《网络工程与网络管理》教学大纲

课程代码

045100751

课程名称

网络工程与网络管理

英文名称

Engineering and Management of Network

课程类别

专业基础课

课程性质

必修

学时

总学时:48   上机学时:0    实验学时:16     实践学时:0

学分

2.5

开课学期

第六学期

开课单位

计算机科学与工程学院

适用专业

网络工程专业及其他计算机类专业

授课语言

中文授课

先修课程

计算机网络、高级语言程序设计

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:

3.设计/开发解决方案:能够设计针对复杂网络工程问题的解决方案,包括满足特定需求的系统设计、部件选择、工程实施流程或方案设计,并能够在设计环节中体现创新意识,考虑社会、健康、安全、法律、文化以及环境等因素。

11.项目管理:理解并掌握工程管理原理与经济决策方法,并能在多学科环境中应用。

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. 掌握网络管理的概念、标准、功能和协议,可以设计和开发网络管理软件。

  2. 掌握网络配置和管理的方法、实用技术,可以对计算机网络进行配置、管理和维护。

课程简介

本课程主要系统介绍计算机网络管理的基本理论、应用开发及实用技术,包括网络管理的基本概念、体系结构,抽象语法表示ASN.1和基本编码规则BER;简单网络管理协议SNMPRMON的体系结构、管理信息结构、管理信息库组成和协议操作规范;交换机、路由器等网络基础设施的配置与管理方法;网络管理系统及主要功能和实现技术,网络故障诊断与维护技术;网络管理技术的发展。使学生掌握网络管理的实用技术、管理方法及各种工具的使用,具备网络系统管理的基本能力。

教学内容与学时分配

(一)网络工程与网络管理概述          3学时

  1. 网络工程与网络管理的基本概念、社会责任与职业道德   1学时

  2. 网络管理系统的功能、标准                        1学时

  3. 网络管理的体现结构和基本模型                    1学时


教学要求:

  1. 了解网络管理的概念、功能、标准。

  2. 了解网络管理体系结构和基本模型。    

(二)网络基础设施            6学时

  1. 路由器的功能、配置与管理                  4学时

  2. 交换机的功能、配置与管理                  2学时

教学要求:

  1. 掌握路由器、交换机等网络基础设施的配置与管理。


(三)管理信息库             5学时

  1. 管理信息结构                               2学时

  2. MIB- II                                     2学时

  3. MIB- II 扩展                                1学时

教学要求:

  1. 重点掌握MIBSMI的相关概念;理解对象标识、实例表示的规则和方法。

  2. 了解MIB-2组中相关对象的功能

(四)简单网络管理协议          4学时

  1. SNMP相关概念                             0.5学时

  2. SNMPv1                                   1.5学时

  3. SNMPv2                                   1.5学时

  4. SNMPv3                                   0.5学时

教学要求:

  1. 重点掌握SNMP管理框架、报文结构、协议数据单元、支持的操作、报文发送和接收过程。

  2. 了解功能组、安全性、局限性

(五)远程网络监视          3学时

  1. RMON 的基本概念                          1学时

  2. RMON 1 MIB                               1学时

  3. RMON 2 MIB                               0.5学时

  4. 其他RMON MIB                            0.5学时

教学要求:

掌握RMON的概念、作用和功能。

(六)网络管理系统          4学时

  1. 网络管理系统概述                          0.5 学时

  2. 网络管理平台的实现技术                    1.5学时

  3. 网络管理功能的实现     2学时

教学要求:

  1. 了解网络管理系统的基本功能。

  2. 了解常见的网络管理系统的功能的实现技术。

  3. 掌握在Windows平台下开发基于SNMP的网络应用程序的基本方法。

(七) 网络故障诊断与维护            5学时

  1. 网络故障诊断概述                          1 学时

  2. 网络故障诊断的方法                        2 学时

  3. 常见的网络故障及解决方法                  2学时

教学要求:

  1. 掌握网络故障产生的原因,故障诊断的原理,以及故障排除的步骤。

  2. 掌握网络故障诊断的常用软、硬件工具。

  3. 了解常见网络故障及排除方法。

(八) 网络管理技术的发展           2学时

  1. 网络管理新标准                           1 学时

  2. 智能网络管理新技术                         1 学时

教学要求:

