Your search keyword '"Adzly Anuar"' showing total 44 results

1. Initial Study of Low Cost Crepitus Joint Degradation Finding Using Acoustic Localization.

Author

Yeng Weng Leong, Hiroaki Seki, Adzly Anuar, Chandran Nadarajan, Mohd Hanifah Bin Jusoh, Muhammad Fairuz Abdul Jalal, Ong Hang See, and Khairul Salleh Bin Mohamed Sahari

Published

2020

2. Design of a Wearable Walking Aid Based on Anthropometric Measurement of Cerebral Palsy Children in Malaysia.

Author

Adzly Anuar, Farid Mahamud, Juniza Md Saad, and Kesavan Rana Singam

Published

2018

3. Design Analysis of Boiler Header Inspection Robot MK-02.

Author

Muhammad Fairuz Abdul Jalal, Khairul Salleh Mohamed Sahari, and Adzly Anuar

Published

2018

4. Development of 1-inch boiler tube inspection robot.

Author

Muhammad Asyraf Azlin Shah, Khairul Salleh Mohamed Sahari, Muhammad Fairuz Abdul Jalal, and Adzly Anuar

Published

2015

5. Development of robotic boiler header inspection device.

Author

Khairul Salleh Mohamed Sahari, Adzly Anuar, Syed Sulaiman Bin Kaja Mohideen, Mohd Zafri Baharuddin, Iszmir Nazmi Ismail, Nur Maisurah Hassan Basri, Nur Shahida Roslin, Mohd Azwan Aziz, and Badrol Ahmad

Published

2012

6. Development of a Robotic Boiler Header Inspection Device with Redundant Localization System.

Author

Nur Maisurah Hassan Basri, Khairul Salleh Mohamed Sahari, and Adzly Anuar

Published

2014

7. Algorithm for Robot Writing Using Character Segmentation.

Author

Salman Yussof, Adzly Anuar, and Karina Fernandez

Published

2005

8. Investigating Communication Approach for Physically-Disabled Children Using Assistive Technologies

Author

Thinish A-L Parasuraman, Zailani Ibrahim, Adzly Anuar, and Azhana Ahmad

Subjects

Human–computer interaction, Computer science, Process (engineering), Assistive technology, medicine, User interface, medicine.disease, Cerebral palsy

Abstract

Communication among children with their parents or caregivers is the most important element in the learning process. However children with impairment such as cerebral palsy (CP) children, the process is challenging due to various incapability. Recently, assistive technology has been used to help these audience through mobile applications by adapting the requirement with the needs. In this study, observation and interviews held with the first prototype of CommelApps to small number of CP children and their parents. The findings will be used to create the second prototype for the development of the complete CommelApps mobile application that focusing on the assistive technology for specific users.

Published

2021

9. A Performance Study on Emotion Models Detection Accuracy in a Pandemic Environment

Author

Zubaidi Faiesal Mohamad Rafaai, Muhammad Fairuz Abdul Jalal, Husni Mohd Radzi, Salman Yussof, Khairul Salleh Mohamed Sahari, Prashalini Naidu A, P Raventhran, Priyadashini Saravanan, Leong Yeng Weng, Suvendran Ravindran, and Adzly Anuar

Subjects

Coronavirus disease 2019 (COVID-19), business.industry, Computer science, Deep learning, Inference, Pattern recognition, Research needs, Skin patch, Face masks, medicine.anatomical_structure, Face (geometry), Forehead, medicine, Artificial intelligence, business

Abstract

This paper studies emotion detection using deep learning on the prevalent usage of face masks in the Covid-19 pandemic. Internet repository data Karolinska Directed Emotional Faces (KDEF) [1] was used as a base database, in which it was segmented into different portions of the face, such as forehead patch, eye patch, and skin patch to be representing segments of the face covered or exposed by the mask were transfer learned to an Inception v3 model. Results show that the full-face model had the highest accuracy 74.68% followed by the skin patch (area occluded by the mask) 65.09%. The models trained on full-face were then used to inference the different face segments/patches that showed poor inferencing results. However, certain emotions are more distinct around the eye region. Therefore, this paper concludes that upper segmented faces result in higher accuracy for training models over full faces, yet future research needs to be done on additional occlusion near the eye section.

Published

2021

10. Initial Study of Low Cost Crepitus Joint Degradation Finding Using Acoustic Localization

Author

Khairul Salleh Mohamed Sahari, Adzly Anuar, Mohd Hanifah Bin Jusoh, Chandran Nadarajan, Yeng Weng Leong, Hiroaki Seki, Ong Hang See, and Muhammad Fairuz Abdul Jalal

Subjects

030203 arthritis & rheumatology, Crepitus, business.product_category, Computer science, business.industry, 02 engineering and technology, Multilateration, 03 medical and health sciences, 0302 clinical medicine, Data acquisition, Position (vector), 0202 electrical engineering, electronic engineering, information engineering, medicine, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, medicine.symptom, Gradient descent, business, Joint (audio engineering), Headphones, Degradation (telecommunications)

Abstract

Current methods of joint diagnosis depend on invasive, radiative methods, large set ups and requiring skilled operators, which are still not able to assess the joint during motion. Replacing these methods are acoustic methods, which are only able to diagnose joint health based on the characteristics sound emitted by a moving joint. This paper looks into informing the medical practitioner of the locations of joint damage instead, hence the feasibility of localizing upon the damaged part of the joint, which is represented by a playback of a recording of crepitus sounds emitted from a human joint in 2 dimensional settings. Three microphones, an earphone and a data acquisition device were used to implement the testing. Using the time-difference-of-arrival (TDOA) between the 3 sensors, the Angle-of-Arrival (AOA) method was used to attain the initial localization coordinates. These coordinates were then fed into a gradient descent algorithm to reduce the positioning error of the AOA method, yielding the final position results. Results show that the developed system is able to achieve localization errors of less than 1.0 cm.

Published

2020

11. Design of an Air-Duct Pipe Inspection and Cleaning Robot

Author

Juniza Md Saad, M. N. A. Arimi, and Adzly Anuar

Subjects

Microcontroller, Piping, Computer science, business.industry, Air conditioning, HVAC, Robot, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Dirt, Actuator, business, Engineering design process, Automotive engineering

Abstract

Air-ducts are one of the important elements in a building for making the living environment safe and healthy by ensuring smooth flow of fresh air, often cool air-conditioned, into rooms and spaces inside buildings. Often, over time, the air-ducts and vents can be unclean with dusts, dirt and contaminants. This can affect the performance and efficiency of the heat, ventilation and air conditioning (HVAC) system, and more importantly the people’s health. Manual cleaning of the air duct usually very challenging, tedious and time consuming. Considering these conditions, an in-pipe robot that can move along air-duct piping to carry out inspection and cleaning work is designed. This paper describes the design process that was carried out, started out with developing the design requirements and intended functions of the robot. A 3D model was developed using Creo software and stress analysis were conducted. The final design of the robot was produced, utilizing Arduino Uno as the main microcontroller, eight servomotors for the actuators and multiple pressure sensors are used to assist in the navigation and motion.

