Document Type
Conference Item
Publication Date
1-1-2005
Abstract
To monitor a small region of skin tissue for blood perfusion mapping construction, a Y-Z scanning control system using X-Y mechanism was developed. This control system utilizes the combination of a Stepper Motor and a DC Motor. A GCP (Graphical Coded Programming) of LabVIEW is used to compute the system driver controller via DAQ (Data Acquisition) card of PCI E-series. The results presented are based on experimental observation. Results show that the design is capable of performing the Y-Z scanning pattern up to 25 mm � 25 mm AOI (Area of Interest). © 2005 IEEE.
Keywords
Area of interest, Blood perfusion, Experimental observation, LabViEW, Laser Doppler imaging, Mapping construction, Scanning control system, Scanning techniques, Skin tissue, Small region, Stepper motor, Biomedical engineering, Control system analysis, Control systems, DC motors, Doppler effect, Motors, Signal processing, Scanning
Divisions
fac_eng
Event Title
2005 1st International Conference on Computers, Communications and Signal Processing with Special Track on Biomedical Engineering, CCSP 2005
Event Location
Kuala Lumpur
Event Dates
2005
Event Type
conference
Additional Information
Conference code: 76725 Export Date: 29 January 2014 Source: Scopus Art. No.: 4977198 doi: 10.1109/CCSP.2005.4977198 Language of Original Document: English Correspondence Address: Mukhtar, S. R.; Department of Electronic Engineering, Universiti Kuala Lumpur-British Malaysian Institute Gombak, Selangor, Malaysia; email: srmr@bmi.edu.my References: Samer El-Haj-Mahmoud, (2003) Digital Control of a Stepper Motor, Electronics Engineering Technology Program, , http://sine.ni.com/apps/we/niepdwebdisplay.displayepd4?pguid= B551ACFECB5A1420E034080020E74861, Texas A&M University; Ertugrul Dr., N., (2003) Direct Current (DC) Motor Simulation, , http://sine.ni.com/apps/we/niepdwebdisplay.displayepd4?pguid= B45EACE3EE2F56A4E034080020E74861, Department of Electrical and Electronic Engineering, University of Adelaide; Swanson, E.A., Fujimoto, J.G., Hee, M.R., Tearney, G.J., Boumar, B., Boppart, S., Izatt, J., Brezinski, M.E., Optical coherence tomography; principles, instrumentation and biological applications (1996) Biomedical Optical Instrumentation and Laser-Assisted Biotechnology, pp. 291-303; Nilsson, G.E., Arildsson, M., Linden, M., Recent development in laser doppler perfusion imaging for two-dimensional tissue blood flow mapping (1996) Biomedical Optical Instrumentation and Laser-Assisted Biotechnology, pp. 109-119; (2001) Burn Depth Assessment Using Laser Doppler Imaging, , http://www.moor.co.uk/appburndepthassessment.htm