His main research concerns Adhesive, Artificial intelligence, Robot, Simulation and Composite material. His Artificial intelligence study incorporates themes from Work, Electromyography, Computer vision and Pattern recognition. As part of one scientific family, Carlo Menon deals mainly with the area of Work, narrowing it down to issues related to the Functional exercise, and often Physical medicine and rehabilitation.
His study in Robot is interdisciplinary in nature, drawing from both Climb and Climbing. In his work, Robot control, Gait and Structural engineering is strongly intertwined with Hexapod, which is a subfield of Simulation. His study in the field of Silicone and Adhesion also crosses realms of Shape change.
Carlo Menon spends much of his time researching Artificial intelligence, Physical medicine and rehabilitation, Simulation, Wearable computer and Adhesive. His work carried out in the field of Artificial intelligence brings together such families of science as Machine learning, Computer vision and Pattern recognition. His Physical medicine and rehabilitation research is multidisciplinary, incorporating elements of Rehabilitation, Wrist, Work and Activities of daily living.
His Wrist research integrates issues from Electromyography, Torque and Forearm. In his research on the topic of Simulation, Control theory is strongly related with Robot. His biological study spans a wide range of topics, including Adhesion, Polydimethylsiloxane and Polymer.
Carlo Menon mostly deals with Artificial intelligence, Physical medicine and rehabilitation, Wearable computer, Wearable technology and Machine learning. His Artificial intelligence study integrates concerns from other disciplines, such as Computer vision and Pattern recognition. Carlo Menon interconnects Rehabilitation, Wrist and Work in the investigation of issues within Physical medicine and rehabilitation.
The concepts of his Wearable computer study are interwoven with issues in Normal gait, Kinematics, Simulation and Activities of daily living. His Simulation research focuses on Ankle and how it connects with Gait and Gait analysis. His Wearable technology research incorporates elements of Acoustics, Photoplethysmogram, Real-time computing and Usability.
His primary scientific interests are in Physical medicine and rehabilitation, Wearable computer, Wearable technology, Gait analysis and Artificial intelligence. His Physical medicine and rehabilitation study combines topics from a wide range of disciplines, such as Rehabilitation, Perception and Work. Carlo Menon combines subjects such as Knee Joint and Activities of daily living with his study of Wearable computer.
The Wearable technology study combines topics in areas such as Acoustics and Clinical psychology. His Artificial intelligence research is multidisciplinary, relying on both Machine learning, Respiratory system and Computer vision. The various areas that Carlo Menon examines in his Gait study include Gait, Treadmill, Simulation and Kinematics.
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Gecko Inspired Surface Climbing Robots
C. Menon;M. Murphy;M. Sitti.
robotics and biomimetics (2004)
Surface EMG pattern recognition for real-time control of a wrist exoskeleton
Zeeshan O Khokhar;Zhen G Xiao;Carlo Menon.
Biomedical Engineering Online (2010)
Recent advances in the fabrication and adhesion testing of biomimetic dry adhesives
D Sameoto;C Menon.
Smart Materials and Structures (2010)
A low-cost, high-yield fabrication method for producing optimized biomimetic dry adhesives
D Sameoto;C Menon.
Journal of Micromechanics and Microengineering (2009)
Force Myography to Control Robotic Upper Extremity Prostheses: A Feasibility Study.
Erina Cho;Richard Chen;Lukas-Karim Merhi;Zhen Xiao.
Frontiers in Bioengineering and Biotechnology (2016)
EEG classification of different imaginary movements within the same limb.
Xinyi Yong;Carlo Menon.
PLOS ONE (2015)
Exploration of Force Myography and surface Electromyography in hand gesture classification
Xianta Jiang;Lukas-Karim Merhi;Zhen Gang Xiao;Carlo Menon.
Medical Engineering & Physics (2017)
Electroactive Elastomeric Actuator for All-Polymer Linear Peristaltic Pumps
Federico Carpi;Carlo Menon;Danilo De Rossi.
IEEE-ASME Transactions on Mechatronics (2010)
Towards the development of a wearable feedback system for monitoring the activities of the upper-extremities
Zhen G Xiao;Carlo Menon.
Journal of Neuroengineering and Rehabilitation (2014)
A Reconfigurable Patch Antenna Using Liquid Metal Embedded in a Silicone Substrate
S. J. Mazlouman;Xing Jie Jiang;A. Mahanfar;C. Menon.
IEEE Transactions on Antennas and Propagation (2011)
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