FACULTY OF ENGINEERING

Transcription

1 FACULTY OF ENGINEERING List of for University of Malaya Student Exchange (UMSEP) for the 2015/2016 Academic Session BACHELOR OF BIOMEDICAL & PROSTETIK ORTOTIK No 1 KUEP1131 STATICS 2 / 2 KUEP1171 PRACTICAL LABORATORY 1 / The course covers load systems, geometrical properties of figures, namely centre of mass and second moment of areas, distributed force systems and its action on cables, the concept of dry friction and frictional mechanical machines, and analysis of connected bodies in equilibrium using the virtual work method. students to perform basic engineering experiments. 3 KUEP KUEP2139 BIOMECHANICS OF HUMAN MOTION ELECTROTECHNOLOGY 2 ELECTRONIC 2 / 3 / 5 KUEP2173 LABORATORY III 1 / The principles of mechanics are applied to the study of human motion to provide students with an understanding of the internal and external forces acting on the body during human movement. This course introduces electronic devices and their applications. The p and n type materials, including its doping process and application of pn junction as circuit element. Clipper and clamper and power supply. Diode equivalent circuits and applications. DC and AC equivalent analysis of BJT and FET including their bias configurations students to perform engineering experiments 6 KUEP3130 BIOMECHANICS IN ORTHOTIC 3 / Apply biomechanics principles in orthotics field. Mechanical properties of human tissues and the effects of force to the tissues. The effects of the same forces to the replacing orthotic device, and its 1

2 process design. 7 KUEP3131 BIOMECHANICS IN PROSTHETICS 3 / Apply biomechanics principles in prosthetics field. Mechanical properties of human tissues and the effects of force to the tissues. The effects of the same forces to the replacing prosthesis device, and its process design. 8 KUEP3132 CLINICAL STUDY III 2 / 9 KUEP3133 REHABILITATION MEDICINE I 3 / 10 KUEP3134 CLINICAL PRACTICE I 2 / 11 KUEP4280 GRADUAN PROJECT 6 / 12 KUEP4302 MICROPROCESSOR BASED CONTROL SYSTEM 3 / 13 KUEU1130 STATICS 2 / 14 KUEU1142 BIOCHEMISTRY AND ANALYSIS 3 / The course covers load systems, geometrical properties of figures, namely centre of mass and second moment of areas, distributed force systems and its action on cables, the concept of dry friction and frictional mechanical machines, and analysis of connected bodies in equilibrium using the virtual work method. The course has an overall goal of equipping students to understand the key biomolecules within the human body, and know to choose appropriate laboratory techniques 2

3 15 KUEU KUEU1150 MECHANICAL ENGINEERING DESIGN HUMAN ANATOMY AND PHYSIOLOGY I 3 / 3 / 17 KUEU1171 LABORATORY PRACTICAL 1 / This course introduces the basics of engineering drawing (manual as well as computer aided) and workshop technology (cutting, holding, assembling or dismantling work piece). The student also requires to do some simple design for some biomedical engineering problem. This course covers basics of human anatomy and physiology. The topics covered are gross anatomy, cells & tissues, cardiovascular system, respiratory system, nervous system, integumentary system, muscular system, skeletal system. students to perform basic engineering experiments. 18 KUEU2137 BIOMECHANICS 3 / 19 KUEU2141 CIRCUIT ANALYSIS 3 / 20 KUEU2142 ELECTRONIC 3 / 21 KUEU2143 MICROCOMPUTER AND DIGITAL SYSTEMS 3 / The principles of mechanics are applied to the study of human motion to provide students with an understanding of the internal and external forces acting on the body during human movement This course covers the introduction to the Kirchhoff s law, Nodal analysis and The venin s law, mesh analysis and superposition s law. Calculate current, voltage and power in ac circuits using phasor approach. Study the mutual Inductance and transient response in RC, RL and RLC circuits. This course introduces electronic devices and their applications. The p and n type materials, including its doping process and application of pn junction as circuit element. Clipper and clamper and power supply. Diode equivalent circuits and applications. DC and AC equivalent analysis of BJT and FET including their bias configurations This subject introduces Microprocessor and its Architecture, number systems, digital logic circuits, addressing mode, data movement instructions, arithmetic and logic instructions, program control, memory interface, Input / Output interface, 3

4 22 KUEU2173 LABORATORY PRACTICAL III 1 / 23 KUEU3147 BIOMATERIALS 3 / interrupts, subroutines, design of microprocessor system. students to perform engineering experiments Materials that are used in medical application. Materials (metals, polymers, ceramics, composites) that are used in biomaterials. Mechanism of host response and materials response. Different criteria needed for implants. Types of biomaterials that can be used. 24 KUEU3150 BIOMEDICAL ENGINEERING PRACTICES 1 / 25 KUEU3175 LABORATORY 5 1 / students to demonstrate engineering experiments. 26 KUEU4132 ARTIFICIAL ORGAN AND BIOTRANSPORT 2 / 27 KUEU4134 MEDICAL INSTRUMENTATION: APPLICATION AND DESIGN 3 / 28 KUEU4135 MANAGEMENT AND CLINICAL ENGINEERING 3 / 29 KUEU4180 CAPSTONE PROJECT I 1 / students to design engineering experiments. 30 KUEU4181 CAPSTONE PROJECT 2 1 / students to design engineering experiments. 4

