Pulse-coupled time synchronization for distributed acoustic event detection using wireless sensor networks

Nüñez, Felipe; Wang, Yongqiang; Grasing, David; Desai, Sachi; Cakiades, George; Doyle, Francis J.

doi:10.1016/j.conengprac.2017.01.006

Cited by 28 publications

(13 citation statements)

References 40 publications

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“…Noting that the PRF in (2) is non-positive on [0, π] and oscillator i can be triggered to jump multiple times within (t 1 + ε/2, t 1 + ε], the phase of oscillator i at t 1 + ε satisfies (11) and l ∈ (0, 1], we have that the phases of all oscillators reside in [0, (1 − l/2)ε] at time t 1 + ε, i.e., δ (t 1 + ε) ≤ (1 − l/2)δ (t 1 ).…”

Section: Remarkmentioning

confidence: 99%

An Attack-Resilient Pulse-Based Synchronization Strategy for General Connected Topologies

Wang

2020

IEEE Trans. Automat. Contr.

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Synchronization of pulse-coupled oscillators (PCOs) has gained significant attention recently due to increased applications in sensor networks and wireless communications. Given the distributed and unattended nature of wireless sensor networks, it is imperative to enhance the resilience of pulse-based synchronization against malicious attacks. However, most existing results on resilient PCO synchronization are obtained for allto-all networks. We propose a new pulse-based synchronization mechanism to improve the resilience of PCO synchronization that is applicable under general connected topologies. Under the proposed synchronization mechanism, we rigorously characterize the condition for stealthy Byzantine attacks and prove that perfect synchronization of legitimate oscillators can be guaranteed in the presence of multiple stealthy Byzantine attackers, irrespective of whether the attackers collude with each other or not. The new mechanism can guarantee resilient synchronization even when the initial phases of legitimate oscillators are widely distributed in a half circle, which is in distinct difference from most existing attack-resilient synchronization algorithms (including the seminal paper from Lamport and Melliar-Smith [1]) that require a priori (almost) synchronization among legitimate oscillators. Numerical simulation results are given to confirm the theoretical results.

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Section: Remarkmentioning

confidence: 99%

An Attack-Resilient Pulse-Based Synchronization Strategy for General Connected Topologies

Wang

2020

IEEE Trans. Automat. Contr.

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“…A new location algorithm and route planning for use in space sensor network are studied in References [19][20]. References [21][22] presents the analytic and simulation results of the performance of UWB relative location estimation in space sensor networks, and analyze and evaluate the energy consumption models in space sensor networks with probabilistic distance distributions.…”

Section: Introductionmentioning

confidence: 99%

Research of Space Network Node Route Planning and Localization in HAPS Space

Liu

2018

TNC

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Compared with the traditional method of detection tracking, space sensor networks for its good character of the traditional tracking methods inadequate. For the localization algorithm and route planning of space sensor network exists a big positioning error in high altitude platform station (HAPS) space communication. Space sensor network communication system is researched. According to the anchor nodes and unknown nodes, location algorithm and node route planning method of HAPS are proposed in this paper. The performance of the node density and location error are simulated and analyzed in HAPS. The simulation results show that the performance of proposed location error is better than the traditional algorithms.

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“…Simulation results show that the proposed protocol can adjust operation period adaptively and reduce the information exchanging in choosing cluster-heads, is more energy-efficient and suitable for wireless sensor network. A new localization algorithm and route planning for use in wireless sensor network are studied in References [19][20].References [21][22]presents the analytic and simulation results of the performance of UWB relative localization estimation in wireless sensor networks. References [23][24]propose resolving schemes of data collection in wireless sensor networks of both plane model and linear and nonlinear mathematics model,and proposed a new node route planning method.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear Modeling and Analysis of WSN Node Localization Method

Liu¹,

Ya²,

Liu³

et al. 2018

IJWMN

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In this paper, node localization algorithms in wireless sensor networks are researched, the traditional algorithms are studied, and some meaningful results are obtained. For the localization algorithm and route planning of WSN exists a big localization error in wireless communication. WSN communication system is researched. According to the anchor nodes and unknown nodes, a new localization algorithm and route planning method of WSN are proposed in this paper. At the same time, a new genetic algorithm of route planning of WSN is proposed. The performance of the node density and localization error is simulated and analyzed. The simulation results show that the performance of proposed WSN localization algorithm and route planning method are better than the traditional algorithms.

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Pulse-coupled time synchronization for distributed acoustic event detection using wireless sensor networks

Cited by 28 publications

References 40 publications

An Attack-Resilient Pulse-Based Synchronization Strategy for General Connected Topologies

An Attack-Resilient Pulse-Based Synchronization Strategy for General Connected Topologies

Research of Space Network Node Route Planning and Localization in HAPS Space

Nonlinear Modeling and Analysis of WSN Node Localization Method

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