  1. 掌握网络管理新标准的发展。

  2. 了解智能网络管理新技术。


实验教学(包括上机学时、实验学时、实践学时)

教学方法

课程教学以课堂教学、课外作业、上机实验等教学方法等共同实施。

考核方式

平时作业、实验和课堂表现:30%

期末考试(闭卷):70%

教材及参考书

教材:自编教材

主要参考资料:

1.云红艳主编,计算机网络管理(第二版),人民邮电出版社,2014.2

2.杨云江主编,计算机网络管理技术(第二版),清华大学出版社,2010.3

制定人及制定时间

胡金龙、董守玲,2019512


   “Engineering and Management of Network” Syllabus

Course Code

045100751

Course Title

Engineering and Management of Network

Course Category

Specialty Basic Course

Course Nature

Compulsory Course

Class Hours

Total Curriculum Hours: 48   Computer-aided Class Hours: 0   Lab Hours: 16   Practice: 0

Credits

2.5

Semester

Sixth

Institute

School of Computer Science and Engineering

ProgramOriented

Network Engineering and other computer-related majors

Teaching Language

Chinese

Prerequisites

Computer Networks, Advanced Language Programming

Student Outcomes

 (Special Training Ability)

Students who complete this course are required to generate the following outcomes:

 3.  Design / Development Solutions: An ability to design solutions for complex               network engineering problems, including system design, component selection, engineering implementation process or solution design to satisfy specific needs, and an ability to exhibit innovative awareness in the design process, considering factors such as society, health, security, law, culture, and environment.

 11. Project Management: Understanding and mastering engineering management principles and methods of economic decision-making, and applying them to multidisciplinary environments.

Teaching Objectives

Students who complete this course successfully will be able to:

  1.  Understand concept, standard, function and protocol of network       management and design and develop network management software.

  2.  Master the methods and practical techniques of network configuration and management, ability to configure, manage, and maintain computer networks.    









Course Description

This course focuses on introducing basic theory, application, and practical technique of computer networks management systematically, including basic concept, architecture, Abstract Syntax Notation (ASN.1) and Basic Encoding Rules (BER), architecture of Simple Network Management Protocol (SNMP) and Remote Network Monitoring (RMON), composition and protocol operation specification of Structure Management Information (SMI) and Management Information Bases (MIB), configuration and management methods for network infrastructure such as switches and routers, network management system and its main function and implementation technique, network malfunction diagnosis and maintenance, development of network management technology. In purpose of helping students be able to use practical technology, management methods and all kinds of tools of network management, and conduct management on network system.

Teaching Content and Class Hours Distribution

  1.  Introduction to engineering and management of network  3 Class Hours

  1.  Basic concepts, social responsibility and professional ethics of network engineering and management                           1 Class Hour

  2. Function and Standard of network management system    1 Class Hour

  3. Architecture and basic model of network management     1 Class Hour

 Teaching Requirements:

  1. Help students understand concept, function and standard of network management.

  2. Help students understand architecture and basic model of network management.


  1.  Network infrastructure    6 Class Hours

 (1) Function, configuration and management of router     4 Class Hour

 (2) Function, configuration and management of switch     2 Class Hour

 Teaching Requirements:

 (1) Help students to master configuration and management methods for network infrastructure such as switches and routers.


  1.  MIB    5 Class Hours

  1. Structure Management Information                2 Class Hours

  2. MIB-II                                      2 Class Hours

  3. Extended MIB-II                              1 Class Hours

 Teaching Requirements:

  1. The key point for students is to master related concept of MIB and SMI, rules and methods of object identifier and entity notation.

  2. Help students understand function of related objects in MIB-2 groups.

  1.  Simple Network Management Protocol (SNMP)    4 Class Hours

  1. Related concept of SNMP                        0.5 Class Hour

  2. SNMPv1                                     1.5 Class Hours

  3. SNMPv2                                     1.5 Class Hours

  4. SNMPv3                                     0.5 Class Hour

 Teaching Requirements:

  1. The key for students is to understand management framework, packet structure, PDU (Protocol Data Unit), operations supported, sending and receiving process of packet of SNMP.

  2. Help students know functional groups, safety and limits of SNMP.

  1.  ROMN (Remote Network Monitoring)     3 Class Hours

  1. Basic concept of RMON                           1 Class Hour

  2. RMON 1 MIB                                   1 Class Hour

  3. RMON 2 MIB                                   0.5 Class Hour

  4. Other RMON MIB                               0.5 Class Hour

 Teaching requirements:

 Help students understand concept, use and function of RMON.

