Electromagnetic Field and Microwave Technology Course syllabus

Electromagnetic Field and Microwave Technology Course syllabus

Course name: Electromagnetic Field and Microwave TechnologyCourse character: Compulsory courseLearning points: 4.0Total hours: 64Theory hours: 64 Experimental (or machine) hours:0Applicable objects: Undergraduate Telecommunication engineering

One, the nature of course, objective and taskThis course is the basic courses of communication engineering. It mainly explains the macroscopic Electromagnetic field and microwave technology, is a professional basic course of Communication Engineering. Its mission is to introduce the basic theory of electromagnetic field and microwave technology. By way of learning this coursestudents must have a good grasp of basic concept and basic theory of electromagnetic field and electromagnetic waveIn order to lay a foundation of studying succeed course. To understand the basic structure of microwave communication and microwave components, student can have the ability of analyzing and solving problems, and lay a good foundation for the future engineering design work.Attended courseHigher mathematics College physics electrocircuit

Two, Basic requirements of the course(1) Master the vector analysis, lay the mathematical foundation for field and the wave of learning(2) Grasp the basic theory of the electromagnetic field(3) Master the plane magnetic wave propagation characteristics in different medium(4) Application of master the calculation method of transmission line problems and chart;(5) Master mode and transmission characteristics of rectangular waveguide, circular waveguide and coaxial line(6) Familiar with the characteristics and application of microwave network various wave matrix;(7) The structure, working principle and application of microwave components.(8) Master the basic analysis method of antennaThree, The course content and time allocation1. Vector analysis (4 hours)2. The basic theory of Electromagnetic Field (12 hours)(1) Basic physical quantity in electromagnetic field and basic law(2) Magneto statics(3) constant electric field(4) constant magnetic field(5) time-varying electromagnetic field3. plane electromagnetic wave (12 hours)1Uniform plane wave in unbounded ideal medium2polarization of wave(3) Uniform plane wave in unbounded loss medium(4) Uniform plane wave on the plane interface of vertical incidence4. Transmission line theory (12 hours) (1) The field analysis method of transmission line equation and transmission line (2) the basic characteristic parameters of transmission line(3) the working state analysis of loss transmission line(4) the Smith maximum(5) transmission line impedance matching5. Microwave transmission line (12 hours)(1) the general analysis of metal waveguide transmission line(2) rectangular waveguide(3) circular waveguide(4) the same axis and the high-order mode(5) the strip line, microstrip line 6. microwave network infrastructure (6 hours)(1) the equivalent network of the microwave devices(2) two port microwave network(3) working characteristic parameter of the microwave network7 commonly used microwave components (2 hours)(1) a reactive element in waveguide(2) connecting element, a terminal element(3) attenuator and phase shifter, directional coupler(4) microwave resonant cavity8 antenna (4 hours)(1) antenna overview(2) the dynamic potential function and its solution(3) the basic oscillator radiation(4) dipole antenna

Four Textbooks and referencesTeaching material:Electromagnetic Field and Microwave Technology Huang YuLan People's Telecommunications PressReference.Technical foundation and application" microwave Chen Zhenguo Beijing University of Posts and Telecommunications pressmicrowave technology Basement Liao Chengen Xi'an Electronic and Science University press

Syllabus: HuBoNing Program approval: Wang Yafangdate: 2013 March

High Frequency Electronic CircuitsCourse Syllabus

Course name: High Frequency Electronic CircuitsCourse character: degree courseLearning points: 4.0Total Hours: 64 Theory Hours: 56 Experimental Hours: 8Applicable objects: bachelor degree in communication engineering

One, the nature of the course, the purpose and the taskHigh frequency electronic circuits is a professional basic courses of Communication Engineering Specialty .Through the studying of this course, make students familiar with the course described in various parts of the composition, characteristics, performance index, and its status and role in the communication system. Grasp the basic concepts, basic principles, basic analytical methods and typical circuits of High frequency electronic circuits, ready for learning courses, engaged in professional work related to laying the groundwork for the future. The main task of this course is to lay a foundation for the cultivation of students professional knowledge and ability to solve practical problems. Courses prerequisites: Advanced Mathematics, engineering mathematics, circuit, signal and system, analog electronic circuit and so on.

Two, course basic requirements1. Understand the characteristics of high frequency electronic circuits, high frequency electronic information generation, transmission, reception theory and method;2. Familiar with the basic features and uses of high frequency electronic devices;3. Master circuit working principles of high frequency electronic circuit module and export of basic circuits.4. Learn basic analysis method for high frequency electronic circuit, able to approximate engineering analysis of circuit.5. Emphasis on experiment and theory with practice-oriented.

