Article | 30-November-2018
IPv10 is the proposed name as IPv10 = IPv4 + IPv6. The draft specification can be found at IETF.org and will expire in March 2018.
I.
SPECIFICATION
A.
Status of this Memo
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at http
Khaled Omar Ibrahim Omar
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 4, 80–87
Article | 30-November-2018
IPv6 is a solution to the problem of running out of IPv4 addresses. In other words, it is to upgrade the IP address because the original number of IPv4 addresses is not enough to assign to more computers. The first version of IPv6 appeared in 1995, at that time the internet is in its infancy, with the development of Internet of things, big data and cloud storage technologies being gradually applied in the last decade, IPv6 has certain defects in the design of its address structure by the
Tao Wang,
Jiaqiong Gao
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 1, 1–9
Article | 30-November-2018
I.
IPV6 ADDRESS SPATIAL STRUCTURE
The IPv6 address space design is not a 128-bit address space that people think. Its special address structure leads IPv6 to go through three significantly different transitional versions if it is really implement 128 bits address space. The transition between the three versions is the same as going through three different IP protocols from IPv4 to IPv6. It is often unscientific to say that IPv6 can assign an IP address to every grain of sand on the planet.
In
Tao Wang,
Xiaodong Wang
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 2, 7–14
Article | 30-November-2019
Internet, the network has completely changed people’s lives.
I.
PROBLEMS WITH IPV4 AND IPV6
A.
Problems with IPv4
1)
Insufficient address
Internet uses IPv4 protocol address scheme, the address number up to 232, due to the early development of the Internet to estimate the development trend of Internet, the IP allocation is not reasonable, address resources are exhausted, although no classification of addressing CIDR technology, network address translation NAT technology to alleviate the crisis, but
Halavachou Yury,
Fei Xu
International Journal of Advanced Network, Monitoring and Controls, Volume 5 , ISSUE 1, 28–35
Article | 30-November-2018
CIDR address block containing multiple addresses to query the destination network. This aggregation of addresses is known as routing aggregation and is also known as composition supernettingting.
III.
IPV6 ADDRESS SPACE
IPv6 is the sixth version of the Internet protocol. IPv6 USES 128-bit addresses (2128 bits), which is about 3.4 x 1038 addresses, but IPv6 addresses up to 128 bits in length does not say how many addresses there are per square meter of the earth. Rather, IPv6 addresses were
Halavachou YURY,
Yubian Wang
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 2, 48–60
Article | 30-November-2018
exposed [1]. For example, in the address space, performance, network security and routing bottlenecks, IPv4 makes it difficult to meet the needs of the Internet in the future. To solve the IPv4 many problems, IPv6, IPV9 and other Internet protocols have been born.
II.
THE STATUS OF IPV4
IPv4 plays a key role in the development of the network. However, with the continuous expansion of the network scale, it can no longer meet the network development needs. Firstly, the address resources are exhausted
Sun Huai,
Liu Zhang
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 3, 79–87
Article | 07-May-2018
In this paper authors introduced the overall design of learning resource sharing platform in the pure IPv6 environment, including the client and the web server and the back-end database, and the user management, the detailed design of the three aspects of resource management platform and administrator management. Finally authors introduced application of decision tree in this website.
Chunmei Li,
Peng Cui,
Xinke Zhou,
Ze Xiao
International Journal of Advanced Network, Monitoring and Controls, Volume 3 , ISSUE 1, 54–57
Article | 01-December-2016
Advanced Metering Infrastructure (AMI) is a key part in the development of the smart grid, which integrates automatic meter reading, distribution automation, user data analysis, as well as real-time price adjustment functions. Existing AMI can offer good support for smart grid backbone. However, it still has some shortages when sensing the electric meter data acquisition, electric devices, and etc. Due to the vast number of meters, the use of IPv6 technology in AMI is an inevitable trend
Wang Peng,
Su Fei,
Hu bohong,
Luan wenpeng
International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 4, 2111–2130
Article | 30-November-2018
/IP protocol cluster, the current version is IPv4 with 32-bit addresses. With the popularity of Internet applications, the limited address space defined by IPv4 has been exhausted. To expand the address space, the Internet Engineering Task Force (IETF) has designed the next generation IP protocol, IPv6, to replace IPv4. IPv6 redefines the address space, using a 128-bit address length that provides almost unlimited addresses. However, with the development and application of the Internet of things
Zhongsheng Wang,
Jianping Xie,
Zhao Lin,
Wei Zhong
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 1, 10–28
Article | 30-November-2018
other aspects. Although the use of NAT (“Network Address Translation”), CIDR (“Classless Inter-Domain Routing”) and other technologies can alleviate the IPv4 crisis to some extent. But in fact, it has not fundamentally solved the problem. At the same time, it will bring new problems in cost, quality of service, security and other aspects, posing greater challenges.
