Dr. Canjun Yang received his Ph. D. degree in mechanical engineering from the Zhejiang University in 1997. Since 1997, Dr. Yang has been a faculty at Zhejiang University. In 2004, he visited Minnesota University. During that time, he joined a deep-sea scientific investigation in voyage AT11-07, and developed a technical research about exploring the deep-sea hydrotherm. In 2011, he visited Monterey Bay Aquarium Research Institute (MBARI), and made a research about submarine observation network in cooperation. A secondary junction box developed in "Submarine Observation Network Junction Boxes" successfully docked with MARS undersea observation network of MBARI, and it worked steadily for 6 months. In 2013, he visited the Applied Physics Laboratory of the University of Washington, Woods Hole Oceanographic Institution, University of Connecticut, and developed research cooperation and academic exchanges. Dr. Yang is currently the deputy dean of Department of MechanicalEngineering Zhejiang University, the member of National Technical Committee Submersible of Standardization, the trustee of China Innovation Strategic Alliance of Rehabilitation Technical Aids, the expert member of International Personal Care Robotic Safety Committee for Standardization (ISO/TC 184/SC 2/WG 7), the expert member of Standardization Technical Committee of Medical Device for international applied robotic technology (ISO/TC 184/SC2 JWG9 Joint ISO/TC 184/SC2-IEC/SC 62A), and work group member of Green Submarine Observation Network (ITU-WMO-UNESCO IOC Joint Task Force) in International Telecommunication Union (ITU).As project leader, Dr. Yang took the responsibility for two projects of National Science Foundation of China, five projects of The National High Technology Research and Development Program of China (863 Program), and more than 20 national and provincial research projects. He co-published 3 books, and published over 150 technical papers including over 50 papers are indexed in SCI/EI. He held over 20 China National Invention Patents. He was awarded the National Technology Invention Award (Second Prize, No. 2), the University Technology Invention Award (First Prize, No. 1) of Ministry of Education of P. R. China, Science and Technology Award of Zhejiang Province (First Prize, No. 2), Zhejiang Youth Science and Technology Award (for individual). He was selected to the national "Ten Thousand Talent Program" expert, "the State Council Special Allowance" expert, The National Ministry of Science and Technology in Innovation of Youth Science and technology Leading Talent, the Program for New Century Excellent Talents in University (NCET) and New Century 151 Talent Project of Zhejiang Province (First Class). 

Dr. G. S. Virk has a 1st Class BSc degree in Electrical and Electronic Engineering from University of Manchester and a Ph. D. in Control Theory from Imperial College, University of London, UK. He started his academic career in November 1981 as a Research Assistant working with David Owens at the University of Sheffield and has had continuous employment since then working mainly in the UK but with experience working overseas lately where he has gained valuable insight in different cultures and working practices. Dr. G. S. Virk, FIET, C Eng, FIMA, C Math, FCIBSE, is Professor of Robotics and the Built Environment at University of Gävle, Sweden (60%) and Professor of Robotics and Autonomous Systems at KTH Royal Institute of Technology, Sweden (40%). He is a technical and engineering expert with extensive experience of international research and collaboration in a wide range of areas of mobile robotics (wheeled, legged and climbing), personal care robots (including mobility exoskeletons for spinal cord injured persons  and assistive  aids for the elderly), medical robots, bio-inspired robotics, control theory and its applications, renewable energy and theb

Presents the latest information on mechatronics, bionics, biomechanics, signal processing, and sensor technologies

Foreword.- Introduction: The research hotspots and difficulties in wearable sensor and robot.- Design of sensors and actuators.- Wearable sensors.- Advanced control system.- Clinical applications.- Rehabilitation robotics.- Other robotics related sections.- Research progress.- Acknowledgements and contributions.

These proceedings present the latest information on regulations and standards for medical and non-medical devices, including wearable robots for gait training and support, design of exoskeletons for the elderly, innovations in assistive robotics, and analysis of human-machine interactions taking into account ergonomic considerations. The rapid development of key mechatronics technologies in recent years has shown that human living standards have significantly improved, and the International Conference on Wearable Sensor and Robot was held in Hangzhou, China from October 16 to 18, 2015, to present research mainly focused on personal-care robots and medical devices. The aim of the conference was to bring together academics, researchers, engineers and students from across the world to discuss state-of-the-art technologies related to various aspects of wearable sensors and robots.