BIOMEDICAL SYSTEM DESIGN

Getting started with labVIEW FPGA - Programming using labVIEW FPGA - Synchronizing FPGA loops and I/O- Sharing physiological data like ECG, EEG etc...

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BIOMEDICAL SYSTEM DESIGN PURPOSE: To enhance students knowledge and educate real time system development INSTRUCTIONAL OBJECTIVES: 1. To develop professionals with practical knowledge 2. To develop programming and problem solving skills 3. To develop industrial competent people. 4. To re-engineer and improve their ability in embedded system design UNIT I - GRAPHICAL PROGRAMMING LANGUAGE LabVIEW

(6 HOURS)

Navigating Graphical System Design Software Platform LabVIEW - Developing modular applications - Managing file and hardware resources - Implementing design patterns - Overview of a DAQ system - Bio-medical signal conditioning UNIT II - INTEGRATED REAL-TIME DESIGN

(6 HOURS)

Getting started with labVIEW FPGA - Programming using labVIEW FPGA - Synchronizing FPGA loops and I/O- Sharing physiological data like ECG, EEG etc..., on FPGA - Communicating between the FPGA and host UNIT III – BUILDING BIOMEDICAL SYSTEM DESIGN

(8 HOURS)

Creating and investigating a NI myRIO project - Exploring the myRIO FPGA personality Communication between RT target and HOST - Development of full prototype model of any biomedical system

ASSESSMENT & EXAM A. Objective type written exam will be conducted at the end of the course B. Design problem will be given and students has to build a complete system OUTCOME   

Doing experiments beyond the curriculum Ability to connect theory with real time applications Ability to learn, simulate, prototype and deploy using Integrated platform

REQUIREMENTS    

Computer lab with 30 systems Graphical system design software with biomedical signal and image processing toolkits – 30 users FPGA based real time prototyping and system design hardware – 10 units Biomedical sensors like ECG, EEG, EMG, Heart rate monitors etc...

RESOURCE PERSON From National Instruments & NI Authorized Technology partners VENUE Department of Biomedical Engineering, SRM University, Kattankulathur Campus ELIGIBILITY OF PARTICIPANTS   

CGPA Of 7.5 and above Students in the III year (5th semester and above) from BME,ECE,EIE Batch size limited with 30

PAYMENT TERMS Yet to discuss REFERENCES Title: Digital Signal Processing System-Level Design Using LabVIEW Author: Nasser Kehtarnavaz Publisher: Newnes ISBN: 0-7506-7914-X Publication Date: 6/17/2005 Title: Applications in LabVIEW Author: Leonard Sokoloff Publisher: Prentice Hall ISBN: 0-13-833949-X Publication Date: 12/24/2003 Jaakko Malmivuo & Robert Plonsey: Bioelectromagnetism - Principles and Applications of Bioelectric and Biomagnetic Fields, Oxford University Press, New York, 1995. http://www.ni.com/white-paper/6349/en/ www.ni.com http://sine.ni.com/nips/cds/view/p/lang/en/nid/211023