Three, course content and distribution of school1. Introduction (2 hours)(1) An overview of wireless communication system(2) Signal, spectrum and modulation(3) This course features2. The basic of High frequency electronic circuits (6 hours)(1) The high frequency circuit components(2) The selected frequency in high frequency circuit network(3) The impedance transformation circuit3. High frequency harmonic oscillator amplifier (10 hours)(1) The high frequency small signal amplifier(2) The principle and characteristics of high frequency power amplifier(3) The actual line of high frequency power amplifier4. The sine wave oscillator (10 hours)(1) The principle of feedback oscillator(2) The LC oscillator(3) Quartz crystal oscillator(4) The oscillator frequency stability(5) The design method of the LC oscillator(6) Several phenomena in oscillator5. Amplitude modulation and demodulation and frequency mixing (14 hours)(1) The amplitude modulation(2) The analysis method of nonlinear circuits(3) The diode circuit(4) The differential circuit(5) Other spectral linear transfer circuit(6) For demodulation of AM signal(7) The mixing6. The frequency modulation and demodulation (14 hours)(1) Analysis of angle modulated signal(2) Frequency modulation and frequency modulation method(3) The frequency modulation circuit(4) The frequency discriminator and frequency discrimination method(5) Discriminator circuit(6) FM transceiver

Four, teaching contents and requirements1 quartz crystal oscillator (2 hours)2 amplitude modulation (2 hours)3 amplitude modulation signal demodulation (2 hours)4 varactor frequency modulation oscillator (2 hours)Through the experimental teaching to improve students' perceptual knowledge in high frequency electronic circuit, enhancing students' understanding of classroom teaching theory, Improve student's ability to use the theoretical knowledge and independent problem solving skills; Make students aware of crystal oscillator design methods and parameter calculation, measurement of amplitude modulation wave modulation method, diode envelope detector, FM modulation characteristics and main indicator of measurement methods; Master 1496 analog multiplier is used to implement common modulation and double sideband amplitude modulation method, using integrated circuit realization of synchronous detection method, varactor diode frequency modulator circuit principle and composition.

Five, textbooks and referencesTextbooks:Circuit principle and the analysis Zeng xingwen xi 'an university of electronic science and technology pressReferences:High Frequency Electronic Circuits Zhang suwen Higher education press

Outline developZhao ruimen Outline validationWang yafang Data August 2012

Single Chip Principle and Application Course syllabus

Course name :Single Chip Principle and ApplicationCourse character: Required coursesLearning points: 2 5Total Hours: 40 Theory hours : 32 Experimental (or machine) hours: 8Applicable objects: communication engineering

One,the nature , purpose and mission of the coursesThis course is a required course for students specialized in communications engineering. Learning through the curriculum , so that students master the basic principles of the Single Chip,methods of system development and design, engineering application technology. Through the study can strengthen the students' basicknowledge, for the future development and application of the hardware to lay the foundation.Prerequisite: Analog Electronic Technology,Digital electronic technology

Two, the basic requirements of the courseUnderstanding the development historyl of scm, current situation and development trend,application of single chip microcomputer. Grasp the common hardware structure, instruction system, extended design method and application programming technology.

Three, the course content and time allocation

1. Overview of the development trend of SCM and its application 2 hours2. The hardware structure of SCM 4 hours1The hardware composition2Memory construction3I/O port4Reset and clock circuit3. Instruction system and program design 6 hours1Addressing mode and instruction system2programming4. interrupt system 2 hours5. Timer / counter 4 hours1Timer / counter structure and working methods2Timer / counter programming and Application6. Serial port 6 hours1structure and operation mode of serial port2The multi computer communication3Serial port programming and Application7. System expansion technology and Application 4 hours1Extended memory design2I/O port expansion design8. Design of MCU application system 4 hours1Development system2Example of the design of MCU application systemFour, the experimental teaching contents and requirements1.Number system conversion experiment. (design experiment) 2hours2. traffic light experimentdesign experiment 2 hours3. Display experimentdesign experiment 2 hours4. Keyboard experimentdesign experiment 4 hoursThrough the experiment to verify the work principle of Microcomputerexternal behavior,the design of system expansion circuit, assembly language programming and debugging methods.So that, students understand the theory deeply,master the characteristics and using methods of main parts of SCM.Five, teaching materials and referencesTeaching materials:Principle and interface technology of single chip microcomputer Gaofeng Science PressReferences:MCS-51 single chip microcomputer application design Yigang Zhang Harbin Institute of Technology pressPC and single chip microcomputer Data communication technology Zhaoqing Li Beihang University press

