COURSE INFO ENTRY REQUIREMENTS. LM118 Online

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1 LM118 Bachelor of Engineering in Electronic and Computer Engineering Honours Bachelor Degree Baitsiléir Innealtóireachta in Innealtóireacht Leictreonaic agus Ríomhaire COURSE INFO ENTRY REQUIREMENTS CAO Points 2015: 410 Course Length: 4 Years Course Contact: Dr Martin Hayes Tel: martin.j.hayes@ul.ie Admissions: Tel: admissions@ul.ie Applicants are required to hold at the time of enrolment the established Leaving Certificate (or an approved equivalent) with a minimum of six subjects which must include: Two H5 (Higher Level) grades and Four O6 (Ordinary Level) grades or four H7 (Higher Level) grades. Subjects must include Mathematics, Irish or another language, and English. In addition, applicants must hold a minimum grade H4 in Mathematics and a grade O6/H7 in any one of the following: Physics, Chemistry, Physics with Chemistry, Engineering, Construction Studies, Design & Communication Graphics/Technical Drawing, Technology, Biology, Agricultural Science, Applied Maths. A Special Mathematics Examination will be offered at UL following the Leaving Certificate results for those students who did not achieve the Mathematics requirement. We welcome applications from mature students. Mature applicants must apply through the Central Applications Office (CAO) by 1 February. Why study Electronic and Computer Engineering at UL? This new Electronic and Computer Engineering degree has been developed in conjunction with industrial employers, to meet the demand for engineering graduates with strong skills in software and hardware engineering, along with mathematical analysis ability. At the end of the second year, this new programme in Electronic and Computer Engineering will allow you to select a major option from five major options Electronic Engineering, Computer Engineering, Robotic Engineering, Electrical Energy Engineering, and a General option. Graduates of this degree programme will play key roles in the research, design, development, test and installation of future systems. They will frequently work in teams to tackle complex and challenging problems. Graduates may also pursue higher degrees by research (MEng, PhD, etc), or through taught postgraduate programmes (MSc, MEng, MBA, etc). What you will study The first two years of the programme will provide you with a strong practical and theoretical foundation in: computing and programming languages, software, digital and analogue electronics, electrical science, and engineering mathematics. During these first two years you will be guided towards your choice of a major option to be undertaken in the final two years of the programme. For years 3 and 4, you will select one of the major options. You will also have the freedom to choose a General option, where you can select modules from the various major option streams instead of specialising on a single major option. Industrial work experience is provided through a positive and motivating thirty-week period of Cooperative Education, which is an integral part of the programme. Co-op will provide you with experience and practice in the field of your chosen major option area. In the final year (year 4) you will undertake a major individual project, which in general solves a real-world problem. The project involves advanced design and implementation work, and builds confidence by putting into practice the skills and knowledge that you have acquired throughout the course. LM118 Online Course Description Want to know more? Go to:

2 Entry - LM118 Bachelor of Engineering in Electronic and Computer Engineering Common Syllabus for Years 1 & 2 Year 1 & 2 Electronic Engineering Computer Engineering Robotic Engineering Electrical Energy Engineering General Year 3 & 4 Options Graduation - Bachelor of Engineering in Electronic & Computer Engineering (Major Option) Major options Electronic Engineering Electronic Engineers have brought us mobile phones, digital cameras, security systems, improved weather forecasting, electronic medical devices and so many other things that we now take for granted. Material covered in this option includes: Circuit Design - integrated circuits (ICs), analogue circuits, digital circuits Data and Telecommunications - networks, communications, protocols Electrical Engineering - power systems, power electronics, electromagnetics Control - advanced control systems, sensors and actuators Signal Processing - signal processing, VLSI signal processing Computer Engineering Computer engineers will work in important application areas which