Published

2020

12. Design and Development of Robotic System for Visual Inspection of Boiler Tube Inner Surface

Author

Dickson Neoh Tze How, Muhammad Fairuz Abdul Jalal, Mohd Azwan Aziz, Khairul Salleh Mohamed Sahari, Muhammad Fahmi Abdul Ghani, Kamal Yunos, and Adzly Anuar

Subjects

Computer science, business.industry, Boiler (power generation), Mechanical engineering, Borescope, Welding, engineering.material, Modular design, law.invention, Visual inspection, Coating, Buckling, law, engineering, General Earth and Planetary Sciences, Robot, business, General Environmental Science

Abstract

In general, inspection routine at power plant industry can be significantly improved by implementing integrated inspection system of which offer various advantages in term of ease of use, reliability, safety, cost and efficiency. Our research center have developed few inspection robots namely MK-01 and LS-01 to inspect boiler header inner surface condition. The robots is specifically designed for inspection of inner surface of boiler header. However, the robots are not suitable for boiler tube inspection due to the size constraint. Later, much smaller robots with magnetic wheels namely ND-01 and ND-02 are developed for boiler tube inspection. In this paper, the design and development of integrated modular borescope guide with acquisition and localization system is presented. The modular borescope guides are able to transverse in 28mm tube with straight, wavy or bended tube arrangement. The guides use spring as passive support and wall press element to overcome buckling effect. The user can manipulate the robot movement and visually inspect the inner tube surface via developed GUI. The embedded localisation system enable the user to pinpoint the exact location of defects inside the boiler tubes. Inspection aspects include checking for cracks, inspecting the coating layer on the inner surface, welded joints, inlet and outlet tubes etc. The testing result on comparing actual distance and distance measured by the encoder shows 0.9% accuracy, of which considered reasonable for the application.

Published

2017

13. Design and Development of Platform Deployment Arm (PDA) For Boiler Header Inspection at Thermal Power Plant by Using the House of Quality (HOQ) Approach

Author

Khairurrijal Ab. Halim, Khairul Salleh Mohamed Sahari, Fevi Syaifoelida, M. R. Eqwan, Iszmir Nazmi Ismail, Adzly Anuar, and Muhammad Fairuz Abdul Jalal

Subjects

Mains electricity, Power station, Computer science, business.industry, 05 social sciences, Boiler (power generation), Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, House of Quality, 010501 environmental sciences, 01 natural sciences, Automotive engineering, Software deployment, Embedded system, 0502 economics and business, Header, General Earth and Planetary Sciences, business, 050203 business & management, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Power plant inspection is a regular activity for repair and maintenance purposes. Boiler headers serve as to tie multiple steam mains to one boiler or multiple boilers to one or more steam mains. The challenge to do inspection inside boiler headers is they come with different configuration of inspection entry. A special Platform Deployment Arm (PDA) is built to latch the inspection robot inside the boiler header. A House of Quality (HOQ) approach is applied the design the PDA in order to construct the relationship between engineering or technical aspects with the customer requirements. Those requirements displayed in the form of matrix before translating it into the final design. All the designs and development selection process of PDA based on HOQ are shown in this study. Several lab tests were done to validate the workability of the PDA.

Published

2017

14. Impact of Different Annealing Processes on the Performance of Nylon-Based Artificial Muscles for the Use in Robotic Prosthetic Limbs

Author

Nurul Anis Atikah, Adzly Anuar, and Yeng Weng Leong

Subjects

Slow heating, Materials science, Annealing (metallurgy), Slow cooling, Prosthetic limb, Mechanical engineering, Artificial muscle, Actuator, Durability

Abstract

Artificial muscles made of nylon fishing strings can be actuated using heating and cooling or induced electrically or thermally. These nylon fishing strings show promise in replacing the bulky and expensive actuators that are typically used in robotic prosthetic, as they are lightweight and relatively low in cost. The lifespan and performance of these artificial muscles need to be identified for further development in the use of prostheses and artificial muscles. In this research, we conducted experiments, where the nylon strings that have been coils into Super-coiled polymer (SCP) were tested after going through four different conditions of annealing process. these strings are then tested in lab-based rig to be checked for durability and performance. From the result, we discover that using Slow heating slow cooling (SHSC) annealing process makes the artificial muscles become more durable and while the string undergoes Fast heating fast cooling (FHFC), it can exert higher force comparing to other approaches. This result proves to be useful in deciding the most suitable process to prepare the string to obtain the best performance for the use in robotic prosthetic.

Published

2019

15. Development of nylon-based artificial muscles for the usage in robotic prosthetic limb

Author

Chau Chien Fat, Khairul Salleh Mohamed Sahari, Izham Zainal Abidin, Nurul Anis Atikah, Leong Yeng Weng, and Adzly Anuar

Subjects

Engineering drawing, Engineering, Thermoelectric cooling, business.industry, medicine.medical_treatment, medicine, Prosthetic limb, Artificial muscle, business, Prosthesis, Biceps, Biomedical engineering, Air blower

Abstract

This paper describes the development of nylon-based artificial muscles that is intended to be used in prosthetic limb for young amputees. Prosthetic limbs are very expensive and this situation is further compounded for young amputees who are very quickly out-grow their prosthesis. The proposed artificial muscles are made of nylon fishing strings from various size such as 0.45mm, 0.55mm, 0.65mm and 1.00mm. These fishing strings were twisted into coils to create Super Coiled Polymers (SCP) and tested using hot air blower. These artificial muscles react counterintuitively, where when it is exposed to heat, contracts, and when cooled, expands. Peltier devices, when switched-on acts as heat pump, where one side is hot and the other is cold. This phenomenon, when affixed in between 2 SCP’s, creates tandem motion similar to triceps and biceps. As initial study, the hot side of the Peltier module was tested using these artificial muscles. The string was measured for both its force production, length contraction, ...