Outline develop: Junshe Wang Outline validation:Yafang Wang Data : 2012-8

Coding Theorycourse syllabusCourse title: Coding TheoryCourse nature: Required courseCredit: 2.5Total hours: 40 Theory hours: 40Applicable objects: Bachelor degree in communication engineeringOne, The nature, objective and tasks of the courseThis course is a required course for students majoring in communication engineering. Through the study of this course students can master the information system of coding technology, master the validity and reliability of communication system and other important indicators, master the sourse coding and channel coding of the basic principles and methods. Prerequisite courses: Probability Theory and Mathematical Statistics, Communication Principles.Two, Basic requirements of the courseFamiliar with various coding theorem of information theory, grasp the basic principle and coding method of source coding, grasp the basic principle and coding method of error control coding.Three, The course content and time allocation1. Introduction (2 hours)2. Lossless source coding (14 hours) (1) The amount of information entropy and mutual information (2) The source coding theorem (3) The method of Hoffman coding and other coding method (4) The arithmetic coding (5) The run-length coding (6) The improved Hoffman coding (7) The generic coding3. The related source code (4 hours) (1) The predictive coding (2) The transform coding4. The limit of distortion source coding (4 hours) (1) Continuous source entropy and mutual information (2) The information rate distortion theory5. The channel coding (4 hours) (1) The basic concepts of channel coding (2) The basic principle of channel coding (3) The linear block codes (4) The cyclic code (5) The convolution codeFour, textbooks and referencesTeaching material:The theory of code Tian Lihua The Xian University of Electronic Science and Technology PressReferences:The coding theory Xiao Guozhen The National Defense Industry PressThe information processing and coding Wu Weiling The Peoples Posts and Telecommunications PressThe outline set: Lian Baoqian Outline validation: Wang YafangDate: August 2012

Communication Theory Course syllabusCourse name: Communication Theorycourse character: Required coursesLearning points:5.0Total hours:72 Theory hours 62 Experimental hours:10Applicable objects: Undergraduate Communication Engineering

One, The nature of course, objective and taskThe course is the basis of professional theory courses. Through learning this course, students can understand and master the basic theory and method of analog communication and digital communication ,the specific measures of anti-jamming as well as the basic structure of the communication network, the principle of channel multiplexing and synchronization of digital transmission.Advanced Placement: advancedmathematics, complex variable function, integral transforms, probability theory, circuit analysis, signals and systems, analog electronic circuits, digital electronic circuit.Second ,basic requirementsTo master the basic principles and methods of various analog and digital transmission mode, basic principle and the analytical method of anti-noise performance of various control as well as the basic concepts of optimum transmission mode.Master key: the principle of Analog and digital transmission, base band and frequency band Transmission, various anti-noise performance and best receiver , spread spectrum and synchronization .Third, The course content and time allocation1.Introduction and the basic theory of information (2 classes)2.The concept, nature and representation of a random process (10 classes)3.The basic concepts of the channel (4 classes)4.Analog modulation and demodulation principle and anti-noise performance analysis (12 classes)5.Digital baseband transmission system analysis (6 classes)6.Digital modulation analysis (8 classes)7.A variety of digital transmission principle, performance analysis of analog signal (5 classes)8.The principle of the best reception of the digital signal (8 classes)9.Various synchronization principle (5 classes)Fourth, Experimental teaching contents and requirements1.Sampling theorem and pulse amplitude modulation experiment (2 classes)2.Frequency shift keying (FSK) experiment (2 classes)3.Phase shift keying (PSK) experiment (2 classes)4.Pulse Code Modulation (PCM) experiment (2 classes)5.Delta modulation encoding and decoding experiments (M) (2 classes)Requisition: According to the theory of modulation and demodulation understanding of various methods of implementation, master the experimental steps, waveform measured by the experiment instructions requirements of each point and write lab reports.Fifth, Textbooks and referencesTeaching material:The Communication Theory Fan Changxin National Defense Industry PressReferencesModern communication principles Cao Zhigang, Tsinghua University press

Syllabus: Liu qiyue,Cui huimin Program approval: Wang Yafang Date: 2012 August

Programmable Switching Theory course syllabusCourse nature degreeCredits3.5Total class hour56 Theory class hour48 Practices class hour8Applicable objectCommunication engineering undergraduateThe nature and purpose and task of coursesIt is a course of communication engineering. The main task of this course is that making students master the hardware composition and working principle and software composition and characteristics and signaling system of digital program-controlled switchboard , that making students familiar with the basic composition and the network of telephone network numbering plan, that making students understand the data exchange technology and the basic knowledge of the soft exchange technology.The ultimate aim is that making students understand comprehensively and systematically the knowledge of telecommunication network and the hub function of switches in the telecommunication network. In future ,students can work on SPC switching system and communication network design and developement . Courses: analog circuit, digital circuit, communication principle, microcomputer principle and interfaceBasic requirements of courses1 Master circuit switch principle2 Master hardware structure and software system and performance index of digital program-controlled switchboard3 Master telephone network basic components and numbering plan4 Master signal System of digital program-controlled switchboard5 Understand basal principle and network protocol of ATM switch6 Understand characteristic and architecture and network protocol of soft switch technologyThis course is a complete system. It demand that the students master the composition of hardware system, function and software system composition and characteristics of each part. And function realization of the technical details of the circuits require general understanding only. Content courses of and class hour distribution1 Summary (2 class hour)1basic concept of Switch2Switch way3NGN brief introduction2 Circuit switch principle (10 class hour)1The history of Circuit switch development2Circuit switch foundation.3Basic switch unit4Switch network3 Digital program-controlled switching technology (12 class hour)(1) Characteristics and business performance of digital program-controlled switchboard2hardware structure of digital program-controlled switchboard3software system of digital program-controlled switchboard4performance index of digital program-controlled switchboard4 Telephone network (4 class hour)1concept and classify of communications network2component of communications network3Routing and optimum routing4telephone network numbering plan5 Signal System(12 class hour)(1) Basic concept and classify of signal(2) Subscriber line signaling and signaling system No.1(3) Signaling system No.7(4) Structure of Signaling system No.7(5) Transmitting process of Signaling system No.76 Data switch technology (4 class hour)(1) Basic concept and characteristic ofdigital communication system (2) Packet switch technology(3) ATM switch7 Soft switch technology (4 class hour)1Basic concept and characteristic of soft switch2Architecture of soft switch network3Basic function and major equipment of soft switch4Soft switch network protocolThe experimental teaching contents and requirements1 Basic construction of digital program-controlled switching system2 class hour2 Data configuration of digital program-controlled switching system2 class hour3 Control system and switch network of digital program-controlled switching system2 class hour4 Subscriber Line Interface Circuit 2 class hourThrough the experiment, students can understand the basic composition of digital program-controlled switch system,master the basic process of telephone, and program and data configuration using a compute. The ultimate aim is that improving students' understanding of theoretical knowledge and practical hands-on abilityTextbooks and references Teaching material:Modern Switching TechnologyMAO Zheng-chong, YAO Jun. Peking university pressReference:Modern Switch Principle GUI Hai-yuan. Posts & telecom pressSPC digital switch and the modern communication network YE Ming. Beijing university of posts and telecommunications press