  1.  Network management system   4 Class Hours

  1. An introduction to network management system       0.5 Class Hour

  2. Implementation technique of network management platform 1.5 Class Hours

  3.  Implementation of network management function      2 Class Hours

 Teaching Requirements:

  1. Help students understand basic function of network management system.

  2. Help student know implementation technique of function of often-used network management system.

  3. Help students know basic methods of how to develop a network application program of SNMP under Windows environment.

  1.  Diagnosis and maintenance of network fault    5 Class Hours

  1. An introduction to network fault                    1 Class Hour

  2. Diagnosis methods of network faults                2 Class Hour

  3. Most common network faults and corresponding solutions 2 Class Hour

 Teaching Requirements:

  1. Help students understand causes of network faults, principles of diagnosis and steps of fault removal.

  2. Help students know how to use often-used soft- and hardware tools for network fault diagnosis.

  3. Help students understand most common network faults and related removal methods.

  1. Development of network management technology    2 Class Hours

  1. New Standard of network management              1 Class Hour

  2. Intelligent network management technology          1 Class Hour

 Teaching Requirements:

  1. Help students understand the development of new Standard of network management.

  2. Help students know intelligent network management technology.


Experimental Teaching

Included

Teaching Method

Lectured in combination with class teaching, homework and computer-aided experiment.

Examination Method

Homework, experiment and performance in class: 30%

Final exam (Closed books/notes): 70%

Teaching Materials and Reference Books

Textbook in use: Self-editing materials.

Refenrence:

1. Yun Hongyan (Editor-in-chief), Computer Networks Management(Second edition), published by Posts and Telecom press, 2014.2

2. Yang Yunjiang (Editor-in-chief), Computer Network Management Technology (Second edition), published by Tsinghua university Press, 2010.3

Prepared by Whom and When

Jinlong Hu, Shouling Dong, 2019.05.12


《网络工程与网络管理》实验教学大纲

课程代码

045100751

课程名称

网络工程与网络管理

英文名称

Engineering and Management of Network

课程类别

专业基础课

课程性质

必修课

学时

总学时:48  实验:16  

学分

2.5

开课学期

第六学期

开课单位

计算机科学与工程学院

适用专业

网络工程专业及其他计算机类专业

授课语言

中文授课

先修课程

计算机网络、高级语言程序设计

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:

3.设计/开发解决方案:能够设计针对复杂网络工程问题的解决方案,包括满足特定需求的系统设计、部件选择、工程实施流程或方案设计,并能够在设计环节中体现创新意识,考虑社会、健康、安全、法律、文化以及环境等因素。

11.项目管理:理解并掌握工程管理原理与经济决策方法,并能在多学科环境中应用。

课程培养学生的能力(教学目标)

  1. 学会使用MIB Browser工具查看设备信息并分析设备状态。

  2. 学会利用网络抓包工具,获取SNMP报文,并解析SNMP报文的结构和内容。

  3. 学会使用网络管理命令对网络检测并能够进行故障的分析。

  4. 学会使用网络管理软件对网络进行管理。

  5. 学习编写一个简单的网络管理系统。

课程简介

本课程讲述网络管理系统的体系结构和网络管理工具的使用方法,通过上机实验的实践锻炼,使学生加深对所学理论知识的理解,学会使用网络管理工具和软件,能够运用所掌握的理论知识解决计算机网络管理中的实际问题,具备网络管理的实践工作能力

主要仪器设备与软件

PC机,路由器、交换机、网络环境、MIB Browser、抓包软件、网络管理系统、高级编程语言

实验报告

实验报告要包含“实验目的及要求“、“实验过程(实验步骤、实验数据)”和“小结”

考核方式

实验操作(30%)+实验报告(40%)+预习、考勤、实验纪律(30%)

教材、实验指导书及教学参考书目

实验指导书:自编


制定人及发布时间

胡金龙,董守玲   2097430


《网络工程与网络管理》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

1

理解和使用MIB信息库

4

学习使用MIB Browser工具查看设备信息,并通过获得的信息分析设备状态

验证性

必做

4-8

PC机,路由器、交换机、网络环境、MIB Browser

2

SNMP网络管理报文信息解析

4

1)利用网络抓包工具,获取SNMP报文。

2)结合课堂所学内容解析SNMP报文的结构和内容。

3)学习通过编程和使用SNMP协议,获取MIB信息库信息*

综合性

必做(*为选做)