include mobile phone systems, gaming, medical diagnostic and monitoring equipment, the Internet, smart transport and energy management systems etc. Material covered in this option includes: Software - software engineering, distributed and real-time software design, advanced operating systems, language processors Digital Electronics - integrated circuits (ICs), computer architectures Control advanced control systems, machine vision Data and Telecommunications - networks, communications, protocols, security Signal Processing - digital signal processing, coding theory Robotic Engineering Robotics is an exciting area of computer-controlled technology. Robotic applications are found in space exploration, deep-ocean systems, transport, product manufacturing, medical equipment, entertainment systems etc. Material covered in this option includes: Robotics - advanced robotics systems, artificial intelligence, machine vision Control - advanced control systems, digital control systems Software - software engineering, distributed and real-time software design Automation - industrial automation, sensors and actuators Electrical Energy Engineering Recent times have seen a worldwide shift towards a refocused commitment on the topic of energy. Electrical energy / power engineering is an important element of this activity and there is an increasing need for engineers in this discipline to work on new solutions for the electrical energy grid based on wind, solar, ocean, wave and other renewable forms of energy. Material covered in this option includes: Electrical Engineering - power systems, power electronics, electromagnetics Physics - thermal physics, mechanical energy, electrical energy Control - advanced control systems, sensors and actuators Environment - advanced electronics for the built environment General Option This General option is aimed at students who have a broad interest in the areas of electronic and computer engineering, and want to explore several topics of the prescribed major options. KEY FACT Graduates of this degree programme will play key roles in the research, design, development, test and installation of future systems. Career Opportunities Graduates of the Electronic and Computer Engineering programme will build successful careers in a wide range of application areas, including research, design and development of: Mobile and Wireless Systems Software Engineering Computer Systems and Networks Artificial Intelligence and Robotics Security and Forensics Game Systems Telecommunication Systems Integrated Circuit Technology Energy Production & Distribution Systems Smart Energy Management Electrical Power Systems Sensors and Sensor Networks Biomedical Electronics Automation Control Systems Robotics Automotive and Aerospace electronics Engineers often move quickly into senior management and consultancy positions, using their analytical approach to project management and problem solving. There are also worldwide opportunities for advanced study and research, and graduates can diversify into many other areas such as business, medicine and law. The Bachelor of Engineering (BE) programmes in UL are accredited by Engineers Ireland (EI). This is an internationally recognised professional engineering accreditation. The new BE in Electronic and Computer Engineering will be accredited once students have graduated from the programme, in accordance with Engineers Ireland rules.

3 LM118 BE Electronic and Computer Engineering Programme Outline CH4001 Chemistry for Engineers CE4702 Computer Software 2 EE4001 Electrical Engineering 1 EE4012 Circuit Analysis 1 EE4011 Engineering Computing EE4022 Semiconductor Device Fundamentals ME4001 Introduction to Engineering 1 EE4522 Digital Systems 2 ME4121 Engineering Science 1 MA4002 Engineering Mathematics 2 MA4001 Engineering Mathematics 1 CE4703 Computer Software 3 EE4044 Communications & Network Protocol EE4003 The Engineer as a Professional EE4214 Control 1 EE4313 Active Circuit Design 1 EE4314 Active Circuit Design 2 EE4523 Digital Systems 2 EE4524 Digital Systems 3 MA4003 Engineering Mathematics 3 MA4004 Engineering Mathematics 4 Semesters 6, 7 & 8 CE4206 Operating Systems 2 EE4034 Telecommunications Fundamentals EE4216 Control 2 EE4816 Signals & Systems 1 ET4224 Sensors & Actuators CE4706 Software Engineering CE4708 Artificial Intelligence CE4817 Digital Signal Processing ET4087 Electrical Automation EE4907 Final Year Project 1 CE4208 Distributed Systems EE6452 Digital Control RE4006 Spatial Robotics RE4017 Machine Vision EE4908 Final Year Project 2 Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.

