Online Master’s In Satellite Engineering – The Faculty of Electrical Engineering (), Universiti Teknologi Malaysia offers four Masters programs as Weekend Programs (PESISIR) at selected study centres. Classes are on weekends and are taught entirely by our graduate faculty. These programs are accredited by the Malaysian Qualifications Authority (MQA). The duration of study is two to four years. Program fees are affordable and competitive.
Updating a broad knowledge of current technologies and techniques in electric power, energy conversion, and high voltage engineering. The program offers a high-level graduate program with strong foundations in theory, to equip students with the skills necessary to identify and develop new technologies and trends in the field of electrical engineering. It is designed to develop the capabilities of qualified electrical power system professionals and tomorrow’s leaders in the power industry.
Isi Kandungan
Online Master’s In Satellite Engineering
The program is designed to provide advanced academic study and is designed to meet requirements
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Industries The program provides the graduate student with the modern knowledge and technology necessary for quality research work. The program also provides the student with advanced knowledge relevant to today’s mechatronics and control engineering careers. The program aims to equip graduates with the theoretical and practical skills necessary to apply modern control techniques to a wide range of industrial problems and/or to undertake further research.
Computer engineering, integrated circuit (IC) design, microelectronic systems and advanced electronics for next-generation applications. This program covers both theoretical and practical aspects of computer engineering and microelectronic systems. It is specially designed for engineers and researchers to complement their industrial expertise and enhance their knowledge in this field.
Communication and Networking are in line with the development of today’s communication technology. The program will also provide exposure to entrepreneurship and sustainability in technology and engineering to further contribute to the generation of capable and transformative leaders in line with the current needs of the country.
Department Of Space Engineering
Entry to the program requires a bachelor’s degree in electrical engineering or equivalent from a third institution recognized by UTM and the Board of Engineers. The minimum requirement is 3.0/4.0 for a new graduate or 2.7/4.0 for an applicant with 2 years of experience, or 2.5/4.0 for a candidate with 4 years of related experience. Foreigners can also apply for admission to our program.
Students must complete 43 credits and achieve a final CGPA of at least 3.0 to be awarded a Master of Electrical Engineering.
Our full-time program can be completed in 2 years (four normal semesters and one short semester). Admission is in February and September every academic year. Each normal semester consists of 15 weeks of lectures, and 3 weeks of final exam week. The short semester is for 8 weeks starting in July.
Online Systems Engineering Master’s Degree
Classes are held on Saturdays and Sundays in all educational centers. Each course will normally take 3 weekends for the Kuala Lumpur and Penang Study Centers, for example, taking 3 courses will take 9 weekends per semester. For the Johor Bahru Centre, each course will be over 4 weekends. Classes will be conducted as a blended learning model: 2 online classes and 1 face-to-face (starting 20232024 sem1).
Our fee structure is very competitive. The estimated fee for JB is RM19.5k, KL for RM23k, and Penang for RM28k. The fee covers the fee for completing 43 credits over a 2-year study period. Payment of additional fees is required for repeated courses or semester extensions. The University reserves the right to increase fees (terms and conditions apply). Presented by the leading authors in the field of aerospace systems today, the Master of Engineering in Aerospace Systems Engineering prepares experienced professionals with the skills necessary to excel in this field. An increasingly complex and competitive industry.
This degree allows professionals working in government and industry to combine a strong technical education in space systems design and development, as well as a comprehensive understanding of systems engineering principles and space systems engineering processes and tools.
Master In Space Technologies And Business
The program consists of ten courses (30 credits): six required core courses, three (3) electives and a project or thesis (three to six credits). Below you will find a suggested course layout to help you guide your enrollment:
This course emphasizes the development of modeling and simulation concepts and analytical skills necessary to design, program, implement, and use computers to solve analytical problems of complex systems/products. Key emphasis is on problem formulation, modeling, data analysis, solution techniques, and evaluation of alternative designs/processes in complex systems/products. An overview of modeling techniques and methods used in decision analysis, including Monte Carlo and discrete-event simulation, is presented.
