A Hierarchical Geographical Routing with Alternative Paths Using Autonomous Clustering for Mobile Ad Hoc Networks
スポンサーリンク
概要
- 論文の詳細を見る
Recently in ad hoc networks, routing schemes using location information which is provided by GPS (Global Position System) have been proposed. However, many routing schemes using location information assume that a source node has already known the location information of the destination node and they do not adapt to large ad hoc networks. On another front, the autonomous clustering scheme has been proposed to construct the hierarchical structure in ad hoc networks and adapt to large ad hoc networks. However, even when the hierarchical structure is introduced, there is some problem. The data delivery ratio becomes lower as the node speed becomes higher, and clusterheads have much overhead in the hierarchical routing scheme based on the autonomous clustering scheme. In order to cope with these problems, this paper proposes a new Hierarchical Geographical Routing with Alternative Paths (Hi-GRAP) using the autonomous clustering scheme and shows the effectiveness of the proposed hierarchical geographical routing in comparison with GPSR, Hi-AODV and AODV through simulation experiments with respect to the amount of control packets and the data delivery ratio.
著者
-
Ohta Tomoyuki
Graduate School Of Information Sciences Hiroshima City University
-
NAKAGAWA Hiroshi
Graduate School of Information Sciences, Hiroshima City University
-
TESHIMA Satoshi
Graduate School of Information Sciences, Hiroshima City University
-
KAKUDA Yoshiaki
Graduate School of Information Sciences, Hiroshima City University
関連論文
- A Dynamic Index Allocation Scheme for Data Retrieval and Provision in Peer-to-Peer Networks
- A Hierarchical Geographical Routing with Alternative Paths Using Autonomous Clustering for Mobile Ad Hoc Networks
- New Safety Support System for Children on School Routes Using Mobile Ad Hoc Networks
- Service Discovery Using Self-Regulating Agents in Ad Hoc Networks
- Service Discovery Using Self-Regulating Agents in Ad Hoc Networks
- Service Discovery Using Self-Regulating Agents in Ad Hoc Networks
- Development of a Topology Controllable Testing Environment for Mobile Ad Hoc Network Software
- An Adaptive Multihop Clustering Scheme for Ad Hoc Networks with High Mobility
- An Equivalent Division Method for Reducing Test Cases in State Transition Testing of MANET Protocols
- Evaluation of Electronic Defect States at Poly-Si/HfO_2 interface by Photoelectron Yield Spectroscopy
- Selective Deoxygenation of Heteroaromatic N-Oxides with Olefins Catalyzed by Ruthenium Porphyrin
- Protein Dynamical Heterogeneity Derived from Neutron Incoherent Elastic Scattering (Cross-Disciplinary Physics and Related Areas of Science and Technology)
- A New Verification Method Using Virtual System States for Responsive Communication Protocols and Its Application to a Broadcasting Protocol(Special Section on Concurrent Systems Technology)
- Timed Reachability Analysis Method for Communication Protocols Modeled by Extended Finite State Machines (Special Issue on Multimedia Communication and Distributed Processing)
- A Hierarchical Routing Protocol Based on Autonomous Clustering in Ad Hoc Networks
- Synthesis of Iron Carbide from Hematite Pellets with H2-CH4 Gas Mixture
- A Class of Hierarchical Routing Protocols Based on Autonomous Clustering for Large Mobile Ad Hoc Networks
- New Safety Support System for Children on School Routes Using Mobile Ad Hoc Networks
- A Hierarchical Geographical Routing with Alternative Paths Using Autonomous Clustering for Mobile Ad Hoc Networks
- A Hybrid Greedy Routing with Location Information for Mobile Ad Hoc Networks
- An Autonomous Clustering-Based Hierarchical Multicast Routing for Mobile Ad Hoc Networks
- Route-Split Routing Resilient to Simultaneous Failure for Mobile Ad Hoc Networks
- A Hierarchical Multicast Routing Using Inter-Cluster Group Mesh Structure for Mobile Ad Hoc Networks
- P31 Doubled CO_2 Concentration Effect on Growth and Yield of Two-Rowed Barley in Relation to Temperature and Nitrogen Conditions
- A Self-Organized Routing ID Group-Based Multipath Routing for Ad Hoc Networks
- BS-7-11 How to Visualize Mobile Ad hoc NETworks - Experiment in Hiroshima Confectionery Exhibition