4,591 resources related to Ipv6
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2020 IEEE International Conference on Industrial Technology (ICIT)
ICIT focuses on industrial and manufacturing applications of electronics, controls, communications, instrumentation, and computational intelligence.
The 2020 IEEE International Conference on Systems, Man, and Cybernetics (SMC 2020) will be held in Metro Toronto Convention Centre (MTCC), Toronto, Ontario, Canada. SMC 2020 is the flagship conference of the IEEE Systems, Man, and Cybernetics Society. It provides an international forum for researchers and practitioners to report most recent innovations and developments, summarize state-of-the-art, and exchange ideas and advances in all aspects of systems science and engineering, human machine systems, and cybernetics. Advances in these fields have increasing importance in the creation of intelligent environments involving technologies interacting with humans to provide an enriching experience and thereby improve quality of life. Papers related to the conference theme are solicited, including theories, methodologies, and emerging applications. Contributions to theory and practice, including but not limited to the following technical areas, are invited.
IEEE Global Communications Conference (GLOBECOM) is one of the IEEE Communications Society’s two flagship conferences dedicated to driving innovation in nearly every aspect of communications. Each year, more than 2,900 scientific researchers and their management submit proposals for program sessions to be held at the annual conference. After extensive peer review, the best of the proposals are selected for the conference program, which includes technical papers, tutorials, workshops and industry sessions designed specifically to advance technologies, systems and infrastructure that are continuing to reshape the world and provide all users with access to an unprecedented spectrum of high-speed, seamless and cost-effective global telecommunications services.
ICC 2020 - 2020 IEEE International Conference on Communications
All topics relating to existing and emerging communications networking technologies.
11th International Conference on Computational Intelligence and Communication Networks (CICN 2017) is organized to address various issues to support intelligentsolutions for society. The aim is to bring together worldwide leading researchers, developers, practitioners and educators interested in advancing the state of the art in computational intelligence and communication networks with the goal of exchanging knowledge that encompasses a broad range of disciplines among various distinct communities. It is expected that researchers will enhance collaboration across disciplines in order to support novel breakthroughs in the field.
Covers topics in the scope of IEEE Transactions on Communications but in the form of very brief publication (maximum of 6column lengths, including all diagrams and tables.)
IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...
Each tutorial reviews currents communications topics in network management and computer and wireless communications. Available tutorials, which are 2.5 to 5 hours in length contains the original visuals and voice-over by the presenter. IEEE Communications Surveys & Tutorials features two distinct types of articles: original articles and reprints. The original articles are exclusively written for IEEE Communications Surveys & Tutorials ...
Computer, the flagship publication of the IEEE Computer Society, publishes peer-reviewed technical content that covers all aspects of computer science, computer engineering, technology, and applications. Computer is a resource that practitioners, researchers, and managers can rely on to provide timely information about current research developments, trends, best practices, and changes in the profession.
The design and manufacture of consumer electronics products, components, and related activities, particularly those used for entertainment, leisure, and educational purposes
2011 IEEE International Conference on Control System, Computing and Engineering, 2011
The exhaustion of IPv4 addresses on November 2011 has made the future of the internet in the IPv6 and raised new challenges in the network security research. This paper proposed a dual stack ipv4/ipv6 network testbed for dealing with the designation and implementation of an intelligent approach for malware detection in IPv6 networks. All the equipments, tools and network are ...
2008 First International Conference on Distributed Framework and Applications, 2008
The escalating growth of web based services has led to the rapid growth of the Internet. As such the current Internet protocol version 4 (IPv4) is rapidly running out of IP addresses. A new generation of IP known as IPv6 proposed and developed by the Internet engineering task force (IETF) is gaining popularity in wide-spread use today. IPv6 offers many ...
2009 2nd IEEE International Conference on Computer Science and Information Technology, 2009
Packets are the basic unit of data transfer in the Internet. Each packet essentially consists of a header that carries network control information apart from the payload part that contains useful information meant for transmission. The size of the header depends on the associated protocol and these headers are an overhead in terms of processing and bandwidth utilization. As packet ...
Deploying IPv6 in Broadband Access Networks, None
2010 3rd IEEE International Conference on Broadband Network and Multimedia Technology (IC-BNMT), 2010
Recently, IPv6 address management has attracted greater interest and discussion after proposals were made to introduce competition by having an alternative to the existing system of IPv6 address distribution. This paper describes an alternative approach for the distribution of IPv6 addresses called the Country Internet Registry (CIR) model. The proposed CIR model would serve in addition to the existing Regional ...