Published

2017

16. Development of Program Educational Objectives (Peo) for Engineering Program at UNITEN

Author

Adzly Anuar, Hazlinda Hakimie, Miszaina Osman, and Khairul Salleh Mohamed Saharia

Subjects

Outcome-Based education, Program objectives, Engineering program, Accreditation, Program outcomes, Stakeholder

Abstract

The College of Engineering (COE) of Universiti Tenaga Nasional (UNITEN), Malaysia has implemented outcome-based education (OBE) in all its engineering programs since 2007 due to the requirement of accreditation body, the Malaysia Engineering Accreditation Council (EAC). Recently EAC has introduced new updates and consequently, COE has developed a new set of PEO (Program Educational Objectives) and PO (Program Outcomes) to fulfil this requirement. A new approach is used in coming up with these objectives and outcomes. This paper describes the process of developing the PEO and PO at college level and how stakeholders? inputs are being taken into consideration in improving the outcomes. This paper also discusses on how these outcomes are trickled down and implemented at department level.

Published

2014

17. Learning Basic Mechatronics through Helicopter Workshop

Author

Adzly Anuar, Maryam Huda Ahmad Phesal, Azrul Abidin Zakaria, Goh Chin Hock, Sivadass Thiruchelvam, Dickson Neoh Tze How, Muhammad Fahmi Abdul Ghani, and Khairul Salleh Mohamed Sahari

Subjects

ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, RC helicopter, Microcontroller, Arduino, Mechatronics, Active learning, Critical thinking

Abstract

In recent years, technologies related to mechatronics and robotics is available even to elementary level students. It is now common to see schools in Malaysia using Lego Mindstorm as a tool for active learning on mechatronics and robotics. A new yet interesting way of learning mechatronics and robotics is introduced by Dr. Dan Barry, a former astronaut and his son Andrew Barry during their visit to Malaysia. The kits used are based on a 4-channel RC helicopter, Arduino Uno microcontroller, IR transmitter and a PC or laptop. This paper discusses the techniques used and the feedback gathered from the participants of the workshop.

Published

2014

18. Evaluating engineering students performance in physics courses during foundation studies

Author

Zolman Hari, R. Mokhtar, Mohd Zin Mokhtar, and Adzly Anuar

Subjects

Engineering, Process (engineering), business.industry, media_common.quotation_subject, 05 social sciences, Foundation (engineering), 050301 education, Mechanical engineering, Engineering program, Bachelor, 0502 economics and business, Mathematics education, 050207 economics, business, 0503 education, media_common

Abstract

Student who intends to pursue bachelor engineering program at Universiti Tenaga Nasional (UNITEN) must undergo a one-year foundation program. For mechanical (ME) and electrical (EE) engineering students, Physics courses are among the main subjects that they need to take during their foundation study. Physic 1 generally focuses more on mechanical topics, while Physics 2 focuses more on electrical topics. This paper describes the study that was carried out in the engineering foundation programs at UNITEN to see the performance of two different students' groups (ME and EE) taking the same subject. The results from the past four years were analysed. It was found that, for Physics 1, there is no significant different between mechanical engineering and electrical students (t(636)=−1.044, p=.297 >0.05). Similarly for Physics 2, no significant different was also found ((596)=−1.929, p=.054 >0.05). This finding provides a new insight on and ongoing process to improve the teaching and learning approach for Physic courses.

Published

2016

19. Development of a low cost upper limb motion tracking system with real-time visual output

Author

Khairul Salleh Mohamed Sahari, Ewe Chern Yue, and Adzly Anuar

Subjects

Engineering, business.industry, 0206 medical engineering, 02 engineering and technology, Repeatability, Tracking (particle physics), 020601 biomedical engineering, Visualization, Microcontroller, Match moving, Inertial measurement unit, Personal computer, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, business, Simulation, Motion system

Abstract

This paper describes the work done in developing a simple low-cost system for tracking upper human limb motion system with relatively satisfactory accuracy and repeatability. The system mainly uses two inertial measurements units (IMU)-based sensor, connected to an Arduino Uno microcontroller, which are plugged to a personal computer (PC). An open source 3D visualization code is used to display the result motion. A prototype was built, which cost less than USD 50, and tested. The results from yaw, pitch and roll values show that the range of error percentage is between 0.17 to 6.24% with a relatively repeatable pattern.

Published

2016

20. A Review: Hybrid Locomotion of In-pipe Inspection Robot

Author

Nur Shahida Roslin, Adzly Anuar, Muhammad Fairuz Abdul Jalal, and Khairul Salleh Mohamed Sahari

Subjects

in-pipe inspection robot, Engineering, business.industry, Hybrid locomotion, Mobile robot, General Medicine, Propulsion, wall-pressed robot, GeneralLiterature_MISCELLANEOUS, Motion (physics), Robot control, Mechanism (engineering), Robot, business, Simulation, Engineering(all), Robot locomotion

Abstract

In the past five years, researchers have improvised the existing in-pipe inspection robots by developing hybrid locomotion by combining two or more propulsion mechanism in achieving robust but yet flexible robot platform. In this paper, several hybrid robots have been reviewed and categorized according to their implemented locomotion system. The hybrid locomotion systems are caterpillar wall-pressed type, wheeled wall-pressed type and wheeled wall-pressing screw type. Each hybrid locomotion system is developed according to distinct design requirements for specific environment and might be not suitable for other application. The aim of this review is to highlight the current innovation of in-pipe robot for inspection. Based on the study, wall pressed type is the most popular main locomotion system in in-pipe robot development. Most of the prototypes are able to travel into branches with the same diameter as the pipe. Integration of caterpillar wheel gives more advantage in preventing motion singularity problem while surpassing branches. On the other hand, wheeled wall-pressed type provides advantage in high speed mobility. Wheeled wall pressing screw type gives the best navigation in curved pipe. None of these inventions show their ability in navigating bigger pipe to smaller branches.

Published

2012

21. Development of a Low Cost Small Sized In-Pipe Robot

Author

Abdul Talip Zulkarnain, Adzly Anuar, Raziq Asyraf Md Zin, Juniza Md Saad, and Khairul Salleh Mohamed Sahari

Subjects

Engineering, Traverse, business.industry, Process (computing), Mechanical engineering, Ranging, Mobile robot, General Medicine, mobile robot, Pipeline (software), Pipeline transport, magnetic wheel, Magnet, mechanical design, Robot, pipe inspection robot, business, Engineering(all), Simulation

Abstract

This thesis reports the process of design and development of a low cost small sized in-pipe inspection robot. Problem of a pipe inspection operation surfaces when the robot only has a limited coverage of the inner surfaces of the pipe. Moreover, current solutions are largely sized and are not appropriate for smaller sized pipelines. Feasibility study completed produced a set of design requirements to be met for the final design to be able to operate inside a pipeline with inner diameter ranging from 80 mm to 180 mm. The use of magnets was decided as an adhesion system to allow the robot a full range of motion inside the pipe. Technical analyses were completed in parallel with the design work to ensure the design remains up-to-date in case there are changes in the off-the-shelf components used. A prototype of the final design was fabricated. Tests completed successfully demonstrated the robot traversing vertically and upside down on ferromagnetic surfaces, further proving the feasibility of the motor selection analysis. Moreover, the final design prototype managed to successfully satisfy the main objective of the project by being able to fit in a pipe environment with inner diameter ranging from 80 mm to 180 mm.

