IPv6: Are We Ready? (original) (raw)
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Software and Hardware Enhancements to Support IPV6
International Journal of Advanced Research in Computer Science and Software Engineering
Internet Protocol Version 4 (IPV4) has been the standard Internet Protocol which provides the addressing scheme for the existing Internet. Internet has grown beyond reaches and has exceeded the scope which it was initially built for. With the advent of Modern technologies and Research in areas such as IoT, cloud computing, Big Data etc., Internet is not restricted to usage for email communication. Users of Internet have grown across the globe and the purpose of Internet has had a paradigm shift. End users are identified with the aid of IP addresses and the vast growth in the end user has led to exhaustion of these addresses. The problem of address exhaustion was identified in the early 1995 and a solution to this problem was provided by the invention of new addressing scheme called the Internet Protocol Version 6 (IPV6) formerly called as the IP next generation. The applications and tools which were developed to use and have in built dependency on the earlier IPV4 addressing scheme will have to be now scaled to include the new addressing scheme. This paper proposes solutions for making the applications compatible with IPV6 addressing scheme realizing the software dependencies of applications on IPV4.
Internet Protocol version 6 Overview
2005
IP stands for “Internet Protocol” and it was designed during the ‘70s with the purpose of interconnecting heterogeneous network technologies. IP was a huge success, and made it possible to create today’s Internet. Currently, the Internet is predominantly using the fourth version of IP (IPv4), however the huge success of the Internet is pushing IPv4 to its limits. The Internet Engineering Task Force (IETF) designed IPv6 to become the replacement for IPv4. IPv6 solves most of the major problems of IPv4 and has several new features. This paper presents an overview of the IPv6 protocol, discussing its operation, its addressing architecture, its header format, the neighbor discovery protocol and one of the major issues of IPv6: how to transition from IPv4; presenting a set of transition mechanisms that provide communication between IPv4 and IPv6.
A Comparative Review Of Internet Protocol Version 4 (IPv4) and Internet Protocol Version 6 (IPv6
Many computers and devices are becoming more connected to the internet in recent years; the use of the Internet Protocol (IP) has made the connectivity and identification of these devices possible in large scale. In this paper, we will discuss the evolution of Internet Protocol version 4 (IPv4), its features, issues and limitations and how Internet Protocol version 6 (IPv6) tends to solve some of these issues including the differences and transition between these two protocols.
A General System for Monitoring and Controlling via Internet
Proceedings of the Tenth International Conference on Enterprise Information Systems, 2008
The main aim of the project, presented in this paper, is to create a system that will give a solution to the variety of situations we can encounter in industrial plants control; to achieve this goal we have given the system different automation, remote control and remote monitoring functionalities. Industrial installations can be composed of several plants; for this reason we offer a solution capable of defining a central office that is in control of all plants, each plant with its own controller. Apart from the problem of geographically disperse locations, it is also of the essence to offer automation for the tasks that take place in the plants. In order to achieve an automation system capable of giving answer to a range of situations, as wide as possible, we have designed an engine so that the user may create its own rule based system, defining himself the rules by means of an interface that abstracts the user from the formal definition of the rules.
First step toward Internet based embedded control system
… Conference, 2004. 5th …, 2004
IP network has been evolving significantly in last decade. Many computers and devices have been attached to the IP network and many applications were taken place over it. One of interesting applications is building embedded control system which has connectivity to Internet. This paper explains an implementation of embedded web server with security support which becomes an example of control application over IP network. A security algorithm, TEA (Tiny Encryption Algorithm), has been implemented in a microprocessor system together with TCP/IP stack. The microprocessor system is based on 8051 family microcontroller which serves as web server. The encryption algorithm is processed both on server and client. Therefore in clients need a plug in, which run encryption mechanism, so that they can access the embedded web server safely.
Internet protocol version 6 (student paper)
Journal of Computing Sciences in Colleges, 2001
Many students, educators, and other professionals are increasingly finding that they need to become familiar with networking protocols. While the technical details are more complex than most professionals need, an understanding of the basic uses, features, terminology, and configurations is essential for any technical decision-maker or computer professional. Because of the Internet's dominance, computer professionals need to be, at least, familiar with its basic functionality. Currently, Internet Protocol version 4, IPv4, is the standard for Internet communications. However, with the tremendous expansion of the Internet, IPv4 is proving to be incapable of handling the coming demand. A new standard will be accepted to allow the Internet to continue to grow in size as well as function. Internet Protocol version 6, or IPv6, is the next currently proposed standard for Internet communications. While the basic function of IPv6 is similar to IPv4, IPv6 is drastically different in form. Differences fall into the categories of addressing, security, and configuration. Already, many large organizations, including Microsoft and Cisco, are developing and testing the new protocol. Beta software that allows construction of IPv6 networks has also been released to the general public. Because of the significant enhancements IPv6 provides and the shortage of IPv4 addresses, many organizations have begun implementing Internet Protocol version 6. The
The next generation of the Internet: aspects of the Internet protocol version 6
IEEE Network, 1998
This article presents an overview of several key improvements offered by the Internet Protocol version 6 (IPv6) over current Internet Protocol version 4 (IPv4). The topics covered include IPv6 addressing and routing concepts, changes to the minimum IPv6 packet size, flows, and traffic classes, the neighbor discovery and node autoconfiguration mechanisms, and an overview of mobile IPv6 and the network security architecture. Transition mechanisms, such as dual stacks and the 6bone, are also discussed. The 6bone is a virtual network that is used to help test and facilitate the development of IPv6. Key conce ts associated with the 6bone, such as setup requirements, IPv6 DNS support, anltunnel mechanics, are also presented 28
2021
In the recent epidemic scenario of lockdown, everything has come to hold and businesses and transactions are moving online. Similarly in the education sector, classes and training are being conducted remotely and via the internet. Consequently, the audio and video streams either offline or in real-time generate additional traffic on the internet. For smooth coverage of the educational material, an additional setup is being established by keeping expansion and up-gradation in mind. The basic question is how to choose the IP-Suite. In this research study based on key performance parameter; security, multicasting, automation IPv4 and IPv6 has been compared. Three working environments; Windows, Linux, and Mac-OS have been tested for the results to be driven and compared under the results section of this research study. Achieved results must be given consideration whenever the end-user application needs to be deployed in the networks.
Comparative Analysis of IPV4 and IPV6
In the recent years, more devices and organizations tend to be becoming more reliant on the internet. The Internet protocol (IP) has become a driving force that allows this device to be connected to the internet. It also provides a suitable way of identifying such device connected to the Network. In this paper, we will be more concern with the reviewing the comparative analysis of IPV4 and IPV6
Establishment of IPv6 Network on Intranet Environment
2010
Internet Protocol version six (IPv6) is the next generation internet protocol. It is not yet possible to completely migrate to IPv6, but several transitions mechanisms are available to allow IPv6 and IPv4 coexist together in the same network infrastructure. The main benefit of this protocol is a larger address space and enhanced security options. It is not easy to migrate from current Internet Protocol version four (IPv4) to Internet Protocol version six (IPv6) as it is not "Plug n Play" since both are incompatible protocol. For smooth integration between these protocols, native IPv6 testbed (TEST6) was deployed in an intranet environment. In other hand, this gained an experience and confidence before fully integrating it with an existing Internet protocol. This paper describes how TEST6 was setup in intranet environment (TEST6-I) through numerous of process and network test performed to verify the connectivity.