Syllabus: LU Xin-bo Program approval: WANG Ya-fang Date: 2013 April

course syllabus

Course name : Optical Fiber CommunicationThe nature of course: Elective CourseCredit:: 3.0Total Hours48 Theoretical hours44 Experimental Hours4Suitable for: Communication Engineering undergraduateFirst, the nature of course, purpose and taskThis course is for Communication Engineering Institute Limited elective. Through the studying of this course can make students understand the optical fiber communication technology widely used in optical fiber transmission network. Through the study of optical fiber communication system, optical fiber transmission theory and transmission characteristics, optical passive device, optical transceiver, the composition and principle of synchronous digital hierarchy (SDH) optical fiber communication system, performance index, optical fiber communication technology, content, there is a general understanding of optical fiber communication, lay a good foundation engaged in the study of the parties concerned.Prerequisites: The principle of communication , Electromagnetic field theory.Second, the course basic requirements 1 Understand the characteristics of optical fiber communication, application and development trend. Grasp the basic concepts, basic composition of optical fiber communication, optical fiber transmission system.2 Thorough understanding of optical fiber transmission theory, the light source and the light detector principle and characteristics. Familiar with all kinds of optical passive device. Master the principle and structure of optical transmitter. A systematic understanding of the theory of light transmission system.Optical fiber communication technology and the new system.3 Master the new optical fiber communication technology and new systems science 1990s. And the design digital fiber-optic communication system.4 Master the basic concepts of optical fiber transmission system using SDH technology, multiplexing and mapping process as well as the synchronization principle. Have a complete understanding of optical synchronous transmission network, the flexibility to apply the knowledge.Third, the curriculum content and allocation of hours1 Overview of Optical Fiber Communication (2 hours)2 optical fibers and cables (8 hours) (1) the structure and type of the optical fiber (2) optical fiber for transmission of light principle (3) the transmission characteristics of the optical fiber (4) optical fiber cable (5) optical passive3 light source and the optical transmitter (6 hours) (1)The principles and characteristics of the laser (2)The principles and characteristics of the light-emitting diode (3) Optical Transmitter4 photodetector optical receiver (4 hours)(1) The photodetector (2) The optical receiver5 optical fiber communication system (4 hours)(1)The design of the optical fiber communication system(2)The optical fiber communication system(3) The optical fiber communication network6 The optical fiber communication technology (2 hours)7 Frame structure and reuse step SDH (4 hours)(1) The frame structure(2) The multiplexing and mapping8 overhead and pointer (2 hours)9 SDH devices (2 hours)10 SDH self-healing network (6 hours)(1) The basic network topologies(2) The chains and self-healing ring network(3) The overall structure of SDH network11 The retiming and synchronization (4 hours)Four, Experimental teaching contents and requirements1 The optical transmission -- receiving system experiment (2 hours)2 The telephone optical transmission system experiment (2 hours)Requirements: Improve students' perceptions of optical fiber communication by experimental teaching to enhance students' understanding of the theory of classroom teaching and training students in experimental skills, and improve students' ability to use the theoretical knowledge and the ability to solve problems independently. Optical transmitter - receiver system experiments comprehensive experiment, telephone optical transmission system experiment design experiment.Five, textbooks and referencesTextbook:"Optical fiber communication" Liu Zengji Xi'an Electronic and Science University pressReference:(1)"Modern fiber communication and network tutorial" Zhang Baofu People's Posts and Telecommunications Press(2)"The principle of optical fiber communication" Deng Dapeng People's Posts and Telecommunications Press

The outline formulation: Hu Boning The outline validation: WANG Ya-fangDate: August 2012