Industry Forum Panel Introduction - IPv6-based IoT Deployment Around the World: WF IoT 2016
Yanick Pouffary: Business Perspective - IPv6 Industry Forum Panel: WF IoT 2016
Pete Tseronis: Strategic Perspective - IPv6 Industry Forum Panel: WF IoT 2016
Joe Klein: IoT Security - Industry Forum Panel: WF IoT 2016
Q&A - IPv6 Industry Forum Panel: WF IoT 2016
Sebastien Ziegler: F-Interop - IPv6 IoT InterOp-Ware Industry Forum Panel: WF IoT 2016
Azael Fernandez Alcantara: The Latin American Perspective - IPv6 Industry Forum Panel: WF IoT 2016
Q&A - IPv6 IoT InterOp-Ware Industry Forum Panel: WF IoT 2016
George Oikonomou’s Paper: Traffic Forensics for IPv6-Based Wireless Sensor Networks and the IoT: WF-IoT 2016
Tim Winters: Internet of Things IP Testing Service - IPv6 IoT InterOp-Ware Industry Forum Panel: WF IoT 2016
Geoff Mulligan: IoT Deployment - IPv6 Industry Forum Panel: WF IoT 2016
Julius Knapp: FCC Role in the Internet of Things - InterOp-Ware Industry Forum Panel: WF IoT 2016
Geoff Mulligan: Keynote - Q and A: WF IoT 2016
Geoff Mulligan: Keynote - Making Sense of IoT Protocols and Alliances: WF IoT 2016
Switching, Routing & Forwarding: Technical Session 1 - HPSR 2020 Virtual Conference
The exhaustion of IPv4 addresses on November 2011 has made the future of the internet in the IPv6 and raised new challenges in the network security research. This paper proposed a dual stack ipv4/ipv6 network testbed for dealing with the designation and implementation of an intelligent approach for malware detection in IPv6 networks. All the equipments, tools and network are configured based on real implementation of a dual stack ip4/ipv6 network. With fully functional operation for handling basic transition between IPv6 clients over IPv4 networks, the dual stack IPV4/IPv6 testbed is suitable for investigating the malware detection in real ipv6 networks. The experimental results from the testing phase show the efficiency and the functionality of the dual stack IPv4/IPv6 testbed.
The escalating growth of web based services has led to the rapid growth of the Internet. As such the current Internet protocol version 4 (IPv4) is rapidly running out of IP addresses. A new generation of IP known as IPv6 proposed and developed by the Internet engineering task force (IETF) is gaining popularity in wide-spread use today. IPv6 offers many advantages including large address space, simple header, security, mobility and extensibility, over IPv4. In the Internet, transmission of data from one computer to another passes through a series of layers with control information added as headers at each layer. The header overheads can be reduced if the functionalities in the headers can be handled efficiently. In this paper we propose to remove error handling at the data link layer and handle it at the network layer by utilizing the features of the IPv6 header especially extension header, and the characteristics of the high speed network medium. The proposed concept would reduce the overhead of the header at the data link layer resulting in increasing the data transfer rate and reducing the bandwidth utilization of IPv6 packets over high speed networks.
Packets are the basic unit of data transfer in the Internet. Each packet essentially consists of a header that carries network control information apart from the payload part that contains useful information meant for transmission. The size of the header depends on the associated protocol and these headers are an overhead in terms of processing and bandwidth utilization. As packet size decreases, protocol overhead would increase since the header to payload size ratio becomes large. So packet size influences performance. Traffic on the Internet and LAN, which are dominated by small packets aggravate the above problem of protocol overhead affecting the performance of packet transmission. The introduction of IPv6 as the Next Generation Internet Protocol has a host of advantages over IPv4 to leverage today's communication needs. Apart from its advantages IPv6 uses a significantly large header size when compared to IPv4 which could be handled efficiently so that network resources can be utilized efficiently. From our ongoing research work we put forward a modified IPv6 header format for packet transmission within a LAN. The modified IPv6 header format reduces the size of the IPv6 header. This would reduce IPv6 network protocol overhead by reducing the header to payload size ratio for small and moderate size packets increasing the performance of IPv6 packets transmitted over the Ethernet in terms of bandwidth utilization and throughput.
Recently, IPv6 address management has attracted greater interest and discussion after proposals were made to introduce competition by having an alternative to the existing system of IPv6 address distribution. This paper describes an alternative approach for the distribution of IPv6 addresses called the Country Internet Registry (CIR) model. The proposed CIR model would serve in addition to the existing Regional Internet Registry (RIR) model so that the users can choose from whom they wish to obtain their IPv6 addresses. Alternative schemes introduced for IPv6 address allocation would facilitate in providing a competitive environment in IPv6 address management. This competitive environment would help-in making the RIR's to be more responsive to user needs, help to overcome oversight if any by the RIRs, and provide enhanced services at a cheaper cost to the users.
