An Enhanced Distance Vector-Hop Algorithm using New Weighted Location Method for Wireless Sensor Networks

Han, Fang; Mohamed, Izzeldin Ibrahim; Liu, Xinni; Ghazali, Kamarul Hawari

doi:10.14569/ijacsa.2020.0110563

Cited by 5 publications

(7 citation statements)

References 27 publications

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“…In the simulation experiment part, we simulated a 100𝑚𝑚 × 100𝑚𝑚 area with 100 randomly deployed wireless sensor nodes. The performance metrics of the algorithm are evaluated by changing the AN percentage and the sensor nodes' communication radius and comparing the DV-Hop [12], PSODV-Hop [14], WND-DV-Hop [15], and RANN [28] with the algorithm in this paper. Considering the interference factors in the real application scenario, we considered the Degree of Radio Irregularity (DOI) in our simulation and set it to 0.05 according to reference [36].…”

Section: Incremental Strategy-based Residual Regression Networkmentioning

confidence: 99%

“…Reference [14] improved the DV-Hop by introducing the particle swarm optimization (PSO) to convert the node localization problem into a particle search problem and analyzed the localization performance of the optimized algorithm under different network expansion structures. Reference [15] proposed a WND-DV-Hop algorithm by constructing a weighting factor based on the beacon node hop counts, and the least squares method was used to correct hop counts between nodes. Reference [16] proposed a method to correct the average hops error in the DV-Hop using RSSI.…”

Section: Introductionmentioning

confidence: 99%

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Incremental Strategy-based Residual Regression Networks for Node Localization in Wireless Sensor Networks

2022

KSII TIIS

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The easy scalability and low cost of range-free localization algorithms have led to their wide attention and application in node localization of wireless sensor networks. However, the existing range-free localization algorithms still have problems, such as large cumulative errors and poor localization performance. To solve these problems, an incremental strategy-based residual regression network is proposed for node localization in wireless sensor networks. The algorithm predicts the coordinates of the nodes to be solved by building a deep learning model and fine-tunes the prediction results by regression based on the intersection of the communication range between the predicted and real coordinates and the loss function, which improves the localization performance of the algorithm. Moreover, a correction scheme is proposed to correct the augmented data in the incremental strategy, which reduces the cumulative error generated during the algorithm localization. The analysis through simulation experiments demonstrates that our proposed algorithm has strong robustness and has obvious advantages in localization performance compared with other algorithms.

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Section: Incremental Strategy-based Residual Regression Networkmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Incremental Strategy-based Residual Regression Networks for Node Localization in Wireless Sensor Networks

2022

KSII TIIS

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“…In the early 2000s, Niculescu and Nath first proposed the famous hop-based positioning algorithm based on the distance vector routing protocol, named DV-hop [15], for wireless multi-hop networks. Firstly, DV-hop computes the least hop counts between two nodes in network by using the Bellman-Ford algorithm [16], and estimates the average per-hop distance between anchor nodes based on the distance-vector protocol [11,12]. Secondly, the estimated distances are calculated by multiplying the average per-hop distance and the hop counts between the normal nodes and the anchor nodes.…”

Section: Related Workmentioning

confidence: 99%

NRAP: Nearest reliable anchors-based wireless positioning for irregular multi-hop networks

Wang

YAN

et al. 2022

Preprint

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The position of nodes is the critical foundation for information transfer between "person to things" and "things to things" at any time and from any location in wireless multi-hop networks. The hop-based wireless positioning technology has received widespread attention because it does not requiring additional ranging devices. However, most existing hop-based positioning algorithms ignore the network topology irregularities issues, which are frequently observed in multi-hop networks and may lead to poor positioning performance. In this paper, we present a novel wireless positioning algorithm, named NRAP, for irregular networks based on the nearest reliable anchors to mitigate the impact of topology irregularities. Specifically, a more accurate per-hop distance estimation model is firstly adopted. Then, NRAP divides the entire network into multiple sub-networks with the node to be positioned and its nearest four neighbor anchor nodes. Moreover, a hybrid particle swarm optimization and natural selection algorithm are employed to search in each sub-network to find the optimal estimated position of the node to be positioned. We evaluate and analyze the performance of NRAP under various network topologies and parameters in comparison with the many state-of-the-art works, and the results further demonstrated the superior performance than these benchmarks.

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“…In Reference [10] nodes was obtained by using the weighted method and analyzing the distribution of bea con nodes, which had lower localization error than DV-Hop. Shi Q proposed a distanc weighted algorithm based on DV-Hop in Reference [7],which determined the weigh value of least squares by taking advantage of the different influence of beacon nodes, the used the weighted likelihood estimation and trilateral measurement localization to com plete localization, thus improving the localization accuracy.…”

Section: Research Statusmentioning

confidence: 99%

“…Wu C and Yang T proposed an improved DV-Hop algorithm in [9], this algorithm put forwar an improvement wireless channel model and a refinement method for the irregularity o WSN based on node degree, improved the poor performance of DV-Hop algorithm i localization accuracy. In Reference [10] In general, most of algorithms are optimized on the basis of DV-Hop algorithm, an it has improved the localization accuracy. However, these algorithms still use the distanc calculation method of DV-Hop, which multiplies the number of hops by the single ho correction value, so it is still unable to fundamentally avoid the impact of the error cause by the hop distance and the number of hops on the localization results [13].…”

Section: Research Statusmentioning

confidence: 99%

A Node Localization Algorithm for Wireless Sensor Networks Based on Virtual Partition and Distance Correction

et al. 2021

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The coordinates of nodes are very important in the application of wireless sensor networks (WSN). The range-free localization algorithm is the best method to obtain the coordinates of sensor nodes at present. Range-free localization algorithm can be divided into two stages: distance estimation and coordinate calculation. For reduce the error in the distance estimation stage, a node localization algorithm for WSN based on virtual partition and distance correction (VP-DC) is proposed in this paper. In the distance estimation stage, firstly, the distance of each hop on the shortest communication path between the unknown node and the beacon node is calculated with the employment of virtual partition algorithm; then, the length of the shortest communication path is obtained by summing the distance of each hop; finally, the unknown distance between nodes is obtained according to the optimal path search algorithm and the distance correction formula. This paper innovative proposes the virtual partition algorithm and the optimal path search algorithm, which effectively avoids the distance estimation error caused by hop number and hop distance, and improves the localization accuracy of unknown nodes.

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An Enhanced Distance Vector-Hop Algorithm using New Weighted Location Method for Wireless Sensor Networks

Cited by 5 publications

References 27 publications

Incremental Strategy-based Residual Regression Networks for Node Localization in Wireless Sensor Networks

Incremental Strategy-based Residual Regression Networks for Node Localization in Wireless Sensor Networks

NRAP: Nearest reliable anchors-based wireless positioning for irregular multi-hop networks

A Node Localization Algorithm for Wireless Sensor Networks Based on Virtual Partition and Distance Correction

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