Multimedia Information and Communicationcourse syllabusCourse title: Multimedia Information and CommunicationCourse nature: Required courseCredit: 3.0Total hours: 48 Theory hours: 48 Experimental hours: 0Applicable objects: Bachelor degree in communication engineeringOne, The nature, objective and tasks of the course This course is a professional course of communication engineering specialty. Through the course, the students can understand and master the basic theory and method of how digital communication systems transmit multimedia information. Lay a good foundation for the students in multimedia communication technology research and engineering design in the future.Two, Basic requirements of the courseMaster the basic theory and coding methods for video compression; master the basic concepts and synchronization methods of multimedia synchronization; and on this basis, understanding and grasp the characteristics and realizing methods of multimedia transmission network; understand the composition and basic principles of multimedia communication terminal and system.The focuses of this course are: compression method of video data; The representation of multimedia time-domain characteristics; Various synchronization methods; Principles and characteristics of multimedia transmission network.Three, The course content and time allocation1. The characteristics of multimedia technology(4 hours)(1) introduction(2) the meaning of the multimedia(3) the technical background of multimedia production(4) the multimedia computer terminal communication system(5) the multimedia communication system2. The visual characteristics and color television signals(6 hours)(1) the visual characteristics of the human eyes(2) the color television signals(3) the digitization of color television3. The basic techniques of data compression(12 hours)(1) the necessity and possibility of data compression(2) the sampling frequency conversion(3) predictive coding(4) orthogonal transformation coding(5) the sub-band coding4. A constant rate of multimedia information encoding (4 hours)(1) the video encoder and decoder typical(2) the rate control(3) the international standard of image compression coding5. The multimedia synchronization(14 hours)(1) the multimedia(2) the representation of multimedia data time-domain feature(3) the four layer reference model of multimedia synchronization(4) synchronization in distributed multimedia systems(5) the continuous synchronization in media(6) synchronization among media streams6. The multimedia transmission network(4 hours)(1) the requirement of multimedia information transmission on the network(2) the concept of the QoS7. The multimedia communication terminals and systems (4 hours)(1) the transport layer protocol(2) the end-to-end QoS guarantee and QoS specification(3) QoS mechanismFour,, textbooks and reference booksTeaching materials:Basis of the multimedia communication technology Cai Anni ,The Electronic Industry Press.References:The multimedia communication technology Wang Ruyan Xian University of Electronic Science and Technology Press.The multimedia communication technology Li Xiaoping Bejing University of Aeronautics and Astronautics Press.The multimedia communication technology Cai Wandong Xian University of Electronic Science and Technology Press.Outline set: Lian Baoqian Outline validation: Wang YafangDate: August 2012

Computer communication NetworkCourse SyllabusCourse Title: computer communication networkCourse Attribute: ElectiveCredit: 3.0Total hours: 48 Theory hours: 48 Experimental hours: 0Applicable professional: Communication Engineering Undergraduate 1. Course nature, purpose, and tasksThis course is a elective course of communication engineering specialty. Through the course, the students can understand and master the basic theory of Computer Network Architecture,LAN,WAN,and Internet, understand the Packet forwarding mechanism, understand and master routing algorithm,congestion control,understand network security techniquesBasic Course: Communication Principles, Microcomputer Principle, Program Controlled Switching Principles.2. Basic requirements of course(1) Understand and master the commonly used network protocols;(2) Understand channel sharing and medium access control technology of LAN; (3) Acquire routing mechanism of WAN and Internet;(4) Understand network security techniques.3. Courses content and hours distribution(1) Computer communication network introduction (2 hours)[1] The development of computer communication network[2] The concepts of computer communication network[3] The types and characteristics of network(2) Computer network architecture (8 hours) [1] Network topology [2] Computer network architecture [3] The network architecture model of OSI/RM [4] The network architecture model of Internet(3) Physical layer (2 hours)(4) Data link layer (4 hours) [1] The data link layer of OSI/RM [2] The control principle and technology of data link(5) Local Area Network(LAN )(6 hours) [1] Introduction of LAN [2] The technology of Ethernet [3] Virtual Local Area Network(VLAN) [4] Wireless Local Area Network(WLAN)(6) Network layer and Wide Area Network(WAN )(12 hours) [1] The network layer of OSI/RM [2] Switching and routing technology of network layer [3] Flow control technology of network [4] Network interconnection technology and devices(7) The service of transfer layer and end-to-end communication (4 hours) [1] The transfer layer of OSI/RM [2] End-to-end communication [3]The service quality system of network (8) Application layer(6 hours) [1]Network-based applications introduction [2]Typical cases of network application system [3]The new developments of network application(9) Network security and management(4 hours) [1]Network security introduction [2]Network security techniques and strategies [3]Network management system and SNMP4. Teaching materials and reference materials Teaching materials: Lin Shen,Fan Bing Bing Tsinghua University Press Reference materials: Xie Xiren ElectronicIndustrialPress

Syllabus Drafters: Xu Xiangyang Syllabus Authorize: Wang Yafang Data: August 2012

