《网络工程技术》教学大纲
课程代码 | 065102761 |
课程名称 | 网络工程技术 |
英文名称 | Network Engineering Technology |
课程类别 | 专业基础课 |
课程性质 | 必修 |
学时 | 总学时:32, 上机学时:0 实验学时:16 实践学时:0 |
学分 | 1.5 |
开课学期 | 5 |
开课单位 | 计算机科学与工程学院 |
适用专业 | 网络工程 |
授课语言 | 中文 |
先修课程 | (无) |
毕业要求(专业培养能力) | 本课程对学生达到如下毕业要求有如下贡献: №5.使用现代工具:能够针对复杂网络工程问题,开发、选择与使用恰当的技术、资源、现代工程工具和信息技术工具,包括对复杂工程问题的预测与模拟,并能够理解其局限性。 №6.工程与社会:能够基于网络工程相关背景知识进行合理分析,评价专业网络工程实践和复杂工程问题解决方案对社会、健康、安全、法律以及文化的影响,并理解应承担的责任。 №7.环境和可持续发展:能够理解和评价针对复杂网络工程问题的专业工程实践对环境、社会可持续发展的影响。 |
课程培养学生的能力(教学目标) | 完成课程后,学生将具备以下能力: (1)掌握网络互联基础知识和路由协议; (2)能够用路由器来连接多个网络,使用标准的和扩展的访问控制列表(ACL);能够配置和使用交换机,能够配置生成树协议和VLAN; (3)能够利用抓包工具排查和解决网络故障。 |
课程简介 | 讲述网络互联的基础知识,以及利用路由器和交换机构建和配置中小型网络的基本技能。主要包括:网络参考模型、以太网、TCP/IP协议架构、路由器原理、路由配置和路由选择协议、ACL访问控制机制、交换机配置、生成树协议、VLAN配置等内容。 |
教学内容与学时分配 |
培养学生的爱国情怀和卓越工程师精神。
教学要求:要求掌握课程的主要目的与任务,了解计算机网络基础知识和构建计算机网络互联的基本技能。主要内容包括: 第1章 网络技术基础 第2章 网络介质与线缆测试 第3章 局域网和广域网布线 第4章 以太网基础 第5章 以太网交换 第6章 IP寻址 第7章 路由选择基础与子网 第8章 TCP/IP传输层与应用层 重点和难点:以太网协议、TCP/IP协议 (二)路由器配置 4学时 教学要求:要求掌握路由器基本原理和配置方法,路由选择协议,路由故障排除基本方法,以及访问控制列表(ACL)的相关知识。 重点和难点:路由选择协议、ACL (三)交换机配置 4学时 教学要求:本章要求学生掌握交换机的基本概念与配置方法,包括:交换的概念与局域网设计,交换机配置,生成树协议,虚拟局域网(VLAN)等。 重点和难点:生成树协议、VLAN |
实验教学(包括上机学时、实验学时、实践学时) | 有 |
教学方法 | 课堂教学、课外作业、综合讨论、网上沟通。 |
考核方式 | 期末考试(闭卷),并结合作业、实验和平时成绩进行考核。其中,期末考试占总评成绩的70% , 作业、实验及平时成绩占30%. |
教材及参考书 | [1] S. Empson, C.Schmidt著,Cisco System公司 译,思科网络技术学院教程: 路由和交换基础,人民邮电出版社,2014. [2] T. Lammle 著,袁国中 徐宏 译,CCNA学习指南(640-802)(第7版)((附光盘), 人民邮电出版社,2012. [3] 思科网络技术学院,思科网络技术学院教程 路由和交换基础实验手册, 人民邮电出版社, 2015. |
制定人及制定时间 | 黄松,2019年4月10日 |
“Network Engineering Technology” Syllabus
Course Code | |
Course Title | Network Engineering Technology |
Course Category | Specialty Basic Course |
Course Nature | Required Course |
Class Hours | 32 |
Credits | 1.5 |
Semester | 5 |
Institute | School of Computer Science and Technology, SCUT. |
Program Oriented | Network Engineering |
Teaching Language | Chinese |
Prerequisites | N/A |
Student Outcomes (Special Training Ability) | №5. Applying Modern Tools: An ability to develop, select and apply appropriate techniques, resources, and modern engineering and IT tools for complex network engineering problems, including prediction and modeling of complex engineering problems with an understanding of the limitations. №6. Engineering and Society: An ability to make reasonable analysis based on the contextual knowledge of network engineering, and to evaluate the impact of professional network engineering practice and solutions of complex engineering problems on the society, health, security, law, and culture, and understand the corresponding responsibility. №7. Environment and Sustainable Development: An ability to understand and evaluate the impact of professional engineering solutions for complex network engineering problems on the sustainable development of environment and society. |
Teaching Objectives | Upon completion of the course, the students will be able to: (1) Understand basic concepts and the principles of the Internet and routing protocols; (2) Connect multiple networks with routers, to use standard and extended access control lists (ACL), and to use switches for the configuration of spanning tree protocols (STP) and VLAN; (3) Use traffic sniffer tools for network troubleshooting. |
Course Description | The course covers the knowledge about network connectivity, basic skills for building small to medium networks with routers and switches. The main points of its content include: network reference model, Ethernet architecture, TCP/IP protocol, principle and configuration of router, routing protocol, ACL access control mechanism, switch configuration, spanning tree protocol (STP) and VLAN configuration etc. |
Teaching Content and Class Hours Distribution |
Fostering students' patriotism and outstanding engineer spirit.
