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• Research
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• MEC
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Research Areas

• Electromyography
  • Electromyography
  • Time-frequency representations
  • Biological signal processing
  • Multi channel EMG acquisition
  • Myoelectric signal modeling
  • Fatigue
  • EMG augmented speech recognition
• Evoked potentials
  • Nerve conduction velocity
  • Stimulus artefact cancellation
  • Somatosensory evoked potentials (SEP) analysis
  • SEP artefact modeling
• Prosthetics and control systems
  • Pattern recognition
  • Adaptive systems
  • Neural networks
  • Prosthetics
  • Control systems
  • Multifunction myoelectric control
  • Advanced upper and lower limb prosthetic systems
  • Analysis of upper extremity prosthetics
  • Test of prosthetic function
  • Low cost prosthetics for developing countries
• Imaging
  • Magnetic resonance imaging
  • Medical imaging
• Human motion
  • Biomechanics
  • Human motion and gait analysis
  • Upper limb motion
  • Musculoskeletal modeling
  • Musculoskeletal injuries
  • Joint arthroplasty
  • Arthritis and joint injury
  • Balance and posture
  • Lifting techniques
  • Occupational lower back pain
• Rehabilitation
  • Physical Rehabilitation
  • Treatment outcomes
  • Assistive technology development
• Physiology
  • Exercise physiology/biochemistry
  • Neuromuscular physiology and strength
  • Neuromuscular fatigue
• Ergonomics
  • Ergonomics (industrial workplaces)
  • Ergonomics (office workplaces)
  • Human factors
• Electronics
  • Intelligent instrumentation
  • Low noise electronic design
  • RF telemetry
  • VLSI systems
  • Electrode arrays
  • Embedded systems
• Telehealth
  • Remote sign language systems
  • Remote monitoring
  • Telerehabilitation
  • Remote motion capture and analysis
• Clinical Engineering
  • Electrical safety in hospitals
  • OR gas scavenging and analysis
  • Clinical applications of biomedical instrumentation
  • Bluetooth applications
• Medical device design and development
• Health services research
• Applied statistics in engineering