Mobile Communication Course SyllabusCourse Title: Mobile CommunicationCourse Attribute: Optional CourseCredit: 3.0Total hours: 48 Theory hours: 48 Experimental hours: 0Applicable professional: Communication Engineering Undergraduate Professional1. Course nature, purpose, and tasksMobile communication is an important part of future personal communications. Its characteristics are ideal for the need of the development of information society. After the first generation and the second generation of the development of cellular mobile communication, it is evolving toward the third communication generation which purpose are transmit broadband and multimedia information. This course enables students to acquire the mobile cellular network technology, digital modulation techniques and code division multiple access technology, understand the characteristics and structures of various standard cellular networks. Cultivate students ability of comprehensive technology, to lay a good foundation for students to engage in relevant research. Basic Course: Simulation Circuits, Digital Circuits, Communication Principles, Microcomputer Principle, Program Controlled Switching Principles.2. Basic requirements of course(1) Understand the development of mobile communications and the basic concepts to acquire the composition and structure of mobile network;(2) Acquire the composition of GSM system network and channel, master control and management technology of GSM system;(3) Acquire the basic theory of code division multiple access technology and spectrum communication technology, grasp the Walsh code, sequence of M and the main characteristics and production methods of Gold code;(4) Grasp the channel structure of the narrow-band CDMA and the main functions and key technologies of the parts of the system;(5) Understand the three criteria and key technology of Wideband CDMA system;3. Courses content and hours distribution(1) Cellular network communications introduction (6 hours)[1] The development brief history and the status of cellular mobile communications[2] Mobile channel waves spread characteristics[3] Community network composition technology(2) TDMA digital cellular network (10 hours) [1] GSM network structure [2] GSM channel type and composition [3] Voice and channel coding [4] The control and management of system(3) The basic of code division multiple access technology (6 hours)[1] Basic concept of spread spectrum technology [2] QPSK modulation technology [3] Spread spectrum communications principle(4) CDMA code sequence (6 hours) [1] Concept of pseudo-random code sequence [2] M sequence produced method and characteristics [3] Gold sequence produced method and characteristics(5) CDMA communication principle (8 hours) [1] The principle and characters of code division multiple access [2] The power control technology of CDMA system [3] Multiple trail effect and diversity set technology [4] Cellular network of communications capacity(6) Narrowband CDMA cellular communications system (8 hours) [1] Narrowband CDMA system requirements and standard [2] CDMA forward channel [3] CDMA backward channel [4] CDMA system control functions(7) Wideband CDMA cellular systems (4 hours) [1] The three standards of wideband CDMA system [2] Key technology of wideband CDMA system4. Teaching materials and reference materials Teaching materials: Wu Guoyang Xian Electronic and Science University Press Reference materials: Guo Tiyun Xian Electronic and Science University Press Sun Rushi Peoples Posts and Telecommunications Press

Syllabus Drafters: Wang Mei Lian Hua Syllabus Authorize: Wang Yafang Data: August 2012

Circuit design and simulation Course syllabus

Course name : Circuit design and simulationCourse character: ElectivesTotal hours: 48Theory hours : 36 Machine hours: 12Learning points: 3.0Applicable objects: Undergraduate communication engineering

One, The nature of course, objective and taskIt is a professional basic course for communication engineering. The circuit design and its performance testing, debugging and analysis method of the curriculum system on circuit design and simulation, aims to help students to understand and master the software simulation method in circuit, to cultivate the comprehensiveanalysis ability, development and innovation ability and engineeringdesigncapability.Two, Basic requirements of the courseThrough the studying of this course, students are required to understand the ideas of software is components and software is the instrument, to master the techniques of drawing principle circuit, analysis and testing of circuit by simulationsoftware multisim and some typical circuits and their main parameters of transistor amplifier circuit, integratedoperationalamplifiers, wave generator, transform circuit, analog multiplier, powercircuit and gate circuit.Three, The course content and time allocation1 Simulationsoftware multisim (4 hours)(1) Software introduction.(2) Basic operation(3) Use of instrumentation(4) Method for circuit analysis2 Transistor amplifier circuit (6 hours)(1) Transistor amplifier(2) Multistage amplifier circuit(3) Negative feedback amplifier circuit(4) Differential amplifier(5)Low frequency power amplifier(6) Single tuned amplifier(7) Double tuned amplifier3 Integrated operational amplifier (4 hours)(1) Integral circuit and differential circuit(2)Filter(3) Voltage comparator(4) Design of tonecontrol circuit.4 Wave generator (4 hours)(1) Sine wave oscillator(2) Square wave and triangle wave generating circuit(3) Sawtooth wave generating circuit5 Converter (6 hours)(1) Rectifier circuit(2) Amplitude limited circuit(3) Voltage / current converter(4) Peak detection circuit(5)Voltage / frequency conversion circuit(6) Impedance transformation circuit6 Analog multiplier (4 hours)(1) Amplitude modulation circuit(2) Mixing circuit(3) Frequency doubling circuit(4) DSB demodulation circuit7 Power supply circuit (6 hours)(1) Single phase half wave controlled rectifier circuit(2) Bridge rectifier circuit(3) DC chopper circuit(4) DC-AC full bridge inverter circuit(5) Pulse-width modulation inverter circuit8 Gate circuit (2 hours)(1) Encoder circuit(2) Decoder circuit Four, Textbooks and referencesTeaching material:Electronic circuit design and analysis on computer based on NI Multisim Huang Zhiwei, Li Chuanqi, Zou Qihong, ElectronicIndustrialPress. Reference:introduction and Application of Multisim 2001 on circuit design and Simulation Zheng Busheng, ElectronicIndustrialPress.Analog Electronic TechnologyTong Shibai, Hua Chengying, Higher Education Press.Syllabus: Zhao Ruimei Program approval: Wang Yafang Date: 2012 August

