《信号与系统》课程中英文简介

信号与系统课程中英文简介Signals and Systems课程代码：0BL17901Course Code：0BL17901课程名称：信号与系统 Course Name：Signals and Systems学时：64Period：64学分：4Credits：4考核方式：笔试，闭卷Assessment methods：Written Examination（Book Closed）先修课程：高等数学、复变函数 Preparatory Courses：与积分变换、线性代数、电路 Advanced Mathematics, Functions of分析、模拟电子技术、 Complex Variables and IntegralMATLAB Transformations, Linear Algebra, Circuit Analysis, Analog Electronic Technique, MATLAB 信号与系统的课程内容包括信号与系统的定义、分类，信号的运算规则，典型信号，系统的性质及系统的数学模型。分别从时域、频域、S域（对连续时间信号与系统）或Z域（对离散时间信号与系统）对信号和系统进行分析。本课程的总体架构是两个方程（连续时间系统的微分方程和离散时间系统的差分方程）、三个变换（傅里叶变换、拉普拉斯变换、Z变换）、两种分析方法（端口分析方法和状态变量分析方法）。通过本课程的学习，使学生理解信号与系统的物理概念、掌握信号与系统的分析方法，了解信号与系统的应用。重点理解并掌握各种信号的描述及其时域特性、频率特性，系统的数学模型建立以及线性时不变系统的时域分析、频域分析、零极点分析、状态变量分析的方法。The contents of Signals and Systems include the definition and classification of signals and systems, operation rules of signals, typical signals, characteristics of systems and the mathematical module of systems. Signals and systems can be analyzed in time domain, frequency domain, S domain which is for continuous signals and systems, and Z domain which is for discrete signals and systems. The overall structure of this course is including two equations (Differential Equations of Continuous Systems and Difference Equations of Discrete Systems), three transformations (Fourier Transformation, Laplace Transformation, and Z Transformation) and two analysis methods (Port Analysis Method and Status Variables Analysis Method). By studying this course, students could understand the physical concepts of signals and systems, master the analysis methods for signals and systems, and understand the applications of signals and systems. Students should emphasis on the understanding and mastery of the description of various signals and their time-domain characteristics, frequency characteristics, the establishment of mathematical model of the systems; and the time-domain analysis, frequency-domain analysis, pole-zero analysis, state variable analysis methods of linear time-invariant systems.执笔：许淑芳审核：罗倩 软件设计基础课程中英文简介 Fundamentals of Software Design课程代码：0BH17201Course Code：0BH17201课程名称：软件设计基础Course Name：Fundamentals of Software Design学时：64Period：64学分：4Credits：4考核方式：笔试闭卷Assessment methods：Written Examination and Close Book先修课程：C语言程序设计Preparatory Courses：Programming in C 软件设计基础课程针对通信工程本科生的需要，讲授计算机软件的基本概念、方法及实用技术。该课程具体包括：软件的概念、算法复杂度分析方法、顺序表、线性链表、栈、队列；树的逻辑结构、图的逻辑结构；Hash表查找、二叉排序树、冒泡排序、插入排序、选择排序、快速排序、归并排序；操作系统的功能、进程管理、存储器管理、设备管理、作业管理等；关系模型及其数学基础、SQL语言、数据库系统的设计与实施方法。通过本课程的学习，学生能够理解有关数据结构、操作系统及数据库系统设计的基本原理与概念，掌握软件开发的实用技术和方法，学会分析、研究计算机加工的数据对象特性，了解软件工程的基本概念、方法和理论体系，并能够综合利用所学内容，结合本专业需要，进行软件设计，为从事通信系统软件设计奠定坚实的基础。This goal of Fundamentals of Software Design is to teach basic concepts, methods and practical techniques of computer software for satisfying the need of Communication Engineering undergraduates. The course specifically includes: the concept of the software, analysis method of computational complexity, sequence list, linear linker, stack, queue; logical structures of tree, logical structures of graph; searching on Hash Tables, binary sort tree, bubble sort, insertion sort, selection sort, quick sort, merge sort; function of operating system, process management, memory management, equipment management, job management etc.; relational model and mathematical foundation, SQL language, design and implementation method of database system. By learning this course, students can understand the basic concept and principle of data structure, operating system and database system designing, grasp practical techniques and methods of software development, learn to analysis and study object properties of computer processing data, understand basic concept, method and theoretical framework of software engineering. The students can comprehensively use what they have learned to conduct software design through combining the needs of the specialty. The course lays a solid foundation for engaging in communication system software design. 