Biosignal Processing Research Group


About me:


  • Ph.D. in Medical Sciences Engineering (University of Queensland), 2008
  • M.Sc. in Electrical Engineering (Biomedical Signal Processing) (UTM),2004
  • B.Eng. in Electric and Electronics Engineering (UTM), 2002

Area of Research:

  •  Physiological signal processing
  • Pattern Recognition with an emphasis on biomedical applications
  • Time-frequency signal analysis
  • Multi-modal signal processing
  • Computer aided medical diagnosis system
  • Biomedical data acquisition

About our research group:

The Biosignal Processing Research Group, one of the groups of Biotechnology Research Alliance at the Faculty of Biomedical & Health Science Engineering from the Universiti Teknologi Malaysia, is headed by me. The group is engaged in research and teaching in both undergraduate and postgraduate levels. This group participates in national and international research and development projects.

The research area includes:

  • Biosignal processing
  • Time-frequency signal analysis
  • Pattern Recognition with an emphasis on biomedical applications
  • Multi-modal biosignal processing (Fusion)
  • Biosensor
  • Computer aided medical diagnosis system,
  • Physiological Monitoring
  • Micro-dialysis


Below are some of researches title:

  • Heart Rate Variability based Clinical Decision Support System using Time-Frequency Approach.


ECG poster


  • QT Dispersion Algorithm as an Automatic Predictor of Sudden Cardiac Death (Heart Attack).
  • Fusion of EEG & ECG for Neonatal Seizure Detection.

eeg poster

  • Automatic Detection of Asthmatic Patient Using Digital Processing of Capnogram.

2.5 edited

  • Automated Intelligent System of Screening Potential Implantable Cardiac Defibrillator (ICD) Receiver based on Bioengineering Approach for Cardiac Electrophysiologist.
  • Development of Decision Support System for Screening Potential Implantable Cardiac Defibrillator (ICD) Receiver Based on Time-Frequency Analysis of Heart Rate Variability.


  • Instantaneous Frequency Estimation Technique for Multicomponent Biomedical Signal Based on Time-Frequency Approach.
  • Instantaneous Frequency(IF) Estimation of Time-Varying Signals using Cross Time-Frequency Distribution (XTFD).
  • FPGA Implementation of Electrocardiogram Biomedical Signal Processing System-on-Chip Design for Portable Heart Monitoring System.
  • Anti-Diabetic Effect of EPA/DHA (Omega 3) In Vivo and In Vitro.
  • Novel Method of Assessing Compliance Levels and Effective Task Performance of Incentive Spirometry – A Pilot Study.
  • A Design Framework for Multi-Processor System-on-Chip (MPSoC)Architecture Design-Space Exploration in Biomedical Application: Human Heart ECG Monitoring and Processing.




Please contact me and email your CV if you are interested to join our research group. More information about our research group is available at