The Experts below are selected from a list of 180669 Experts worldwide ranked by ideXlab platform
Ramaswamy Swarnammal Shaji - One of the best experts on this subject based on the ideXlab platform.
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Modelling and Detection of Worm Propagation for Web Vehicular Ad Hoc Network (WVANET)
Wireless Personal Communications, 2019Co-Authors: M. Milton Joe, S. Karthika Bai, B. Ramakrishnan, Ramaswamy Swarnammal ShajiAbstract:Web Vehicular Ad Hoc Network becomes the major research platform these days. This web vehicular ad Hoc Network is fundamentally different from the earlier vehicular ad Hoc Network communication models as it makes use of web technology to disseminate the messages among the nodes. When web technology is integrated in vehicular ad Hoc Network, the communication performance is greatly increased. However, the new web vehicular ad Hoc Network communication model should be prevented from various security threats. The major security threat to web vehicular ad Hoc Network is worm propagation. As web VANET operates through web technology, it is possible to the nodes to get infected with the worms. Once a node is infected with worm, it can spread out to the other nodes in the Network that are vulnerable. This worm can propagate to all the vulnerable nodes and infect them within a fraction of time. The entire communication architecture can be collapsed due to this worm propagation and even these worms can broadcast false messages in the Network to create accidents or to divert the nodes in such a way it will lead to collision. All the nodes should not be vulnerable to prevent itself from worm infection. This paper provides the worm propagation model for web vehicular ad Hoc Network. Further it provides detection measures of worm to enhance the security concern of web vehicular ad Hoc Network.
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Modelling and Detection of Worm Propagation for Web Vehicular Ad Hoc Network (WVANET)
Wireless Personal Communications, 2019Co-Authors: M. Milton Joe, S. Karthika Bai, B. Ramakrishnan, Ramaswamy Swarnammal ShajiAbstract:Web Vehicular Ad Hoc Network becomes the major research platform these days. This web vehicular ad Hoc Network is fundamentally different from the earlier vehicular ad Hoc Network communication models as it makes use of web technology to disseminate the messages among the nodes. When web technology is integrated in vehicular ad Hoc Network, the communication performance is greatly increased. However, the new web vehicular ad Hoc Network communication model should be prevented from various security threats. The major security threat to web vehicular ad Hoc Network is worm propagation. As web VANET operates through web technology, it is possible to the nodes to get infected with the worms. Once a node is infected with worm, it can spread out to the other nodes in the Network that are vulnerable. This worm can propagate to all the vulnerable nodes and infect them within a fraction of time. The entire communication architecture can be collapsed due to this worm propagation and even these worms can broadcast false messages in the Network to create accidents or to divert the nodes in such a way it will lead to collision. All the nodes should not be vulnerable to prevent itself from worm infection. This paper provides the worm propagation model for web vehicular ad Hoc Network. Further it provides detection measures of worm to enhance the security concern of web vehicular ad Hoc Network.
Sanjeev Kumar - One of the best experts on this subject based on the ideXlab platform.
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A Review on Mobile Ad-Hoc Network (MANET) Security Issues: Its Vulnerabilities and Solutions
Wireless Communication, 2011Co-Authors: Arun Malik, Sanjeev KumarAbstract:Mobile Ad Hoc Network (MANET) is a self-organizing, infrastructure-less, multi-hop Network. The characteristic such as the wireless and distributed nature of MANETs poses a great challenge to system security designers. This paper describes the various challenges to the security of mobile ad-Hoc Network and their relevant solutions.
M. Milton Joe - One of the best experts on this subject based on the ideXlab platform.
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Modelling and Detection of Worm Propagation for Web Vehicular Ad Hoc Network (WVANET)
Wireless Personal Communications, 2019Co-Authors: M. Milton Joe, S. Karthika Bai, B. Ramakrishnan, Ramaswamy Swarnammal ShajiAbstract:Web Vehicular Ad Hoc Network becomes the major research platform these days. This web vehicular ad Hoc Network is fundamentally different from the earlier vehicular ad Hoc Network communication models as it makes use of web technology to disseminate the messages among the nodes. When web technology is integrated in vehicular ad Hoc Network, the communication performance is greatly increased. However, the new web vehicular ad Hoc Network communication model should be prevented from various security threats. The major security threat to web vehicular ad Hoc Network is worm propagation. As web VANET operates through web technology, it is possible to the nodes to get infected with the worms. Once a node is infected with worm, it can spread out to the other nodes in the Network that are vulnerable. This worm can propagate to all the vulnerable nodes and infect them within a fraction of time. The entire communication architecture can be collapsed due to this worm propagation and even these worms can broadcast false messages in the Network to create accidents or to divert the nodes in such a way it will lead to collision. All the nodes should not be vulnerable to prevent itself from worm infection. This paper provides the worm propagation model for web vehicular ad Hoc Network. Further it provides detection measures of worm to enhance the security concern of web vehicular ad Hoc Network.