执笔：曹 林 审核：汪毓铎高频电子线路课程中英文简介High Frequency Electronic Circuit课程代码：0BH17901Course Code：0BH17901课程名称：高频电子线路 Course Name：High Frequency Electronic Circuit学时：56Period：56学分：3.5Credits：3.5考核方式：考试Assessment methods：Examination先修课程：电分、模电、信号与系统Preparatory Courses：Circuit Analysis，Analog circuit, Signal and System “高频电子电路”课是通信工程专业，电子信息工程专业及其他无线电技术专业的一门重要的专业基础课。通过本课程的学习，学生应该掌握通信电路的基本理论，各种典型电路的工作原理，分析方法及其应用。主要内容包括：选频网络，小信号谐振放大器，非线性电路分析方法及变频电路，谐振功放原理及分析，正弦波振荡器，幅度与角度调制与解调，锁相环的基本原理和应用。通过本课程的学习，使学生建立通信系统概念，学会掌握高频电路收发系统原理及基本非线性电路分析方法。 “High Frequency Electronic circuit course is an important specialized fundamental course of the communication engineering, electronic information engineering and other radio technology specialty. Through the study of this course, students should master the basic theory of communication circuits, working principles of a variety of typical circuits, analysis methods and their applications. The main content includes: selecting frequency network, small signal amplifier, analysis methods of nonlinear circuits, frequency conversion circuit, principle and analysis of resonant amplifiers, sine wave oscillator, the amplitude and angle modulation and demodulation, and the basic principle and application of phase lock loop,. Students can establish the concept of communication system, learn and master the principle of transceiver system in the electronic circuit and the basic analysis method of nonlinear circuits through the studying of this course,.执笔：刘南 审核：冷俊敏电磁场与电磁波课程中英文简介Electromagnetic Fields and Waves课程代码：0BL17201、0BL02005 Course Code：0BL17201课程名称：电磁场与电磁波 Course Name：Electromagnetic Fields and Waves学时：56Period：56学分：3.5Credits：3.5考核方式：笔试（闭卷） Assessment methods：Written Examination （Book Closed）先修课程：高等数学，Preparatory Courses：Higher Mathematics, 大学物理电磁学 College Physics (Electromagnetics)电磁场和电磁波是当代电子、电力、信息等技术领域的物理基础之一，这方面的基础理论则成为各高校通信、电子信息技术、计算机、自动控制等信息技术专业和电气工程技术专业本科生必修的一门专业基础课。电磁场与电磁波理论的掌握对通信工程专业本科生的专业知识（如微波技术、无线通信、光纤技术等）的学习及学生自身理论素质、解决问题的能力和创新能力的培养都十分关键。本课程包括矢量分析基础，电磁场基本实验定律，静电、静磁场分析，静态边值问题的求解，时变电磁场，平面电磁波，电磁波辐射等内容。其任务是让学生对经典的宏观电磁场理论有一个比较系统、全面、深入的了解，掌握电磁波的基本规律和分析方法，为今后学习微波技术、无线通信、光纤通信和电磁兼容性等专业技术课打下坚实的理论基础。 Electromagnetic fields and waves are the physical basis for contemporary electronics, electrical engineering and information engineering domains. Therefore, the fundamental theory in this domain shall be elucidated in a corresponding required basic course for the undergraduates specialized in information and electrical engineering, specifically, e.g. communication, electronic information technology, computer, automatic control engineering. Mastering of the theory of electromagnetic fields and waves is one of the pivotal elements for the special knowledge (such as the microwave technology, wireless communication, and fiber optic technology) learning of the attendees, the enhancement of their attainments in theory, and the cultivation of their ability to solve practical problems and to innovate. The course covers the following topics: fundamental of vector analysis, basis experimental laws for electromagnetics, the analysis of electrostatic/magnetostatic field, the solving of boundary value issues of static fields, time-variant electromagnetic field, planar electromagnetic wave, and electromagnetic radiation, etc. The goal of the course is to help the undergraduates to establish a comprehensive, systematic and in-depth understanding of classic and macro-scale electromagnetic field theory, to make them grasp the basic rules and analysis methodologies, so as to lay a solid groundwork of theory for them to learn the courses of specialty, such as microwave technology, wireless communication, fiber optic communication and electromagnetic compatability, etc., right now and in the future.