Research on the Identifier Technology of Electric Internet of Things Based on IPv6
2
Citation
0
Reference
10
Related Paper
Citation Trend
Abstract:
The Internet of Things identifier is the basic supporting technology to realize the precise interaction between things. With the advancement of the construction of the electric Internet of Things, the number of various terminal devices connected to the network has increased sharply, and the types are complex and diverse. There are many types of existing electric equipment identifier systems, and their compatibility is poor. With the access of a large number of terminal devices of the electric Internet of Things, the amount of data in the identifier system is huge, which will cause huge operation and maintenance costs and resource occupation. In response to the above problems, this paper proposes an IPv6 identifier scheme that supports large-scale electric equipment of the electric Internet of Things, designs the registration and network access procedures of the identifier, and then proposes an optimization mechanism for electric Internet of Things communication service transmission based on the ipv6 identifier. Experiments have proved that the identifier scheme and transmission optimization mechanism proposed in this paper can effectively reduce the communication delay and packet loss rate of the business in the electric Internet of Things, and achieve efficient support for the electric Internet of Things business.Keywords:
IPv6 address
As part of our ongoing research program on performance analysis of protocols for mobility management in IPv6 networks, we have developed a set of OMNeT++ models for accurate simulation of IPv6 protocols. Our simulation set models the functionality of the RFC 2373 IP Version 6 Addressing Architecture [5], RFC 2460 Internet Protocol, Version 6 (IPv6) Specification [3], RFC 2461 Neighbor Discovery for IP Version 6 (IPv6) [7], RFC 2462 IPv6 Stateless Address Autoconfiguration [10], RFC 2463 Internet Control Message Protocol (ICMPv6) for the Internet Protocol Version 6 (IPv6) Specification [2], and RFC 2472 IP Version 6 over PPP [4].
IPv6 address
Neighbor Discovery Protocol
IPv4
Cite
Citations (15)
This paper surveys the problem of the astronomical growing demand of Internet Systems participating in the public network which has led to the depletion of allocated Internet Protocol version 4.0 (IPV4) addresses. Already, four out of the Regional Internet Registry (RIR) namely: ARNIC, RIPE, LACNIC and ARPIN have exhausted their allocated IPV4 addresses while the fifth AFRICNIC (Africa’s RIR) is reportedly depleted. We also examine the limitations of IPV4, the features of IPV6 and different modes of operating IPV6 standard. Findings shows that the current population of the world is over 6billion people with a projection of 9billion people by the year 2050 and IPV6 can conveniently accommodate 2 128 devices. This paper also proposes the migration from the present Internet Protocol version 4.0(IPV4) to a new Internet Protocol version 6.0(IPV6) addresses. This research work has shown that deploying the IPV6 could only be the possible solution to sustaining Internet Services globally. Keywords: Internet Systems, Internet Protocol Address, IP address depletion, Migration.
IPv4
Internet layer
Reserved IP addresses
IPv6 address
Cite
Citations (0)
IPv4
Header
IPv6 address
Cite
Citations (4)
Abstract : With Department of Defense (DoD) networks steadily adopting and transitioning to the next-generation Internet Protocol, IPv6, careful consideration must be given to IPv6-specific implications for network protection. While Network Intrusion Detection Systems (NIDS) assist in protecting current IPv4 DoD networks, NIDS performance in operational DoD IPv6 environments is largely unknown. As a step toward more rigorous NIDS evaluation, we investigate the extent to which known IPv4 attacks are able to evade detection when converted to equivalent IPv6 attacks. Utilizing 13 general attack classes, we test the IPv6 readiness of two popular open source NIDSs: SNORT and BRO. Attacks in each class are evaluated in a virtual test bed that models both native and transitional networks. In the native IPv6 environment, we achieve a 95% detection rate for SNORT as compared to 8% with BRO. In addition, we discover a bug in SNORT where a carefully crafted IPv6 packet causes the NIDS to fail to open, allowing full circumvention. Our findings suggest that, with respect to IPv6, both NIDS signatures and NIDS software require additional testing and evaluation to be operationally ready.
IPv4
IPv6 address
Cite
Citations (6)
In this article the current state of Internet Protocol v 6 (IPv6) is explored. The limitations of Internet Protocol v 4 (IPv4) are explained as well as how these are addressed by IPv6 and the other advantages of IPv6. Three different approaches to dealing with the current widespread version of IP and the emerging version are outlined along with the advantages and disadvantages of each.
IPv4
IPv6 address
Cite
Citations (0)
From the Publisher:
The fundamental messaging protocol of the Internet, TCP/IP, is more than two decades old, and its current version, IPv4 is showing signs of age in terms of its address space, security features, and routing specifications. This book describes the promise and the challenges in implementing the new standard, IPv6. The CD-ROM contains hundreds of documents that define the IPv6 standards and related protocols, ready to be read when they are referenced in the text, without the need to download.
IPv4
Download
IPv6 address
Address space
Cite
Citations (8)
This paper describes the migration from the current Internet Protocol (IPv4) to the next generation of Internet Protocol (IPv6) and to adapt the new technologies which probably grows into our networks. We explain the need of implementations of IPv6 when one already is in existence and as well as focus on the awareness of different transition mechanism that makes the IPv4 and IPv6 to work simultaneous on the network. This provides an educational knowledge by showing the comparison of the current Internet protocol with the next generation internet protocol to learn into its technical depth with the addresses, the protocols and the processes.
IPv4
Internet layer
Next-generation network
IPv6 address
Implementation
Cite
Citations (4)
IPv6, which is called the next generation Internet protocol, is popular around the network technology realm. This paper presents an overview of the IPv6's development and actuality, and the technology characteristics of IPv6 are also described. At the same time , the two basic technologies dual stack and Tunnel, which are designed to resolve the problems occurred during the transition from IPv4 to IPv6, are interpreled relatively.
IPv4
Next-generation network
Realm
IPv6 address
Cite
Citations (0)
With the rapid development of internet,IPv4 doesn't adapt to the demand of internet because of it's limitation.This paper describes the main features and new functions of IPv6.The header formats of IPv4 and IPv6 are compared in brief.At last a possible scheme of IPv4 transferred to IPv6 is introduced.
IPv4
Header
IPv6 address
Internet layer
Cite
Citations (0)
This paper presents the implementation of an IPv6 stack within the network simulator NS-3. IPv6 is currently being deployed in the world, and should be the Internet Protocol for at least the next fifty years. On another hand, NS-3 aims at being the reference for simulation of the Internet based communication and thus it is important that NS-3 proposes a framework for IPv6. In this paper, we present the main components of our implementation and how we tackle the new mechanisms introduced by IPv6. Finally, we provide some simulation scenarios and results to show that most IPv6 features are already working in our framework, such as the Neighbor Discovery protocol.
Protocol stack
IPv6 address
Internet layer
Neighbor Discovery Protocol
Cite
Citations (0)