Diploma in Computer Science (Industrial Computing)
- Field Of Study:
- Computing, Technology & IT
- Level Of Study:
- Diploma
- Course Subject:
- Computer Science
- Course Intake:
- August, January, June
Programme
Diploma in Computer Science (Industrial Computing)
Professional Recognition
Malaysian Qualification Agency (MQA)
Intake
January, June, and August
Duration
2½ years
Fees
RM 17,935
Entry Requirements
- Pass SPM and obtain AT LEAST three (3) credits in any courses INCLUSIVE of Mathematics [for SPM leavers];
- Pass STPM and obtain AT LEAST one (1) principal in any courses AND a credit in Mathematics of SPM [for STPM leavers];
- Possess Computer/Technical /Vocational Certificate with MINIMUM CGPA 2.00 [for polytechnic/college leavers].
Overview
- Diploma in Computer Science (Industrial Computing) program is specially tailored for technical-oriented students who possess deep interest and tendency, for the benefits of industrial needs, to develop, enhance, and optimize computerized systems and applications; modeling and simulating manufacturing systems; designing and machining engineering products; and analyzing production solutions;
- Industrial computing is a hybrid skill set of computer science, manufacturing engineering, and operations management;
- Specifically, niche areas of industrial computing, not limited to, are industrial-based system/application analysis and development; numerical analysis; robot manipulator modeling, simulation, and programming; programmable logic controller programming; peripheral interface controller programming; machine/mechanism modeling, simulation, and analysis; manufacturing system modeling, simulation, and analysis; engineering product design and manufacturing; operations research; inventory control and material and resource requirement planning; scheduling; quality control; statistical analysis; forecasting; reliability and maintenance et cetera.
Program Learning Outcomes
Diploma in Computer Science (Industrial Computing) aims at building human capitals who bear competent theoretical knowledge and analytical and technical skills to develop, enhance, and optimize computerized systems/applications, manufacturing systems, engineering products, and production solutions for the benefits of industrial needs.
- Ability to acquire and apply fundamental knowledge of Computer Science and Information Technology;
- Ability to acquire in-depth technical competence in Computer Science and Information Technology;
- Ability to adapt in social, cultural, global, and environmental responsibilities of IT professionals and recognize the needs for sustainable development;
- Ability to commit to professionals, ethics, and humanity responsibly;
- Ability to communicate in verbal and writing and demonstrate effective leadership qualities;
- Ability to identify, formulate, and solve Computer Science and Information Technology problems;
- Abiity to manage information through lifelong learning in facing and meeting global challenges;
- Ability to nurture entrepreneurial skills for career development.
Programme Structure
Year 1 |
Course Code |
Course |
IID1233IID1223
IAD1153
IAD1133
ZEU1113
HKU1111
IAD2213
ZLU12X2
MPW1143/53
IID2173
IAD2173
IAD2143
IAD2313
IAD2243
FMD1133 |
Operations ResearchOperations Management
Computer Fundamental
Programming Methodology
Proficiency English I
Kepimpinan dan Kerja Berpasukan
Operating Systems
Foreign Language
Pengajian Islam / Pendidikan Moral
Digital Logic Design
Web Development
Database System
Fundamental of Computer Network
Visual Programming
Elementary Statistics |
Year 2 |
Course Code |
Course |
IID2243IID2233
IID2163
IAD1233
IAD2163
HXXXXX1
IAD1162
MPW1133
ZEU1223
IID3163
IAD3113
IID3133
IID3153
IAD2133
FMD1173 |
Programmable Logic ControllerModeling and Simulation
Computer Organization and Architecture
Discrete Mathematics
Computer System Maintenance
Co-Curriculum
Human Personality and Team Building
Pengajian Malaysia
Proficiency English II
Automation Systems
Computer-aided Design
Quality Control
Inventory Control and MRP
Object-oriented Programming
Principles of Mathematics |
Year 3 |
Course Code |
Course |
IAD3162FMD1333
JMD1213
IAD3314 |
Final Year Project 1Applied Mathematics
Communication Skills
Industrial Training |
Core Course Description
Course Code |
Course |
Synopsis |
IID1233 |
Operations Research |