To solve the problem of insufficient IPv4 addresses, scientists proposed IPv6. However, due to the limitations of the technology era
Yufeng Lai,
Jianping Xie,
Xiaowei Cheng,
Yuyu Li
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 1, 29–38
Article | 30-November-2020
I.
THE GENERATION OF DECIMAL NETWORK
Nowadays, the network is highly valued by all countries in the world. The core of Internet technology is IPv4 and IPv6, and it is developed by the United States. The IPv4 protocol address space is 232, and it has some shortcoming with the development of the Internet, in theory, IPv6 has 2128 addresses, but only one eighth of the addresses can be assigned to end users, so IPv6 also has certain limitations.
Decimal network working group joint Shanghai network
Zhang Liu,
Shuyang Li
International Journal of Advanced Network, Monitoring and Controls, Volume 6 , ISSUE 1, 50–56
Article | 30-November-2018
I.
INTRODUCTION
At the beginning of the Internet development, IPv4 addresses were sufficient and successful, but in the last 20 years of the 20th century, the global Internet was growing rapidly, and the number of hosts connected to the Internet was growing exponentially every year. Therefore, the number of existing addresses is no longer sufficient for this development demand. IPv6 solves the problem of address shortage in IPv4, but it does not fully consider the network security problem in
Jiao Chong,
Jianping Xie,
Yinqiu Xu,
Hongwen Zhao
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 1, 39–47
Article | 30-November-2019
to class E. Among them, A, B and C are the basic classes, while D and E are used as multicast and reserved. This is shown in figure 1.
Figure 1.
IP address
II.
THE FEATURES AND PROBLEMS OF IPV4 AND IPV6
A.
The Present Situation of IPv4
IPv4 has played a key role in the development of networks, but with the expanding of network size, it can not meet the demand of network development, the first is the address resources are exhausted, lead directly to address the crisis, although no
Liu Zhang,
Wang Yubian
International Journal of Advanced Network, Monitoring and Controls, Volume 5 , ISSUE 2, 47–57
Article | 30-November-2018
. ‘Inherently political’ technologies also characterized by the high concentration of DNS technology itself. Therefore, these who possess the centralized technology of DNS will seize the power and dominance in cyberspace.”
B.
To dispense with the “next Internet IPNG”
The United States has released a series of planned preparations and foreshadows for the implementation of the “next 30-year DNS era”, including the deployment of “recognition” for the Internet development.
1)
To Abandon IPv6 as “next
Mou Chengjin
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 3, 32–46
Article | 30-November-2018
I.
INTRODUCTION
With the development of radio frequency technology, product-related information can be quickly obtained by the readers if RF tags are assigned to each product. Recently, people have began to adopt IPV6 and even IPV9 protocol formats for RF tag coding since IPV4 address space has been used up. If the server storing product-related information is stored in an IPV4 or IPV6 network, how to query RF information across the network should be solved. This paper mainly studies the RF
Li Guiping,
Xue Lei
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 4, 74–79
Article | 16-December-2013
As the world is moving towards the “Internet of Things” [1], Internet Protocol enabled wireless sensor network is becoming an important research area. In order to make it possible and to facilitate transmission of IPv6 packets over low powered networks, 6Lowpan [2,3] has been introduced. Since the IPWSN application domain is expanded to real-time applications such as health-care [17] and surveillance systems, a fast and seamless handover becomes an important criterion for supporting mobility in
Suman Sankar Bhunia,
Sarbani Roy,
Nandini Mukherjee
International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 5, 2075–2102
Article | 30-November-2018
clear, if this is not clear, many explanations will go wrong. The core embodiment of cyberspace sovereignty is the standard protocol for data communication technology. At present, it includes the IPv4, IPv6 and future network/IPV9 network data communication standards and protocols of the existing equipment running in the world, and the formed network space address naming rights, distribution rights, resolution rights and route addressing operation management rights.
The core resources of cyberspace
Yubian Wang,
Shebzukhov Yuri
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 1, 61–65
Article | 30-November-2018
I.
THE EMERGENCE OF THE NEW GENERATION OF THE INTERNET
IPv4 is the most widely used protocol on the Internet, and its address space is 232. In the early stage of the Internet, due to the underestimation of the development trend of the Internet, IP allocation was unreasonable, and IP resources were very limited. By 2010, there was no address that could be allocated.
In order to solve the problem of insufficient addresses, researches proposed IPv6, IPv6 has 2128 addresses in theory, however, only
Hui Wang,
Lingwen Liu,
Zhikai Yu,
Ming Li
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 2, 40–47
Article | 14-October-2020
Guangzhou Liu,
Fuya Yu
International Journal of Advanced Network, Monitoring and Controls, Volume 5 , ISSUE 3, 36–46