Personal tools

Difference between revisions of "Pulse Oximetry Fachpraktikum"

From iis-projects

Jump to: navigation, search
Line 1: Line 1:
[[File:brunn_pulse_oxi.jpg|thumb|400px]]
+
[[File:brunn_pulse_oxi_lq.jpg|thumb|400px]]
 
==Short Description==
 
==Short Description==
 
We would like to add a new 'Fachpraktikum' to our arsenal which should reflect our work in the bio-medical research area. We developed an ASIC which is capable of generating and acquiring signals used in 'photoplethysmography' (PPG). In this thesis, the goal is to '''create''' a new Fachpraktikum where students can learn about the design process of this particular circuit. Starting by understanding the idea and principles behind PPG, followed by building a discrete version of the needed circuit. Further, improving the circuit by introducing ADCs and digital signal processing. At the end, a demo of our small, power efficient version is shown to complete the ASIC design journey.
 
We would like to add a new 'Fachpraktikum' to our arsenal which should reflect our work in the bio-medical research area. We developed an ASIC which is capable of generating and acquiring signals used in 'photoplethysmography' (PPG). In this thesis, the goal is to '''create''' a new Fachpraktikum where students can learn about the design process of this particular circuit. Starting by understanding the idea and principles behind PPG, followed by building a discrete version of the needed circuit. Further, improving the circuit by introducing ADCs and digital signal processing. At the end, a demo of our small, power efficient version is shown to complete the ASIC design journey.

Revision as of 13:46, 27 April 2018

Brunn pulse oxi lq.jpg

Short Description

We would like to add a new 'Fachpraktikum' to our arsenal which should reflect our work in the bio-medical research area. We developed an ASIC which is capable of generating and acquiring signals used in 'photoplethysmography' (PPG). In this thesis, the goal is to create a new Fachpraktikum where students can learn about the design process of this particular circuit. Starting by understanding the idea and principles behind PPG, followed by building a discrete version of the needed circuit. Further, improving the circuit by introducing ADCs and digital signal processing. At the end, a demo of our small, power efficient version is shown to complete the ASIC design journey. Each improvement step is compared in size and power with the previous version.

Things to learn in this Semester-thesis:

Understanding a bit of physiology and bio-medical measurements
Analogue and digital circuit design
PCB design
Classic engineering tasks
The written part will be the guide for the Fachpraktikum-students


Status: Available

Looking for 1-2 Semester Thesis/Group Work students
Contact: Noé Brun

Prerequisites

Experience with hardware design and embedded software is advantageous


Character

30% Concept & Verification
40% Hardware PCB Design
30% Software

Professor

Qiuting Huang

↑ top

Practical Details

Results

Links

↑ top