Omfattning: 5
Tidtabel: 28.02.2019 - 23.05.2019
Kontaktuppgifter till kursens personal (gäller denna kursomgång):
Kamya Yekeh Yazdandoost, PhD
Aalto University, School of Electrical EngineeringDepartment of Electrical Engineering and Automation
Room F149b, Otakaari 3, 02150 Espoo, Finland
E-mail: kamya.yekehyazdandoost@aalto.fi
Tel: +358 50 505 5312
Undervisningsperiod (är i kraft 01.08.2018-31.07.2020):
IV-V 2019-2020 (spring)
Lärandemål (är i kraft 01.08.2018-31.07.2020):
1. Can explain the physical and biological rationale of guidelines and standards for limiting human exposure to electromagnetic fields.
2. Can apply relevant human exposure limit and reference values in various frequency ranges.
3. Can analyse induced electromagnetic quantities in the human body using computational dosimetry.
4. Can evaluate the safety of human electromagnetic field exposure based on exposure limits and dosimetry.
Innehåll (är i kraft 01.08.2018-31.07.2020):
Biological effects of electromagnetic fields. Human exposure guidelines and standards in different frequency ranges. Methods for computational electromagnetic dosimetry and their applications for safety assessment and development of medical devices.
Närmare beskrivning av kursens innehåll (gäller denna kursomgång):
Must know (80%) | Should know (15%) | Nice to know (5%) | |
Necessary to know in order to | Complementary knowledge. | Special knowledge. | |
Academic discipline | •Introduction to RF field and antenna •Ionizing and non-ionizing radiation •Fields - Static - Electromagnetic - Antenna field region - Polarization •RF Field and Body tissues - Reflection - Transmission - Intrinsic impedance - Depth of penetration •Specific Absorption Rate (SAR) - Whole body - Part of body - Near and Far-fields - Occupational exposure - Controlled exposure - SAR limits - Male, female, and child •Frequency spectrum (3 KHz-300 •Body resonance frequency - Whole body - Partial body •Heat - Tissue bio-heat - Thermoregulatory | -Special knowledge of RF processing and its applications. - Analysis of the implementations on bio-heat processing done with FDTD. | Safety assessment and development of medical |
Professional skills | 1-Understanding the exposure 2- Be able to explain that, why exposure to electromagnetic fields. 3-Be able to analyze the using computational methods. 4-Evaluate the safety level of | Implement and analyze different From fundamental understanding | Analyze a case application and Implementation and processing chain. |
Metoder, arbetssätt och bedömningsgrunder (är i kraft 01.08.2018-31.07.2020):
Lectures, seminars, assignments, and project work
Närmare information om bedömningsgrunderna och -metoderna och om hur den studerande kan ta del av bedömningen (gäller denna kursomgång):
Learning outcome | Method + action | Assessment |
Students will have better understanding of Static, | Lectures, Scientific Students will write a short Teacher should supervise the | Student will go through the references and literatures.
|
Students can explain the physical
| Lectures and references. Teacher should help them for | Students should be able to make |
Using of guidelines and
| Lectures and seminars. Students divided to the Students will presents their | Based on students seminars and discussions. |
Understanding the induced
| Computer works on computational Student will get familiar with | Baes on students work results. |
Calculate and evaluate the
| Theoretically and practically | Students will shows their understanding, |
Arbetsmängd (är i kraft 01.08.2018-31.07.2020):
Contact hours 20: Weekly lectures and/or seminars.
Self supported study 113: assignments and project work.
Preciserad belastningsberäkning (gäller denna kursomgång):
Task (lectures, exercises, assignments, exam, project work, group work, time | Time allocation 11 weeks of teaching with 2 h lectures/week. | Total h |
Teaching and learning sessions.
Time to reflect and | 11 x 2
11x 4 |
66 |
Reading lectures and literatures | 10 | 10 |
1-Exersics and other activities 2-Seminar 3-Feedback | 15 5 5 |
25 |
Group work (2)
Time to think | 10
10 |
20 |
Assignments | 14 | 14 |
TOTAL | 135 |
Studiematerial (är i kraft 01.08.2018-31.07.2020):
Lecture material, scientific articles
Närmare information om kursmaterial (gäller denna kursomgång):
1- Antenna Theory and Applications
Wiley-Blackwell
2012.
2- High Frequency
Electromagnetic Dosimetry
Artech House
2009.
Förkunskaper (är i kraft 01.08.2018-31.07.2020):
Basics in electromagnetic field theory
Bedömningsskala (är i kraft 01.08.2018-31.07.2020):
0-5
Anmälning (är i kraft 01.08.2018-31.07.2020):
WebOodi
Tilläggsinformation (är i kraft 01.08.2018-31.07.2020):
Language class 3: English
Tilläggsinformation om kursen (gäller denna kursomgång):
Weighted
evaluation: Exercises and assignments (25%), Seminars and
class discussions (25%), Executive summary
of the lectures (15%) and Final assignment (35%), Bonus (Feedback) 3% .
Aassignments submission within 2 weeks after the lecture.
Närmare information om tidtabellen (gäller denna kursomgång):
| Date | Subject |
1 | 28.2 | Introduction to RF field |
2 | 7.3 | Ionizing and non-ionizing |
3 | 14.3 | Fields: static, electromagnetic, |
4 | 21.3 | RF field and body tissues reflection, transmission, intrinsic |
5 | 28.3 | Specific whole body, part controlled exposure, SAR limits, and Male, female, and child |
6 | 4.4 | Frequency spectrum (3 |
7 | 11.4 | Evaluation Week (No class) |
8 | 18.4 | Finite difference time |
9 | 25.4 | Body resonance frequency: whole body, |
10 | 2.5 | Heat: tissue bio-heat, thermoregulatory |
11 | 9.5 | FDTD |
12 | 16.5 | Seminar (Compulsory) |
13 | 23.5 | Evaluation Week (No class) |