Body Area Communications
Channel Modeling, antenna development, communication systems and EMC
Please note: This course will begin in the second week of May, deviating from the standard summer semester start date.
Details:
- Start Date: Monday, May 6th, 2024 (Second Week of May)
- Location: On-site
- Course descriptions or additional details will be updated soon.
We recommend checking back for finalized information in the coming weeks.
Body Area Communications
- Channel Modeling, antenna development, communication systems and EMC
The lecture attempts to provide an introductory course for diploma/master/doctoral students who need to know about or intend to be involved with body area communications. It starts with an introduction to basic electromagnetic properties and modeling methods of the human body in various frequency bands that are available for body area communications. Next, the representative analysis techniques for body channel modeling are introduced. Based on the basic knowledge, the lecture will focus on: channel modeling, antenna design and development, communications performance and EM considerations in body are communications.
1.Introduction of body area communications
Definition
Promising wireless BAN applications
Available Frequency Bands (UWB, MICS, ISM, HBC)
Wearable BAN and implant BAN
Standardization
2.Electromagnetic Characteristics of biological tissues
Human Body Composition
Frequency-Dependent Dielectric Properties
Tissue Property Modeling
Penetration Depth versus Frequency
In-Body Absorption Characteristic
3.UWB radio signal in body area communications
Why UWB?
Time-domain properties of UWB signals
Bandwidth property of UWB signals
4.Propagation mechanism in body area
Penetration characteristic
Absorption characteristic
Diffraction characteristic
5.Body area channel modeling - Path loss model
Free-space path loss
On-body UWB channel characteristics (path loss, shadow fading, link budget)
In-Body UWB Path Loss
In-Body MICS Band Path Loss
HBC Band Path Loss and Equivalent Circuit Expression
6.Body area channel modeling - Multipath Channel Model
Saleh-Valenzuela Impulse Response Model
On-Body UWB Channel Model
In-Body UWB Channel Model
7.Communication performance for wearable IR-UWB
IR-UWB
RAKE receiver
BER performance, data rate and communication distance
8.Communication performance for implanted IR-UWB
In-body UWB communications
In-body MICS-band communications
9.Antenna design for body area communications - On-body antennas
Antenna fundamentals
Antennas in the vicinity of a human body
On-body antenna designs and applications
10.Antenna design for body area communications - In-body antennas
Antennas inside a human body
In-body antenna designs and applications
11.Human safety in UWB body area communications
Human safety
SAR analysis (safety guidelines, analysis and assessment methods, transmitting power versus SAR)
12.EMC in UWB body area communications
Cardiac pacemaker model
Electromagnetic field approach
Electric circuit approach
13.Summary
Summary
Survey and future subjects
- Dieser Inhalt ist freigegeben von 25.03.2024 11:01 Uhr bis 30.09.2024 11:01 Uhr.
- Dieser Inhalt ist für Sie unter der folgenden Bedingung freigegeben: Institution enthält den Wert TU Dresden
The password is achieved per Email via the opal course registration.