执笔：缪 旻审核：崔英花 数字信号处理Digital Signal Processing课程代码：0BH17202Course Code：0BH17202课程名称：数字信号处理Course Name：Digital Signal Processing学时：64Period：64学分：4Credits：4考核方式：考试Assessment methods：Exam先修课程：信号与系统Preparatory Courses：Signals and Systems课程讲述数字信号处理的基本理论和方法。课程的基本内容包括离散时间信号和系统的时域分析、离散时间信号和系统的频域复频域分析、离散傅里叶变换、快速傅里叶变换、数字滤波器结构、无限长脉冲响应数字滤波器设计、有限长脉冲响应数字滤波器设计和有限字长效应。课程教学目标是使学生掌握数字信号处理的基本理论和方法。具体为理解离散傅里叶变换的物理意义，重点掌握利用离散傅里叶变换进行信号谱分析的方法；理解快速傅里叶变换算法原理；熟练掌握无限长脉冲响应数字滤波器设计、有限长脉冲响应数字滤波器设计方法；建立有限字长效应概念。The curriculum gives an account of the fundamental theory and methods of digital signal processing. The basic contents includes the time domain analysis and frequency domain analysis of discrete signals and discrete systems, discrete Fourier transform, Fast Fourier transform, the constructions of digital filters, infinite impulse response digital filter design, finite impulse response digital filter design, and finite word length effects.It is the curriculum teaching destination that the fundamental theory and methods of digital signal processing are mastered by the learner. The detailed study contents include: the understanding of physical sense of discrete Fourier transform, mastering of the analysis methods of signal using discrete Fourier transform, the basic understanding of fast Fourier transform, the skillfully commanding of the infinite impulse response digital filter and finite impulse response digital filter design methods, and the establishing of sense about the finite word length effects in digital signal processing.执笔：汪毓铎审核：许淑芳通信工程专业认识与实践课程中英文简介Understanding and practice of communication engineering. 课程代码：0BS17201Course Code：0BS17201课程名称：通信工程专业认识与实践Course Name：Understanding and practice of communication engineering学时：16Period：16学分：1Credits：1考核方式：考查Assessment methods：Test先修课程：无Preparatory Courses：None 认识实习是工科学生的重要教学环节。通过认识实习使学生了解电子技术、通信技术和计算机技术在生产实践和科学研究中的应用情况，使学生对生产过程中的电子设备、通信设备和计算机设备等有初步的了解和认识，同时培育学生的现场安全生产意识及组织纪律观念。所以，认识实习是开拓学生视野、激发学生对本专业的学习热情、加深学生对本专业了解的有效手段和方法；为学生牢固树立热爱专业和献身祖国通信事业的远大抱负奠定思想基础；对学生了解通信技术在国民生产中的重要地位有着不可缺少的作用。 通信工程专业是一个实践性很强的专业，它要求学生掌握坚实的理论知识，还要求学生掌握较强的实践经验。为了使学生对生产现场、生产过程和电子设备、通信设备、计算机设备有较为深刻的认识，学习最常用电子设备、通信设备的工作原理和运行过程，认识实习是其中非常重要的环节。 本实习针对学生在掌握一定理论的基础上，着重了解通信产品运作过程，了解现代化通信网络的组成。Cognition practice is an important teaching aspect of engineering students. By understanding internships enable students to understand the electronic technology, communication technology and computer technology in production practices and scientific research, so that students have a preliminary understanding and knowledge of the production process in electronic equipments, communications equipments, and computer equipments, etc., while fostering students live production safety awareness and organization and discipline. Cognition practice to develop students horizons and inspire students of the professional learning enthusiasm, deepen student understanding of the professional an effective means and methods; for students to firmly establish the love of professional and devotion to the motherland communications career lofty ambitions lay the ideological foundation; students understand communication technology has an indispensable role in an important position in the national product. Communication Engineering is a very practical professional, it requires students to master a solid theoretical knowledge, but also requires students to master the strong practical experience. To enable students to have a more profound understanding of the production site, the production process and electronic equipment, communications equipment, computer equipment, learn the most commonly used electronic equipments, communications equipments working and running, cognition practice is one of the very important aspects. The internship for students to acquire a certain theory based on communication products focus on understanding the operation of the process, to understand the composition of the modern communication network. 