Description: 能量感知、地理位置路由和拓扑控制来改进无线传感器网络的生存时间-Energy-aware, the geographical routing and topology control wireless sensor networks to improve the survival time Platform: |
Size: 307200 |
Author:cc |
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Description: 能量感知、地理位置路由和拓扑控制来改进无线传感器网络的生存时间-Energy-aware, the geographical routing and topology control wireless sensor networks to improve the survival time Platform: |
Size: 3068928 |
Author:cc |
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Description: Abstract ─ Mobile Ad Hoc Network (MANET) routing is
challenged by power and bandwidth constraints as well as
frequent topology changes to which it must adapt to and
converge quickly. Energy efficient routing protocols play an
important role in MANET. This paper presents an innova-
tive energy aware routing protocol for wireless ad hoc net-
work called Energy Efficient Ad hoc On Demand Multipath
Distance Vector (E2
AOMDV) routing protocol. Ad hoc On
Demand Multipath Distance Vector (AOMDV) routing pro-
tocol presents the advantage of achieving faster and efficient
recovery from node failures. We propose the inclusion of
Energy Aware (EA) selection mechanism and the maximal
nodal surplus energy estimation in the AOMDV routing
protocol to improve its energy performance in mobile ad
hoc networks. The ‘readiness’ concept of EA Selection me-
chanism prolongs the network lifetime and the maximal -Abstract ─ Mobile Ad Hoc Network (MANET) routing is
challenged by power and bandwidth constraints as well as
frequent topology changes to which it must adapt to and
converge quickly. Energy efficient routing protocols play an
important role in MANET. This paper presents an innova-
tive energy aware routing protocol for wireless ad hoc net-
work called Energy Efficient Ad hoc On Demand Multipath
Distance Vector (E2
AOMDV) routing protocol. Ad hoc On
Demand Multipath Distance Vector (AOMDV) routing pro-
tocol presents the advantage of achieving faster and efficient
recovery from node failures. We propose the inclusion of
Energy Aware (EA) selection mechanism and the maximal
nodal surplus energy estimation in the AOMDV routing
protocol to improve its energy performance in mobile ad
hoc networks. The ‘readiness’ concept of EA Selection me-
chanism prolongs the network lifetime and the maximal Platform: |
Size: 292864 |
Author:payal |
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Description: Sensor networks are emerging as a new tool for
habitat monitoring in nature preserves, monitoring and gathering events in hazardous environments, surveillance of buildings, and
surveillance of enemy activities in a battlefield environment. Nodes in a sensor network are severely constrained by energy, storage capacity and computing power. To prolong the lifetime of the sensor nodes, designing efficient routing protocols is critical. Platform: |
Size: 529408 |
Author:Loan |
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Description: orpb是无线传感器网络中一种能量感知的实时交付QoS路由算法,结合了多种路由算法思想,注重于能量效用以及QOS机制-orpb wireless sensor networks, real-time delivery of energy-aware QoS routing algorithm that combines a variety of routing algorithm, focusing on energy utility and QOS mechanisms Platform: |
Size: 113664 |
Author:曹一明 |
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Description: the network lifetime based on a new Energy-Aware Objective Function used to design a Routing Protocol for Low-Power and Lossy Networks. The proposed Objective Function uses the Expected Transmission Count Metric and the Remaining Energy on each sensor node to compute the best paths to route data packets across the network.So EAOF prolongs the network lifetime and reduces the need for human intervention on battery changing, thereby enhancing the system wearability and reducing operational costs. Platform: |
Size: 2048 |
Author:Kayal |
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Description: Abstract—We propose two novel energy-aware routing algorithms for wireless ad hoc networks, called reliable minimum energy cost
routing (RMECR) and reliable minimum energy routing (RMER). RMECR addresses three important requirements of ad hoc networks:
energy-efficiency, reliability, and prolonging network lifetime. It considers the energy consumption and the remaining battery energy of
nodes as well as quality of links to find energy-efficient and reliable routes that increase the operational lifetime of the network. RMER,
on the other hand, is Platform: |
Size: 4096 |
Author:ramakant |
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Description: Abstract—We propose two novel energy-aware routing algorithms for wireless ad hoc networks, called reliable minimum energy cost
routing (RMECR) and reliable minimum energy routing (RMER). RMECR addresses three important requirements of ad hoc networks:
energy-efficiency, reliability, and prolonging network lifetime. It considers the energy consumption and the remaining battery energy of
nodes as well as quality of links to find energy-efficient and reliable routes that increase the operational lifetime of the network. RMER,
on the other hand, is Platform: |
Size: 1024 |
Author:ramakant |
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Description: The reliable data delivery is a challenging task in Wireless Sensor Networks (WSNs) due to dynamic and unpredictable changing behaviors of nodes. The traditional cryptographic and authentication based schemes can’t be adopted due to their associated cost and incapability to counter nodes misbehavior attacks. Recently, trust based solutions have proved to be more effective to address nodes’ misbehavior attacks. Apart isolating misbehaving nodes, the existing trust based schemes lacks the capability to minimize link failure notifications due to transient transmission disruption which consequently give rise to frequent route breakages thereby undermining throughput and route stability. Moreover, the existing solutions give rise to high energy consumption and control overhead in pursuit of trust estimation and network-wide dissemination which not only adds to network congestion but also undermines network lifetime. In this paper, we present a Trust and Energy aware Routing Protocol (TERP) that -The reliable data delivery is a challenging task in Wireless Sensor Networks (WSNs) due to dynamic and unpredictable changing behaviors of nodes. The traditional cryptographic and authentication based schemes can’t be adopted due to their associated cost and incapability to counter nodes misbehavior attacks. Recently, trust based solutions have proved to be more effective to address nodes’ misbehavior attacks. Apart isolating misbehaving nodes, the existing trust based schemes lacks the capability to minimize link failure notifications due to transient transmission disruption which consequently give rise to frequent route breakages thereby undermining throughput and route stability. Moreover, the existing solutions give rise to high energy consumption and control overhead in pursuit of trust estimation and network-wide dissemination which not only adds to network congestion but also undermines network lifetime. In this paper, we present a Trust and Energy aware Routing Protocol (TERP) that Platform: |
Size: 1024 |
Author:Dharmesh |
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Search - energy aware routing