PROF DR. YUSRI BIN YUSOF
Professor Universiti Tun Hussein Onn Malaysia
Faculty of Mechanical and Manufacturing Engineering
yusri@uthm.edu.my

NO	NAME	INSTITUTION	FACULTY/SCHOOL/ CENTRE/UNIT
1	Ahmad Majdi bin Abdul Rani	UTP	Mechanical Engineering
2	Nazri Mohd Nawi	UTHM	Faculty of Computer Science and Information Technology
3	HAIRI BIN ZAMZURI	UTM	MALAYSIA-JAPAN INTERNATIONAL INSTITUTE OF TECHNOLOGY
4	Md Saidin Bin Wahab	UTHM	Faculty of Mechanical and Manufacturing Engineering
5	Kamran Latif	UTEM	Faculty of Mechanical and Manufacturing Engineering Technology
6	Erween Bin Abd Rahim	UTHM	Faculty of Mechanical and Manufacturing Engineering
7	Aini Zuhra Abdul Kadir	UTM	School of Mechanical Engineering, Faculty of Engineering
8	MOHD ELIAS BIN DAUD	JPP	Department of Mechanical Engineering
9	Aida Mustapha	UTHM	Faculty of Applied Science and Technology
10	Noordiana Binti Kassim @ Kasim	UTHM	Diploma Studies Centre
11	Zamberi Jamaludin	UTEM	Faculty of Manufacturing Engineering

2 years (15 August 2017 - 14 August 2019)

CNC machines have gone through tremendous upgrades along the years. However, conventional CNC machines could not find its place in the new era of machining due to its limitation in compatibility, language difference and control has caused increase in terms of repurchase cost, reinstallations, reconfigurations and also training. This system which has been designed and developed from outdated and conventional PROLIGHT 1000 Milling CNC machine from Light Intelitek which further discussed in detail based upon upgrades of hardware, architecture and algorithm design. Based on the system and software developed, there are several interfaces for the software classified based on different information needed and explained in the paper. Then, the flow process of using the application will be explained along with the data to be inputted, function of buttons and other features. The designed system software is established as UTHM Open CNC Controller (UOCC) under the ISO 14649 of STEP-NC environment. One way to enhance the synthesis of recombinant protein is to improve its expression level. The main objective of this study is to elucidate the mechanism that regulates the expression of p110 in different producers when stimulated by human inflammatory cytokines such Tumor Necrosis Factor alpha (TNF-α) and Human Interleukin (IL)-1β. Upon stimulation, the concentration of product is tested by using Enzyme-Linked Immunosorbent Assay (ELISA) while the expression of p110 gene and protein are quantified through quantitative Polymerase Chain Reaction (qPCR) and Western Blot respectively. This study is significant in investigating the mechanism of recombinant protein under the stimulation of p100. The expected outcome for this work is an improved understanding of how p100 expression influences the synthesis of recombinant protein.

1. To enhance the existing platform controller based on interpretation of ISO 14649’s developed software.
2. To upgrade a real time manufacturing controller for process monitoring with online tool hub for basic cyber-manufacturing best practices.
3. To validate the newly developed platform controller through IoT in manufacturing of known case study platforms.

1. Intellectual Property :
   • REMOTE-CONTROL SYSTEM FOR A MACHINING PROCESS - This invention relates to a remote-control system for machining process. More particularly the invention relates to the remote control of a computer numerical control machine with a mobile device.

UOCC system especially with the MMS module has eliminated the built-in controller’s limits so that conventional CNC machines have the ability to be more open to adapt to future technology and requirement. UOCC systems has replaced the use of the stepper motor with the servo system to adopt the SSCNET system and VISA tool kit in the UOCC system at real time. This upgrade allows the CNC machine to be more efficient, silent, reduced vibration to avoid damage on the system and having less wire to be more compact UOCC monitoring combined both thermal and real-time video image in its system to enhance and ease users’ experience operating the machine. The users could reduce time taken for machining setup by AR technology in UOCC system while improving the quality of the process ergonomically for the user and mitigate accidents from occurring.