4-8

PC机,路由器、交换机、网络环境、抓包软件、高级编程语言

3

网络管理命令的使用

4

学会使用网络管理命令对网络检测并能够进行故障的分析

综合性

必做

4-8

PC机,路由器、交换机、网络环境

4

网络管理系统安装、配置、使用和开发

4

1.学会使用网络管理软件对网络进行管理

2.学习编写一个简单的网络管理系统*

综合性

必做(*为选做)

4-8

PC机,路由器、交换机、网络环境、网络管理系统、高级编程语言



 “Engineering and Management of Network” Experiment Teaching Syllabus

Course Code

045100751

Course Title

Engineering and Management of Network

Course Category

Specialty Basic Course

Course Nature

Compulsory Course

Class Hours

Total Class Hours: 48  Lab Hours: 16

Credits

2.5

Semester

Sixth

Institute

School of Computer Science and Engineering

Program Oriented

Network Engineering and other computer-related majors

Teaching Language

Chinese

Prerequisites

Computer Networks, Advanced Language Programming

Student Outcomes (Special Training Ability)

Students who complete this course are required to generate the following outcomes:

 3.  Design / Development Solutions: An ability to design solutions for complex               network engineering problems, including system design, component selection, engineering implementation process or solution design to satisfy specific needs, and an ability to exhibit innovative awareness in the design process, considering factors such as society, health, security, law, culture, and environment.

 11.  Project Management: Understanding and mastering engineering management principles and methods of economic decision-making, and applying them to multidisciplinary environments.

Teaching Objectives

  1. Help student know how to use MIB Browser to check device information and analyze device’s state.

  2. Help student know how to use packet capturing software tools to obtain SNMP packet and analyze structure and contents of the packet.

  3. Teach student to be able to use network management commands to detect network and conduct analysis on network faults.

  4. Help students to know how to use network management software to manage a specified network.

  5. Help students to know how to develop a simple network management system.

Course Description

This course introduces architecture of network management system and how to use network management tools. It helps deepen student’s understanding of learned theory, learn to use network management tools and software, put learned theory into use in order to solve problems encountered in computer networks management and be capable of using skills obtained in this class in real work and life through carrying out computer-aided experiments.

Instruments and Equipments

PC, Router, Switch, Network Environment, MIB Browser, Packer Capturing Software, Network Management System, Advanced Programming Language.

Experiment Report

Includes “Objectives and requirement of experiment”, “Experience process (steps and data)”, and “Summary”.

Assessment

Experimental operation (30%) + Experiment report (40%) + Preview, Attendance, and Experiment Discipline (30%)

Teaching Materials and Reference Books

Guide books for experiment: Self-edited.

Prepared by Whom and When

Jinlong Hu, Shouling Dong, 2019.4.30

 “Network Management” Experimental Teaching Arrangements

No.

Experiment Item

Class Hours

Content Summary

Category

Requirements

Number of StudentsEach Group

Instruments, Equipments and Software

1

Understanding and use of MIB

4

Learn to use MIB Browser to check device information and analyze device state.

Comprehensive

Compulsory

4-8

PC, Router, Switch, Network Environment, MIB Browser

2

Analysis on packet information based on SNMP network management

4

1、Use packet capturing software tools to obtain SNMP packet.

2、Analyze obtained SNMP packet and analyze its structure and contents based on learned theory.

3、Learn to obtain information from MIB through programming and SNMP protocol*.

Comprehensive

Compulsory (* represents Elective)

4-8

PC, Router, Switch, Network Environment, Packer Capturing Software, Advanced Programming Language.

3

Use of network management commands

4

Learn to use network management commands to detect network and conduct analysis on network faults.

Comprehensive

Compulsory

4-8

PC, Router, Switch, Network Environment, .

4

Installment, configuration, use and development of network management system.

4

1、Learn to use network management software to manage a specified network.

2、Learn to develop a simple network management system*.


Comprehensive

Compulsory(* represents Elective)

4-8

PC, Router, Switch, Network Environment, Network Management System, Advanced Programming Language.