Moshfequr Rahman Maruf, Maksudul Islam and Puja Das in the Department of Computer Science and Engineering, Daffodil International University, has been accepted as satisfactory in partial fulfillment of the requirements for the degree of B.Sc. Department of Computer Science and Engineering Faculty of Information Science and Technology Daffodil International University. We declare that this project has been done by us under the supervision of Narayan Ranjan Chakraborty, Assistant Professor, Department of CSE Daffodil International University.

We also declare that neither this project nor any part of this project has been submitted elsewhere for the award of any degree or diploma. We are really grateful and extend our sincere thanks to supervisor Narayan Ranjan Chakraborty, Assistant Professor, Department of CSE Daffodil International University, Dhaka. Deep knowledge and great interest of our supervisor in the field of "Field Name" to carry out this project.

Touhid Bhuiyan, Head of CSE Department, for his kind assistance in completing our project, and also to other faculty members and staff of CSE Department of Daffodil International University. We would like to thank our entire coursemate at Daffodil International University who participated in this discussion while completing the course.

INTRODUCTION

• Introduction
• Motivation
• Objectives
• Expected Outcome
• Project Management and Finance
• Report Layout

After completing our project, while all devices are connected, they can easily share information with each other. Since our project is Dual Stack, it will act as a backup for the other if IPv4 or IPv6 is disabled for some reason. Another important result is that the ISP & IT sector can benefit from our project; they can use our project as a guideline.

By design, we use a different routing protocol and use network enable commands, resulting in an active campus network that allows both IPv4 and IPv6 address. There are six chapters in our project report i.e. Introduction, Background, Requirements Specification, Design. In the introduction we briefly describe the project, in the motivation we say why we are doing it, in the goal we show that we are trying, what we are doing in our project, and in the expected result we will show what we can learn from the project.

Here we discuss about background related works, scope of the problem and challenges we face. The last chapter is conclusion and Future scope where we give an overview about our work and what changes will be in the future.

BACKGROUND

• Preliminaries
• Related Works
• Competitive Analysis
• Scope of the problem

If we think about the current situation of Internet communication, then our answer is yes, because we are currently in IPv4. But if we think about the near future of Internet communication, greater efficiency and security, then IPv6 is suitable. This project is very user friendly as it allows both IP using devices on the same network without synchronization. Internet Protocol Version 4 (IPv4) IP addresses are used everywhere, but the biggest problem is the small IP addresses (only 32 bits) currently in use.

Therefore, we think it is a good opportunity to configure this network diagram to set up a "Dual stack".

REQUIREMENT SPECIFICATION

• Business Process Modeling
• Requirement Collection and Analysis
• IP Protocols IPv4
• Switch Basic Configuration The topics we cover
• Use Case Modeling & Description
• Design Requirement

Generally, a use case model diagram is used to represent the relationship between the customer and the system. Based on a scenario, we will usually draw the use case to establish the relationship so that the audience can easily understand what we actually want to say. In a word, a use case diagram shows the interaction between the system and the users and how many ways the action can be performed by the actor.

We can simply say that the use case is the workflow of the entire system. So in our use case diagram we show how the actor impacts the entire internal system. The use case model diagram that we draw for the campus network is shown below in Figure 3.1.

For our project design we can use Cisco Packet Tracer, Draw.Io and GNS3 Simulator. This figure 3.2 is the direction of Cisco Packet Tracer where we will build our network prototype.

Figure 3.2: Cisco Packet Tracer Simulator

DESIGN SPECIFICATION

Front-end Design

Daffodil International University 17 We use router, switch, server, PC, laptop and printer to design the campus network. This Figure 4.3 is the complete design of our campus network that we designed at Cisco Packet Tracer Simulator using IPv4 and IPv6 addresses. This figure 4.4 is complete design of our campus network which we designed in GNS3 Simulator using IPv4 and IPv6 addresses.

Back end design is the design where we will configure our protocol like router, switch, computer, printer in command.

Figure 4.2: Instrument for design

Implementation Requirements

So we are sorry about that as we cannot give any information about user experience.

IMPLEMENTATION AND TESTING

Implementation of Front-end Design

In this Figure 5.3, we show how the primary link connects to the core router using the "ip interface brief" command for IPv4 and the "ipv6 interface brief" command for IPv6 addresses in GNS3. In this Figure 5.5, we show how the secondary link connects to the core router using the "ip interface brief" command for IPv4 and the "ipv6 interface brief" command for IPv6 addresses in GNS3. In this Figure 5.6, we show the core router configuration that handles the entire protocols of our project.

Here in figure 5.7 we show how all routers are connected to the core router using "ip interface brief". Here in Figure 5.8, we show how all routers are connected to the core router using the “ipv6 interface brief” command for IPv6 in GNS3. Here in Figure 5.12, we show how everyone connects to Branch_1 using "ip interface brief" for IPv4 and "ipv6 interface brief" for IPv6 in the GNS3 simulator.

In Figure 5.13 we show how they all connect to Branch_1 using the command "ip interface brief" for IPv4 and "ipv6 interface brief" for IPv6 in the GNS3 simulator. In Figure 5.22, we test the ping of the core router to check the access reach ISP_1, Branch_1. In Figure 5.23, we test the ping of Branch_1 to check the access reach of ISP_1 and core routers.

Figure 5.2: ISP_1 router configuration

IMPACT ON SOCIETY AND ENVIRONMENT

• Impact on society
• Impact on Environment
• Ethical Aspects
• Sustainability plan

Daffodil International University 55 we can easily browse the network, here we provide more security, better routing efficiency, because of this, the user can bless. Since the risk of cyber attacks is low, we believe that this project will be more effective in maintaining a safe and peaceful environment around us. We work for it because it will benefit us, and we try to avoid all those things that harm people.

We also try to protect the confidential and private data shared over the network. First, we carefully design the entire network diagram and then implement it using various routing protocols and commands. As we have no user experience with the network and for sustainability we have to launch the project.

Then the network will use more and we will be able to detect errors and can upgrade the network.

CONCLUSION AND FUTURE SCOPE

Discussion and Conclusion

Scope for Further Development

PLAGIARISM