A fair energy trade multi-hop routing in wireless sensor networks

Stecklina, Oliver; Langendoerfer, Peter; Goltz, Christian

doi:10.1109/wmnc.2013.6548975

Cited by 6 publications

(2 citation statements)

References 15 publications

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“…Especially monitoring applications with a long maintenance free lifetime must take care of their energy consumption and must ideally avoid these factors. Therefore, multi-hop routing protocols aim to achieve a minimal lifetime of several years for low power WSNs by implementing a fair energy routing within the nodes of a WSN [16]. These protocols are mainly based on low duty cycle medium access control (MAC) schemes, which activate communication modules on sending and receiving phases only [7].…”

Section: B Low Duty Cycle Medium Access Controlmentioning

confidence: 99%

Custom-fit security for efficient and pollution-resistant multicast OTA-programming with fountain codes

Stecklina

Kornemann

Grehl

et al. 2015

2015 15th International Conference on Innovations for Community Services (I4CS)

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In this work we describe the implementation details of a protocol suite for a secure and reliable over-the-air reprogramming of wireless restricted devices. Although, recently forward error correction codes aiming at a robust transmission over a noisy wireless medium have extensively been discussed and evaluated, we believe that the clear value of the contribution at hand is to share our experience when it comes to a meaningful combination and implementation of various multihop (broadcast) transmission protocols and custom-fit security building blocks: For a robust and reliable data transmission we make use of fountain codes a.k.a. rateless erasure codes and show how to combine such schemes with an underlying medium access control protocol, namely a distributed low duty cycle medium access control (DLDC-MAC). To handle the well known problem of packet pollution of forward-error-correction approaches where an attacker bogusly modifies or infiltrates some minor number of encoded packets and thus pollutes the whole data stream at the receiver side, we apply homomorphic message authentication codes (HomMAC). We discuss implementation details and the pros and cons of the two currently available HomMAC candidates for our setting. Both require as the core cryptographic primitive a symmetric block cipher for which, as we will argue later, we have opted for the PRESENT, PRIDE and PRINCE (exchangeable) ciphers in our implementation.

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Section: B Low Duty Cycle Medium Access Controlmentioning

confidence: 99%

Custom-fit security for efficient and pollution-resistant multicast OTA-programming with fountain codes

Stecklina

Kornemann

Grehl

et al. 2015

2015 15th International Conference on Innovations for Community Services (I4CS)

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“…The network coverage area has been frequently much larger than radio range of single nodes, so in order to reach some destination node can use other nodes as relays. This type of communication is known as multi-hop routing in wireless mesh networks [1][2] …”

Section: Introductionmentioning

confidence: 99%

Efficient Routing In Wsn Using Enhanced Fuzzy Logic

Kumar¹,

Kaveri²,

Bhargavi³

et al. 2018

IJET

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In order to gather info additional precisely, wireless detector networks (WSNs) square measure divided into clusters. The cluster provides a good merit to make longer the period of WSNs. Topical clump comes close to usually use 2 methods: choosing cluster heads with additional enduring energy, and turning cluster heads sporadically, to distribute the energy consumption among nodes in every cluster and extend the network period. However, most of the previous algorithms haven't thought of the expected residual energy, that is, that the predicated left behind energy for being hand-picked as a cluster head and running around. During this paper, a fuzzy-logic-based clump approach [22] with associate degree conservatory to the energy postulation has been planned to lengthen the period of WSNs by equally distributing the work. The simulation results show that the planned come close to is additional more economical than alternative distributed algorithms. It's believed that the practice given during this paper can be any applied to extensive wireless detector networks.

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