The Experts below are selected from a list of 58998 Experts worldwide ranked by ideXlab platform
Chunming Qiao - One of the best experts on this subject based on the ideXlab platform.
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Novel Branching-Router-Based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2013Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:To cope with challenging problems faced by traditional multicast routing protocols, many branching-router (BR)-based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called multicast controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router-based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
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Novel Branching-Router based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2012Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:In order to cope with challenging problems faced by traditional multicast routing protocols, many Branching-Router (BR) based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called Multicast Controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
Zhiwei Yan - One of the best experts on this subject based on the ideXlab platform.
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Novel Branching-Router-Based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2013Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:To cope with challenging problems faced by traditional multicast routing protocols, many branching-router (BR)-based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called multicast controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router-based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
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Novel Branching-Router based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2012Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:In order to cope with challenging problems faced by traditional multicast routing protocols, many Branching-Router (BR) based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called Multicast Controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
Robert Habib - One of the best experts on this subject based on the ideXlab platform.
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Is the plot concept an obstacle in agricultural sciences? A review focussing on fruit production
Agriculture Ecosystems & Environment, 2010Co-Authors: Thomas Nesme, Françoise Lescourret, Stéphane Bellon, Robert HabibAbstract:Innovative cropping systems leading to high quality production and limiting chemical input are required to meet agriculture challenges. However designing cropping systems with reference to the cultivated plot constitutes an obstacle to innovation. We illustrate this viewpoint using fruit tree cropping systems as a case study. The following points will be developed: (1) plot definition depends on the point of view adopted; (2) product quality requires whole field consideration implying multi-level modelling of crop production; (3) farmers often break down or group together plots when managing crops; (4) pest species dynamics involve landscape patterns. In conclusion, the plot may be considered as a multilevel Management Entity, embedded in a more general context. This stresses the need for infra- and supra-plot studies. (Résumé d'auteur
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Is the plot concept an obstacle in agricultural sciences? A review focussing on fruit production
Agriculture Ecosystems & Environment, 2010Co-Authors: Thomas Nesme, Françoise Lescourret, Stéphane Bellon, Robert HabibAbstract:Innovative cropping systems leading to high quality production and limiting chemical input are required to meet agriculture challenges. However designing cropping systems with reference to the cultivated plot constitutes an obstacle to innovation. We illustrate this viewpoint using fruit tree cropping systems as a case study. The following points will be developed: (1) plot definition depends on the point of view adopted; (2) product quality requires whole field consideration implying multi-level modelling of crop production; (3) farmers often break down or group together plots when managing crops; (4) pest species dynamics involve landscape patterns. In conclusion, the plot may be considered as a multilevel Management Entity, embedded in a more general context. This stresses the need for infra- and supra-plot studies.
Sean Shen - One of the best experts on this subject based on the ideXlab platform.
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Novel Branching-Router-Based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2013Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:To cope with challenging problems faced by traditional multicast routing protocols, many branching-router (BR)-based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called multicast controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router-based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
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Novel Branching-Router based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2012Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:In order to cope with challenging problems faced by traditional multicast routing protocols, many Branching-Router (BR) based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called Multicast Controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
Jong Hyouk Lee - One of the best experts on this subject based on the ideXlab platform.
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Novel Branching-Router-Based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2013Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:To cope with challenging problems faced by traditional multicast routing protocols, many branching-router (BR)-based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called multicast controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router-based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
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Novel Branching-Router based Multicast Routing Protocol with Mobility Support
IEEE Transactions on Parallel and Distributed Systems, 2012Co-Authors: Zhiwei Yan, Jong Hyouk Lee, Sean Shen, Chunming QiaoAbstract:In order to cope with challenging problems faced by traditional multicast routing protocols, many Branching-Router (BR) based multicast routing schemes with desirable features have been proposed. However, the current BR-based methods still lack efficient multicast Management and suffer from a long join latency, leading to a disappointing mobility performance. In this paper, we propose a novel BR-based multicast architecture with a corresponding multicast routing protocol supporting multicast receiver mobility. In the proposed multicast architecture, a new Management Entity called Multicast Controller (MC) is used to handle most of the multicast Management-related tasks, while other routers in the network construct a multicast tree according to the proposed Branching-Router based Multicast routing protocol with Mobility support (BRMM). Besides, the fast handover of multicast service can be supported by BRMM through the pre-establishment of temporary multicast paths. Through extensive simulation and analysis, we show that BRMM outperforms existing protocols and has many other attractive features.
