Reliable Broadcast Scheme for IEEE 802.15.5 Low-Rate WPAN Mesh Networks

Na, Woongsoo; Lee, Gunwoo; Bae, Hyungchul; Yu, Jungsuk; Cho, Sungrae

doi:10.1587/transcom.e95.b.2700

Cited by 4 publications

(5 citation statements)

References 7 publications

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“…A compression scheme to reduce the overhead of IEEE 802.15.5 headers was proposed in [7]. The link-layer reliable broadcast protocol referred to as timer-based reliable broadcast (TRB) was presented in [8]. An effective and rapid address assignment algorithm for LR-WPAN mesh networks was presented in [9], which compresses the address assignment frame and changes the condition of address allocation in order to reduce control overhead and speed address assigning.…”

Section: Related Workmentioning

confidence: 99%

A Novel Mesh Routing Using the Nodes with Identical Tree Level

Yuan

Zhu

2014

International Journal of Distributed Sensor Networks

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Contemporary wireless sensor network (WSN) adopts IEEE 802.15.4 in its MAC and PHY layers. The mesh routing introduced in IEEE 802.15.5 standard, referred to as the basic mesh routing below, improves reliability and robustness of routing in WSNs since there are multiple routes from a node to the sink. In this paper, the mesh routing with identical level (MRIL) is proposed, which constructs the mesh using the tree generated per IEEE 802.15.5 standard, the two-hop neighbors of the nodes, and the nodes in the same level chains with each consisting of the nodes having identical tree level. The MRIL outperforms the basic mesh routing in terms of energy consumption, the average number of hops traversed per packet, the sizes of memory used to keep neighbor lists and connectivity matrices at nodes, and the number of packet transmissions in exchanging link state information.

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Section: Related Workmentioning

confidence: 99%

A Novel Mesh Routing Using the Nodes with Identical Tree Level

Yuan

Zhu

2014

International Journal of Distributed Sensor Networks

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“…Based on the result of error detection/correction (see line 5 in Algorithm 2), the receiver uses a NAK/ACK timer and sends the feedback frame to transmitter. When a node receives rebroadcast data (see line 10 in Algorithm 2), the receiver (1) F D ← the received broadcast data (2) loop (3) if Broadcast data has been received then (4) if (F D == broadcast data) then (5) if (F D == erroneous data) then (6) Set the NAK timer in the range [0, D]; International Journal of Distributed Sensor Networks node cancels its timer (either NAK or ACK). This can reduce unnecessary feedback to the transmitter.…”

Section: Receivermentioning

confidence: 99%

“…15 Task Group 5 has recently released the IEEE 802.15.5 standard [4]. This standard provides an architectural framework enabling wireless personal area network (WPAN) devices to promote interoperable and stable wireless mesh topologies [5].…”

Section: Introductionmentioning

confidence: 99%

Energy-Efficient Reliable Broadcast Protocol for WSNs Based on IEEE 802.15.5

Lee

Cho

2014

International Journal of Distributed Sensor Networks

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We propose two link-layer reliable broadcast protocols for wireless sensor networks based on IEEE 802.15.5. We compare them in terms of energy consumption. By including both positive and negative acknowledgement, our second proposed scheme can effectively reduce the number of unnecessary error control messages and, thereby, significantly reducing the unnecessary power consumption relative to the first scheme. Also, we provide an analytical framework for the evaluation of different reliable broadcast techniques. Simulation results show that Scheme 2 achieves energy savings of up to about 85% compared to Scheme 1.

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“…According to our taxonomy [1], the existing reliable multicast schemes can be classified into ACK, NAK, or both. In the ACK-based scheme [2, 3], a source node should receive ACKs from all receivers to guarantee full reliability.…”

Section: Introductionmentioning

confidence: 99%

“…By the above taxonomy approach, the proposed scheme is classified as ACK-based scheme because it provides full reliability. However, in densely deployed sensor networks, the ACK-based scheme will cause ACK implosion problem as mentioned earlier [1]. To compensate for this disadvantage, we develop a customized ACK (called pre-ACK) and implement an additional procedure.…”

Section: Introductionmentioning

confidence: 99%

Reliable Multicasting Service for Densely Deployed Military Sensor Networks

Dao

Cho

2015

International Journal of Distributed Sensor Networks

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Wireless sensor networks (WSNs) have drawn attention for military applications where a large number of lightweight sensor nodes can detect enemies and intruders in the battlefield and alert a command post (CP) to our forces. In particular, in the military sensor networks, QoS (quality-of-service) is one of the most important requirements to support their mission-critical applications. However, achieving reliable data transmission is not an easy task because sensor nodes are densely deployed and wireless channel is unpredictable due to high mobility. Also, in the multihop deployed sensor networks, redundant data forwarding occurs frequently and it causes interference among the nodes. In this paper, we propose an efficient reliable multicast scheme using pre-ACK frames to provide fully reliable multicasting and decrease unnecessary data forwarding in the military sensor networks. When a receiver node overhears a multicast frame, the pre-ACK is used to announce its reception of the multicast frame to neighboring nodes which then do not need to duplicate the same multicast frame to it. The performance evaluation shows that the proposed scheme provides full reliability (100%) and outperforms the existing schemes in terms of aggregate throughput (612%) and energy consumption (514%) when the number of nodes is 512 with full buffer.

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Reliable Broadcast Scheme for IEEE 802.15.5 Low-Rate WPAN Mesh Networks

Cited by 4 publications

References 7 publications

A Novel Mesh Routing Using the Nodes with Identical Tree Level

A Novel Mesh Routing Using the Nodes with Identical Tree Level

Energy-Efficient Reliable Broadcast Protocol for WSNs Based on IEEE 802.15.5

Reliable Multicasting Service for Densely Deployed Military Sensor Networks

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