Medical Engineering Degree Programme and RD Center Jukka Jauhiainen Principal lecturer, PhD Head of...
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Medical EngineeringDegree Programme and RD Center
Jukka Jauhiainen
Principal lecturer, PhD
Head of the Degree Programme
The degree programme
Started 1998 Intake about 30
students / year 4 year programme, 240
ECTS Total number of
students inside today is about 110
Three full-time teachers More teachers from the
Information Technology degree programme
Description
Based on information technology and telecommunications
Also courses on health care and related subjects
Technological aids for the old, disabled etc.
Human / technology interaction
Telemedicine / telecare
Contents
Compulsory basic and professional studies
Foreign languages 6 ECTS Mathematics, physics,
chemistry 27 ECTS R&D 15 ECTS Health care 9 ECTS Programming 11 ECTS Telecommunications 17 ECTS DSP 14 ECTS Electrical engineering /
electronics 21 ECTS
Optional professional studies
Home care technology 23 ECTS Gerontechnology Usability /
ergonomics User-centered
design Physiological signal
processing Projects
Optional professional studies
Hospital techology 23 ECTS Medical engineering
equipment Digital image
processing Telemedicine Physiological signal
processing Projects
Afterlife
•About 80 graduates between 2002 – 2005•A follow-up study in 2004 (56 graduates):
•About 40 % were working in medical engineering•About 10 % were unemployed•The rest were either studying further or not in medical engineering or related jobs.•Both public (e.g. hospitals) and private (mainly Oulu-area companies) sector
Examples of bachelor’s theses
Image archive (PACS) design works for Oulu University Hospital
Image segmentation tool for Radiology Department ” Workflowanalyse für telemedizinische Anwendung ”
(made in Germany) Heart rate monitor-related works Air fighter pilot acceleration studies, related to head and
neck forces during high G’s EMG measurements and analysis-related works And many more …
Foreign exchange
A few students are taking part of the international student exchange programs every year
Teacher exchange also possible
R&D Center for Medical Engineering
Started 2003, funding until the end of 2006
2 full time research positions divided between 5 part-time researchers (2 PhD, 3 MSc)
1 full time laboratory engineer
Working model
Serves small to middle sized companies in the Oulu region
Different phases of product development Up-to-date hardware and software Centralized R&D and testing
environment
Multidisciplinary network of consulting specialists
Saves money and time in the product development processes
In collaboration with
Oulu Polytechnic Institute of
Technology Business School School of Social and
Health Care
Funding: Development
1.1.2004 – 31.12.2006 480 k€ Mainly personnel salaries and travel costs ERDF (European Regional Development Fund) Oulu Provincial Government City of Oulu Oulu Polytechnic Private funding
Funding: Investments
1.11.2003 – 31.12.2006 730k€ Equipment ERDF Northern Osthrobotnia Employment
and Economic Development Center Oulu Polytechnic City of Oulu Companies
Innokas Medical Ltd. Respecta Ltd.
Equipment in biosignal measurements
Gaitrite: walking analysis Technogym Runrace:
running mat Polar heart rate monitors
and computers Ergoline Ergoselect test
ergometer
Equipment in usability and ergonomics
The Observer Video-Pro and mobile usability unit
Tobii 1750 Eye Tracker
Equipment in prototypes and testing
FDM Vantage – Rapid prototyping machine
BoundaryScan – Electrical circuit testing system
Medical engineering laboratory
Electrical workbench for testing and building measurement electronics
Usability unit EM-shielded room
Tobii Eye Tracker
Can be used to determine what the user actually looks at when using a computer program or seeing a web page or video clip etc.
Rapid medical modeling
Based on Rapid Prototyping Technology.
The production process is controlled by 3D radiological images of the patient's anatomy
Photolitographic technique produces plastic model of the 3D image
Rapid medical models can be used
•For surgical planning and simulation •For custom made implant design •For medical education and research •As a communication aid for patients and colleagues
Rapid prototyping
In co-operation with Oulu University Hospital, Department of Diagnostic Radiology and Oulu Polytechnic, Institute of Technology.
Data is converted to SLC or STL file format.
Data transter to Oulu Polytechnic where data is reformatted for modeling.
Maximum model size using SLA 250 stereolithography equipment is 250 x 250 x 250 The model is delivered in two weeks after receiving the data.
ONE REPETITION MAXIMUM PREDICTION FROM A SUBMAXIMAL PERFORMANCE IN WEIGHT LIFTINGManne Hannula, Jukka Jauhiainen and Sami Äijälä
An example of an ”own” research project of the RD Center Patent pending The use of acceleration sensors to estimate how much weight
can be lifted once Bench press and dumbbell concentration curl 30 subjects Mean absolute error less than 10 %
Thank You
Further information:
[email protected] (biosignals)
[email protected] (usability)
[email protected] (rapid prototypes)
[email protected](circuits testing)