Published

2012

22. Modular Motor Driver with Torque Control for Gripping Mechanism

Author

Dickson Neoh Tze How, Syed Sulaiman Kaja Mohideen, Khairul Salleh Mohamed Sahari, Adzly Anuar, and Mohd Zafri Baharuddin

Subjects

DC motor control, Engineering, business.industry, PI Controller, PID controller, Control engineering, General Medicine, torque control, DC motor, PID Controller, Setpoint, gripping actuator, current flow sensing, Motor controller, Direct torque control, Control theory, PD Controller, Torque, business, Actuator, Engineering(all)

Abstract

This paper presents the algorithms for controlling the torque of a DC motor via a motor driver. Controlling the torque of the DC motor is achieved via PWM variations. The core of the project lies in the capability of the algorithm to regulate PWM to the motor by sensing the average current flow. This algorithm, when implemented on a DC motor that is coupled to a gripping actuator will enable the actuator to have torque control to grasp an object. Torque control algorithm in a gripping actuator will allow sufficient force to be exerted to the object grasped without damaging the object. Apart from that, this algorithm will also protect the hardware of the actuator to ensure it is operating within the continuous current rating of the motor and driver. This is possible by taking in the magnitude of the current drawn by the load as the feedback to the system and set appropriate action to protect the system from damage when a certain setpoint of current is reached. In implementing the project, several algorithms were tested to achieve the torque control algorithm requirement including on-off algorithm, P algorithm, PI algorithm, PD algorithm and PID algorithm. Using the same hardware configuration, the different algorithms produced different outcomes on the output of the controller. The output of the controller is monitored on a computer via serial communication. The serial communication over the USB port on the computer is done by utilizing the Processing programming language and integrated development environment (IDE). This software will enable the output of the controller to be mapped on the computer monitor to provide a real-time graphical view of the output values to the user. These graphical outputs of the controller was evaluated based on the response time, degree of overshooting, and steady-state error to determine the most optimal method of control to be implemented in torque control scheme. The advantage of this method is the minimal cost incurred and the system built does not involve complex feedback system. The application of this system for now is limited to controlling motors connected directly to the load (gripper) without passing through any gear conversions.

Published

2012

23. RS-485 Interface for Boiler Header Inspection Robot Prototype

Author

Nur Maisurah Hassan Basri, Khairul Salleh Mohamed Sahari, Adzly Anuar, Mohd Zafri Baharuddin, and Syed Sulaiman Kaja Mohideen

Subjects

Engineering, business.industry, RS-485, Boiler (power generation), Communication link, Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Mobile robot, General Medicine, Automotive engineering, Embedded system, Header, Robot, business, mobile robot, boiler header inspection, Engineering(all)

Abstract

This paper discusses the design of an RS-485 interface for Boiler Header Inspection Robot (BHIR) prototype. BHIR is a robot developed for inspection of boiler headers in thermal power plants which are enclosed pipes and can range from 3 to 20 meters in length. They are horizontal in configuration and have boiler tubes inlets and outlets. The current prototype is tether based and requires cables up to 20 meters. RS-485 interface is presented in this paper which is used to develop a communication link between PC-based control (GUI interface) with the BHIR Prototype on-board controller. Since RS-485 is reliable and stable in monitoring and controlling system, BHIR Prototype can work effectively throughout the length of the boiler header.

Published

2012

24. Development of 3D Boiler Header Template using Webots

Author

Adzly Anuar, Khairul Salleh Mohamed Sahari, Nur Maisurah Hassan Basri, Syed Sulaiman Kaja Mohideen, and Nur Shahida Roslin

Subjects

simulator, Engineering, Engineering drawing, business.industry, Boiler (power generation), Webots, ComputerApplications_COMPUTERSINOTHERSYSTEMS, General Medicine, computer.file_format, inspection robot, World file, in-pipe robot, VRML, Header, Robot, business, computer, Simulation, Engineering(all)

Abstract

Offline boiler header inspection is a tedious process if done manually since the opening is very small to insert big instruments and tools while the length can range up to 20 m. The geometry can also be complex since boiler tubes are connected to these headers from different directions. Designing of robots to assist in offline boiler header inspections can be made easier if a simulator is available for deciding the parameters of the robot. This paper describes the development of a 3D boiler header pipe environment template for boiler header inspection robot (BHIR) using Webots. The purpose is to use it as a simulator for the development of BHIR prototypes. Firstly, 3D boiler header pipe environment is constructed by using Pro Engineer (Pro\E). Next, Virtual Reality Modeling Language or VRML97 is used to convert file from Pro\E world file to Webots world file. Finally, simulations are carried out to verify the effectiveness of the developed 3D boiler header environment template. Results show the advantages of having the simulator for modeling and designing of BHIR prototypes.

Published

2012

25. Development of 1-inch boiler tube inspection robot

Author

Khairul Salleh Mohamed Sahari, Adzly Anuar, Muhammad Fairuz Abdul Jalal, and Muhammad Asyraf Azlin Shah

Subjects

Engineering, business.industry, Mechanical engineering, Mobile robot, Borescope, law.invention, Nominal size, Visual inspection, law, Robot, Tube (fluid conveyance), Electricity, Electric power industry, business, Simulation

Abstract

Usage of robotic technology in power industry applications is gaining a lot of interest. Current method of using borescope for inspection by Tenaga Nasional Berhad, the main electricity utility company in Malaysia has several limitations. The usage and development of inspection robot should be expanded to overcome the limitations. Thus, this paper presents the design and development of a small boiler tube inspection robot that is capable of operating in boiler tube with nominal diameter of 1 inch and capable to move in 90° elbow tube. The developed prototype consists of two modules; one for the camera to perform visual inspection and one for the locomotion. Magnetic wheels are adopted to allow vertical movement inside the pipes. Analysis had been done before fabrication and assembly. The final dimensions for the developed inspection robot are 70mm in length, 15mm in height 21mm in width. The total weight of inspection robot is 18g. Different types of tests have been conducted to test the developed prototype. The results obtained show that the inspection robot is fully functional and met the objectives. The prototype is able to move horizontally and vertically steadily. It is also capable to move in 90° elbow tube. More flexible wiring and locking system for magnetic wheel should be developed for future improvements.