5 31 KUEU4183 GRADUATE PROJECT I 2 / 32 KUEU4322 PATTERN IDENTIFICATION 2 / 33 KUEU4324 ADVANCED BIOMATERIALS 2 / This course requires students to undertake a research project on a chosen topic in Biomedical Engineering under the supervision of an academic staff. Students will be applying the knowledge they have learned throughout this programme by implementing them in the research project which is carried out for two semesters. In the second semester, focus is given on the project work (experiments, simulations, etc.), analysis of results and final report writing. Students are expected to complete project work according to the planned schedule. This course introduces fundamental concepts, theories, and algorithms for pattern recognition. s covered include preprocessing, feature generation, dimensionality reduction through data transformation, feature selection, classification based on Bayes decision theory, linear classifiers, nonlinear classifiers, template matching, system evaluation and clustering. The course teaches topics related to a wide range of materials used in the application of biomaterials. This course exposes students to uptodate technologies used in the fabrication, modification and characterisation of biomaterials. Through the course, students learn necessary techniques to validate the biocompatibility of a material. 34 KUEU4327 ARTIFICIAL INTELLIGENCE IN BIOMEDICAL ENGINEERING 2 / 35 KUEP1142 HUMAN ANATOMY AND PHYSIOLOGY II 2 / 36 KUEP1143 HEALTCARE AND ETHICS 2 / This course covers basics of human anatomy and physiology. The topics covered are renal system, digestive system, endocrine system, reproductive system, motor system, special senses. Basic knowledge about health service system and social welfare in Malaysia, including the role of P&O personnel in 5

6 37 KUEP1144 DYNAMICS 3 / 38 KUEP1145 MECHANICS OF MATERIALS 3 / 39 KUEP1172 LABORATORY 2 1 / 40 KUEP2140 BIOSTATISTIK 41 KUEP2146 COMPUTER AND PROGRAMMING 2 / 2 / 42 KUEP2147 FLUID MECHANICS 3 / 43 KUEP2174 LABORATORY 4 1 / 44 KUEP2182 PROSTHETIC AND ORTHOTICS ENGINEERING DESIGN II 3 / Malaysia and professional ethics. Kinematics of accelerating particles. Kinetics of accelerating particles. Kinematics of accelerating rigid bodies in 2D. Principle of work and energy. Kinematics of simple mechanisms Describe and Solve problems involving: body under the action of simple tension. Circular rod under the action of torque. Beams in equilibrium. Containers under internal pressure. Stresses in beams. Stresses deflections of beams. Buckling beams. Planes stresses. Plane strains. Body under combined loadings. students to perform basic engineering experiments. Basic concepts, theory and techniques of statistics used in biomedical engineering. Introduction of statistical package to analyse biomedical engineering problems. Application of statistical analysis in the case study. This course introduces the basic structural computer programming and objectoriented programming. The course covers the arithmetic and logical operations, control structures, functions, arrays, pointers and objectoriented programming. The student will learn to write useful computer programs in order to solve mathematical and engineering problems. Basic principles covering fluid mechanics. Applying basic principles of fluid mechanics to solve engineering problems. Applying basic principles of fluid mechanics in biomedical engineering problems. students to demonstrate engineering experiments. This course teaches the students engineering design skills. This is incorporated through three important skills such as engineering drawing, workshop 6

7 45 KUEP2248 MEDICAL ELECTRONICS 3 / technology and handon practical This subject introduces to students the basic theory of sensors, transducers and electrodes. It covers the related electronic circuits and components for biomedical applications. The students are also exposed to filters, oscillators and ADC & DAC circuits. The specific circuit for ECG, EMG and EEG systems are also explained in this course. 46 KUEP3134 CLINICAL PRACTICE I 2 / 47 KUEP4130 HUMANISTIC SCIENCE 3 / 48 KUEP4280 GRADUATION PROJECT 3 / 49 KUEP4304 POLYMEIRIC MATERIALS 3 / 50 KUEP4305 BIOMECHATRONICS IN PROSTHETICS 3 / 51 KUEP4306 STRUCTURE OF BIOLOGICAL MATERIALS 3 / 52 KUEP4307 MEDICAL IMAGE ANALYSIS 3 / 7

