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School of Electrical and Electronic Engineering

Associate Professor Dr. Wan Mohd Yusof Rahiman Wan Abdul Aziz

Infografik Wan Mohd Yusof Rahiman Wan Abdul Aziz 2024

Last Updated on 26.03.2024

Personal Info

Ph.D,
University of Manchester.

B.Eng,
Cardiff University.

Tel:  +604-599 6024
Fax: +604-599 6909
Email: Alamat emel ini dilindungi dari Spambot. Anda perlu hidupkan JavaScript untuk melihatnya.

Researcher Identifiers
Researcher ID : D-5080-2014
ORCID : 0000-0003-1662-7484
Scopus ID : 24333160400
GoogleScholar ID : ti9H1BIAAAAJ&hl
USM Expertise Link : https://experts.usm.my/cvitae/wanrahiman

Last Updated on 26.03.2024

Biography

Wan Mohd Yusof Rahiman gained his undergraduate degree from Cardiff University specialising in Manufacturing Engineering (BEng). After working a few years in manufacturing industry at Panasonic Manufacturing Ltd in Cardiff and Lotus Cars Ltd in Norwich. He then completed control-engineering study in the Control System Centre, University of Manchester, with PhD in field of Fault Detection and Isolation for Pipeline Systems. Dr Wan Rahiman joined as a senior lecturer in School of Electrical and Electronic Engineering, Universiti Sains Malaysia in 2009. His research interests lie in the area of modelling nonlinear systems and their controller algorithm on a wide range of development industrial projects, particularly, in drone and autonomous vehicle technologies. He endeavours to develop a smart electronics with Internet of Things (IoT) solution that could widely applied in the medical industry.

Specializations


Control System and FDI (Fault Detection and Isolation)
System Stability
Non-linear Control System
Autonomous Vehicle
Drone System
LIDAR sensor system

Selected Publications



1.    Zainab Zainal, Wan Rahiman and M N R Baharom, “Yaw Rate and Sideslip Control using PID Controller for Double Lane Changing”, Journal of Telecommunication, Electronic and Computer Engineering, Vol. 9, No. 3-7, pp. 99-103, 2017

2.    Nurul Izzati Mohd Saleh and Wan Rahiman, “The Effect of Illumination Compensation Methods with Histogram Back Projection for Camshift Application”, Journal of Fundamental and Applied Sciences, Vol. 9, No. 6, PP. 618-631, 2017

3.    Sharmin Ahmed and Wan Rahiman, “Predictive Control of an Autonomous Ground Vehicle for Lane-Keeping”, Advanced Science Letters 22(10):2642-2646, 2016

4.    Nurul Izzati Mohd Saleh, Md Farhan Aizuddin and Wan Rahiman, “Alternative Vision Approach to Ground Vehicle Detection System Utilizing Single Board (SBC) for Motor Control”, Journal of Automation and Control Research, Vol. 2, 2015

5.    Wan Rahiman and Kho Kee Chen, “IMU and Compass Sensors for Wireless Control of 6 DOF Parallel Manipulator”, International Journal of Advancements in Electronics and Electrical Engineering, vol. 3, Issue 3, pp 126 – 132, 2014

6.    KC Neo, H Ibrahim, and Wan Mohd Yusof Rahiman Wan Abdul Aziz, “Development of Sign Signal Translation System Based on Altera’s FPGA DE2 Board”, International Journal of Human Computer Interaction (IJHCI), Volume (2) : Issue (3) , 2011

7.    M. F. Ahmad, H. J. Rong, W. Rahiman and W.A.F.W. Othman, “Colour Tracking Technique by using Pixy CMUcam5 for Wheelchair Luggage Follower”, IEEE International Conference on Control System, Computing and Engineering, Penang, Malaysia, 2017

8.    Mohd Nazri Mahmud, Teh Jiashen, Wan Mohd Yusof Rahiman and Nor Ashidi Mat Isa, “Sustaining Learning in Engineering Capstone Design using Sociomaterial Approaches”, World Engineering Education Forum, 2017

