An Approach to Manage Mobility of Sensor Nodes in Sensor-Grid Infrastructure

Bhunia, Suman Sankar; Das, Soumen; Roy, Sarbani; Mukherjee, Nandini

doi:10.1016/j.protcy.2012.10.091

Cited by 6 publications

(5 citation statements)

References 10 publications

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“…This platform also offers support to the IEEE 802.15.4 and 6LoWPAN through the use of TinyOS, BLIP, RPL, and LPL. To capture and analyse traffic, like the Internet Control Message Protocol version 6 (ICMPv6), Wireshark [52,53,56] has been used. The traffic for these tests is ICMPv6 (Internet Control Message Protocol for the Internet Protocol Version 6) packet, which has been generated using the tool PINGv6.…”

Section: Methodsmentioning

confidence: 99%

“…Similarly is defined platform TelosB and framework TinyOS for the use in traffics tests on the proposed scenario. On the other hand, RPL, as a part of 6LoWPAN, is being widely studied [51], not only in the field of Wireless Personal Area Networks (WPANs), but also in the field of Body Area Networks (BANs) [52,53]. Thus, the comparative between RPL and static routing is an important factor for the analysis in the tests.…”

Section: Lowpan and Applicationsmentioning

confidence: 99%

See 1 more Smart Citation

Performance analysis of 6LoWPAN protocol for a flood monitoring system

Piñeres-Espitia

Butt

Francisco

et al. 2022

J Wireless Com Network

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The internet of things is a disruptive technology that has been applied as a solution to problems in many fields of monitoring environmental variables. It is supported by technologies such as wireless sensor networks, which offer many protocols and hardware platforms in the market today. Protocols such as 6LoWPAN are novel, so this work focuses on determining whether its implementation on TelosB mote is feasible; these would be placed on an experimental deployment for a particular scenario of flash floods in a sector known as “La Brigada”, in the city of Barranquilla. This proposal has not been evaluated in Colombia for this type of application, and no similar work has been done for this type of scenario. For the evaluation of 6LoWPAN, a deployment with two end nodes and a sink node has been designed, due to the monitoring section under study; 5-min tests are proposed where through round trip time traffic PINGv6 packets are generated back and forth (Echo) between a sink node and two end nodes. The results are based on the evaluation of metrics such as delay and ping packet request/response rate. The performance of these metrics is subject to test scenarios that vary according to distance, packet size, and channel scan time. Two routing options, static or dynamic, are also proposed for this application case. The tests performed yielded results in terms of better performance in the test scenarios for packets with an average size of 120 B and channel monitoring times of 1024 ms. Likewise, the use of the TelosB platform was validated as a viable and innovative option for a monitoring scenario to flash floods in short stretches of the city of Barranquilla—Colombia. This study is important because it can provide information on the use of the TelosB platform as a valid solution for similar application scenarios; furthermore, the tests performed can be replicated in similar studies to evaluate congestion, power consumption, routing, topologies, and other metrics. This study is providing a road map for the research community to follow the simulation scenario to apply the test to their own studies. This work also provides the guidelines for similar researchers to monitor the flood in their own regions and then compare their results with this study.

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Section: Methodsmentioning

confidence: 99%

Section: Lowpan and Applicationsmentioning

confidence: 99%

Performance analysis of 6LoWPAN protocol for a flood monitoring system

Piñeres-Espitia

Butt

Francisco

et al. 2022

J Wireless Com Network

View full text Add to dashboard Cite

show abstract

“…This platform also offers support to the IEEE 802.15.4 and 6LoWPAN through the use of TinyOS, BLIP, RPL and LPL. In order to capture and analyse tra c, like the Internet Control Message Protocol version 6 (ICMPv6), Wireshark [54,56] has been used. The tra c for these tests is ICMPv6 (Internet Control Message Protocol for the Internet Protocol Version 6) packet, which has been generated using the tool PINGv6.…”

Section: Methodsmentioning

confidence: 99%

“…Similarly this analysis allows de ne the platform TelosB y the framework TinyOS for the use in the tra cs tests for the proposed scenario. On the other hand, RPL, as a part of 6LoWPAN, is being widely studied [53], not only in the eld of Wireless Personal Area Networks (WPANs), but also in the eld of Body Area Networks (BANs) [54,55]. Thus the comparative between RPL and static routing is an important factor for the analysis in the tests.…”

Section: Lowpan and Applicationsmentioning

confidence: 99%

Performance assessment of static and dynamic routings using 6LoWPAN on small scenarios applied to monitoring of Barranquilla flash flood

Gabriel¹,

sa²,

Francisco³

et al. 2021

Preprint

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The Internet of Things (IoT) is growing rapidly due to the wireless network that provides connectivity to devices at anytime and anywhere. Currently, the wireless sensor network is involved in many research fields like smart health monitoring, smart cities, and smart industries. From all of these, flood monitoring is the most important field in the IoT wireless network to alert about the occurrence of any abnormalities. To monitor the environment wireless sensor network needs a decision-making protocol that sense and route the information timely. The present work includes numerous use of Low Power Wireless Personal Area Networks (6LoWPAN) with IPv6 protocol defined by the Internet Engineering Task Force (IETF) due to its different test conditions, analysing static and dynamic routing and its impact on different performance metrics such as latency and packet losses for their application in monitoring system of the flash floods in any region. In this study, we are using IPv6 6LoWPAN to develop a wireless warning system before a flood event in “The Brigade” in Barranquilla city. The basic purpose for making system is to secure the city from costly damage and life loss. Different types of traffic and different 1-/2-hops scenarios have been considered. In order to implement our system, we use the well-known TelosB platform jointly with TinyOS, BLIP 2.0 and LPL. The experiment result shows that time on 512 ms and 1024 ms with a packet of 120 B obtain good performance on the metrics used for the tests.

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“…3. In IPv6 over WSN mode, through tunnel functions in the existing WSN protocol, realized sending and receiving data, met the users requirements of direct access and control internal certain nodes of WSN [5]. In this way, a private communications protocol is still used in the main body of WSN.…”

Section: Overlapping Modementioning

confidence: 99%

Hybrid Wired and Wireless Sensor Networks Interconnection

Bai

Zhu

et al. 2013

AMM

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This paper proposes a integration scheme for heterogeneous wired and wireless sensor networks. In the scheme, a complete solution is provided, in order to achieve enhanced flexibility, efficiency, and performance for the overall networked system. In addition, the hybrid networks integration scheme is able to combine the advantages of both wired and wireless solutions. From the theoretical and simulative perspectives, the paper analyzes the performance parameters, including the cost, the delay time and packet loss rate, and the analytical results show that the performance of the scheme is better than other interconnection techniques.

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An Approach to Manage Mobility of Sensor Nodes in Sensor-Grid Infrastructure

Cited by 6 publications

References 10 publications

Performance analysis of 6LoWPAN protocol for a flood monitoring system

Performance analysis of 6LoWPAN protocol for a flood monitoring system

Performance assessment of static and dynamic routings using 6LoWPAN on small scenarios applied to monitoring of Barranquilla flash flood

Hybrid Wired and Wireless Sensor Networks Interconnection

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