Published

2015

26. DESIGN OF WEARABLE DEVICE TO ASSIST CEREBRAL PALSY CHILDREN IN STANDING AND WALKING

Author

Farid Mahamud and Adzly Anuar

Subjects

medicine.medical_specialty, Engineering, business.industry, General Engineering, Wearable computer, medicine.disease, Brace, Lower limb, Cerebral palsy, Physical medicine and rehabilitation, medicine, Physical therapy, Special care, Assistive device, business, human activities

Abstract

Most children with cerebral palsy (CP) have difficulties in standing and walking. They would normally require assistive device to help in standing and walking. This paper describes the process that was carried out to design a wearable brace for the lower limb. This brace is intended to provide support during standing and walking for ambulant CP children. Design requirements were drawn up by conducting surveys and interviews with parents, CP child caregivers, and CP children. Safety is very crucial for the device, where special care is made to ensure it would not pose any hazard to the children and also the caregivers. Based on these information and the anthropometric measurements, the device has been designed and analyzed using 3D CAD software. From the analysis, the device shown to function as expected.

Published

2015

27. DEVELOPMENT OF MAGNETIC WHEELED BOILER TUBE INSPECTION ROBOT

Author

M. F. Abdul Jalal, Adzly Anuar, and K. S. Mohamed Sahari

Subjects

Boiler tube, Engineering, Power station, business.industry, Header, General Engineering, Boiler (power generation), Robot, Mechanical engineering, Structural engineering, business

Abstract

The periodical inspection of boiler header and tube is considered important to avoid power plant shutdown due to failures caused by degradation, creep, corrosion, thermo-mechanical loading and others. The boiler header inspection robots developed by our research center, namely “MK-02” and “LS-01”, are only able to inspect the boiler header but unable to travel in and examine the boiler tube condition. This paper introduces a boiler tube inspection robot with magnetic wheeled which is able to inspect the inner surface of 45 mm ferromagnetic tube. The detailed design and analysis of Boiler Tube Inspection Robot “ND-01”are presented. The experimental results proved that the proposed system was able to work efficiently. With further research, the proposed design is expected to improve the inspection of boiler tube or small pipe efficiency.

Published

2015

28. Control of non-linear actuator of artificial muscles for the use in low-cost robotics prosthetics limbs

Author

Nurul Anis Atikah, Adzly Anuar, Leong Yeng Weng, Chau Chien Fat, Khairul Salleh Mohamed Sahari, and Izham Zainal Abidin

Subjects

Thermoelectric cooling, business.industry, Computer science, Mechanical engineering, Robotics, law.invention, Computer Science::Robotics, Nonlinear system, law, Thermoelectric effect, Artificial muscle, Artificial intelligence, business, Actuator, Energy (signal processing), Heat pump

Abstract

Currently, the methods of actuating robotic-based prosthetic limbs are moving away from bulky actuators to more fluid materials such as artificial muscles. The main disadvantages of these artificial muscles are their high cost of manufacturing, low-force generation, cumbersome and complex controls. A recent discovery into using super coiled polymer (SCP) proved to have low manufacturing costs, high force generation, compact and simple controls. Nevertheless, the non-linear controls still exists due to the nature of heat-based actuation, which is hysteresis. This makes position control difficult. Using electrically conductive devices allows for very quick heating, but not quick cooling. This research tries to solve the problem by using peltier devices, which can effectively heat and cool the SCP, hence giving way to a more precise control. The peltier device does not actively introduce more energy to a volume of space, which the coiled heating does; instead, it acts as a heat pump. Experiments were conducted to test the feasibility of using peltier as an actuating method on different diameters of nylon fishing strings. Based on these experiments, the performance characteristics of the strings were plotted, which could be used to control the actuation of the string efficiently in the future.

Published

2017

29. Usage of robotic rehabilitation technology for lower limbs therapy of children with cerebral palsy - a review

Author

Adzly Anuar and Farid Mahamud

Subjects

Occupational therapy, medicine.medical_specialty, Rehabilitation, Software_GENERAL, business.industry, medicine.medical_treatment, technology, industry, and agriculture, Robotics, Robotic rehabilitation, medicine.disease, Cerebral palsy, body regions, surgical procedures, operative, Physical medicine and rehabilitation, medicine, Artificial intelligence, Session (computer science), business, human activities

Abstract

This paper reviews on the usage of robotic technology for lower limbs therapy of children with cerebral palsy (CP). CP children require regular therapy such as physiotherapy and occupational therapy. It was found that there is a growing trend of using robotic technology to assist in this therapy session. Several of these robotic-assisted have shown positive result in the rehabilitation process. The methods and robotics equipment that is found to have positive outcome in rehabilitation process are being highlighted in this paper. It is expected that the information gathered in this paper will be used to farther develop the robotic-assisted technology for lower limbs rehabilitation process of CP children.

Published

2014

30. Image Acquisition System for Boiler Header Inspection Robot

Author

Khairul Salleh Mohamed Sahari, Adzly Anuar, Mohd Azwan Aziz, Mohd Zafri Baharuddin, Muhammad Fahmi Abdul Ghani, and Dickson Neoh Tze How

Subjects

Visual inspection, Power station, business.industry, Computer science, Software selection, Embedded system, Header, Boiler (power generation), Image acquisition, Robot, ComputerApplications_COMPUTERSINOTHERSYSTEMS, business, Computer hardware

Abstract

This paper aims to present development of an image acquisition in the task of power plant boiler header inspection. Among the content of this paper includes hardware selection and software selection and integration of both systems to form a complete image acquisition system. The real challenge behind the project is the miniature scale of the robot that will be used to carry the image acquisition system into the boiler header, since a boiler header entrance is normally only about 80 mm in diameter. Hardware system needs to be small enough to fit into the boiler header entrance. This paper also discusses the results from testing in Stesen Janakuasa Sultan Ismail, Paka as a verification of the workability of the designed system.