9.    Wan Rahiman and Zhengtao Ding, “Leak Detection In Pipeline via Sliding Motion” International Conference on Control, Automation and Systems, Jeju, Korea, 2017

10.    Sharmin Ahmed and Wan Rahiman, “Robustness Analysis of Lane Keeping System for Autonomous Ground Vehicle”, IEEE International Conference on Imaging, Vision & Pattern Recognition, Dhaka, Bangladesh, 2017

11.    Liew Yeong Tat, SSN Alhady, WAFW Othman and Wan Rahiman.” Investigation on MLP Artificial Neural Network Using FPGA for Autonomous Cart Follower System” 9th International Conference on Robotic, Vision, Signal Processing and Power Applications, Lecture Notes in Electrical Engineering, Penang, Malaysia, 2016

12.    Sharmin Ahmed and Wan Rahiman, “An Autonomous Lane-Keeping Ground Vehicle Control System for Highway Drive”, 9th International Conference on Robotic, Vision, Signal Processing and Power Applications, Lecture Notes in Electrical Engineering, Penang, Malaysia, 2016

13.    Izzati Saleh, S.S.N. Alhady and Wan Rahiman, “Comparison of Mamdani and Sugeno Fuzzy Logic Performance as Speed Controller”, 9th International Conference on Robotic, Vision, Signal Processing and Power Applications, Lecture Notes in Electrical Engineering, Penang, Malaysia, 2016

14.    Sharmin Ahmed and Wan Rahiman, “Predictive Control of an Autonomous Ground Vehicle for Lane-Keeping”, International Conference on Control Theory and Its Application, Melaka, Malaysia, 2015

15.    Sharmin Ahmed and Wan Rahiman, “Dynamic State Estimation of Low and High Speed Passenger Sedan using Kalman Filter on Dry and Wet Surface” IEEE Conference on Industrial Electronics and Application (ICIEA), Auckland, New Zealand, 2015

16.    Nurul Izzati Mohd Saleh, Md Farhan Aizuddin, Wan Rahiman, “Ground Vehicle Detection System Utilizing Off-the-Shelf Webcam”, 2nd International Conference on Control, Dynamic Systems, and Robotics (CDSR), Ottawa, Canada, 2015

17.    Wan Rahiman, Chin Swee Seng, and Sharmin Ahmed, “Autonomous Vehicle: An Efficient Approach for Obstacle Detection Aided by Image Processing”, International Conference on Mathematics, Engineering & Industrial Applications (ICoMEIA), Penang, Malaysia, 2014

18.    Wan Rahiman and Kho Kee Chen, “IMU and Compass Sensors for Wireless Control of 6 DOF Parallel Manipulator”, Proc. of the Intl. Conf. on Advances In Information Processing And Communication Technology (IPCT), pp 140-146, Rome, Italy, 2014

19.    Wan Rahiman and Zafariq Zainal, “An Overview of Development GPS Navigation for Autonomous Car”, IEEE Conference on Industrial Electronics and Application (ICIEA), Melbourne, Australia, 2013

20.    Wan Rahiman and Amre Puasa, ”Development of Line Following Car using CCD Camera’”, International Conference on Engineering and Applied Science, Tokyo, Japan, 2013

21.    Fhong Hao Oo and Wan Rahiman, “Observer Design for Underwater Glider Using Extended State Observer (ESO),” 4th International Conference on Underwater System Technology (USYS), Melaka, Malaysia, 2013

22.    M. F. M. A. Majid, C.Y. Khor, M. K. Abdullah, M. Z. Abdullah, W. Y. Rahiman, A. Jappar and M. S. Ari, “Three Dimensional Numerical Prediction of Epoxy flow during the underfill process in flip chip packaging”, 35th IEEE/CPMT International Electronic Manufacturing Technology Symposium (IEMT), 2012

23.    Rahiman W,  Wu B, and Ding Z., “Fault Detection Using High-Gain Observer: Application in Pipeline System”, International Conference UKACC, Manchester, UK, 2008.