Professional English courses syllabusCourse name : Professional EnglishProperties: compulsory coursesLearning points: 2.0Total hours: 32 (include 32 class hours and 0 experimental hours)1.Applicable objects: communication engineering undergraduateThe purpose , the nature and tasks of the course:the purpose of this course is to make students to consolidate their basic knowledge of English and can read and translate professional English literature correctly.2. The basic requirements and key points:(1). The basic requirementsI. To make the students to master the translation methods and skills of English of scientific paper.II. To let the students understand the English description of scientific paper.III. To let the students to know the basic method of writing scientific paper in English.(2). The key pointsThe basic skills of translation English into Chinese.3. Teaching content distribution and instruction:(1). Basic concept of digital information (2 hours)(2). Multimedia information system (4 hours)(3). The TCP/IP protocol (4 hours)(4). The Internet telephone service (7 hours)(5). New technology of communication (9 hours)(6). The future communication system (4 hours)(7). Review (2 hours)4. Textbook:Communication Engineering Professional English Chang Yilin Xi 'an university of electronic science and technology pressOutline formulated: Liu qiyue examination and approval: Wang Yafang Date: August 2012

MATLAB & Application Course syllabus

Course name : MATLAB & ApplicationCourse character: ElectivesLearning points: 2.5Total hours: 40Theory hours : 28 Experimental (or machine) hours: 12Applicable objects: Undergraduate communication engineering

One, The nature of course, objective and taskThis course is a professional elective course of communication engineering. By learning this course, students understand the features and powerful functions of MATLAB software, able to skillfully apply MATLAB to solve the complex math problems of related courses. That makes a good foundation for engaging in related industries in the future.

Two, Basic requirements of the courseMATLAB is a kind of computer software consisting mainly of numerical calculation and data schema, and includes many professional software packages that adapt multiple disciplines. The students are required to master the MATLAB data types, the inputting and operating of matrix, grammatical structure, the use of function, 2D and 3D drawing, and to be able to skillfully apply MATLAB to solve complex mathematical calculations and optimization problems. Computer practice is an important teaching link of the course, only through practice, students can understand the various functions of MATLAB application and achieve proficiency level. This course will be half of the class for computer practice.

Three, The course content and time allocation1 MATLAB introduction (2 hours)2 The MATLAB language (8 hours)(1) Variable and its assignment(2) Vector and its operation(3) Array and its operation (4) Matrix and its operation (5) Function and expression(6) The MATLAB data type3 MATLAB calculation (10 hours)(1) Solution to the equations(2) Interpolation and fitting(3) Extremum points of the function(4) Numerical calculus(5) Symbol object(6) Differential and calculus of symbol (7) Solution to the symbolic equations4 MATLAB programming (8 hours)(1) M file(2) File operation(3) MATLAB flow control statement(4) MATLAB program optimization and debugging(5) Basic drawing(6) Function drawing

Four, The experimental teaching contents and requirements1 Familiar with the MATLAB environment(2 hours)2 Matrix generation and operation(2 hours)3 Solution to equations(2 hours)4 Differential and calculus of symbol, symbolic equations(2 hours)5 Program debugging(2 hours)6 Drawing(2 hours)

Five, Textbooks and referencesTeaching material:Electronical Information Application Using MATLAB Wang Yafang, Posts &Telecom pressReference.MATLAB foundation and application example highlights Wang Qi, Posts &Telecom press MATLAB language and its application in electronic information engineering Wang Hongyuan, Tsinghua University pressSyllabus: Hou Yanli Program approval: Wang Yafang Date: 2013 March

