The Experts below are selected from a list of 9714 Experts worldwide ranked by ideXlab platform
Xuemin Shen - One of the best experts on this subject based on the ideXlab platform.
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GLOBECOM - VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
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VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
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SPRING: A Social-based Privacy-preserving Packet Forwarding Protocol for Vehicular Delay Tolerant Networks
2010 Proceedings IEEE INFOCOM, 2010Co-Authors: Rongxing Lu, Xuemin ShenAbstract:In this paper, we propose a social-based privacy- preserving Packet Forwarding protocol, called SPRING, for vehicular delay tolerant networks (DTNs). With SPRING, Roadside Units (RSUs) deployed along the roadside can assist in Packet Forwarding to achieve highly reliable transmissions. In specific, we first heuristically define how to evaluate each traffic intersection's social degree in a vehicular DTN. Based on the social degree information, we then strategically place RSUs at some high-social intersections. As a result, these RSUs can provide tremendous assistance in temporarily storing Packets and helping Packet Forwarding to achieve high delivery ratio. Performance evaluations via extensive simulations demonstrate the SPRING's efficiency. In addition, detailed security analyses show that the proposed SPRING can achieve conditional privacy preservation and resist most attacks existing in vehicular DTNs.
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INFOCOM - SPRING: A Social-based Privacy-preserving Packet Forwarding Protocol for Vehicular Delay Tolerant Networks
2010 Proceedings IEEE INFOCOM, 2010Co-Authors: Rongxing Lu, Xuemin ShenAbstract:In this paper, we propose a social-based privacy- preserving Packet Forwarding protocol, called SPRING, for vehicular delay tolerant networks (DTNs). With SPRING, Roadside Units (RSUs) deployed along the roadside can assist in Packet Forwarding to achieve highly reliable transmissions. In specific, we first heuristically define how to evaluate each traffic intersection's social degree in a vehicular DTN. Based on the social degree information, we then strategically place RSUs at some high-social intersections. As a result, these RSUs can provide tremendous assistance in temporarily storing Packets and helping Packet Forwarding to achieve high delivery ratio. Performance evaluations via extensive simulations demonstrate the SPRING's efficiency. In addition, detailed security analyses show that the proposed SPRING can achieve conditional privacy preservation and resist most attacks existing in vehicular DTNs.
Rongxing Lu - One of the best experts on this subject based on the ideXlab platform.
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GLOBECOM - VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
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VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
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SPRING: A Social-based Privacy-preserving Packet Forwarding Protocol for Vehicular Delay Tolerant Networks
2010 Proceedings IEEE INFOCOM, 2010Co-Authors: Rongxing Lu, Xuemin ShenAbstract:In this paper, we propose a social-based privacy- preserving Packet Forwarding protocol, called SPRING, for vehicular delay tolerant networks (DTNs). With SPRING, Roadside Units (RSUs) deployed along the roadside can assist in Packet Forwarding to achieve highly reliable transmissions. In specific, we first heuristically define how to evaluate each traffic intersection's social degree in a vehicular DTN. Based on the social degree information, we then strategically place RSUs at some high-social intersections. As a result, these RSUs can provide tremendous assistance in temporarily storing Packets and helping Packet Forwarding to achieve high delivery ratio. Performance evaluations via extensive simulations demonstrate the SPRING's efficiency. In addition, detailed security analyses show that the proposed SPRING can achieve conditional privacy preservation and resist most attacks existing in vehicular DTNs.
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INFOCOM - SPRING: A Social-based Privacy-preserving Packet Forwarding Protocol for Vehicular Delay Tolerant Networks
2010 Proceedings IEEE INFOCOM, 2010Co-Authors: Rongxing Lu, Xuemin ShenAbstract:In this paper, we propose a social-based privacy- preserving Packet Forwarding protocol, called SPRING, for vehicular delay tolerant networks (DTNs). With SPRING, Roadside Units (RSUs) deployed along the roadside can assist in Packet Forwarding to achieve highly reliable transmissions. In specific, we first heuristically define how to evaluate each traffic intersection's social degree in a vehicular DTN. Based on the social degree information, we then strategically place RSUs at some high-social intersections. As a result, these RSUs can provide tremendous assistance in temporarily storing Packets and helping Packet Forwarding to achieve high delivery ratio. Performance evaluations via extensive simulations demonstrate the SPRING's efficiency. In addition, detailed security analyses show that the proposed SPRING can achieve conditional privacy preservation and resist most attacks existing in vehicular DTNs.
Hai Zhao - One of the best experts on this subject based on the ideXlab platform.
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GLOBECOM - VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
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VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
Kuan Zhang - One of the best experts on this subject based on the ideXlab platform.
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GLOBECOM - VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
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VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
Xiaohui Liang - One of the best experts on this subject based on the ideXlab platform.
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GLOBECOM - VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
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VSLP: Voronoi-socialspot-aided Packet Forwarding protocol with receiver Location Privacy in MSNs
2012 IEEE Global Communications Conference (GLOBECOM), 2012Co-Authors: Kuan Zhang, Xiaohui Liang, Rongxing Lu, Xuemin Shen, Hai ZhaoAbstract:With the pervasive use of smart phones in the daily life, location privacy has become one of cruxes for the success of mobile social networks (MSNs). In this paper, we propose a Voronoi-social-spot-aided Location Privacy-preserving (VSLP) Packet Forwarding protocol to improve the Packet Forwarding efficiency and at the same time protect receiver's location privacy. In VSLP, we first identify the social spot locations according to the user mobility information, and then build a Voronoi diagram based on the defined social spots. On the edge of Delaunay triangulation over the Voronoi diagram, we deploy multiple storage devices to help receivers to temporarily store the Packets. With the security analysis, we show that the location privacy can be achieved. Using extensive simulations, we show that VSLP can enhance the Packet Forwarding efficiency with improved Packet delivery ratio and reduced average Packet delay.
