An improved ant colony optimization-based approach with mobile sink for wireless sensor networks

Wang, Jin; Jun, Cao; Sherratt, R. Simon; Park, Jong Hyuk

doi:10.1007/s11227-017-2115-6

Cited by 166 publications

(97 citation statements)

References 23 publications

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“…The authors proposed a supervised learning method to do the classification that is very interesting and can be applied to our method [43,44]. The authors in [45][46][47][48][49][50][51][52][53] gave a novel mobile sink-based method to optimize system performance, which can be referred to.…”

Section: Related Workmentioning

confidence: 99%

Adaptive Leader-Follower Formation Control of Under-actuated Surface Vessels with Model Uncertainties and Input Constraints

2019

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This paper deals with the leader-follower formation control of underactuated autonomous surface vehicles in the presence of model uncertainties and input constraints. In a leader-follower formation, an autonomous surface vehicle (ASV) called leader tracks a pre-described trajectory and other ASVs called followers that are controlled to follow the leader with a desired distance and desired relative bearing. To this end, some adaptive robust techniques are adopted to guarantee the robustness of the closed-loop system against model uncertainties, external disturbances, and input saturation constraints. Based on the Lyapunov synthesis, it is proven that with the developed formation controllers, the closed-loop system is stable and all the formation errors converge to a small neighborhood of zero. Simulation results demonstrate the effectiveness of the proposed method.

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Section: Related Workmentioning

confidence: 99%

Adaptive Leader-Follower Formation Control of Under-actuated Surface Vessels with Model Uncertainties and Input Constraints

2019

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“…In view of the importance of social media digital images in practical applications, research on their authenticity, integrity and traceability has been one of the hot and challenging research topics in the field of information security. We will adopt network optimization methods [39][40][41][42][43][44][45][46][47][48] to improve the real-time and high efficiency performance of the feature extraction phases.…”

Section: Discussionmentioning

confidence: 99%

Detection of Tampering by Image Resizing Using Local Tchebichef Moments

Zhang

Wang

et al. 2019

Applied Sciences

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There are many image resizing techniques, which include scaling, scale-and-stretch, seam carving, and so on. They have their own advantages and are suitable for different application scenarios. Therefore, a universal detection of tampering by image resizing is more practical. By preliminary experiments, we found that no matter which image resizing technique is adopted, it will destroy local texture and spatial correlations among adjacent pixels to some extent. Due to the excellent performance of local Tchebichef moments (LTM) in texture classification, we are motivated to present a detection method of tampering by image resizing using LTM in this paper. The tampered images are obtained by removing the pixels from original images using image resizing (scaling, scale-and-stretch and seam carving). Firstly, the residual is obtained by image pre-processing. Then, the histogram features of LTM are extracted from the residual. Finally, an error-correcting output code strategy is adopted by ensemble learning, which turns a multi-class classification problem into binary classification sub-problems. Experimental results show that the proposed approach can obtain an acceptable detection accuracies for the three content-aware image re-targeting techniques.

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“…This approach considerably reduced the energy consumption and improved the lifetime of the network. Ant‐colony optimization algorithm was undertaken in another work to find the optimal traversal path of the data from the sensor nodes to the sink through reduced energy consumption . Another algorithm, namely, energy‐efficient cluster‐based dynamic‐routes–adjustment approach (EECDRA) was designed, which aimed at minimizing the reconstruction complexity of the routing path due to change in position of the sink nodes .…”

Section: Related Workmentioning

confidence: 99%

A novel residual energy‐based distributed clustering and routing approach for performance study of wireless sensor network

Ghosh

Chakraborty

2019

Int J Communication

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Summary Non‐uniform energy consumption during operation of a cluster‐based routing protocol for large‐scale wireless sensor networks (WSN) is major area of concern. Unbalanced energy consumption in the wireless network results in early node death and reduces the network lifetime. This is because nodes near the sink are overloaded in terms of data traffic compared with the far away nodes resulting in node deaths. In this work, a novel residual energy–based distributed clustering and routing (REDCR) protocol has been proposed, which allows multi‐hop communication based on cuckoo‐search (CS) algorithm and low‐energy adaptive‐clustering–hierarchy (LEACH) protocol. LEACH protocol allows choice of possible cluster heads by rotation at every round of data transmission by a newly developed objective function based on residual energy of the nodes. The information about the location and energy of the nodes is forwarded to the sink node where CS algorithm is implemented to choose optimal number of cluster heads and their positions in the network. This approach helps in uniform distribution of the cluster heads throughout the network and enhances the network stability. Several case studies have been performed by varying the position of the base stations and by changing the number of nodes in the area of application. The proposed REDCR protocol shows significant improvement by an average of 15% for network throughput, 25% for network scalability, 30% for network stability, 33% for residual energy conservation, and 60% for network lifetime proving this approach to be more acceptable one in near future.

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An improved ant colony optimization-based approach with mobile sink for wireless sensor networks

Cited by 166 publications

References 23 publications

Adaptive Leader-Follower Formation Control of Under-actuated Surface Vessels with Model Uncertainties and Input Constraints

Adaptive Leader-Follower Formation Control of Under-actuated Surface Vessels with Model Uncertainties and Input Constraints

Detection of Tampering by Image Resizing Using Local Tchebichef Moments

A novel residual energy‐based distributed clustering and routing approach for performance study of wireless sensor network

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