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Stacey Acker

Kinesiology, Associate Professor
Stacey Acker photo
519-888-4567 x31338
Location: BMH 1038

Google Scholar

Link to profile: Stacey Acker
Link to personal webpage: Stacey Acker

Jack Callaghan

Kinesiology, Professor
Jack Callaghan
519-888-4567 x47080
Location: BMH 3122

Google Scholar

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Link to personal webpage: Jack Callaghan

Jordan Cannon

Kinesiology and Health Sciences, Assistant Professor
Jordan Cannon
519-888-4567 x43216
Location: BMH 1046

ResearchGate

Link to profile: Jordan Cannon
Link to personal webpage: Google Scholar

Annemarie Dedek

School of Pharmacy, Assistant Professor
Annemarie Dedek

Google Scholar

Link to profile: Annemarie Dedek

Lora Giangregorio

Kinesiology, Professor
Lora Giangregorio
519-888-4567, ext. 46357
Location: AHS 2679

Schlegel Research Chair in Mobility & Aging

LinkedIn

ResearchGate

Google Scholar

Link to profile: Lora Giangregorio
Link to personal webpage: Lora Giangregorio

Nikolas Knowles

Kinesiology
Nikolas Knowles
519-888-4567 x41042
Location: BMH 1117

Research interests:

  • Upper-extremity biomechanics 
  • Orthopaedic biomechanics 
  • Osteoarthritis
  • Computational modeling 
  • Imaging

[Google scholar profile]

Link to profile: Nikolas Knowles

Jonathan Kofman

Systems Design Engineering
J. Kofman
519-888-4567 x45185
Location: E7 6318

Research Interests:

  • Biomedical systems & biomechatronics - rehabilitation, assistive devices, intelligent design of prostheses and orthoses, 3D body surface measurement
  • Optomechatronics - computer vision (2D and 3D), range-image registration, range-sensing, range-sensor design, vision-based 3D surface measurement systems, optical system design, laser-camera range, sensor design, phase-shifting / fringe-projection 3D surface measurement systems, real-time full-field 3D imaging sensors / real-time full-field 3D surface measurement systems, hand-held 3D imaging sensors / hand-held 3D surface measurement systems, vision-based robot control, vision-based human-robot interfaces
  • Robotics - robot teleoperation, robot vision, human-robot interfaces, human-robot interaction, human-guided robot learning, vision-based robot control (visual servoing), human-assistive/service robots

Office of Research - Technology Transfer & Commercialization:

Link to profile: Jonathan Kofman
Link to personal webpage: Jonathan Kofman

Elise Laende

Systems Design Engineering, Assistant Professor
Elise Laende
519-888-4567 x43255
Location: E7 6404
Link to profile: Elise Laende

Andrew Laing

Kinesiology
Andrew Laing
519-888-4567, ext. 48947
Location: BMH 3031

Research Interests:

  • Musculoskeletal biomechanics related to human health and injury prevention, and the role that advanced age has on these relationships.
  • Fall-related tissue trauma including hip fractures, spinal cord injuries, and traumatic brain injuries
  • Workplace musculoskeletal disorders (WMSD)
  • Orthopedic biomechanics

ResearchGate

Google Scholar

[YouTube] Andrew Laing, Department of Kinesiology, UW

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Monica R Maly

Kinesiology
Monica R Maly
(519) 888-4567, ext. 47916
Location: BMH 1036

Research Interests

  • Knee biomechanics
  • Osteoarthritis
  • Clinical outcomes
  • Mobility
  • Exercise
  • Muscle
  • Imaging and disability

Google Scholar

Research Gate

Link to profile: Monica Maly
Link to personal webpage: Monica R Maly

Dale Martin

Biology
Dale Martin
519-888-4567 x36958
Location: B1 291C

Research interests:

  • Neurodegeneration
  • Huntington Disease
  • Autophagy
  • Apoptosis
  • Fatty acylation

Google Scholar

Link to profile: Dale Martin
Link to personal webpage: Dale Martin

Katja Mombaur

Systems Design Engineering
Katja Mombaur
519-888-4567 x40362
Location: E7 6448

Research Interests:

  • human-robot interaction
  • wearable robots
  • rehabilitation robots
  • intelligent assistive devices
  • humanoid robots
  • human movement analysis
  • optimal control
  • model-based control
  • multibody systems modeling
Link to profile: Katja Mombaur

Joe Quadrilatero

Kinesiology
Joe Quadrilatero
519-888-4567 x48131
Location: BMH 1106

Research Interests:

The primary focus of the Skeletal Muscle Biology and Cell Death Laboratory is to study cell death processes (i.e., apoptosis and autophagy) in skeletal muscle. In addition, a major theme is the influence of mitochondrial signaling and dynamics on skeletal muscle development, function, regeneration, and health. 

PubMed

Google Scholar

Link to profile: Joe Quadrilatero

Thomas Willett

Systems Design Engineering
Thomas Willett
519-888-4567 x48405
Location: E7 6438

Research Interests:

  • Biomaterials and mechanics of biomaterials and tissues

  • Bone quality and fragility, collagen

  • Engineering of bone mimetic materials for skeletal reconstruction (3D printing)

Google Scholar

Link to profile: Thomas Willett
Link to personal webpage: Thomas Willett

Liza-Anastasia DiCecco

Systems Design Engineering, Assistant Professor
Liza-Anastasia DiCecco

Google Scholar

Link to profile: Liza-Anastasia DiCecco