A Parallel Transmission Scheme for All-to-All Broadcast in Underwater Sensor Networks
スポンサーリンク
概要
- 論文の詳細を見る
This paper is concerned with the packet transmission scheduling problem for repeating all-to-all broadcasts in Underwater Sensor Networks (USN) in which there are n nodes in a transmission range. All-to-all communication is one of the most dense communication patterns. It is assumed that each node has the same size packet. Unlike the terrestrial scenarios, the propagation time in underwater communications is not negligible. We define all-to-all broadcast as the one where every node transmits packets to all the other nodes in the network except itself. So, there are in total n(n - 1) packets to be transmitted for an all-to-all broadcast. The optimal transmission scheduling is to schedule in a way that all packets can be transmitted within the minimum time. In this paper, we propose an efficient packet transmission scheduling algorithm for underwater acoustic communications using the property of long propagation delay.
- (社)電子情報通信学会の論文
- 2010-09-01
著者
-
Park Soonchul
School Of Electrical Engineering And Computer Science Kyungpook National University
-
Lim Jaesung
Graduate School Of Information And Communication Ajou University
-
Lim Jaesung
Graduate School Of Ajou University
関連論文
- Hybrid Cluster Mesh Scheme for Energy Efficient Wireless Sensor Networks
- Interference-Aware Resource Allocation Scheme for Femtocell in OFDMA Systems
- Fast channel estimation in wireless communication using alternating sign sequences and their nonsingular Toeplitz matrices with simple inverses
- A Parallel Transmission Scheme for All-to-All Broadcast in Underwater Sensor Networks
- GTS Allocation Scheme for Bidirectional Voice Traffic in IEEE 802.15.4 Multihop Networks
- Outband Sensing-Based Dynamic Frequency Selection (DFS) Algorithm without Full DFS Test in IEEE 802.11h Protocol
- Outband Sensing-Based Dynamic Frequency Selection (DFS) Algorithm without Full DFS Test in IEEE 802.11h Protocol