Modern Communication TechnologyCourse syllabusSubject Name: Modern Communication TechnologySubjectType: Specialized SubjectClass Hour: 32 Credits: 2.0Target user: Senior class of Communication EngineeringAssessment Methods: TestNormal Performance for 20%Prerequisite Subjects: Principle of CommunicationComputer NetworksSignals and Systems1. Subject Nature, Purpose, TaskThis teaching program contains all kinds of advanced telecommunication technology in terms of whole-process-net-coverage and tri-networks integration. We work hard to establish a structure of knowledge and a system of content with scientificalness, systematicness, inventiveness and advancement. We value learning and cultivate the basic idea of engineering methodology which would help the students to learn various kinds of advanced communication technology on the basis of the concept of layered network, more important, it will enhance their capacity of master the method of scientific research and accelerate their learning speed; therefore lay a solid foundation for student to become a high quality and innocative talent. 2. The Basic Requirements of the Subject1) To well know the key elements and development trend of modern telecommunication network. 2.) To better understand the key elements and operation principle of telecommunication exchange, data communication, wireless communication, photo-communication and wide band.3) To well understand division and principle of cyber function module.4) To familiar with the structure of various kinds of communication network and the mutual relations among them.5) To know the development trend of modern communication network.3Subject Content and Class Hour Arrangement 1) Introduction2 Class Hours1Overview2The Components of communication Network3Channel4The Development of Communication Technology 2) Supporting Technology of Telecommunication Network (4Class Hours):1Source Encoding2Channel Coding3Baseband Transmission4Modulation Technique5Error Code3) Telecommunication Switching(6Class Hours):1The Components of Telecommunication Network2Switching Technique3Programme-controlled Switching4Integrated Services Network4) Data Communication(6 Class Hours)1Network Technique2Base Net3IP Net4IP Telephone System5) Mobile Communication6 Class Hours1Mobile Communication and Key Technology2Wireless Access3GSM Communication Technology4CDMA Technology53G Technology6) Photo-communication Net4Class Hours1The Wavelength Division Multiplexing of Optical Transmission System2Optical Networks7) Broadband Communication Network4 Class Hours1 Broadband Access2 Core Technology3 Next Generation Networks4. Teaching Material: Basis of modern communication technology, Yan Xiaohua, Tsinghua University PressThe modern communication technology, Ji Xiaofeng, Beijing University of Posts and Telecommunications Press

The Maker of the Program: Hu BoningThe Reviewer of the Program: Wang YafangDate: March, 2013

Digital Image Processing Course syllabusCourse name:Digital Image Processingcourse character:optionalLearning points:2.0Total hours:32 Theory hours :32 Experimental (or machine) hours:0Applicable objects: Undergraduate Communication Engineering,Electronic Information Engineering

One, The nature of course, objective and task The optional course is selected by the academy for students majoring in Communication Engineering and Electronic Information Engineering .Through learning this course,students can master the basic concepts,basic theory and basic methods to select problems of Digital Image Processing.They can also master basic Digital Image Processing technique and know kinds of application areas about Digital Image Processing.The task of the course is to do space work for developing professional knowledge and ability of solving practical problems.Before learning this course,students must learn higher mathematics,Linear Algebra and Digital Signal Processing first.Second ,basic requirements 1. To understand the basic concepts of Digital Image Processing,including the overview,features,research status and some important application. 2. A deep understanding of the the basic knowledge and technical term of Image information,the relation between image and vision,the relation among pixels and the basic operations between images in order to know well the images in perceptual and visual point of view. 3.Master the common method and feature of Digital Image Processing,such as Fourier transform,discrete cosine transform,Discrete K - L transform and Wavelet Transform.Students can master the feature and see the common ground of all kinds of transforms at the same time.Thus,they can know image processing systematically and completely,comprehend by analogy and use the knowledge flexibly. 4.Master common Digital Image enhancement method,know well the applications of all methods.So that,we can select suitable method according to practical application. 5.Know the phylogeny and the situation of Digital Image Processing.Follow the latest trend of Digital Image Processing developing.Third, The course content and time allocation1.introduction(2 hours)2.the basic knowledge of image information(4 hours) the term of digital image including digitization,scanning,sampling,quantization,contrast ratio and resolution ratio.the representing method of digital image including array notation of Gray image and representation of Binary image .the relation between image and visionthe basic operations of image information(4 hours)the relation in pixels including neighbourhood ,connection,distance conception and HTM.Basic algebraic operation method including mixed practice as well as its application.Basic geometric operation method including translation,amplification,contraction and revolution as well as its application.image transformation(4 hours)Fourier transformdiscrete cosine transformDiscrete K - L transformimage intensification(6 hours)(1)Enhancement method based on the point of operation including direct gray-scale transformation and Gray level histogram processing(2) The enhancement method based on spatial filtering including image smoothing and image sharpen filter(3)Enhancement method based on frequency domain transform including frequency domain image smoothing filtering and sharpening image frequency domain filtering.6.image segmentation(8 hours)(1)Segmentation method based on the threshold including histogram threshold segmentation method, variance threshold segmentation between class method,Maximum entropy threshold segmentation method and the fuzzy threshold segmentation method.(2)Segmentation method based on the edge including point detection method,line detection method and edge detection method.(3)Segmentation method based on movement including difference method based on movement,optical flow motion segmentation method and Motion segmentation method based on block.7.the phylogeny and the situation of Digital Image Processing(4 hours)Fourth, Textbooks and referencesTeaching material: Digital Image Processing and Analysis Liu Zhifang ,Tsinghua University PressReferenceImage EngineeringZhang Yujin, Tsinghua University PressDigital Image ProcessingK.R.Castleman,Publishing House of Electronics IndustryComputer Image Processing Rong Guanao,Tsinghua University PressDigital Image ProcessingChen Tingbiao, Posts and Telecom PressSyllabus: Li Chunhua Program approval: Wang Yafang Date: August 2012