4 CE4206 Operating Systems 2 CE4717 Language Processors EE4816 Signals & Systems 1 EE4034 Telecommunications Fundamentals EE4216 Control 2 CE4607 Computer Networks 1 CE4706 Software Engineering CE4708 Artificial Intelligence EE4407 ASICs 1 EE4907 Final Year Project 1 CE4208 Distributed Systems CE4518 Computer Architectures EE6032 Communication and Security Protocols RE4017 Machine Vision EE4908 Final Year Project 2 EE4034 Telecommunications Fundamentals EE4317 Active Circuits 4 EE4216 Control 2 EE4816 Signals & Systems 1 ET4224 Sensors & Actuators CE4607 Computer Networks 1 EE4005 Electrical Power Systems EE4407 ASICs 1 ET4407 Electronics & Environment EE4907 Final Year Project 1 CE4008 VLSI DSP Systems EE4328 Power Electronics EE4117 Electromagnetics EE4408 ASICs 2 EE4908 Final Year Project 2 EE4034 Telecommunications Fundamentals CE4817 Digital Signal Processing EE4014 / EE4024 EE4005 EE4328 EE4117 Electromagnetics Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.

5 Electrical Energy Electrical Power Systems Power Electronics EE4216 Control 2 EE4816 Signals & Systems 1 ET4224 Sensors & Actuators ET4087 Electrical Automation PH4003 Mechanical Energy EE4907 Final Year Project 1 ET4088 Energy Mangement & Technology PH4042 Thermal Physics EE4908 Final Year Project 2 EE4034 Telecommunications Fundamentals EE4216 Control 2 EE4816 Signals & Systems 1 Electives (Choose Min 2 Max 2 CE4206 Operating Systems 2 CE4717 Language Processors EE4014 / EE4024 Electrical Energy EE4317 Active Circuits 4 ET4224 Sensors & Actuators CE4607 Computer Networks 1 CE4706 Software Engineering CE4708 Artificial Intelligence CE4817 Digital Signal Processing EE4005 Electrical Power Systems EE4407 ASICs 1 ET4087 Electrical Automation ET4407 Electronics & Environment EE4907 Final Year Project 1 CE4008 VLSI DSP Systems CE4208 Distributed Systems CE4518 Computer Architectures EE4117 Electromagnetics EE4328 Power Electronics EE4408 ASICs 2 EE6032 Communication and Security Protocols EE6452 Digital Control ET4088 Energy Management & Technology RE4006 Spatial Robotics EE4908 Final Year Project 2 Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.

6 Y ear 1 Semester 1 Y ear 1 Semester 2 CH4001 Chemistry for Engineers The rational of this module is to introduce all students to some basic concepts in Chemistry. More specifically: To give students an understanding of the fundamental concepts of modern chemistry and to familiarise student s with the various applications of chemistry in everyday life. EE ELECTRICAL ENGINEERING 1 To give the student an understanding of the fundamental concepts of electricity and magnetism, using a simple introductory style and basic mathematics. EE4011 ENGINEERING COMPUTING Engineering computing is the use of computers, software and numerical methods to solve scientific and engineering problems. The module has two distinct aspects. Firstly, the module aims to introduce students to a number of basic numerical methods commonly used in solving engineering problems and the concepts necessary to implement them in a relevant engineering software package. The second aim is to introduce students to a high level object-oriented programming language and a software development environment. ME4001 INTRODUCTION TO ENGINEERING 1 To introduce the profession of engineering, develop nontechnical skills such as report writing, encourage a spirit of research and self-study, develop students knowledge of the use of engineering units ME4121 ENGINEERING SCIENCE 1 This module will provide students with a basic knowledge of the fundamental principles underlying engineering mechanics. MA ENGINEERING MATHEMATICS 1 To develop the student's understanding of and problem solving skills in the areas of Pre-Calculus and Differential Calculus. CE COMPUTER SOFTWARE 2 Further the student's knowledge of a modern object oriented programming language with particular emphasis on classes, objects and Graphical User Interfaces. Understand the concepts of inheritance and polymorphism. Develop the ability to produce moderately complex event driven programs with user interfaces developed using a graphical toolbox. EE CIRCUIT ANALYSIS 1 This module introduces DC and AC circuit analysis techniques. Topics covered include: circuit theorems, mesh and nodal analysis, Thevenin and Norton equivalent circuits, resistive circuit analysis, inductance and capacitance, time response of RL, RC and RLC circuits, sinusoidal circuit analysis, complex impedance, resonance and the transformer. EE SEMICONDUCTOR DEVICE FUNDAMENTALS The aim of this module is to provide an introduction to the structure and operation of solid state devices used in electronic circuits. The module will initially introduce semiconductor technology and then the types of electronic devices that are commonly used in electronic circuits. Qualitative descriptions of the types of electronic circuits and their applications for the devices introduced will be provided. EE DIGITAL SYSTEMS 1 The module introduces synchronous and asynchronous and modulo-counters; Simple state machine concepts with state diagrams; Simple counter design; Memory and programmable logic; Addressing concepts for ROM, RAM memory, Volatility, DRAMs, Simple PALs; Asynchronous and synchronous serial transfers; Operation of Buses; Design examples; Building a shift-register Johnson counter; Hard-wiring a circuit and de-bugging it. MA ENGINEERING MATHEMATICS 2 To develop the student's understanding of and problem solving skills in the areas of Integral Calculus and Differential Equations. To give the student an understanding of Matrix Algebra and its application to solving systems of linear equations. To introduce the student to Multivariate Calculus. Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.