Requirements: understanding the basic knowledge of computer networks, being able to implement computer networks interconnection. The content includes: (1) Network technology foundation , (2) Network media and cable test , (3) LAN and WAN wiring , (4) Ethernet foundation , (5) Ethernet switching , (6) IP addressing , (7) Routing foundation and subnet , (8) TCP/IP transport layer and application layer.
Requirements: understanding the routing principle; mastering the methods for router configuration, network route choosing and troubleshooting; being able to use access control list (ACL).
Requirements: understanding the basic concepts and configuration of switches; being able to design a LAN; being able to configure spinning tree protocol (STP); being able to configure VLAN. |
Experimental Teaching | 16 class hours |
Teaching Method | Classroom teaching, homework, comprehensive discussion, communication on line. |
Examination Method | The final exam accounts for 70%, homework, experiment reports and other performance in class account for 30% in the hundred-mark system. |
Teaching Materials and Reference Books | [1] Cisco Networking Academy, Routing and Switching Essentials Companion Guide, Posts & Telecom Press, 2014. [2] T. Lammle,Cisco Certified Network Associate Study Guide (Exam 640-802) (7th Edition), Posts & Telecom Press, 2012. [3] Cisco Networking Academy, Routing and Switching Essentials Experimental Manual, Posts & Telecom Press, 2015. |
Prepared by Whom and When | HUANG Song, April 10th, 2019 |
《网络工程技术》实验教学大纲
课程代码 | 045102761 |
课程名称 | 网络工程技术 |
英文名称 | Network Engineering Technology |
课程类别 | 专业基础课 |
课程性质 | 必修 |
学时 | 实验:16学时 |
学分 | 1.5 |
开课学期 | 5 |
开课单位 | 计算机科学与工程学院 |
适用专业 | 网络工程 |
授课语言 | 中文 |
先修课程 | (无) |
毕业要求(专业培养能力) | 本课程对学生达到如下毕业要求有如下贡献: №5.使用现代工具:能够针对复杂网络工程问题,开发、选择与使用恰当的技术、资源、现代工程工具和信息技术工具,包括对复杂工程问题的预测与模拟,并能够理解其局限性。 №6.工程与社会:能够基于网络工程相关背景知识进行合理分析,评价专业网络工程实践和复杂工程问题解决方案对社会、健康、安全、法律以及文化的影响,并理解应承担的责任。 №7.环境和可持续发展:能够理解和评价针对复杂网络工程问题的专业工程实践对环境、社会可持续发展的影响。 |
课程培养学生的能力(教学目标) | 完成课程后,学生将具备以下能力: (1)掌握网络互联基础知识和路由协议; (2)能够用路由器来连接多个网络,使用标准的和扩展的访问控制列表(ACL);能够配置和使用交换机,能够配置生成树协议和VLAN; (3)能够利用抓包工具排查和解决网络故障。 |
课程简介 | 讲述网络互联的基础知识,以及利用路由器和交换机构建和配置中小型网络的基本技能。主要包括:网络参考模型、以太网、TCP/IP协议架构、路由器原理、路由配置和路由选择协议、ACL访问控制机制、交换机配置、生成树协议、VLAN配置等内容。 |
主要仪器设备与软件 | 路由器、交换机、计算机、Wireshark抓包工具 |
实验报告 | 遵循实验指南撰写实验报告。 |
考核方式 | 采用笔试(闭卷),并结合实验和平时成绩进行考核。其中,笔试占总评成绩的70% , 实验及实验报告、作业和平时占30%. |
教材、实验指导书及教学参考书目 | [1] S. Empson, C.Schmidt著,Cisco System公司 译,思科网络技术学院教程: 路由和交换基础,人民邮电出版社,2014. [2] T. Lammle 著,袁国中 徐宏 译,CCNA学习指南(640-802)(第7版)((附光盘), 人民邮电出版社,2012. [3] 思科网络技术学院,思科网络技术学院教程 路由和交换基础实验手册, 人民邮电出版社, 2015. |
制定人及发布时间 | 黄松,2019年4月10日 |
《网络工程技术》实验教学内容与学时分配
实验项目编号 | 实验项目名称 | 实验学时 | 实验内容提要 | 实验类型 | 实验要求 | 每组人数 | 主要仪器设备与软件 |
一 | 网线制作 | 2 | 学习基本的RJ45网线制作方法 | 验证性 | 选做 | 2 | RJ45接头,网线,压线工具,网线连通性测试工具 |
二 | 路由器组网 | 4 | 学习路由器基本配置命令和组网方法 | 验证性 | 必做 | 2 | 路由器、计算机、配套工具 |
三 | 访问控制列表 | 2 | 学习掌握访问控制列表(ACL)的使用和基于ACL的安全访问机制 | 验证性 | 必做 | 2 | 路由器、计算机、配套工具 |
四 | 交换机命令与基本配置 | 2 | 学习交换机命令和基本配置方法 | 验证性 | 必做 | 2 | 交换机、计算机、配套工具 |
五 | 生成树协议应用 | 2 | 学习在交换机上配置生成树协议 | 验证性 | 必做 | 2 | 交换机、计算机、配套工具 |
六 | VLAN配置 | 2 | 学习掌握利用交换机实现VLAN的配置方法 | 验证性 | 必做 | 2 | 交换机、计算机、配套工具 |
七 | 网络抓包与协议分析 | 2 | 学习掌握wireshark抓包工具的使用及基于抓包工具的协议分析技能 | 验证性 | 必做 | 2 | Wireshark工具软件、上网计算机 |
“Network Engineering Technology” Syllabus
Course Code | |
Course Title | Network Engineering Technology |
Course Category | Specialty Basic Course |
Course Nature | Required Course |
Class Hours | 32 |
Credits | 1.5 |
Semester | 5 |
Institute | School of Computer Science and Technology, SCUT |
Program Oriented | Network Engineering |
Teaching Language | Chinese |
Prerequisites | N/A |
