Credits: 5

Schedule: 30.10.2019 - 02.12.2019

Contact information for the course (applies in this implementation): 

Lecturer: Ilkka Laakso

Email: ilkka.laakso@aalto.fi

Room: F303 (Otakaari 3)


Assistants: Marko Mikkonen and Marco Soldati

Email: marko.mikkonen@aalto.fi; marco.soldati@aalto.fi

Room: F322 (Otakaari 3)



Teaching Period (valid 01.08.2018-31.07.2020): 

II 2018-2019 (autumn)

Learning Outcomes (valid 01.08.2018-31.07.2020): 

1. Can describe the main features of the physiological, physical and chemical background to the most common bioelectrical phenomena.

2. Can model and analyze these phenomena using a computer.

3. Can describe the structure and operating principle of some of the most common diagnostic and therapeutic equipment.

4. Can identify interference factors and their coupling mechanisms and explain solutions for shielding against the effects of interference.

 

Content (valid 01.08.2018-31.07.2020): 

Medical diagnostics and therapy equipment, their construction and functions. Modelling and analysis of bioelectrical phenomena. Measurement and processing of bioelectrical signals.

Details on the course content (applies in this implementation): 

Week 1: Modelling nerve stimulation using biological axon models

  • Origin of electrical biosignals
  • Modelling of axons of nerve cells

Week 2: Volume conductor models

  • Electrical properties of biological tissues
  • Electrical modelling of the human body

Week 3: Measurement of electrical biosignals

  • Electrocardiograph (ECG)
  • Doing ECG recordings

Week 4: Processing of biosignals

  • Sources of artefacts
  • Basic signal processing

Week 5: Group work seminar and demonstration: Medical devices

  • Pulse oximeter
  • Body composition meter
  • Video-based biosignal measurements
  • Anaesthesia machine
  • Blood pressure measurement
  • Ultrasound
  • etc.

Assessment Methods and Criteria (valid 01.08.2018-31.07.2020): 

Lectures, exercises and group work.

Elaboration of the evaluation criteria and methods, and acquainting students with the evaluation (applies in this implementation): 

Grading is based on exercise problems and group work. There is no exam.

Exercise problems: 60 p (four rounds of exercise problems)

Group work: 35 + 5 p

  • 35 p: presentation and report
    The points awarded depend on the grade of the report:
    Excellent: 32–35 p
    Very good: 28–31 p
    Good: 24–27 p
    Very satisfactory: 20 - 23 p
    Satisfactory 16 - 19 p
  • 5p: Evaluate at least two reports by other groups (mandatory)

Total: 100 p

Bonus points:

  • Evaluate additional group work reports (1 p / report past the first two)
  • Course feedback (1 p)


The points are converted to final grades according to the following table:

Excellent (5):         82.00 to 100.00 points
Very good (4): 74.00 to 81.99...
Good (3): 66.00 to 73.99...
Very satisfactory (2): 58.00 to 65.99...
Satisfactory (1): 50.00 to 57.99...


Explanation for the point grade limits:

  • For passing the course (1), you need to get one half of the maximum points (50 p).
  • A grade of Excellent (5) can be obtained, for instance, by getting an Excellent grade from the exercises
    (> 48 p), a Very Good grade from the group work (> 29 p), and
    evaluation of two group work reports (5 p). 48 p + 29 p + 5 p = 82 p.

Workload (valid 01.08.2018-31.07.2020): 

Contact hours 20: Weekly lectures and exercises, and group work seminar.

Attendance in lectures and exercises is not compulsory.

Self supported and group study 113: Weekly exercises, and group work

Details on calculating the workload (applies in this implementation): 

Workload guidelines:

Lectures:

Contact sessions (optional): 4 x 2 h
Independent study: 2 x 8 h
Total: 24 h

Exercises:

Exercise sessions (optional): 5 x (2 + 2) h
Independent or group work and writing reports: 5 x 8 h
Total: 60 h

Group work:

Group or independent study: 16 h
Preparing presentation: 5 h
Presentation and following other presentations: 3 h
Writing report: 20 h
Evaluating two reports by other groups: 2 x 3 h
Total: 50 h


Study Material (valid 01.08.2018-31.07.2020): 

Lecture and exercise material.

Details on the course materials (applies in this implementation): 

All materials will be shared through MyCourses.

Lecture slides, articles, book chapters.


Substitutes for Courses (valid 01.08.2018-31.07.2020): 

S-66.3166.

Course Homepage (valid 01.08.2018-31.07.2020): 

https://mycourses.aalto.fi/course/search.php?search=ELEC-E8734

Prerequisites (valid 01.08.2018-31.07.2020): 

Basic courses in mathematics and physics.

Grading Scale (valid 01.08.2018-31.07.2020): 

0-5

Registration for Courses (valid 01.08.2018-31.07.2020): 

WebOodi

Further Information (valid 01.08.2018-31.07.2020): 

Language class 3: English

Details on the schedule (applies in this implementation): 

Contact sessions:

Lectures (4 times, attendance not mandatory):

Wednesdays 10:15 - 12:00 in Lecture room 2

Lecture slides will be available at the latest just before the lecture.

Exercise problems will be published on Wednesday afternoon (deadline: next Tuesday)


Exercise sessions (5 weeks, twice a week, attendance not mandatory):

Thursdays 12:15 - 14:00 in Lecture room 2

Mondays 14:15 - 16:00 in Lecture room 2


Group work seminar (attendance mandatory, let us know if you cannot attend):

Wednesday 28.11 9:00 - 12:00 in Lecture room 2

Presentation (~15 min/group) and demonstration (~1 h) sessions


Important dates:

First lecture: 30.10.2019

Deadline for returning the exercise problems: Every Tuesday night (1 week time to do the exercises)

Note: Some exercises problems may have a later deadline

Group work presentation:  27.11.2019

Returning group work report: 11.12.2019

Review of group work reports: 19.12.2019

Description

Registration and further information