执笔：张月霞审核：汪毓铎 通信工程专业导论Introduction to Communication Engineering Profession课程代码：0RL17201 Course Code：0RL17201课程名称：通信工程专业导论 Course Name：Introduction to Communication Engineering Profession学时：32 Period：32学分：2 Credits：2考核方式：考查 Assessment methods：Check先修课程： Preparatory Courses：课程讲授通信技术的发展历程、现状与未来趋势，以及通信工程专业的人才培养计划、目标与特色。通信工程专业导论指导着通信工程专业的学习与工程实践，使学生能在短时间内对通信工程专业形成整体概念，激发起对该专业的浓厚兴趣，形成完整的通信框架，达到从宏观上对通信的全面认识。课程教学目标是使学生了解学习通信工程专业的重要意义、本专业所涉及的基本知识、专业基本内容，初步建立通信工程专业的一些基本的概念。使同学们在学完通信工程专业导论后，能在大学四年的学习中能有针对性地对组成通信框架的各个部分的具体细节作深入的学习与理解，完善通信框架中的具体内容，从而避免学习的盲目性和在一二年级时的迷茫心理。The curriculum gives an account of the communication development history, status quo, future developing directions, and talent training plan, target, and feature of the communication engineering major. The curriculum guides both the theoretical study and engineering practice of this major. By studying this curriculum, the whole concept of communication can be established in a short time, great study interest could be aroused, and the whole communication framework could be formed. Thereby the destination of overall comprehending of communication can be achieved.The curriculum teaching destination is that the students are made to know the significance of studying communication major, the concerned basic knowledge and contents about this major, and to establish some basic concept about it. After completion of this curriculum in the university for four year, the students can make a in-depth learning and understanding study on the specific details of the various parts that make up the communication framework for, improve the specific content in the framework, thus avoid learning blindness and confused mentality in study in the first and second grade.执笔：汪毓铎审核：李学华MATLAB及其应用课程中英文简介MATLAB and its Application课程代码：0RH17201Course Code：0RH17201课程名称：MATLAB及其应用Course Name：MATLAB and its Application学时：32Period：32 学分：2Credits：2考核方式：开卷Assessment methods：Open-book先修课程：C语言程序设计、 Preparatory Courses：Programming in C 高等数学、线性代数、电路分析 Language、Advanced Math、Linear Algebra、Circuits Analysis MATLAB是美国MathWorks公司出品的商业数学软件，用于算法开发、数据可视化、数据分析及数值计算的高级技术计算语言和交互式环境，主要包括MATLAB和Simulink两大部分。MATLAB主要应用于工程计算、控制设计、信号处理与通讯、图像处理、信号检测、金融建模设计与分析等各个领域，并且在高校与研究单位起着重大的作用，是通用的科学计算、数值仿真和可视化及动态仿真的重要工具。本课程主要介绍MATLAB编程语言及其应用，包括：Matlab的编程基础、基本绘图方法、Simulink仿真以及Matlab在信号处理、通信系统和高等数学中的应用。通过本课程的学习，旨在提高学生解决实际问题的能力、软件应用能力，为他们今后从事专业学习、科研活动和继续深造打下扎实的基础。Matlab is a high-level language and interactive environment for numerical computation, visualization, and programming, and it is produced by the American company MathWorks. Using MATLAB, you can analyze data, develop algorithms, and create models and applications. The language, tools, and built-in math functions enable you to explore multiple approaches and reach a solution faster than with spreadsheets or traditional programming languages, such as C/C+ or Java.This course mainly introduces the MATLAB programming and its application in signal processing, communication system and advanced mathematics. Through this course, aiming to improve the students ability to solve practical problems and help them conduct professional learning and research activities in the future . 执笔：杨 玮审核： 曹林 单片机应用技术课程中英文简介Application Technology of Single Chip Computer课程代码：0RH17202Course Code：0RH17202课程名称：单片机应用技术 Course Name：Application Technology of Single Chip Computer学时：32Period：32学分：2Credits：2考核方式：考试Assessment methods：exam先修课程：C语言程序设计，模拟、数字电子技术Preparatory Courses：C language programming, analog, digital electronic technology 单片机应用技术课程是通信工程专业涉及计算机硬件类的专业选修课，具有很强的实践性和综合性。