8 53 KUEU1142 BIOCHEMISTRY AND ANALYSIS 3 / 54 KUEU1151 HUMAN ANATOMY AND PHYSIOLOGY 2 2 / 55 KUEU1154 DTNAMICS 3 / 56 KUEU1172 LABORATORY PRACTICAL II 1 / 57 KUEU2133 COMPUTER AND PROGRAMMING 2 / 58 KUEU2136 THERMOFLUID 3 / 59 KUEU2138 MECHANICS OF MATERIAL 3 / 60 KUEU2139 MEDICAL ELECTRONICS 3 / The course has an overall goal of equipping students to understand the key biomolecules within the human body, and know to choose appropriate laboratory techniques This course covers basics of human anatomy and physiology. The topics covered are renal system, digestive system, endocrine system, reproductive system, motor system, special senses Kinematics of accelerating particles. Kinetics of accelerating particles. Kinematics of accelerating rigid bodies in 2D. Principle of work and energy. Kinematics of simple mechanisms students to perform basic engineering experiments. This course introduces the basic structural computer programming and objectoriented programming. The course covers the arithmetic and logical operations, control structures, functions, arrays, pointers and objectoriented programming. The student will learn to write useful computer programs in order to solve mathematical and engineering problems. Basic principles covering fluid mechanics. Applying basic principles of fluid mechanics to solve engineering problems. Applying basic principles of fluid mechanics in biomedical engineering problems Describe and Solve problems involving: body under the action of simple tension. Circular rod under the action of torque. Beams in equilibrium. Containers under internal pressure. Stresses in beams. Stresses deflections of beams. Buckling beams. Planes stresses. Plane strains. Body under combined loadings This subject introduces to students the basic theory of sensors, transducers and electrodes. It covers the related electronic circuits and components for biomedical applications. The students are also 8

9 61 KUEU2174 LABORATORY PRACTIVAL IV 1 / exposed to filters, oscillators and ADC & DAC circuits. The specific circuit for ECG, EMG and EEG systems are also explained in this course. students to demonstrate engineering experiments. 62 KUEU3146 BIOMEDICAL STATISTICS 2 / 63 KUEU3148 ELECTROMAGNETISM AND ELECTRICAL MACHINES 3 / 64 KUEU3149 CONTROL SYSTEMS 3 / 65 KUEU3233 BIOMEDICAL SIGNALS AND SYSTEMS 66 KUEU3245 MECHANICS OF MACHINES 3 / 2 / Basic concepts, theory and techniques of statistics used in biomedical engineering. Introduction of statistical package to analyse biomedical engineering problems. Application of statistical analysis in the case study. This course introduces electromagnetics and electrical machines. The syllabus of the course includes the electrostatic and magneto static field concept, Gauss s law, Ampere s law, Faraday s law for magnetic system with time varying fields, ac and dc motors. This subject introduces the concept of control system, transfer functions of cascaded systems and their parameters. Control approaches such as PID, system stability, sketching techniques and plotting are also included to equip students with necessary tools in solving biomedical engineering problems. This course introduces the basics of signal and systems to the students. The students will be exposed to signal transformation and signal properties. Kinematics and Kinetics of slider mechanism and fourbar mechanism. Gears and trains 67 KUEU4134 MEDICAL INSTRUMENTATION: APPLICATION AND DESIGN 3 / This subject relates the structure and the components of biomedical equipment. It stresses deep understanding of instrumentation devices and systems for a particular application in biomedical. Instrumentation for Biopotentials, cardiovascular, respiratory and other 9

10 68 KUEU4140 SAFETY, STANDARDS AND ETHICS IN BIOMEDICAL 2 / 69 KUEU4141 MEDICAL IMAGING 3 / important physiological parameters are covered in this course. Students are also required to design a basic biomedical instrumentation device. The course covers the medical safety standard or safety codes to guide equipment manufacturers in the production of safe equipment, electrical hazards of medical instruments e.g macro shock and micro shock hazards, physiological effects of electricity on human body, leakage current, devices to protect against electrical hazards. Design for electrical safety measurement for medical device. Safety Criteria in designing mechanical devices in biomedical engineering The course introduces the basic principles and design of medical diagnostic imaging equipment. A few medical imaging technologies are covered such as Xrays, gamma rays, and computed tomography, fluoroscopy, mammography, projection radiography, magnetic resonance imaging, ultrasound, bio magnetic diagnostics, laser and optoelectronics. The course also exposes the students to the quality control in diagnostics. 70 KUEU4180 CAPSTONE PROJECT I 1 / students to design engineering experiments. 71 KUEU4285 GRADUATION PROJECT II 4 / This course requires students to undertake a research project on a chosen topic in Biomedical Engineering under the supervision of an academic staff. Students will be applying the knowledge they have learned throughout this programme by implementing them in the research project which is carried out for two semesters. In the second semester, focus is given on the project work (experiments, simulations, etc.), analysis of results and final report writing. Students are expected to complete project work according to the planned schedule. 10

11 72 KUEU4330 TISSUE ENGINEERING 2 / This course covers the basic principles of tissue engineering focused upon the combination of cells, scaffolds, components of extracellular matrix and appropriate stimulation. Also reviews current strategies and usage of tissue engineering. 73 KUEU4335 MEDICAL IMAGE VISUALIZATION 2 / 11