A Fusion-Based Framework for Wireless Multimedia Sensor Networks in Surveillance Applications

Yazıcı, Adnan; Koyuncu, Murat; Sert, Seyyit Alper; Yılmaz, Tuğba

doi:10.1109/access.2019.2926206

Cited by 34 publications

(22 citation statements)

References 46 publications

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“…This work addresses routing and nodal process problems as well as diverse data aggregation, offloading, and in-network process strategies to reduce the amount of data transmitted along the routing path to the destination. Although the main idea of wireless multimedia sensor networks is to reduce the amount of multimedia data transmitted through the intranode fusion process [35], the specific functions of selecting and routing data to a specific node was not included in their study. From the event-driven routing viewpoint, reducing the transmission and nodal processing time is a major problem [1], [11], [32], [36].…”

Section: Related Workmentioning

confidence: 99%

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Optimization-Based Offloading and Routing Strategies for Sensor-Enabled Video Surveillance Networks

et al. 2020

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For the Internet of things, having sensors in devices used for video surveillance services, such as cameras, is crucial. The advancement of edge computing technology has enabled high computing capacity and the handling of massive data sets. The concept of cloudlets is employed in edge computing for in-network processing, especially for large-size multimedia data processing. Cloudlets are essential for services with high computing costs. Contrary to traditional cloud computing, data can be offloaded to in-network devices and core clouds, thereby improving the quality of service and enhancing resource utilization. However, the trade-off between network transmissions and nodal processes with delay-aware multimedia traffic has been demonstrated to be an NP-complete problem. The problem is presented as a mathematical formula to maximize the minimal delay gap between the tolerable event delay, sending time, and processing time. The problem is subject to in-network processing node assignment, routing paths, transmission capacities, computing capacities, and the effective service period. The Lagrangian approach was employed to evaluate the method proposed in this study; a near-optimal solution was obtained, and several experiments were performed to demonstrate that the proposed method outperforms existing methods.

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Section: Related Workmentioning

confidence: 99%

“…[1], [35] Offloading Offloading is a type of aggregation of similar data. It requires advanced interactions with other data, such as a facial database.…”

Section: Problem Descriptionmentioning

confidence: 99%

Optimization-Based Offloading and Routing Strategies for Sensor-Enabled Video Surveillance Networks

et al. 2020

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“…Organizing sensors into a hierarchical topology with clusters has long been suggested for wireless sensor networks to reduce the energy consumption in sensors and the communication burden and latency in the communication network [11], [18], [21]- [30], [33]; and many authors proposed procedures to build clusters [29]- [32]. In fact, many authors proposed procedures in which sensors self-organize into clusters [33], [35]- [39], [54].…”

Section: B Previous Studies On Clustering Algorithms For Wireless Sementioning

confidence: 99%

“…, 6}; i.e., for each point of interest, we include up to 6 clusters into C poi . In all of the results, we considered r min = 0.5 and d min = 0.5 in conditions (20) and (21). For each N inc , we ran Monte Carlo simulations with 10,000 random drops for each of the random shifts and we chose the N inc that produced the C poi with the highest AUC(C poi |l − e ) as the best N inc for the random realization.…”

Section: E Example: Sensors At Random Locationsmentioning

confidence: 99%

“…• Proponents of distributed sensor systems often propose that sensors be organized in a hierarchical topology [11], [18], [21]- [33], where sensors are divided into clusters and send their measurements to a clusterhead. Organizing sensors into clusters facilitates the communication between sensors and the fusion center while reducing energy consumption at sensors [27], [34].…”

Section: Introductionmentioning

confidence: 99%

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A Clustering Algorithm to Improve the Scan Statistic in Sensor Detection Systems

Fonseca

2020

IEEE Access

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The success of the scan statistic in detecting anomalies in georeferenced data has motivated its use in distributed sensor systems to detect an emitter at an unknown location. Sensors are grouped into clusters, cluster statistics are produced, and the scan statistic decides that the emitter is present if any cluster statistic is above a threshold. Although the scan statistic is not the optimal fusion rule, it avoids combining strong measurements from sensors near the emitter with weak measurements from sensors far from the emitter. The question that motivates this paper is: could a clustering algorithm improve the detection performance of the scan statistic? Previous studies on the scan statistics considered that the set of clusters is given or is the product of a scanning process; and previous studies on clustering algorithms for wireless sensor networks have not considered forming clusters specifically for the scan statistic. Our first goal is to highlight the opportunity of improving the scan statistic by carefully designing the cluster set. We discuss how the cluster set influences not only the detection performance, but also processing and communication in the system. Our second goal is to propose and study a new clustering algorithm to build the cluster set for the scan statistic. Although suboptimal, our algorithm produces cluster sets that reach similar or better detection performance than the usually considered cluster sets with a significantly lower number of clusters, which results in less processing and communication in the system.

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A game theory‐based clustering and multi‐hop routing scheme in wireless sensor networks for energy minimization

Gupta

Aulakh

2022

Int J Communication

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Summary Energy consumption in wireless sensor network (WSN) is one of the important issues as tiny sensor nodes are equipped with a non‐replaceable batteries. Clustering is one of the effective means to prolong the network lifetime in WSN by reducing the number of packets to be sent from cluster heads (CHs) to base station (BS). Recently, game theory techniques have been applied in the clustering process for optimal CH election at each round. However, none of them have considered the energy parameter in their game strategy and multihop routing for data transmission. In this manuscript, an energy‐efficient game‐theoretic clustering and multi‐hop routing scheme (EGCR) has been proposed where the non‐cooperative approach of game theory is used to elect optimal CHs. In the proposed game theoretic framework, each node behaves in a selfish manner while considering the residual energy of nodes and focuses on increasing the overall lifetime of the network. Nash equilibrium is determined among a set of pure and mixed strategies, and then the expected payoff of a node is determined for Nash equilibria. Apart from the energy‐efficient clustering, the EGCR also proposes a multi‐hop routing solution for data transmission that further enhances the lifetime of whole network. In the multi‐hop routing approach, inter‐cluster and intra‐cluster routing techniques are proposed to identify optimal routes from nodes to CHs and from CHs to BS by using various factors such as node centrality, distance from the node to BS, and residual energy. The proposed algorithm is compared with traditional clustering schemes like low‐energy adaptive clustering hierarchy (LEACH) and efficient energy‐aware game theory‐based clustering (EEGC) and also with existing game theory‐based algorithms such as clustered routing for selfish sensors (CROSS), localized game theoretical clustering algorithm (LGCA), and energy‐efficient clustering algorithm based on game theory (ECAGT). Simulation experiments validate that the proposed algorithm enhances the network's lifetime up to 47.49% compared to existing clustering algorithms.

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A Fusion-Based Framework for Wireless Multimedia Sensor Networks in Surveillance Applications

Cited by 34 publications

References 46 publications

Optimization-Based Offloading and Routing Strategies for Sensor-Enabled Video Surveillance Networks

Optimization-Based Offloading and Routing Strategies for Sensor-Enabled Video Surveillance Networks

A Clustering Algorithm to Improve the Scan Statistic in Sensor Detection Systems

A game theory‐based clustering and multi‐hop routing scheme in wireless sensor networks for energy minimization

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