18BM644: VIrtual Bio-Instrumentation BME Syllabus for BE 6th Sem 2018 Scheme VTU (Professional Elective-1)

VIrtual Bio-Instrumentation detailed Syllabus for Biomedical Engineering (BME), 2018 scheme has been taken from the VTUs official website and presented for the VTU students. For Course Code, Subject Names, Teaching Department, Paper Setting Board, Theory Lectures, Tutorial, Practical/Drawing, Duration in Hours, CIE Marks, Total Marks, Credits and other information, visit full semester subjects post given below. The Syllabus PDF files can also be downloaded from the official website of the university.

For all the other VTU BME 6th Sem Syllabus for BE 2018 Scheme, visit Biomedical Engineering 6th Sem 2018 Scheme.

For all the (Professional Elective-1) subjects refer to Professional Elective-1 Scheme. The detail syllabus for virtual bio-instrumentation is as follows.

Module 1

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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Module 2

Modular Programming: Introduction, Modular Programming in LabVIEW, Build a VI front panel and block diagram, ICON and connector pane, Creating an icon, Building a connector pane, Displaying subVIs and express Vis as icons or expandable nodes, Creating subVIs from sections of a VI, Opening and editing subVIs, Placing subVIs on block diagrams, Saving subVIs, Creating a stand-alone application. Data Acquisition: DAQ software architecture, DAQ assistant, Channels and task configurations, Selecting and configuring a data acquisition device, Components of computer based measurement system.

Module 3

General Goals of Virtual Bio-Instrumentation (VBI): Definition of VBI and importance, General Goals of VBI applications. Basic Concepts: DAQ basics, Lab VIEW basics, BioBench basics. Neuromuscular Electrophysiology (Electromyography): Physiological basis, Experiment set up, Experiment descriptions, Trouble shooting the nerve -Muscle Preparation. CardiacElectrophysiology (Electrocardiology):Physiological basis, Experiment descriptions. Cardiopulmonary Applications: Cardiopulmonary measurement system, How the Cardiopulmonary measurement system works, Clinical Significance

Module 4

Module 5

Healthcare Information management Systems: Medical Informatics: Defining medical informatics, Computers in medicine, ElectronicMedical record, Computerized physician order entry, Decision support. Information Retrieval, Medical Imaging, Patient Monitoring, Medical Education, Medical Simulation. Managing Disparate Information: ActiveX, ActiveX Data Objects(ADO), Dynamic Link Libraries, Database Connectivity, Integrated Dash boards.

Course Outcomes:

After studying this course, students will able to:

Describe theGraphical System Design approach & basic features and techniques of LabVIEW.
Use the Modular Programming concepts for creation of VIs & employ DAQ assistant for configuration of hardware devices.
Discuss the basic concepts of DAQ Systems, LabVIEW , and BioBench software.
Describe the LabVIEW and BioBench software for EMG, ECG, and Cardiopulmonary system analysis.
Discuss the Medical Device Development Applications for Surgical Video Systems and IV Pumps.
Explain the Healthcare Information Management Systems using Information Science and Technology.

Note:

Wherever possible students should be given appropriate hands on training with Virtual Instrumentation LabVIEW software.

Question paper pattern:

Text Books:

Virtual Instrumentation using LabVIEW by Jovitha Jerome, PHI Learning Private Limited, 2010. (Module 1 & 2)
Virtual Bio-Instrumentation Biomedical, Clinical, and Healthcare Applications in Lab VIEW. ,by Jon B. Olansen and Eric Rosow, Prentice Hall Publication, 2002.

For the detail Syllabus of all other subjects of BE (BME) 6th Sem, visit Biomedical Engineering 6th Sem Subjects.

For all (CBSE & Non-CBSC) BE/B.Tech results, visit VTU BE/B.Tech all semester results.

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