIMEN
PERSONALIZED
MEDICINE
Contact: Prof. Janne Heikkilä, [email protected]
DIGITAL BIOBANK AS A SERVICE
Preventive value of data increases
exponentially when associated with mass population
Biobanks generate massive
amount of data continuously
Digital Biobanks are
required by law
PRECISION CARE
BIG DATA
DIGITALIZATION
PRECISION AND
PREVENTIVE CARE
Contact: Prof. Jaakko Sauvola, [email protected]
ARCHITECTURE FOR HEALTHCARE ECOSYSTEM
Scalable and controlled architecture with
standard big data and customer access interfaces
Healthcare and wellbeing convergence
with ICT interoperability guarantees
Health services
digitalization
PERSONALIZED
COVERAGE
REGIONAL
1M population
Long distances
Legacy migration
Cost – Quality
Master Big Data
EFFICIENT MASS
HEALTH SERVICES
Contact: Prof. Jaakko Sauvola, [email protected]
DIGITAL TRACES IN HEALTH
Enabling four P’s: Personalized, Predictive, Preventive
and Participatory service ecosystem
RELEVANCY
Expediting the “liberation of data”
enabling new personalized services
My health data
360O OF LIFE
DIGITAL HEALTH
REVOLUTION
Contact: Prof. Jaakko Sauvola, Prof. Harri Oinas-Kukkonen, Prof. Minna Isomursu, ([email protected])
INFLUENCING HEALTH BEHAVIOURS THROUGH ICT
Choosing software features related to
primary task, HCI dialogue, credibility, and social influence
Studying HRV, blood samples,
and fMRI with systems usage
Computerized
health interventions
NEURO-IS
BSSD SYSTEMS
Behavior change support systems for
weight management, smoking cessation,
depression, sleep deprivation, and others
Contact: Prof. Harri.Oinas-Kukkonen, [email protected]
PERSUASIVE
SYSTEMS FOR HEALTH
FUTURE WELLNESS SERVICES
Mobile wellness service that combines
easy tracking with a holistic view on well-being
Wellness Wallet offers new sport and
culture prepaid Mastercard
WELLMO WALLET
WELLMO SERVICE
Consumer case
Offers key indications
• Sleep
• Weight
• Steps
• Exercise
• Alcohol
Co-operative use of
wellness platforms
WELLBEING
DIGITAL ECOSYSTEMS
Contact: Dr. Kari Liukkunen, [email protected]
PERSONALIZED WELLBEING CONCEPTS
Service concepts for packaging
intelligent products and services
Digital tools and
interactive components
IOT components
and data in health
CONVERGENCE
Consumer
experiences
Digital Maternity Package
Knowledge
for services
PERSONALIZING
HEALTH
Contact: Prof. Minna Isomursu, [email protected]
CARE FOR PEOPLE HAVING SPECIAL NEEDS
Smart glasses concept
Assistive navigation tool
for remote caretaking
Attention control
and remote care
VISUAL CUES
DETECTION
Voice guidance
QUALITY OF
SENIOR LIVING
Contact: Prof. Petri Pulli, [email protected]
TANGIBLE USER INTERFACES
Tested by up to 104-year-old users
Audio recordings from 50’s played when
photographs are touched with a phone
Activating elderly
people’s memory
PHOTOGRAPHS FROM 50’S
WITH NFC TAGS
QUALITY OF
SENIOR LIVING
Contact: Prof. Jukka Riekki, [email protected]
COMMUNITY BEHAVIOR THROUGH ICT USAGE
Real-time community
and city-level sensing
Community level
activity mapping
Sensing behavior
via use of ICT
ANALYSIS
USAGE PATTERNS
E.g. Facebook
METHODOLOGY
Instrumenting
mobile platforms
Human subjects
studies
Real-time city-sensing
Large scale
deployments
Contact: Prof.Vassilis Kostakos, [email protected]
URBAN
COMPUTING
RESEARCH IN THE WILD
Studying the effect of technology to everyday life
in a realistic environment
Rich data set to study mobility
in urban environment
City infrastructure
USERS
Oulu Traffic Pilot
www.ubioulu.fi
URBAN
COMPUTING
Contact: Prof. Timo Ojala, [email protected]
ITEE LEADS SEVERAL LARGE PROGRAMS
STARGATE
Strategic partnering between ICT
research and business hubs
•Executive networks
•Strategic research projects
•Commercial collaboration
FABLAB
Cutting edge concept facilities
and ways of working
•Part of FABLAB (MIT) concept
•Students, researchers and
companies
•Joint projects
HILLA
National level ICT change R&D programme
•ICT leveraged in wireless, health, automotive
and heavy industry
•5 years, 50M€ (research) + company funds
•Smart specialization and business driven