24.    Rahiman W, Li B, Wu B, and Ding Z., “Circle Criterion Based Nonlinear Observer Design For Leak Detection in Pipelines”, IEEE International Conference on Control and Automation, Guangzhou, CHINA, 2007

Grants



Research Title Amount (RM) Grant Title
Highly Dynamic Automated Guided Vehicle (AGV) Navigation System using Light Detection and Ranging (LIDAR) Platform in Confined Production Plant RM407,500

CREST Grant

-Principle Investigator-

Assessment of Analysis for Wearable Device Using Medical IoT

Fulbright-MCMC

-Principle Investigator-

Automated Vibration Detector for Multirotor RM370,500

CREST Grant

-Principle Investigator-

Development of Early Emergency Response Using Drone as Paramedical Functions via Internet of Things (IoT) Platform RM69,960

Research University (RUI)

-Principle Investigator-

Novel Formulation of Multi-Agents for Fully Autonomous Car RM10,000

Bridging Grant

-Principle Investigator-

Multi-agent System for Data Link Interaction in SPALAN RM169,700

Research University (RUI)

-Principle Investigator-

Development of Sustainable Platform for Air, Land, and Naval (SPALAN) Systems RM234,355

Research University (RUI)

-Principle Investigator-

Development of AUV Depth Levelling System RM40,000

Short Term Grant

-Principle Investigator-

Stability of Dynamics Flight Control System RM5,000

Incentive Grant

-Principle Investigator-

Development of Tree Climbing Robot to Assist in Inoculation Process RM70,000

Research University Individual (RUI)

-Co Researcher-

Bridging Lean Manufacturing and Industry 4.0 Through Research and Development of Industry Commercialization Mobile Applications RM57,600

Research University

-Co Researcher-

Formulation of Memetic Bio-inspired Optimization Algorithms Based on Fish Cooperative Hunting Behaviour RM93,270

Fundamental Research Grant (FRGS)

-Co Researcher-

Graphical User Interface based 3-Axis Immersion Measuring Unit for Non Destructive Evaluation of Composite Laminated Material Applications RM 67,170

Prototype Research Grant (PRGS)

-Co Researcher-

Development Of Digital Signal Processing Techniques For The Estimation Of Signal Quality In High-Speed Fiber-Optic Communication Systems RM 235,400

Research University

-Co Researcher-

Swarm Robotics: Localisation Technique Using Ad-Hoc Network Approach RM39,999

Short Term Grant

- Co Researcher-

 

Achivements


1st International Advanced Robotic Competition (IARC) 2018

1st International Advanced Robotic Competition (IARC) 2017
1st National Instrument (NI) Autonomous Robotics Competition (NIARC) 2018 – Malaysia
In group of Top 8 National Instrument (NI) Autonomous Robotics Competition (NIARC) 2018 – Australia
Quarter final HydroContest 2015 – Switzerland

Postgraduate Awards

New!

PhD Study Award For Local Only

Project title: Dynamic Automated Guided Vehicle (AGV) Navigation

Project summary: Modified existing Automated Guided Vehicles (AGV) fleet can caused disruption in the navigation system that has already set by the vendor. There will be more challenging task if the AGV fleets are using one-way path from its reference guidance. Therefore, this project requires little adjustment and extracting information from encoders and odometer of the AGV. These data will be designed into control system with artificial intelligence platform such that AGV able to re-route with short control, efficiently used paths with little blocking and avoid congestion pathways. Real-time kinematic (RTK) in conjunction with Ultra Wide Band (UWB) will be using to locate the AGV and its position. RTK is a satellite navigation technique used to enhance the precision of position data.

Funding: Stipend support from RM2,500/month and Tuition fee worth of RM3,700 is waived by USM for 1st year of study.

Note: USM is expecting 1 Q1/Q2 ISI journal and 1 Scopus journal within 1.5 years

Contact: Dr Wan Rahman, Alamat emel ini dilindungi dari Spambot. Anda perlu hidupkan JavaScript untuk melihatnya.

Current Projects

Webinar 2021

Last Updated on 1.10.2021