A- Knowledge and Understanding:
By the end of the program the student should be able to demonstrate the knowledge and understanding of:
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Basic Sciences including classical and solid state physics, mechanics and chemistry.
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Topics related to humanities and general knowledge including business, management,Professional ethics, legislations, environmental engineering, technical language and report writing
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Basics of information and communication technology.
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Topics from other engineering disciplines including engineering graphics, civil engineering, production technology, thermodynamics and fluid mechanics.
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Mathematics including differential and integral calculus, algebra and analytical geometry, differential equations, Fourier analysis, vector analysis, numerical analysis, complex & special functions, statistics and their applications on electrical engineering.
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Elements, theories, techniques of analysis of DC/AC circuits, electrical machines, and energy systems.
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Fundamentals, theories and applications of electronic components, devices fabrication and electronic circuits.
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Principles and applications of photonics.
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Applying of the electrical, electronic, digital instrumentation, sensors and transducers in the biomedical technology.
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Principles, theories, techniques and applications of digital circuits and systems, computer organization, microprocessors and microcontrollers.
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Principles, theories, techniques and applications of classical and modern control systems.
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Theories, techniques, analysis of analog and digital signals processing.
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Theories, techniques, and technology in the field of communication links including satellite, optical fibers, and mobile communication systems.
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Basic concepts of data transmission, data computer networks and secure communication.
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Principles of the electromagnetic theory, applications of the microwave engineering, microwave electronic devices and antennas in the fields of the communication engineering.
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Analysis, techniques and applications of digital integrated circuits and nanotechnology.
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Quality assurance systems, codes of practice and standards, health and saengineeringy requirements and environmental issues.
B- Intellectual Skills:
Graduates should have ability to:
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Think in a creative and innovative way in problem solving and design.
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Apply appropriate mathematical and physics knowledge for modeling and analyzing electronic and communication systems problems.
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Use software tools to develop computer programs for engineering applications.
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Plan, conduct and write a technical report on a project or an assignment.
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Apply different theories and techniques to analyze problems of DC/AC circuits, energy systems and DC/AC machines.
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Apply different theories and techniques to model, evaluate the characteristics and solve problems of classical and modern control systems.
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Perform the power budget computations for communication links and make the tradeoff between the power, bitrate, and bandwidth.
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Analyze and design communication systems based on the knowledge acquired.
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Combine, exchange, and assess different ideas and knowledge from range of sources for solving electronic and communication systems problems.
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Design and integrate digital systems for certain specific function using the appropriate components.
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Assess and evaluate the characteristics and performance of electronic components, systems and processes.
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Investigate the failure and develop innovative solution for electronic components, systems, and processes.
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Analyze the performance of microwave and antenna systems.
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Develop innovative solutions considering incorporate economic, environmental dimensions and risk management in the design of practical industrial problems.
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Analyze the performance of Photonic devices and systems.
C- Professional and Practical Skills
Graduates should have ability to:
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Apply theories and techniques of mathematics, basic sciences and information technology to solve electronic and communication systems problems.
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Professionally merge the knowledge of electronic and communication systems to improve design, products and services.
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Design a process, component or system and practice the quality of electronic and communication systems.
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Use computational facilities and related software tools, measuring instruments, workshops and/or relevant laboratory equipment to design and diagnosis experiments, collect data, analyse and interpret results.
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Apply numerical modelling methods to microwave, antennas, electronic and communication systems.
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Perform practical measurements of the microwave, antenna, and communication links.
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Follow up saengineeringy requirements at work and observe the appropriate steps to manage risks.
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Apply quality assurance and follow the appropriate codes and standards.
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Exchange knowledge and skills with communication systems engineering community and industry.
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Edit and present technical report.
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Use the standard and appropriate tools to troubleshoot, maintain and repair the electronic systems.
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Read thoroughly datasheets and identify appropriate specifications for required system or device.
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Perform the practical measurements of the photonic devices and systems.
D- General and Transferable Skills
Graduates should have ability to:
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Collaborate effectively within multidisciplinary team.
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Work in stressful environment and within constraints.
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Communicate effectively.
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Demonstrate efficient IT capabilities.
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Lead and motivate individuals.
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Effectively manage tasks, time, and resources.
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Search for information and engage in life-long self-learning discipline.
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Acquire entrepreneurial skills.
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Refer to relevant literatures.