This project-based course exposes students to useful tools and methods for building and managing an effective engineering design team in a business environment. Topics covered will include: personality profiles for building teams with balanced diversity; computerized tools for project coordination and management; Real-time electronic documentation as an important variable in the design process; and project requirements optimization methods to ensure the team is solving the problem with the right solution.
Msae Distance Learning
This course introduces the fundamental principles and processes for designing efficient, reliable, supportable, and maintainable systems. Participants will also understand the concept of system operational effectiveness, and the basic “cause and effect” relationship between design decisions and system operation, maintenance and logistics. In addition, the course will also discuss system life cycle cost modeling as a strategic design decision-making methodology and present exemplary case studies.
This course examines the real-world application of the entire aerospace systems engineering discipline. Taking a process-oriented approach, the course begins with basic mission objectives and examines in depth the principles and practical methods for mission design and operations. Interactive discussions focus on initial requirements definition, operational concept development, architecture trade-offs, payload design, bus sizing, subsystem definition, system manufacturing, verification and operation. This is a hands-on course with a focus on robotic missions for science, military and commercial applications.
This course begins with a blank sheet of paper to provide a conceptual framework for the development of human spaceflight missions. It describes and teaches the human space mission design and analysis process. The entire course is process-oriented, equipping each participant with practical tools to complete conceptual design and analyze the implications of developing requirements. At the end of this course, you will be able to tie together mission elements and make trade-offs between system design and mission operations that must occur in the early stages of planning, to deliver cost-effective outcomes. to do
Master Of Science In Sustainable Management And Technology
This course will explore and discuss issues related to the integration and testing of complex systems. First and foremost, students will be exposed to issues related to system operational evaluation and conceptualization. Later, functional modeling and analysis methods will be used to represent the system’s functionality and capabilities, leading to the packaging of these functions and capabilities into a high-level system architecture. Special focus will be given to interface management and testability issues. The course will also address management issues related to integrated product teams, vendors and suppliers, and subcontractors. In addition, selected essays will be examined to demonstrate the techniques explored in class.
This course examines real-world space mission operations. Taking a process-oriented approach, the course provides an in-depth overview of space mission operations, including the concept of operations and all tasks performed in support of a space mission. Interactive discussions focused on defining basic requirements, developing operational concepts, functional allocation between spacecraft, payloads, ground systems and operators. A detailed model is provided that allows the user to estimate the complexity of the operation and then provide an estimate of the number of operators required and the total cost. This is a hands-on course with a focus on space missions for science, military and commercial applications.
This course provides the participant with tools and techniques that can be used early in the design phase to effectively influence the design from the perspective of system reliability, maintainability, and supportability. Students will be introduced to various requirements definition and analysis tools and techniques to include quality function assignment, input-output metrics, and parameter estimates. An overview of system performance analysis and system architecture development heuristics will be provided. In addition, students will learn to take advantage of this phase of the system design and development process to improve design consistency, provide reliability, maintainability, and supportability. Given the strategic nature of early design decisions, participants will also learn multidisciplinary design decision and risk analysis methods, including the Analytical Hierarchy Process (AHP). As part of its emphasis on maintainability, the model addresses issues such as accessibility, standardization, modeling, testability, mobility, interchangeability and serviceability, and related methods, tools and techniques. In addition, students will learn to take advantage of this phase of the system design and development process to provide a supportable capability for design configuration that is established through a clear focus on configuration commonality and interchangeability, Use standard components and fasteners, adhere to open system standards and profiles, and use standard network and communication protocols. Examples and case studies will be used to facilitate understanding of these principles and concepts.
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This course is a study of analytical techniques for rational decision making that addresses uncertainty, conflicting objectives and risk behavior. This course covers modeling uncertainty; Rational principles of decision making; Representing decision problems with value trees, decision
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