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Modelling and Detection of Worm Propagation for Web Vehicular Ad Hoc Network (WVANET)
Wireless Personal Communications, 2019Co-Authors: M. Milton Joe, S. Karthika Bai, B. Ramakrishnan, Ramaswamy Swarnammal ShajiAbstract:Web Vehicular Ad Hoc Network becomes the major research platform these days. This web vehicular ad Hoc Network is fundamentally different from the earlier vehicular ad Hoc Network communication models as it makes use of web technology to disseminate the messages among the nodes. When web technology is integrated in vehicular ad Hoc Network, the communication performance is greatly increased. However, the new web vehicular ad Hoc Network communication model should be prevented from various security threats. The major security threat to web vehicular ad Hoc Network is worm propagation. As web VANET operates through web technology, it is possible to the nodes to get infected with the worms. Once a node is infected with worm, it can spread out to the other nodes in the Network that are vulnerable. This worm can propagate to all the vulnerable nodes and infect them within a fraction of time. The entire communication architecture can be collapsed due to this worm propagation and even these worms can broadcast false messages in the Network to create accidents or to divert the nodes in such a way it will lead to collision. All the nodes should not be vulnerable to prevent itself from worm infection. This paper provides the worm propagation model for web vehicular ad Hoc Network. Further it provides detection measures of worm to enhance the security concern of web vehicular ad Hoc Network.
Arun Malik - One of the best experts on this subject based on the ideXlab platform.
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A Review on Mobile Ad-Hoc Network (MANET) Security Issues: Its Vulnerabilities and Solutions
Wireless Communication, 2011Co-Authors: Arun Malik, Sanjeev KumarAbstract:Mobile Ad Hoc Network (MANET) is a self-organizing, infrastructure-less, multi-hop Network. The characteristic such as the wireless and distributed nature of MANETs poses a great challenge to system security designers. This paper describes the various challenges to the security of mobile ad-Hoc Network and their relevant solutions.
B. Ramakrishnan - One of the best experts on this subject based on the ideXlab platform.
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Modelling and Detection of Worm Propagation for Web Vehicular Ad Hoc Network (WVANET)
Wireless Personal Communications, 2019Co-Authors: M. Milton Joe, S. Karthika Bai, B. Ramakrishnan, Ramaswamy Swarnammal ShajiAbstract:Web Vehicular Ad Hoc Network becomes the major research platform these days. This web vehicular ad Hoc Network is fundamentally different from the earlier vehicular ad Hoc Network communication models as it makes use of web technology to disseminate the messages among the nodes. When web technology is integrated in vehicular ad Hoc Network, the communication performance is greatly increased. However, the new web vehicular ad Hoc Network communication model should be prevented from various security threats. The major security threat to web vehicular ad Hoc Network is worm propagation. As web VANET operates through web technology, it is possible to the nodes to get infected with the worms. Once a node is infected with worm, it can spread out to the other nodes in the Network that are vulnerable. This worm can propagate to all the vulnerable nodes and infect them within a fraction of time. The entire communication architecture can be collapsed due to this worm propagation and even these worms can broadcast false messages in the Network to create accidents or to divert the nodes in such a way it will lead to collision. All the nodes should not be vulnerable to prevent itself from worm infection. This paper provides the worm propagation model for web vehicular ad Hoc Network. Further it provides detection measures of worm to enhance the security concern of web vehicular ad Hoc Network.
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Modelling and Detection of Worm Propagation for Web Vehicular Ad Hoc Network (WVANET)
Wireless Personal Communications, 2019Co-Authors: M. Milton Joe, S. Karthika Bai, B. Ramakrishnan, Ramaswamy Swarnammal ShajiAbstract:Web Vehicular Ad Hoc Network becomes the major research platform these days. This web vehicular ad Hoc Network is fundamentally different from the earlier vehicular ad Hoc Network communication models as it makes use of web technology to disseminate the messages among the nodes. When web technology is integrated in vehicular ad Hoc Network, the communication performance is greatly increased. However, the new web vehicular ad Hoc Network communication model should be prevented from various security threats. The major security threat to web vehicular ad Hoc Network is worm propagation. As web VANET operates through web technology, it is possible to the nodes to get infected with the worms. Once a node is infected with worm, it can spread out to the other nodes in the Network that are vulnerable. This worm can propagate to all the vulnerable nodes and infect them within a fraction of time. The entire communication architecture can be collapsed due to this worm propagation and even these worms can broadcast false messages in the Network to create accidents or to divert the nodes in such a way it will lead to collision. All the nodes should not be vulnerable to prevent itself from worm infection. This paper provides the worm propagation model for web vehicular ad Hoc Network. Further it provides detection measures of worm to enhance the security concern of web vehicular ad Hoc Network.
