Robust and Real Time Data Delivery in Wireless Sensor Networks

Virmani, Deepali; Jain, Satbir

doi:10.1007/978-3-642-15766-0_19

Cited by 6 publications

(11 citation statements)

References 18 publications

(25 reference statements)

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“…In event-to-action delay bound it is based on assumptions such as Observed delay-constrained event reliability (DR o ): It is the number of packets received at the sink within a certain delay bound in a decision interval, Desired delay-constrained event reliability (DR d ): It is the minimum number of packets required for reliable event detection within a certain delay bound and Delay-constrained reliability indicator ( ): i.e., = DR o / DR d. If the observed delay constrained event reliability is higher than the reliability bound i.e., DR o >DR d then the event is reliably detected within a specific delay bound [7]. The drawback with RRRT is congestion detection and control mechanisms lead to extra overhead.…”

Section: Rrrt (Reliable Robust and Real-time) Protocolmentioning

confidence: 99%

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RETP: Reliable Event Transmission Protocol in a wireless sensor network

Priya

Terence

2013

2013 IEEE International Conference ON Emerging Trends in Computing, Communication and Nanotechnology (ICECCN)

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One of the main objective of wireless sensor network is to forward the events to the destination in a fast and reliable manner. There are several methods are existing for packet forwarding. Some researchers use single node to forward event packet and some researchers use all nodes (nodes in event region) to forward event packet. In this paper we proposing a technique named as Reliable Event Transmission Protocol (RETP) in a wireless sensor network for real time event detection and reliable packet forwarding in wireless sensor networks. In RETP, we introduce the concept cluster heads to forward the event when event occurred. Here number for event forwarding nodes is restricted by n/2(for even number of nodes) or n-1/2(for odd number of nodes). So it helps to energy conversion, computation cost in the network as well as it ensures the reliability in event forwarding. The literature survey has been done on various techniques in event detection.

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Section: Rrrt (Reliable Robust and Real-time) Protocolmentioning

confidence: 99%

“…In RRRT protocol [7], author proposes two concepts such as event-toaction delay bound to meet the application specific deadlines and a combined congestion control mechanism which provide the dual purpose of achieving reliability and conserving energy.…”

Section: Rrrt (Reliable Robust and Real-time) Protocolmentioning

confidence: 99%

RETP: Reliable Event Transmission Protocol in a wireless sensor network

Priya

Terence

2013

2013 IEEE International Conference ON Emerging Trends in Computing, Communication and Nanotechnology (ICECCN)

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“…Another transport layer protocol named as DREET [6], a data-reliable energy-efficient transport protocol aims at providing less data retransmission and energy consumption although it fails at providing a proper congestion-free path to transmit the event information to the sink.In [5], a Reliable Robust and Real time communication(RRRT) protocolwas proposed in whichmechanisms for controlling the congestion in the network and for reducing the event-to-action delay bounds are used. Advantage is that the schemes employed for reducing event-to-action delay bounds and to adjust the operational frequency will provide a reliable and energy conserved event-information but high overhead occurs in turn in the network.…”

Section: Literature Workmentioning

confidence: 99%

Reliable and energy-efficient data transmission in EWSN

Sangeetha

2013

2013 International Conference on Recent Trends in Information Technology (ICRTIT)

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Wireless Sensor Network (WSN) plays a prominent role in the progress of wireless communication applications. The main challenging issues in WSN includes prolonging the network lifetime, reducing the energy consumption of sensor nodes, avoidance of congestion between the data-flows, providing scalability and reliable event information with high system throughput and etc.Event-Driven Wireless Sensor Networks (EWSNs) are special types of WSN in which provisioning of accurate information about the emergency condition is more important. Since the main aim of the paper is to find out a protocol for reliable and energy efficient data communication in a EWSN, the protocol proposed is named as Reliable and Energy Efficient Data Transmitting (REEDT) protocol. When an emergency incident/ event (like fire/smoke accident) happens, how it is been conveyed quickly to the destination with high reliability and energy efficiency is dealt in this paper. Less congestion, less network load and fewer retransmissions gives higher reliability to the network.Since not all the nodes are used for final-decision making, collision rate will be less and energy efficiency of all the nodes in the network will also be enhanced. To analyze the performance of the proposed system, Network simulator(Ns-2) is used.

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“…In RRRT protocol [7], author proposes two concepts such as event-to-action delay bound to meet the application specific deadlines and a combined congestion control mechanism which provide the dual purpose of achieving reliability and conserving energy. In event-to-action delay bound it is based on assumptions such as Observed delay-constrained event reliability (DR o ): It is the number of packets received at the sink within a certain delay bound in a decision interval, Desired delay-constrained event reliability (DR d ): It is the minimum number of packets required for reliable event detection within a certain delay bound and Delay-constrained reliability indicator (α): i.e.,α= DR o / DR d. If the observed delay constrained event reliability is higher than the reliability bound i.e., DR o >DR d then the event is reliably detected within a specific delay bound [7]. Advantages of RRRT is 1) Reliable event detection based on event-to-action delay bound and 2) Improved energy conserving based on reporting frequency adjustments.…”

Section: Reliable Robust and Real-time (Rrrt) Protocolmentioning

confidence: 99%

“…In this for any sensor node whose buffer overflows due to excessive incoming packets is said to be congested and it informs the sink congestion condition by a Congestion Notification (CN) bit the event packet header [12], 2) Real-time event transport mechanism: DST performs real-time event detection under event-to-sink delay bound. The main components of event -to-sink delay bound are event transport delay and event processing delay [7,12]. According to DSRT, for reliable and timely event detection the event-to-sink delay bound should be greater than or equal to the sum of both event transport delay and event processing delay.…”

Section: Delay Sensitive Transport (Dst) Protocolmentioning

confidence: 99%

A Survey on Event Detection and Transmission Protocols in an Event Driven Wireless Sensor Network

C¹,

Terence²

2012

IJCA

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The most important goal of Event Driven Wireless Sensor Network (EDWSN) is to detect an event and pass this detected event to the users. Accurate event detection and fast event transmission play vital role in event detection. Many researchers have been proposed various techniques to detect events in an EDWSN. This paper describes a survey on event detection and event transmission protocols in an Event Driven Wireless Sensor Networks. We have classified these protocols into mainly two categories namely Sink Centric Event Detection and Transmission Protocols (SCEDTPs) and Node Centric Event Detection and Transmission Protocols (NCEDTPs). Then, these protocols are further classified into three categories under the constraints reliability, congestion resolution and energy efficiency. The advantages and disadvantages of each protocol also studied and we made the comparison of each protocol with different constraints.

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Robust and Real Time Data Delivery in Wireless Sensor Networks

Cited by 6 publications

References 18 publications

RETP: Reliable Event Transmission Protocol in a wireless sensor network

RETP: Reliable Event Transmission Protocol in a wireless sensor network

Reliable and energy-efficient data transmission in EWSN

A Survey on Event Detection and Transmission Protocols in an Event Driven Wireless Sensor Network

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