This page provides access to research works by Dr. Shuhaida Yahud, currently a Lecturer of School of Mechatronic Engineering, Universiti Malaysia Perlis (UniMAP).

News

Skills and Expertise:Biomedical Engineering,Biomedical Instrumentation Sensor Technology,Prosthetics,Electronic Instrumentation,Medical Instrumentation Medical Electronics,Bioinstrumentation and Brain Computer Interfaces.

Recent Submissions

  • Electrical properties investigation of unsaturated polyester resin with carbon black as fillers 

    R., Revati; Shuhaida, Yahud, Dr.; Mohd Shukry, Abdul Majid, Dr. (Trans Tech Publications, 2014-06)
    In this paper, conducting polymer composites were prepared by adding different percentage of carbon black (2, 4, 6 and 8)% to unsaturated polyester resin. Hence, this project focuses on two types of carbon black which is ...
  • Development of mechanical prosthetic hand system for BCI application 

    Noor Azuan, Abu Osman, Professor Ir. Dr.; Shuhaida, Yahud, Dr.; Sing, Yau Goh (EuroJournals Publishing, 2008)
    The study is to develop a prosthetic hand that can be controlled by Brain-Computer Interface (BCI). The proposed prosthetic hand consists of palm and 5 fingers. The hand was designed to perform the 4 predetermined essential ...
  • Prosthetic hand for the brain-computer interface system 

    Shuhaida, Yahud, Dr.; Noor Azuan, Abu Osman, Professor Ir. Dr. (Springer-Verlag, 2007)
    The objective of the study is to develop a prosthetic hand for the usage of Brain-computer Interface (BCI) system. In the proposed BCI system the prosthetic hand was introduced as an external device controlled by the system. ...
  • Finite element analysis of a tactile sensor for a robotic hand 

    Shuhaida, Yahud, Dr.; Dokos, Socrates; Morley, John W.; Lovell, Nigel Hamilton (IEEE Conference Publications, 2008)
    Using a bioinspired design approach, we describe the development of a tactile sensor for a robotic hand, based on the mechanoreceptors in the glabrous skin of the human, able to replicate the sensory function of both slow ...
  • Experimental validation of a polyvinylidene fluoride sensing element in a tactile sensor 

    Yahud, S.; Dokos, S.; Morley, J. W.; Lovell, N. H. (Institute of Electrical and Electronics Engineers (IEEE), 2010-08-31)
    A tactile sensor for robotic applications is described, inspired by the mechanoreceptors in the glabrous skin of the human hand, in order to replicate the sensory function of both slow adapting and fast adapting ...
  • Experimental validation of a tactile sensor model for a robotic hand 

    Yahud, S.; Dokos, S.; Morley, J.W.; Lovell, N.H. (Institute of Electrical and Electronics Engineering (IEEE), 2009-09-03)
    We describe a tactile sensor for a robotic hand, based on the mechanoreceptors in the glabrous skin of the human hand to replicate the sensory function of both slow adapting and fast adapting receptors. Strain gauges are ...