Published

2014

31. Robotic Arm Control Based on Human Arm Motion

Author

Dickson Neoh Tze How, Chan Wai Keat, Adzly Anuar, and Khairul Salleh Mohamed Sahari

Subjects

Computer science, business.industry, Human arm, technology, industry, and agriculture, Wearable computer, Rotation, Motion (physics), body regions, Microcontroller, Six degrees of freedom, Computer vision, Artificial intelligence, business, human activities, Robotic arm

Abstract

This paper discusses the development of a robotic arm whereby its motion is controlled based on the movements of the human arm. There are three major components in this project. They are a wearable control device, microcontroller and robotic arm. The wearable control device acts as a sensor to translate the physical movement of the human arm into electrical signals. The translated signals in the form of positional data are sent to the microcontroller unit for processing. The microcontroller unit processes the signals and outputs it to the robotic arm as physical replicated movements. The wearable control device is capable of sensing six degrees of freedom by the human arm joints movements. This includes rotation of the shoulder, arm, bending of the shoulder, elbow, wrist, and gripping motion. The fabricated robotic arm is able to perform six different motions replicating and mimicking the motions of the human arm.

Published

2014

32. Inspection Robot for Parallel Entry Boiler Header Pipe

Author

Khairul Salleh Mohamed Sahari, M. Azwan Aziz, Nur Shahida Roslin, and Adzly Anuar

Subjects

Engineering drawing, Computer science, Header, Boiler (power generation), Robot, Servomotor, Gimbal, Simulation, Leadscrew

Abstract

This paper presents the development of inspection robot for parallel entry boiler header pipes with drastic change in diameter. The proposed robot consists of caterpillar based robot body, lifting mechanism and camera gimbal mechanism. These mechanisms are designed to adapt the sudden pipe diameter change from 89mm to 300mm. This robot applies differential drive locomotion system that provides turning ability plus forward and reverse movement. Lifting mechanism consists of linear transmission using leadscrew and scissors linkage mechanism. This enables the robot to retract when entering the parallel entry and expand in bigger pipe. Camera gimbal mechanism enables the robot to acquire 360° inner pipe surface image with its position. Experiments have been accomplished to investigate the functionality of these mechanisms. Results obtained shows that the robot has fulfilled its design requirements and achieved its objective.

Published

2014

33. Corrosion Detection Using LabVIEW for Robotic Inspection of Boiler Headers

Author

Adzly Anuar, Khairul Salleh Mohamed Sahari, Mohd Azwan Aziz, and Nadiah Amalina Zulkifli

Subjects

Engineering drawing, Engineering, Piping, business.industry, Boiler (power generation), Mechanical engineering, Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Image processing, Thresholding, Edge detection, Corrosion, Header, business

Abstract

Boiler header is the backbone of piping system inside thermal power plant which is used to tie multiple steam mains to one boiler. It is important to check the header for any signs of defects. This paper presents an image based approach to detect cracks and corrosions inside a boiler header using LabVIEW software. After an image of the boiler header inner wall is captured, thresholding technique is applied to manage background variation of the acquired image. Then, the boundaries of the corroded area are identified by using edge detection algorithm. The last step is to apply particle analysis for parameters measurement. Experiments are carried out on a 360° view of a cross-section of a boiler header for inspecting the surface defects of the boiler headers. The result from the experiment shows a reasonable success rate of correctly identifying corrosion inside the header.

Published

2014

34. Design and Development of Small and Simple Dual Robot for Inspecting Pipe with Perpendicular Entry

Author

Mohd Nazrin Afzan Abu Bakar, Khairul Salleh Mohamed Sahari, Nur Shahida Roslin, and Adzly Anuar

Subjects

Cable gland, Engineering, Robotic systems, business.industry, Simple (abstract algebra), Acoustics, Base (geometry), Perpendicular, Robot, Development (differential geometry), Structural engineering, business, Dual (category theory)

Abstract

This paper presents the development of a small and simple dual robot system for pipe inspection activity. The objective is to propose small and simple dual robot in navigating perpendicular entry with sudden change in pipe diameter. Sudden change in diameter is referred to the drastic difference in size of the entry (80 mm in diameter) and the pipe (250 mm in diameter and above). The robot consists of two rectangular-shaped modules linked with a connector. The size of the body is 38 mm (width) × 55 mm (length) × 44 mm (height). Each module is driven by two micro metal gear motors. It uses caterpillar base for locomotion to provide larger surface contact to the pipe wall. The 2 degree-of-freedom (DoF) connector allows the robot to bend in pitch and yaw axes without any drive force required. Preliminary test result shows its ability to navigate through the expected geometry.

Published

2014

35. Development of robotic boiler header inspection device

Author

Adzly Anuar, Mohd Zafri Baharuddin, B. H. Ahmad, Mohd Azwan Aziz, Khairul Salleh Mohamed Sahari, Syed Sulaiman Kaja Mohideen, Nur Shahida Roslin, Iszmir Nazmi Ismail, and Nur Maisurah Hassan Basri

Subjects

Carbon steel, Computer science, Header, engineering, Boiler (power generation), Thermal power station, engineering.material, Corrosion, Marine engineering

Abstract

This paper discusses the development and actual site testing of an inspection robot designed for boiler header inspections in thermal power plants in Malaysia owned by Tenaga Nasional Berhad (TNB). The purpose of boiler headers are to tie up multiple boiler tubes together. Boiler headers are enclosed cylindrical pipes made of carbon steel, horizontal in nature, can range up to 25 m (from TNB database). These boiler headers are highly pressurized and high in temperature during operation, where the pressure goes up to a few bars and the temperature ranges between 500°C until 800°C. Due to the severe working conditions, these boiler headers are exposed to threats of possible failure due to corrosion, pitting and cracks. During outage, after acquiring approval from Department of Safety and Health (DOSH), a small cut is made on the entry point and a boiler header inspection robot (BHIR) is then deployed into the boiler header, carrying a fiber optic camera. BHIR is developed to visually inspect the inner wall of boiler headers and check for signs of failures. This paper discusses the limitations and requirements of the robot, the prototype and also the procedures for actual site testing. Lastly, the site testing results is explained.

Published

2012

36. Development of in-pipe inspection robot: A review

Author

Mohd Zafri Baharuddin, Juniza Md Saad, Abd Jalal, Khairul Salleh Mohamed Sahari, Muhammad Fairuz, Adzly Anuar, and Iszmir Nazmi Ismail

Subjects

Robot kinematics, Engineering drawing, Engineering, business.industry, Sorting, Robot, Mobile robot, business, Maintenance engineering, Pipeline (software), Task (project management), Robot control

Abstract

This paper reviewed several previous papers on work that have been done on the development of in-pipe inspection robot for the last 20 years. By sorting the types of the inspection robots they can be divided into several groups according to their locomotion. Each prototype has its own advantages and disadvantages depending on its design requirements and purpose of inspection. The prototypes have been tested in several experiments in order to verify its functionality and efficiency of inspection task. Some of the researchers ran simulations to validate the kinematic and modeling the mechanism of their own prototype. Developing in-pipe inspection robot can overcome the issues of human factor in labour intensive or dangerous work and also to act in inaccessible environment during repair and maintaining inside the pipeline.

