Performance analysis of IEEE 802.15.4 and ZigBee for large-scale wireless sensor network applications

Kohvakka, Mikko; Kuorilehto, Mauri; Hännikäinen, Marko; Hämäläinen, Timo D.

doi:10.1145/1163610.1163619

Cited by 132 publications

(86 citation statements)

References 6 publications

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“…The standard designates these low complexity platforms as Reduced Function Devices (RFD). Platforms with the complete set of MAC services are referred to as Full Function Devices (FFD) [5].…”

Section: Related Workmentioning

confidence: 99%

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The relay scheme over MAC for data transmission performance in railway wireless sensor network

Lim

Kim

et al. 2014

16th International Conference on Advanced Communication Technology

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Abstract-Wireless sensor networks (WSNs) have been widely applied to a various areas. Especially in recent years, there has been an increasing interest in the adoption of emerging sensing technologies for a railway infrastructure monitoring. However, because the wireless communication of a railway is operated between sensor devices in poor environments such as high speed and much vibration, there may be a problem when the IEEE 802.15.4 and ZigBee would be applied in railway WSNs. Therefore, it is necessary a scheme to reduce data transmission delay and power consumption in railway WSNs. To solve this problem, the relay scheme over the MAC sublayer on the IEEE 802.15.4 standard is proposed in this paper. In this paper, the relay scheme could reduce data transmission delay and power consumption by about a half when data routing is performed on not the IP layer but the MAC sublayer.

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Section: Related Workmentioning

confidence: 99%

“…Different stack profiles are defined for home control, building automation, and plant control applications. The first version of ZigBee specification was announced in December 2004 [5].…”

Section: B Zigbeementioning

confidence: 99%

The relay scheme over MAC for data transmission performance in railway wireless sensor network

Lim

Kim

et al. 2014

16th International Conference on Advanced Communication Technology

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“…No evento da transmissão 1, dois nós da rede IEEE 802.15.4 participam de uma troca de mensagens sem necessidade de utilização de backoff. Primeiramente é realizado um escaneamento de assinatura do canal, através do mecanismo CCA, durante um período de 128 us (KOHVAKKA et al, 2006 Na especificação do protocolo, o processo de sincronização utiliza uma fórmula de sincronização, descrita na equação (1), que deve ser aplicada em aplicações cuja interface de comunicação possua uma baixa latência. Para que seja possível sua utilização em ambientes de latência elevada, este trabalho faz uma adaptação da fórmula conforme descrito na equação (2).…”

Section: Modelagem Ieee 802154unclassified

Modelagem de comandos de sincronização DNP3 em rede P2P por interface IEEE 802.15.4

Ramalho¹,

Shinoda²,

Nascimento³

et al. 2013

Proceeding Series of the Brazilian Society of Computational and Applied Mathematics

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AbstractThe Smart Grid concept establishes that, in addition to power flow, the utility has a two-way data flow in all sectors of the grid including the consumers facilities. By the system data monitoring, the failure control can be accomplished with greater speed and efficiency. To achieve such a speed, rendering Smart Grid applications viable, the requirements of safety, reliability and low latency of data flow are essential. Considering a high latency communication between the control center to the last mile applications, the control and synchronization of the Smart Meter devices should not be reliable only for administrator hands, allowing be realized automatically. So, palliative actions, taken in an independent way by the network, may reduce the need for human intervention in the management. This article presents the Distributed Network Protocol version 3 commands modeling for synchronization management between Smart Meters, with aim to help the link latency monitoring. The modeling was performed in VHDL language and considered a point-to-point wireless IEEE 802.15.4 network.Keywords Smart Grid, DNP3, Modeling, VHDL, Synchronization.Resumo O conceito Smart Grid estabelece que, em adição ao fluxo de energia, a concessionária tenha um fluxo de dados de duas vias em todos os setores da rede até os consumidores. Através do monitoramento do sistema de dados, o controle a falhas pode ser realizado com maior agilidade e eficiência. Para garantir essa velocidade e tornar as aplicações Smart Grid viáveis, requisitos como segurança, confiabilidade e baixa latência são essenciais. Considerando uma comunicação de alta latência entre a central de controle até as aplicações de última milha, o controle e sincronização dos dispositivos de medição inteligente não devem depender apenas dos administradores da rede, podendo ser realizados automaticamente. Sendo assim, as ações paliativas tomadas de forma independente na rede, poderão diminuir a necessidade de intervenção humana na gestão. Este artigo apresenta a modelagem de comandos do Distributed Network Protocol version 3 de gerenciamento de sincronização entre Smart Meters, como forma de auxílio autônomo no monitoramento e gestão de latência dos enlaces. A modelagem foi realizada pela linguagem VHDL e considerou um enlace sem fio ponto-a-ponto IEEE 802.15.4.Palavras-chave Smart Grid, DNP3, Modelagem Computacional, VHDL, Sincronização.

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“…For example, [10] characterizes the behavior of the IEEE 802.15.4 MAC layer on large-scale networks, both in terms of energy consumption and packet transmission probability. In [11], a similar analysis is proposed for WBSNs, with a particular emphasis on the radio activity of the node.…”

Section: Related Workmentioning

confidence: 99%

“…Traditionally, energy consumption is always a major concern during the network evaluation [14][3] [10], but other metrics such as throughput and endto-end delay may be considered. For example, different energy/delay tradeoffs are explored as a function of the voltage and the radio modulation in [26].…”

Section: Related Workmentioning

confidence: 99%

Design exploration of energy-performance trade-offs for wireless sensor networks

Beretta

Rincon

Khaled

et al. 2012

Proceedings of the 49th Annual Design Automation Conference

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Wireless sensor networks (WNSs) are gradually evolving from a promising technology to a well-established reality in a large set of different domains. In order to fulfill the requirements of the specific scenario, a WSN must provide the right tradeoff between performance and lifetime, which is heavily determined by the network design. However, although the complexity of WSNs is increasing, the design space exploration is often carried out manually without the support of a general analytical methodology. In this paper, we advocate a model-based approach as an efficient and scalable way to explore the energy-performance tradeoffs during the design. In particular, we show that it is possible to define systemlevel models to describe wide classes of WSNs, providing a quick and accurate network evaluation. As a proof of concept, we propose a general model that describes the main characteristics of a class of WSNs for human health monitoring, and we apply it to a real case study. The results show that the energy-performance estimation error of the model never exceeds 1.74% compared to real data, while the evaluation time is reduced by up to 6 orders of magnitude with respect to an accurate network simulation.

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Performance analysis of IEEE 802.15.4 and ZigBee for large-scale wireless sensor network applications

Cited by 132 publications

References 6 publications

The relay scheme over MAC for data transmission performance in railway wireless sensor network

The relay scheme over MAC for data transmission performance in railway wireless sensor network

Modelagem de comandos de sincronização DNP3 em rede P2P por interface IEEE 802.15.4

Design exploration of energy-performance trade-offs for wireless sensor networks

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