7 Y ear 2 Semester 3 Y ear 2 Semester 4 CE COMPUTER SOFTWARE 3 To introduce the student to algorithms and dynamic data structures (e.g. queue, trees, and dynamic arrays). Introduce software engineering practices, Flow diagrams and class diagrams. Use good software practice to develop a significant application. EE THE ENGINEER AS A PROFESSIONAL The engineering profession demands more than just technical know-how and an engineering education must reflect this. To have a successful and rewarding career to and to properly reflect the importance of the engineering professional in society it is necessary to have technical knowledge as well as the ability to express ideas, to assume leadership, to operate within teams (sometimes interdisciplinary) and organisations and to make ethically considered decisions. EE ACTIVE CIRCUIT DESIGN 1 This module introduces the basic elements of active circuits - diodes and transistors, their analysis and applications. Topics covered include: diodes theory and circuits; bipolar junction transistors description, biasing, transistor switch, small-signal models, common emitter, base and collector amplifiers, class A, B and C amplifiers; junction and metal oxide field effect transistors theory, small-signal models and application including amplifiers and switches. EE DIGITAL SYSTEMS 2 The module covers digital system topics including: Fully synchronous systems; Finite State Machines (FSM); Mealy and Moore type FSMs; Hardware Description Languages and RTL modelling. Modern digital design requires designers to use HDLs for design and verification. (Digital Systems 1 on the programme is a prerequisite for this module.) MA ENGINEERING MATHEMATICS 3 To introduce the student to the Laplace Transform, Fourier Series, and their use in solving Ordinary Differential Equations. To introduce the student to the theory and methods of Linear Algebra. To give the student a broad understanding of the numerical processes used in solving Linear Algebra problems, and their extension to some nonlinear problems. Y EE4044 COMMUNICATIONS & NETWORK PROTOCOL The main objective of this course is to provide an opportunity for students to gain a basic understanding of Communication Networks and Protocols EE4214-CONTROL 1 The module introduces students to basic control theory, Dynamic System Modelling, open- and closed-loop systems, signal flow graphs, time response of first and second order systems. This module also gives students a basic introduction (from the control perspective to support the control theory and dynamic systems modelling) to some of the basic devices used in control, including actuators, sensors and transducers. EE ACTIVE CIRCUIT DESIGN 2 This module introduces the basic elements of operational amplifiers (op-amps), feedback and linear and non-linear applications. Topics covered include: the differential amplifier; op-amps design, practical limitations; feedback effects on gain, impedance and correction of disturbances; linear op-amps circuits inverting, non-inverting; active filters; non-linear op-amp circuits comparators, integrator, Schmidt trigger, rectifiers; oscillators theory, crystal oscillators, Wien bridge, RC and Colpitts oscillators and the 555 timer. EE DIGITAL SYSTEMS 3 The module provides an in-depth treatment of the following topics: Basic Microprocessor; Processor Architecture and programming in machine code; Instruction sets, Addressing modes, Exception handling, I/O programming; Simple handshaking concepts.; Software polling, Interrupts, Basic interrupt processing concepts, Interrupt service routines (ISRs); C programming as a programming language for embedded systems; Practical application of using development using the toolchain; Introduction to techniques used for testing embedded system software. (Digital Systems 1 on the programme is a prerequisite for this module.) MA ENGINEERING MATHEMATICS 4 Provides students with an understanding of the fundamentals of probability and its relation to statistics. Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.