Published

2012

37. Design And Development Of A 4–Dof Scara Robot For Educational Purposes

Author

Khor Hong Weng, Syed Sulaiman Kaja Mohideen, Khairul Salleh Mohamed Sahari, Adzly Anuar, Yap Wee Han, and Mohd Zafri Baharuddin

Subjects

Engineering, business.industry, SCARA, General Engineering, Control engineering, business

Abstract

Robotik telah menjadi satu subjek yang biasa ditawarkan dalam kebanyakan institusi pengajian tinggi di negara ini. Walaupun terdapat banyak robot–robot yang boleh dibeli di pasaran, kebanyakannya adalah untuk kegunaan perindustrian dan berkos tinggi. Terdapat keperluan untuk menghasilkan robot berkos rendah untuk kegunaan mahasiswa dan mahasiswi di institusi pengajian tinggi negara dalam mempelajari elemen–elemen robotik seperti reka bentuk, kinematik, dinamik, penderiaan dan kawalan. Kertas kerja ini membentangkan proses merekacipta dan membangunkan satu robot SCARA dengan 4 darjah kebebasan berkos rendah yang boleh digunakan untuk tujuan pembelajaran, penyelidikan dan juga pameran. Kertas kerja ini membincangkan kaedah yang digunakan dalam reka bentuk dan pembangunan robot SCARA termasuk definisi spesifikasi, reka bentuk konseptual, pembangunan produk, dan uji kaji. Dalam fasa definisi spesifikasi, parameter robot SCARA akan ditetapkan terlebih dahulu. Selepas itu, reka bentuk konseptual terbaik akan dipilih selepas membuat penilaian terhadap semua konsepkonsep dalam fasa reka bentuk konseptual. Kemudian, dalam fasa penghasilan produk, reka bentuk yang terpilih akan disempurnakan lagi. Kemudian, analisis tegasan menggunakan analisis unsur terhingga akan dijalankan sebelum prototaip dihasilkan. Kinematik langsung dan songsang, dinamik robot kemudiannya dikaji. Komponen–komponen akan dipilih berdasarkan parameter–parameter hasil analisa dan pengiraan. Komponen elektronik seperti pengesan dan pengawal menggunakan pengawal mikro kos rendah kemudiannya dipasang. Akhirnya, robot SCARA yang dihasilkan akan diuji untuk melihat sama ada ia menepati sasaran parameter–parameter yang telah ditetapkan. Kata kunci: Robot SCARA; RRPR; kinematik dan dinamik; robot Robotics have become a common course in a lot of higher institutions. Although there are many robots available in the market, most of them are for industrial purposes and are costly. There is a need to develop low cost robots for students in higher institutions to learn the elements of robotics such as design, kinematics, dynamics, sensing and control.The aim of this project is to design and develop a mechanical structure of a SCARA robot that can perform certain tasks for educational, research and exhibition purposes such as pick and place operation. The paper discusses the steps used in design and development of a 4 degree of freedom (DOF) SCARA robot which includes specification definition, conceptual design, product development, and testing. In specification definition phase, the specifications of the SCARA robot are first determined. After that, the best conceptual design of the SCARA robot is chosen after making concept evaluation in the conceptual design phase. Then, in third phase which is the product generation, the chosen design of the SCARA robot is fine–tuned. Stress analysis using finite element analysis is carried out before a prototype is developed. The direct and inverse kinematics, dynamics of the robot are then modeled. Off shelf parts are also selected based on the derived parameters from calculations. Electronic parts such as sensors and dedicated controller using low cost microcontroller are then developed. Finally, the developed SCARA robot is tested to see whether it fits the targeted specifications. Key words: SCARA robot; RRPR; kinematics and dynamics; educational robotics; microcontroller

Published

2012

38. Implementation of a new Preference Based Final Year Project title selection system for undergraduate engineering students in UNITEN

Author

K. S. Mohamed Sahari, Adzly Anuar, and Mohd. Hafiz Hasan

Subjects

Engineering, Engineering management, Academic year, business.industry, First-come, first-served, Engineering education, Order (business), business, Flow network, Selection (genetic algorithm), Preference, Test (assessment)

Abstract

The department of Mechanical Engineering in Universiti Tenaga Nasional decided to test and implement a new Final Year Project title selection system because of perceived weaknesses in the existing system which employs a first come first served mechanism to allocate titles to students. The new system, dubbed the Preference Based system, uses a computer algorithm to allocate titles to students based on students' submissions of their 10 most preferred titles in order of preference. Three algorithms were developed for this allocation purpose, and they were evaluated by calculation and comparison of the costs of their selection. The Network Flow Optimization algorithm, which was able to produce a selection with the lowest cost, was selected and used to allocate titles for students from Semester 1 of the 2009/2010 academic year. The algorithm was able to ensure that each student got one of their 10 preferred titles and 78.5% of the students got titles that were ranked in their top 3. A survey carried out after the selection exercise confirmed the students' satisfaction and preference of the new system over the previous first come first served system.

Published

2009

39. A strategy to evaluate programme level outcomes

Author

Hanim Salleh, Adzly Anuar, Mohd. Hafiz Hasan, and Norshah Hafeez Shuaib

Subjects

Engineering, Measurement method, Data collection, business.industry, media_common.quotation_subject, Bachelor, Outcome (game theory), Test (assessment), Engineering management, Engineering education, Programme level, business, Set (psychology), media_common

Abstract

Evaluation of the attainment or achievement of Programme Outcomes (PO) is one of the essential parts in Outcome-Based Education (OBE) system. Direct and indirect assessment methods may be used in evaluating the achievement of PO. Direct assessment method normally uses data from final exams, test, quizzes, assignments or projects for the evaluation. Other methods that are used include course survey, peer review, lecturers' observation and industry survey. This paper discusses the strategy that the Mechanical Engineering Department employed to evaluate the PO for its Bachelor of Mechanical Engineering Programme. Initially the department only use direct measurement method to evaluate the programme outcomes. Upon receiving feedback from several constituencies, the department decided to revise and come up with a new strategy to evaluate the programme outcomes. In this strategy, only the courses that would contribute significantly to the PO are selected. Suitable measurement tools are identified and the attainment targets or the performance criteria are set. The relevant data is then collected, analysed and compared to the attainment target. If the target value is not attained, suggestions for improvement will be made and implemented. This method is expected to give a more reflective and accurate result while reducing the need to carry out too much data collection and analysis.