Since most of industries nowadays are becoming complex, competitive, and dynamic, the decision-making process is becoming complicated as well. Making decision is of the essence but merely insufficient. What matters is to provide the best decision for the organization. In the field of operations research (OR), this is known as optimal solutions. With rapid technological developments especially computers, lots of methods for making decisions are in place. Decision makers are to apply methods that are objective, effective, and efficient to achieve a huge success. OR is a scientific approach against decision-making process to determine the best method to design and manage a system that is subject to distributions of scarce resources. OR bears six characteristics: research on operation, scientific approach, practical organizational management, overall perspective, optimal solution, and team-working approach. In conclusion, OR is concerned with a modeling of system from an actual situation and a finding of optimal decision. Assuming no prior knowledge of the subject area, this course provides students with an indispensable guide to OR. |
IID2233 |
Modeling and Simulation |
The term simulation is normally used to describe the process of executing computer programs with user-selected parameters and input data so as to simulate a system under prescribed conditions. Computer simulation methods are amongst the most commonly approaches within operations management and manufacturing engineering. This course covers the art and science of simulation in general. This course also teaches the skills required to apply simulations successfully to help improving the running of a business. Modern simulation packages are valuable aids in designing a simulation model. Given a precisely defined model of a system, it is possible to produce computer programs that implement the model and allow the system to be simulated. Without a proper approach however, the results of a simulation project can be incorrect or misleading. This course looks at each of the tasks required in a simulation project. It emphasizes the practical application of simulation with a good understanding of how a simulation model works being an essential part of this. |
IID3163 |
Automation Systems |
The contents of course embrace four main parts namely manufacturing systems, automation and control technologies, material handling technologies, and manufacturing support systems. The manufacturing systems are systems functioning to execute one or more processing and assembly operations on raw materials and workparts. These processing and assembly operations are carried out by using automation technologies without human interventions. The automation technologies such as robot and programmable logic controller are implemented through the programs incorporated with the control systems to perform the instructions. The material handling technologies are material movement, storage, protection, and control technologies encompassing manufacturing and distribution processes such as conveyor, automated storage and retrieval system, forklift, and automated guided vehicle. The material handling must be done safely, efficiently, on cheaper cost, punctually, on correct quantity and location, and free of failure. The final part is manufacturing support systems referring to computerized systems applied to manage the production and solve logistical and technical problems such as warehouse management system. |
IID3153 |
Inventory Control and MRP |
Holding cost is expensive and problems of inventory control are almost universal. Over the past decade, organizations have been trying to improve customer services while lowering stocks and increasing the speed of material flow through their supply chains. As stocks are almost universal, the basic question is, why do organizations hold stocks? The main answer is to allow for variations and uncertainties in supply and demand. They give a buffer between suppliers and customers maintaining customer services even when there are problems in the supply chain. Unfortunately, this safeguard comes at a high price and organizations are continually looking for ways of reducing their inventory costs without affecting services. In recent years, this search has led to many changes. Scientific inventory control is still at the core of inventory management but it has been enhanced by requirement planning and just-in-time with e-commerce giving a fast and efficient flow of material through an integrated supply chain. |
Career Opportunities
Graduates of Diploma in Computer Science (Industrial Computing) are competent, marketable, presentable, industrial-friendly, and have very bright and broad career opportunities in government agencies and private sectors. The graduates are warmly welcomed by employers and well-qualified to hold positions as:
- Control Assistant Engineer;
- Process Assistant Engineer;
- QC Assistant Engineer;
- Maintenance Assistant Engineer;
- Computer Assistant Engineer;
- Robot Programmer;
- PLC Programmer;
- PIC Programmer;
- CNC Machinist;
- Engineering Product Designer;
- System Analyst;
- Business Analyst;
- System Developer;
- Assistant Researcher.
Expected Salary
The range of salary is varied between RM 1,800 to RM 2,200.
Source Universiti Selangor