8 Introduce statistical inference through the concepts of estimation and hypothesis testing. Y ear 3 Semester 5 CO-OPERATIVE EDUCATION PLACEMENT IN INDUSTRY. This is an opportunity for the student to experience the work environment and see firsthand what a graduate of the Electronic and Computer Engineering degree does after graduation. The placement is for a semester and the previous summer. During this time the student is given the opportunity to experience different roles in ICT and most importantly the placement is paid as salary, generally equivalent to the current industry standard for graduates. Y ear 3 Semester 6 CE OPERATING SYSTEMS 2 Study of multitasking operating systems. Study will be confined to single processor systems. A Unix or WIN-32 operating system will be selected as the prime example operating system. The module lab work will teach the student to develop concurrent program solutions. The module includes: concurrency, states, queues, scheduling. Process inter-communication. Memory management. File systems to support multitasking, File sharing, file protection, performance issues. Conditions for deadlock and solutions. I/O devices and device drivers. File security and protection. CE LANGUAGE PROCESSORS To introduce the theory of compiler design and show its application in a simple compiler. An important part of the module is the implementation of a compiler for a simple, Pascal-like, language. EE4014/EE4024 ELECTRICAL ENERGY (ELECTRICAL MACHINES) Review of electromagnetism, Magnetic Circuits, Transformers, Induction machines, Electrical machines developments for renewable AC Power. ET ROBOTICS 1: SENSORS & ACTUATORS This module introduces students to fundamental principles of Measurement of physical phenomena utilising various sensing techniques, Transducer action and signal conversion, Various Actuator types and principles of operation, Specification of a complete measurement system. EE4816 SIGNALS & SYSTEMS 1 To develop linear transform theory for signal processing, and to apply it to correlation and filtering of signals, in analogue and digital domains EE TELECOMMUNICATION FUDAMENTALS This module aims to guide the student through the implications and consequences of fundamental theories and laws of information theory and to impart a comprehensive grounding in digital modulation with reference to their increasingly wide application in present day digital communications and computer systems. EE CONTROL 2 To further develop analysis and design skills in Automatic Control EE ACTIVE CIRCUITS 4 This module introduces students to integrated circuit design and the limitations that apply to chip-level components, and to IC design methods.. Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.

9 Y ear 4 Semester 7 CE COMPUTER NETWORKS 1 This module provides a unified view of the field of computer communications and networks. The module seeks to integrate a number of topics introduced in earlier parts of the course and addresses the analysis, design and performance evaluation of data communication systems. The module covers communications within and between computer systems, and communications protocols and standards. CE SOFTWARE ENGINEERING 1 To introduce the domain of software engineering from a programmers perspective focusing on object oriented analysis, design and programming. - To revisit and develop existing computer software skills and competence. - To emphasise good Software Engineering Practices - To enhance individual and team working skills CE ARTIFICIAL INTELLIGENCE To provide the student with a solid grounding in the theoretical and practical foundations of artificial intelligence and expert systems. means by which these environmental issues can be addressed. EE ELECTRICAL POWER SYSTEMS This module covers the fundamentals core topics relating to the analysis, design, optimisation and operation of Modern Electrical Power Systems, (transmission lines, electrical grids, distribution networks, etc. PH MECHANICAL ENERGY Mechanical vibrations. Waves, transverse and longitudinal waves, phase and group velocity, energy transported by waves, reflection and transmission of waves. Review of the principles of mechanics. Rotation and moments of inertia, angular momentum and kinetic energy, torque. Fluid dynamics. Fluid heat transfer and a thorough understanding of how these disciplines apply to the design and analysis of complex thermal fluid systems. Applications to Ocean, Hydro and Wind renewable energy systems. EE4907 Final Year PROJECT 1 To enable the student to develop their ability to work on their own. To familiarise the student with the process of research, development and design. To develop the students ability in terms of verbal and written communication. CE4817 DIGITAL SIGNAL PROCESSING 1 This module provides practical coverage of the fundamentals of digital signal processing, with emphasis on the following key topics: the discrete Fourier transform, the z-transform and digital filter design. EE ASICS 1 This module concentrates on the design of digital ASIC (Application Specific Integrated Circuits). ET4087-ELECTRICAL AUTOMATION The purpose of this module is to equip students with the necessary skills to design, build and install automated systems in the built environment, in industry and elsewhere. ET ELECTRONICSANDTHE ENVIRONMENT The protection of the environment in conjunction with economic growth will become one of the great challenges of the 21st century for a multitude of reasons. If the electronics industry is to sustain its growth levels of the last number of decades going forward this challenge will become foremost in the job function of its employees. This module will introduce the concepts which underpin this challenge. It seeks to inform students of the necessity of environmental awareness in the electronics industry and to introduce the Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.

