代写MEC 302 Embedded Computer Systems Semester 2 2023-2024代写留学生Matlab程序

日期：2024-05-22 12:24

MEC 302

Embedded Computer Systems

Semester 2

2023-2024

SECTION A: Basic Information

Brief Introduction to the Module

The aim of this module is to build upon students' understanding of Microprocessor Systems to understand the concept, construction, and implementation of embedded computer systems. The module will focus on the understanding of Cyber-Physical Systems using C language to model, program, and analyse embedded systems.

Key Module Information

Module name: Embedded Computer Systems

Module code: MEC302

Credit value: 2.5

Semester in which the module is taught: 2

Pre-requisites needed for the module:

Programmes on which the module is shared: BEng Computer Science and

Technology, BEng Electrical Engineering, BEng Electronic Science and Technology, BEng Mechatronics and Robotic Systems

Delivery Schedule

Lecture room: SIP-EE101

Lecture time: Week 1- 13, Tuesday 09:00 to 10:20

Tutorial time: Week 5, 8 and 12, Monday 14:00 to  16:50 (Week 5),  14:00 to  15:50 (Week 8 and 12) (@SIP-EE101)

Computer Lab: Week 9, Monday 14:00 to 17:50 (@CBG12, CBG15E, SD554)

SECTION B: What you can expect from the module

Educational Aims of the Module

The module will provide a structured viewpoint on embedded computer systems. First, students will learn the methods for continuous and discrete system modelling to implement effective control. Then, they will learn about the design of  the embedded systems, including sensors and actuators, processors, memory, input and output, multitasking, and scheduling. Finally, the student will be familiarized with the analysis and verification methods for embedded computer systems.

Learning Outcomes

A   Explain what is meant by an Embedded Computer System.

B   Describe different types of embedded processors and their applications.

C   Characterize how parallelism and concurrency relate to embedded systems (timing, pipelines, and parallel resources).

D   Explain memory architectures and their importance in embedded system design.

E   Describe the design issues facing an Embedded system designer with relation to input/output hardware and software.

F   Be able to model and analyze continuous and discrete systems.

G   Program the main functions of embedded systems (input/output, timers, interrupts)

Assessment Details

Initial Assessment

Sequence	Method	Assessment Type(EXAM or CW)2	Learning outcomes assessed(use codes under Learning Outcomes)	Duration	Week	% of Final Mark	Resit(Y/N/S)3
001	Assignment 1	CW	A, F		7-9	10	N
002	Assignment 2 (programming)	CW	F, G		8- 11	10	N
003	Formal Exam	EXAM	A,B, C, D, E, F	2.0 hours		80	N

Resit Assessment

Sequence	Assessment Type (EXAM or CW)	Learning outcomes assessed (use codes under Learning Outcomes)	Duration	Week	% of Final Mark
No resit opportunity

Reassessment opportunities in the same academic year are not available for final year undergraduate students. Any students eligible to be reassessed in a failed Year 4 (Level 3) module will have the resit opportunity at the next ordinary sitting of the examination/assessment

Coursework and Lab assignments must be submitted within the specified deadline through LearningMall Online.

Methods of Learning and Teaching

This module is delivered through lectures, tutorials and programming exercises. Problems are embedded in lectures and there area number of programming exercises that can be completed using ARM emulators that the students can download. Knowledge of the lecture material is tested by the use of the XJTLU student response system.

Syllabus & Teaching Plan

Week Number and/or Date	Lecture/Seminar/ Field Trip/Other	Topic/Theme/Title	Pre-reading
Week 0	No teaching	Registration week
Week 1	Lecture 1	Introduction
Week 2	Lecture 2	Continuous systems
Week 3	Lecture 3	Discrete & hybrid systems
Week 4	Lecture 4	Sensors and actuators
Week 5	Lecture 5	Embedded processors
Week 6	Lecture 6	Memory architectures
Week 7	No teaching
Week 8	Lecture 7	Fundamentals of interfacing and embedded peripherals
Week 9	Lecture 8	Serial Communication
Week 10	Lecture 9	Multitasking and Scheduling
Week 11	Lecture 10	Evaluation and validation
Week 12	Lecture 11	Invariance and temporal logic
Week 13	Lecture 12	Revisions

Tutorial Schedule

Time	Day	Week	Venue	Lecturer/Instructor
14:00 to 16:50	Monday	Week 5	SIP-EE101	Filbert Juwono
14:00 to 15:50	Monday	Week 8	SIP-EE101	Filbert Juwono
14:00 to 15:50	Monday	Week 12	SIP-EE101	Filbert Juwono

Reading Materials

Title	Author	ISBN/Publisher
INRODUCTION TO EMBEDDED SYSTEMS: A CYBER-PHYSICAL SYSTEMS APPROACH	EDWARD ASHFORD LEE AND SANJIT	978062533812/MIT PRESS
ARM SYSTEM-ON-CHIP ARCHITECTURE	FURBER S.	978- 813170840/PEARSON

This is a standard undergraduate module and you will find a lot of information on the internet and in the many books in the library. The lectures are not based on any specific text book.

Links to useful online resources will be made available via LMO.