通过本课程的学习，使学生初步具备MCS-51单片机应用系统的设计开发能力，掌握单片机的基本原理，掌握单片机实际应用系统的设计方法，提高学生分析问题、解决问题以及实际动手能力。本课程以MCS-51系列单片机为模型，主要向学生介绍单片机的基本结构、工作原理、指令系统与程序设计、I/O接口、中断系统、定时器/计数器原理与应用、串行口通信、系统扩展与单片机的实际工程应用等。本课程强调实践环节，侧重单片机的系统构成与实际工程应用，力求通过实践环节，软、硬件结合，培养学生的单片机应用开发能力，并使其先修课程的基本概念得到综合与应用。The course of application technology of single chip computer is a communication engineering professional elective course with highly practical and comprehensive, which is related to computer hardware. Through Learning this course, students initially have ability in MCS-51 microcontroller applications design and development，mastering the basic principles of the single chip Computer (equal MCU) ，mastering the practical application system design of MCU and improving the students ability to analyze and solve problems , as well as the actual operational ability. This course uses MCS - 51 series MCU for the model mainly to introduce the basic structure of the MCU, the operating principle, instruction system and program design, the I/O interface and interrupt system, timer/counter principle and application, serial port communication, system expansion and MCU practical engineering application, etc. The curriculum emphasizes the practice links, focuses on the MCUs system composition and the actual engineering application. It makes every effort through practice and the combination of software and hardware to develop the students ability of MCU application development and makes the basic concept of prerequisite course to be comprehensive and applied. 执笔：王亚飞审核：李振松 通信原理Principles of Communications课程代码：0BH17203 Course Code：0BH17203课程名称：通信原理 Course Name：Principles of Communications学时：72 Period：72学分：4.5 Credits：4.5考核方式：考试Assessment methods：Exam先修课程：信号与系统 Preparatory Courses：Signals and Systems高频电子线路 High Frequency Electronic Circuits 课程讲述通信基本概念，通信的基本理论，通信系统的基本组成，以及通信系统的分析方法。课程的基本内容包括通信的基础知识，模拟调幅、调频、调相通信原理，模拟信号的数字化，信号的数字基带传输及其抗干扰性能，信号的数字频带传输及其抗干扰性能，信道编码理论与信道编译码方法等。 课程教学目标是使学生掌握通信系统的基本概念、基本理论和系统的基本组成与基本方法。通过学习，使学生掌握通信关于信息、信道及系统质量指标等方面的基础知识；掌握通信系统的基本组成原理，通信方式，及其分类；掌握模拟调制通信，以及模拟通信的抗干扰性能；掌握模拟信号的数字化方法；掌握信号数字基带传输与其性能分析方法，信号数字频带传输与其性能分析方法；掌握信道编码理论与信道编译码方法等方面知识。The curriculum gives an account of the communication fundamental concepts, basic theory, general constitutions and communication system analysis methods. The basic contents of the curriculum includes the fundamental knowledge, analog communication principle such as amplitude modulation, frequency modulation, phase modulation, digitalization of analog signals, digital base-band transmission of the analog signal and its anti-interference performance, digital frequency-band transmission of the analog signal and its anti-interference performance, the theory of channel Codec and its Codec methods, etc.It is the curriculum teaching destination that the fundamental concepts, basic theory, system general constitutions and its analysis methods are mastered by the students. After completion of study, the learners should give priority to the fundamental knowledge such as information, channel, and quality index, master the general constitution principle, communication mode, and classification of the system, skillfully command the system principle of analog modulation communication, and its anti-interference performance, grasp the digitalization methods of analog signal, master the digital base-band transmission of the signals and its performance analysis methods, understand the digital frequency-band transmission of the signals and its performance analysis methods, and know the theory of channel Codec and its Codec methods well.执笔：汪毓铎审核：李学华微波技术基础课程中英文简介Microwave Technology Foundation 课程代码：0BH17204Course Code：0BH17204课程名称：微波技术基础Course Name：Microwave Technology Foundation学时：64Periods：64学分：4Credits：4考核方式：考试Assessment：Examination