Multi-level cross-layer protocol for end-to-end delay provisioning in wireless multimedia sensor networks
Rapid developments in information and communication technology in recent years have posed a significant challenge in wireless multimedia sensor networks (WMSNs). End-to-end delay and reliability are the critical issues in multimedia applications of sensor networks. In this paper we provide a new cro...
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| Veröffentlicht in: | Frontiers of information technology & electronic engineering 2019-09, Vol.20 (9), p.1266-1276 |
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| creator | Hadadian Nejad Yousefi, Hossein Seifi Kavian, Yousef Mahmoudi, Alimorad |
| description | Rapid developments in information and communication technology in recent years have posed a significant challenge in wireless multimedia sensor networks (WMSNs). End-to-end delay and reliability are the critical issues in multimedia applications of sensor networks. In this paper we provide a new cross-layer approach for provisioning the end-to-end delay of the network at a desirable level of the packet delivery ratio (PDR), used here as a measure of network reliability. In the proposed multi-level cross-layer (MLCL) protocol, the number of hops away from the sink is used to set a level for each node. A packet is routed through the path with the minimum hop count to the sink using this level setting. The proposed protocol uses cross-layer properties between the network and medium access control (MAC) layers to estimate the minimum delay, with which a node can deliver a packet to the sink. When a node wants to send a packet, the MLCL protocol compares this minimum delay with the time to live (TTL) of a packet. If the TTL of the packet is higher than the minimum delay, the node sends the packet through the path with the minimum delay; otherwise, the node drops the packet as the node cannot deliver it to the sink within the TTL duration. This packet dropping improves network performance because the node can send a useful packet instead of an unusable packet. The results show a superior performance in terms of end-to-end delay and reliability for the proposed protocol compared to state-of-the-art protocols. |
| doi_str_mv | 10.1631/FITEE.1700855 |
| format | Article |
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End-to-end delay and reliability are the critical issues in multimedia applications of sensor networks. In this paper we provide a new cross-layer approach for provisioning the end-to-end delay of the network at a desirable level of the packet delivery ratio (PDR), used here as a measure of network reliability. In the proposed multi-level cross-layer (MLCL) protocol, the number of hops away from the sink is used to set a level for each node. A packet is routed through the path with the minimum hop count to the sink using this level setting. The proposed protocol uses cross-layer properties between the network and medium access control (MAC) layers to estimate the minimum delay, with which a node can deliver a packet to the sink. When a node wants to send a packet, the MLCL protocol compares this minimum delay with the time to live (TTL) of a packet. If the TTL of the packet is higher than the minimum delay, the node sends the packet through the path with the minimum delay; otherwise, the node drops the packet as the node cannot deliver it to the sink within the TTL duration. This packet dropping improves network performance because the node can send a useful packet instead of an unusable packet. The results show a superior performance in terms of end-to-end delay and reliability for the proposed protocol compared to state-of-the-art protocols.</description><identifier>ISSN: 2095-9184</identifier><identifier>EISSN: 2095-9230</identifier><identifier>DOI: 10.1631/FITEE.1700855</identifier><language>eng</language><publisher>Hangzhou: Zhejiang University Press</publisher><subject>Access control ; Communications Engineering ; Computer Hardware ; Computer Science ; Computer Systems Organization and Communication Networks ; Delay ; Electrical Engineering ; Electronics and Microelectronics ; Instrumentation ; Multimedia ; Network reliability ; Networks ; Nodes ; Protocol ; Provisioning ; Sensors ; Wireless sensor networks</subject><ispartof>Frontiers of information technology & electronic engineering, 2019-09, Vol.20 (9), p.1266-1276</ispartof><rights>Zhejiang University and Springer-Verlag GmbH Germany, part of Springer Nature 2019</rights><rights>Zhejiang University and Springer-Verlag GmbH Germany, part of Springer Nature 2019.</rights><rights>Copyright © Wanfang Data Co. 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End-to-end delay and reliability are the critical issues in multimedia applications of sensor networks. In this paper we provide a new cross-layer approach for provisioning the end-to-end delay of the network at a desirable level of the packet delivery ratio (PDR), used here as a measure of network reliability. In the proposed multi-level cross-layer (MLCL) protocol, the number of hops away from the sink is used to set a level for each node. A packet is routed through the path with the minimum hop count to the sink using this level setting. The proposed protocol uses cross-layer properties between the network and medium access control (MAC) layers to estimate the minimum delay, with which a node can deliver a packet to the sink. When a node wants to send a packet, the MLCL protocol compares this minimum delay with the time to live (TTL) of a packet. If the TTL of the packet is higher than the minimum delay, the node sends the packet through the path with the minimum delay; otherwise, the node drops the packet as the node cannot deliver it to the sink within the TTL duration. This packet dropping improves network performance because the node can send a useful packet instead of an unusable packet. 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| subjects | Access control Communications Engineering Computer Hardware Computer Science Computer Systems Organization and Communication Networks Delay Electrical Engineering Electronics and Microelectronics Instrumentation Multimedia Network reliability Networks Nodes Protocol Provisioning Sensors Wireless sensor networks |
| title | Multi-level cross-layer protocol for end-to-end delay provisioning in wireless multimedia sensor networks |
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