Student Outcomes (Special Training Ability) | №5. Applying Modern Tools: An ability to develop, select and apply appropriate techniques, resources, and modern engineering and IT tools for complex network engineering problems, including prediction and modeling of complex engineering problems with an understanding of the limitations. №6. Engineering and Society: An ability to make reasonable analysis based on the contextual knowledge of network engineering, and to evaluate the impact of professional network engineering practice and solutions of complex engineering problems on the society, health, security, law, and culture, and understand the corresponding responsibility. №7. Environment and Sustainable Development: An ability to understand and evaluate the impact of professional engineering solutions for complex network engineering problems on the sustainable development of environment and society. |
Teaching Objectives | Upon completion of the course, the students will be able to: (1) Understand basic concepts and the principles of the Internet and routing protocols; (2) Connect multiple networks with routers, to use standard and extended access control lists (ACL), and to use switches for the configuration of spanning tree protocols (STP) and VLAN; (3) Use traffic sniffer tools for network troubleshooting. |
Course Description | The course covers the knowledge about network connectivity, basic skills for building small to medium networks with routers and switches. The main points of its content include: network reference model, Ethernet architecture, TCP/IP protocol, principle and configuration of router, routing protocol, ACL access control mechanism, switch configuration, spanning tree protocol (STP) and VLAN configuration etc. |
Instruments and Equipments | Routers, switches, and computers, Wireshark software. |
Experiment Report | Following the experiment guides. |
Assessment | The final exam accounts for 70%, homework, experiment reports and other performance in class account for 30% in the hundred-mark system. |
Teaching Materials and Reference Books | [1] Cisco Networking Academy, Routing and Switching Essentials Companion Guide, Posts & Telecom Press, 2014. [2] T. Lammle,Cisco Certified Network Associate Study Guide (Exam 640-802) (7th Edition), Posts & Telecom Press, 2012. [3] Cisco Networking Academy, Routing and Switching Essentials Experimental Manual, Posts & Telecom Press, 2015. |
Prepared by Whom and When | HUANG Song, April 10th, 2019 |
“Network Engineering Technology” Experimental Teaching Arrangements
No. | Experiment Item | Class Hours | Content Summary | Category | Requirements | Number of Students Each Group | Instruments, Equipments and Software |
1 | Making Network Cable Connector | 2 | Making Ethernet line with RJ-45 connectors | Verification | Elective | 2 | RJ-45 connectors, Ethernet line, RJ-45 clamps |
2 | Router configuration and networking | 4 | Basic commands for router configuration and networking | Verification | Compulsory | 2 | Routers, computers, relevant tools. |
3 | ACL configuration | 2 | Router configuration for ACL | Comprehensive | Compulsory | 2 | Routers, computers, relevant tools. |
4 | Switch configuration and Networking | 2 | Basic commands for switch configuration and networking | Verification | Compulsory | 2 | Switches, computers, relevant tools |
5 | Spanning tree protocol configuration | 2 | Switch configuration for spanning tree protocol | Verification | Compulsory | 2 | Switches, computers, relevant tools |
6 | VLAN configuration | 2 | Switch configuration for VLAN | Verification | Compulsory | 2 | Switches, computers, relevant tools |
7 | Network sniffing and protocol analyzing | 2 | Using Wireshark for network sniffing and protocol analyzing. | Verification | Compulsory | 2 | Wireshark software, networked computers. |
