This book acts as a compilation of papers presented in the 2nd Human Engineering Symposium (HUMENS 2023), held at Pekan, Pahang, Malaysia. The symposium covers the following research topics: ergonomics, biomechanics, sports technology, medical device and instrumentation, artificial intelligence / machine learning, industrial design, rehabilitation, additive manufacturing, modelling and bio-simulation, and signal processing. The articles published will be of interest to researchers and practitioners from the medical device manufacturers, healthcare, rehabilitation and sports technology.
Parameter Extraction of Muscle Contraction Signals from Children with
ASD During Fine Motor Activities.- Influence of Environmental Factors and
Road Characteristics in Commuting Accidents among Public University Staffs.-
Human Factors: Drivers Speed Choice on Relatively LowSpeed Limit Roads.-
Noise Risk Assessment on Noise Exposure Among Urban Rail Maintenance Workers
using Personal Monitoring Method.- Design of Hose Roller for Firefighter: A
Fatigue Study.- Enhancing Mental Health through Ambient Lighting.- Study of
Primary Stability of Hip Implant for Semi Hip Replacement by using Finite
Element Analysis.- Investigation of Mental Health Condition among Factory
Worker during Covid Pandemic A Cross Sectional Study.- Preliminary
Ergonomics Analysis of Sit-Stand (STS) Desk on The Patient with Lower Back
Pain Problem: A Case Study.- Risk Assessment for Manual Handling Activities
in a Dairy Industry.- Developing a Survey Tool to Measure Human Factors
Constructs for Personal HearingProtector (PHP) Use among Industrial Workers -
First Phase.- Fluid-Structure Interaction (FSI) Modelling in Stenotic Carotid
Artery Bifurcation.- Measuring Running Performance Through Technology: A
Brief Review.- Experimental Study of Gait Monitoring on Wearable Shoes Insole
and Analysis: A Review.- Brief Review of Recent Study on Fluid-Structure
Interaction Modeling of Blood Flow in Peripheral Arterial Disease.- Head
Injury During Heading of Two Types Speak Takraw Balls: Analytical Approach.-
Prediction of Atherosclerosis in Peripheral Arterial Disease Using
Computational Fluid Dynamics Modelling.- The influence of body balance
towards the golf putting performance.- Development of Noise Risk Assessment
(NRA) and Management System.- A Short Review on Development of Table Tennis
Robotic Launcher.- A Review of Biomechanical and Psychosocial Risk Factors
among Workers.- Reusability study of 3D printing mould and resin casting for
takraw ball launcher wheel.- Rehabilitation and Gamification Technology
Device for Lower Extremities Patient: A Review.- Framework of Safety Helmet
Compliance Detection and Employee Tracking by Using Quick Response (QR Code)
Technology.- Knowledge and Awareness of Road Safety among University Students.
Dr. Mohd Hasnun Arif Hassan earned his first degree in Mechanical Engineering from the Technische Hochschule Bingen, Germany in 2010. During the final year of his undergraduate study, he was offered a scholarship by Universiti Malaysia Pahang (UMP) to pursue a Masters degree in Mechanical Engineering at the University of Malaya in Kuala Lumpur, which he graduated with distinction in 2012. After that, he embarked on his PhD journey at UMP where he studied about the head injury sustained by soccer players due to heading manoeuvre. He completed his PhD study in 2016, then continued to serve UMP as a senior lecturer. His research interests include finite element modelling of the interaction between human and sports equipment, instrumentation of sports equipment, and injury prevention particularly with regards to sports and traffic accidents. His work aims to apply engineering principles in sports not only to enhance the performance of an athlete, but also to prevent injuries. Dr. Mohd Nadzeri Omar received the B.Eng. (Hons) and Ph. D. degrees from RMIT University, Melbourne, Australia, in 2013 and 2017 respectively. He is a senior lecturer with the Faculty of Mechanical and Automotive Engineering Technology, Universiti Malaysia Pahang. He is also attached to the Human Engineering Research Group which focuses on research, development and innovations in human-centered technology and products. His research interests include soft tissue modelling, sports technology, biomechanical engineering and mechatronics.
Dr. Nasrul Hadi Johari obtained his PhD in Biofluid Mechanics from Imperial College London, United Kingdom. He is currently a senior lecturer at the Faculty of Mechanical and Automotive Engineering Technology, Universiti Malaysia Pahang. Dr. Joharis research activities include computational modeling of blood flow, tissue mechanics and mass transport in the cardiovascular system, with applications ranging from evaluatingthe hemodynamic performance of medical devices to predict the outcome of endovascular interventional procedures. He is also interested in computational and experimental modeling of the interaction between human and sports equipment particularly in improving training aid systems and injury prevention.
Dr. Yongmin Zhong is currently an Associate Professor with the School of Aerospace, Mechanical and Manufacturing Engineering, RMIT University, Australia. His research interests include computational engineering, haptics, soft tissue modeling, surgical simulation, aerospace navigation and control, intelligent systems, and robotics.
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