This paper proposes to use a single unique global identity for every entity especially mankind, used for multiple purposes requiring only one IPv6 address to identify the entity. The IPv6 address assigned to a human entity can be used to identify the individual and coupled with the individuals biometric identity can access to the individuals records in a file stored in a distributed server. The IPv6 address assigned to an individual can be used to identify an individual, access an individuals personal record, medical record, locate the individual, communicate with the individual, perform transactions such as banking, debit or credit cards facilities, income tax, employment provident fund, pension, driving license, etc in a controlled manner.
The primary function of the Internet protocol (IP) is delivering datagram's across an internetwork and addressing is one of the most important functions of IP. Communication between hosts over an internetwork is accomplished using IP addresses, but the actual communication over a physical network takes place using physical addresses. The mapping of IP addresses to physical addresses is done through address resolution methods. As address resolution is performed at each hop along the path through the Internet, efficiency of this process is of concern. In IP, address resolution queries and responses consume bandwidth, and end nodes are forced to waste CPU cycles receiving and discarding address resolution queries for other nodes which is an overhead. This paper explores the possibility of improving the performance of IPv6 packet transmission through the use of an efficient address resolution method. The performance of application processes depends on the throughput of the server and network. The throughput of a server depends on its processing power and load while the throughput of a network is directly influenced by the efficiency of routers, switches and bandwidth used. This paper proposes to use address resolution through direct mapping instead of dynamic binding which would enhance the efficiency of the address resolution process and plausibly improve the performance of IPv6 packet transmission.
The escalating growth of Web based services has led to the rapid growth of the Internet. This ever increasing growth of the Internet has led to the depletion of Internet Protocol version 4 (IPv4) addresses. IPv6, the Next Generation Internet Protocol developed by IETF in the 1990s is getting wide spread in use replacing IPv4 to overcome its shortcomings including IP address exhaustion. IPv6 offers many advantages and features over IPv4 which could be utilized to handle some of the functions at layer 2 (data link layer, with reference to the ISO Model) so that the performance of processing packets in term of operations can be improved. One such function of interest is the frame check- sum found in Ethernet headers at the Data link layer. In this paper we show how error handling can be done at the Network layer instead of at the Data link layer by utilizing the extension header feature of IPv6, and the characteristics of the fiber optic medium. Our emulation results show, handling error utilizing IPv6 extension header at the Network layer has smaller packet processing time than handling it in the data link layer that need to check error in every node. Smaller packet processing time means faster transmission of IPv6 packets.
We have entered the transitional period between IPv4 and IPv6. However, managing IPv4/IPv6 coexistence and transition involves some entirely new issues. Considering the management issues during IPv6 transition, we attempted to propose IPv6 network virtualization architecture (VNET6). VNET6 has its own management model based on abstraction. An evolution algorithm and autonomic control loop are specifically designed to automate provisioning of virtual resources and abstract IPv6 transition services. The evaluation of our deployment demonstrates that: VNET6, in a dynamic and autonomic managing manner, can facilitate IPv6 deployment and IPv6 transition services.
In the Internet, nodes are identified using IP addresses that depend on their topological location. IPv4/IPv6 translation technology involves address mapping between IPv6 and IPv4 nodes and the methods used to translate protocols, where nodes are in their respective IP version of network. A detailed study is made on the IPv6 addressing architecture, various IPv6 configuring mechanisms and obtaining care-of-address. The study clearly reveals that IPv6 addressing in IPv4 network and vice-versa are not considered. The paper points out the need of IPv6 addressing in IPv4 network and proposes a new addressing mechanism with a clear implementation procedure, while not restricting any IPv6 mobile node to roam only in IPv6 based networks. The newly configured IPv6 address in the proposal is referred to as P46CGA, which includes the extensions to IPv6 stateless addressing mechanism, cryptographic methods, IPv4 router address. Using IPv4 router address in IPv6 addressing in IPv4 network helps the other routers in the internet to identify easily the current location of IPv6 node and to establish communication between them. The main focus of the proposal is to permit an IPv6 mobile node to roam also into IPv4 based network and get serviced besides roaming in IPv6 based network.
This standard defines security requirements (all aspects of security including but not limited to authentication, authorization, privacy, integrity, device management, physical security and information security) for manufacturers, users, and others on the selection, installation, configuration and usage of hardcopy devices (HCDs) and systems; including printers, copiers, and multifunction devices (MFDs). This standard identifies security exposures for these HCDs and systems, ...