10 Y ear 4 Semester 8 CE VLSI DIGITALPROCESSING SYSTEMS Introduce and use advanced algorithms and architectures for the efficient digital implementation of signal processing algorithms. CE DISTRIBUTED SYSTEMS This module is designed to provide students with a framework for comparing emerging distributed systems, as well as an understanding of the algorithms necessary to support a distributed system. Computing models and data communications will be studied, as well as software development issues relating to the development of distributed applications. CE COMPUTER ARCHITECTURE To provide a grounding in the analytic study of computer architecture and an introduction to various architectural styles, e.g., CISC, RISC, and variousnon-von Neumann architectures. EE ELECTROMAGNETICS 1 To provide the student with an understanding of electromagnetic theory and application using vector calculus as the mathematical background. EE POWER ELECTRONICS This module will give students (electronic, Robotic, Control and Energy students) an understanding of modern power electronics both at the device products level and at the renewable energy generation and distribution level. EE4908 Final Year PROJECT 2 To enable the student to develop their ability to work on their own. To familiarise the student with the process of research, development and design. To develop the students ability in terms of verbal and written communication. EE ASICS 2 This module is a 4th year core module for BE in Electronic Engineering (LM070) students. This is a follow-on module from EE4407 (ASICs I) which dealt with digital IC design issues. This follow-on module deals with analogue and mixed-signal IC design with an emphasis on the practice of theory and the use of IC CAD (Integrated Circuit Computer Aided Design) tools (analogue and mixed-signal IC design entry, simulation and layout CAD). This module deals with the areas of design MOS circuit concepts, operational amplifiers, D/A converters, A/D converters, testability, ESD topics, plus assembly and packaging. EE DIGITAL CONTROL To study the application of digital computers to control engineering problems. RE MACHINE VISION This module introduces students to one of the key enabling technologies that is necessary for modern robotics design, machine vision. At the end of this module students will be able to use common techniques for the design, specification and practical implementation of modern vision systems RE SPATIAL ROBOTICS This module covers a broad range of the necessary enabling and advanced technologies required for the design, integration and operation of Modern Robots including industrial robotic arms and mobile robots. ET ENERGY MANAGEMENT AND TECHNOLOGY This module provides the necessary understanding, knowledge and skills for students to undertake a career in Energy Management. PH THERMAL PHYSICS The purpose of this module is to enhance the students understanding of key concepts and models associated with thermal physics. The objectives are to first present a general thermodynamics framework and then to introduce statistical concepts followed by analysis of specific physical models EE COMMUNICATION AND SECURITY PROTOCOLS Introduces students to security services and cryptographic protocols used for information and system security, in areas such as wireless networks, e-commerce and the Internet. Provides an understanding of security protocol design techniques and formal methods for evaluation of the reliability of security protocols. Note: The contents of this brochure are for informational purposes only and should not be viewed as the basis for a contract between the student and the University. The course is subject to change without notice.