Published

2009

40. Continual improvement and assessment plan for Mechanical Engineering Programme in UNITEN

Author

Khairul Salleh Mohamed Sahari, Norshah Hafeez Shuaib, Izham Zainal Abidin, and Adzly Anuar

Subjects

Measurement method, Engineering, Quality management, business.industry, Process (engineering), Engineering profession, media_common.quotation_subject, Mechanical engineering, Plan (drawing), Bachelor, Engineering management, Engineering education, business, Accreditation, media_common

Abstract

This paper describes the continuous quality improvement (CQI) process plan that was developed and implemented by the Department of Mechanical Engineering (DME), Universiti Tenaga Nasional (UNITEN), Malaysia for its Bachelor of Mechanical Engineering Programme. The plan is part of the Outcome-Based Education (OBE) system that is required by the Engineering Accreditation Council (EAC) of Malaysia. DME has implemented OBE approach in the programme for the past 3 years. Throughout the implementation process, the Department has developed ongoing assessment and CQI plan to measure the outcomes and improve the teaching and learning process. This plan, which was first implemented at the end of 2006, has generally shown a positive trend in the teaching and learning process in the programme. This paper also discusses the assessment tools that are used in the continuous quality improvement (CQI) plan. Assessment is one of the important parts in the CQI plan. Direct and indirect measurement methods are used to gather the data which are to be analysed to measure the outcome attainment. The attainment results are used to identify the areas that need to be improved. The assessment plan has been continuously improved to be more effective in measuring the achievement of the OBE implementation in the department.

Published

2009

41. Algorithm for Robot Writing Using Character Segmentation

Author

Adzly Anuar, K. Fernandez, and Salman Yussof

Subjects

Social robot, Computer science, business.industry, Arm solution, Mobile robot, Robot control, Character (mathematics), Robot, Segmentation, Computer vision, Artificial intelligence, business, Robotic arm, Algorithm

Abstract

Currently, there are many ongoing researches that are targeted at making robots more human-like. One of the tasks that can be done by humans easily but is difficult to be done by robots is writing. In this paper, we are presenting a flexible algorithm that can allow a robot to write. This algorithm is based on character segmentation, where the main idea is to store character information as segments and the segment information can then be used by the robot to write. We have also developed a sample application using the proposed algorithm to allow a Mitsubishi RV-2AJ robotic arm to write English characters and numbers. Through our experiment, it has been proven that the algorithm developed is able to allow the robotic arm to write

Published

2005

42. Conceptual design for transmission line inspection robot

Author

K. S. Mohamed Sahari, M. F. Abdul Jalal, Adzly Anuar, A D Mohd Arshad, and M. S. Idris

Subjects

Power transmission, Engineering, Conceptual design, business.industry, Transmission line, Obstacle, Robot, Control engineering, Mobile robot, Line (text file), business, Simulation, Power (physics)

Abstract

Power transmission line is used for power distribution purposes due to their cost effective measure compared to underlying cable. However, prolonged exposure to natural weather may cause fatigue stress to the lines as well as induce material failure. Therefore, periodical line inspection is considered uttermost important as a preventive measure to avoid power outage. However, transmission line inspection has always been a high risk and expensive work. Hazardous works that may harm operator as well as routine that requires precise handling can be performed by robots. Various types of robots have been designed and developed for line inspection but only perform well on a straight and continuous line. As these robots encounter an obstacle during the inspection, then the real problem in terms of robot stability and smooth operation arises. In this paper, conceptual design and evaluation for transmission line inspection robot is presented. The inspection robot mobile robot must be able to bypass or avoid obstacles as it travels along the power transmission line.

Published

2013

43. Robot for Boiler Header Inspection 'LS-01'

Author

Iszmir Nazmi Ismail, Syed Sulaiman Kaja Mohideen, Nur Shahida Roslin, Khairul Salleh Mohamed Sahari, Nur Maisurah Hassan Basri, Adzly Anuar, Juniza Md Saad, Muhammad Fairuz Abdul Jalal, and Mohd Zafri Baharuddin

Subjects

Engineering, in-pipe inspection robot, Traverse, adjustable platform, business.industry, small entry point, Boiler (power generation), Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, General Medicine, Full coverage, Automotive engineering, Robotic systems, Embedded system, Header, Robot, A fibers, business, Engineering(all), Boiler header

Abstract

Inspection of boiler headers is routinely being performed in Tenaga Nasional Berhad (TNB) thermal power plants. It is very important to inspect boiler header from time to time to check for signs of possible failures because they are thick walled and exposed to various operating conditions. The currently used method is to insert a fiber optic camera probe into the boiler header entry manually by human. This work is very tedious and the inspector often has difficulties to acquire full coverage of the inner wall images. Therefore, it is proposed that a robotic system is developed to carry the fibre optic probe into the boiler headers and assist in a more efficient and reliable boiler header inspection. The developed robot prototype must be small enough to enter the header and must also have the capability to traverse the whole length of boiler header while carrying the existing fibre optic probe as well as cater for boiler header with different diameters. LS-01, presented in this paper, is the first boiler header inspection robot prototype developed, equipped with semi-intelligent system and adjustable entry platform, and is capable of traversing inside boiler headers with various tube configurations. It has been tested in accordance with the engineering requirements set by TNB. Testing has shown the potential of the robot to be applied in a real boiler header inspection processes.

44. Design of walkway rig system for gait motion tracking of children with cerebral palsy

Author

Adzly Anuar, Farid Mahamud, and Mohd Aidil Mohd Aini

Subjects

Engineering, business.industry, General Engineering, Modular design, medicine.disease, computer.software_genre, Cerebral palsy, Gait (human), Parallel bars, Match moving, medicine, Computer Aided Design, Systems design, Overhead (computing), business, computer, Simulation

Abstract

This paper reports the design of walkway rig system for gait motion tracking of children with cerebral palsy (CP) at Universiti Tenaga Nasional (UNITEN), Malaysia. The walkway rig consists of a modular walkway platform, adjustable parallel bar, and overhead gantry with body support harness system. The rig has been designed to support different modes of walking assistance depending on a subject’s walking capability. The modes of walking assistance are body weight support system, parallel bars along walkway, usage of walker, and human assisted. The key feature of this system lies in the flexibility of it to enable more options during gait motion tracking for CP children. System design and stress analysis were done using CAD software. The design is evaluated using virtual mannequins to check the functions and suitability for CP children. The evaluation shows that the proposed system is feasible to be implemented for CP children gait motion tracking.