Journal ArticleDOI
Lifetime Optimization by Load-Balanced and Energy Efficient Tree in Wireless Sensor Networks
TLDR
This paper proposes a Load-Balanced and energy-efficient Tree (LBT) algorithm to maximize the lifetime of WSNs, which takes into account the load balance and energy efficiency of 1-hop nodes and is the first to present the upper bound of network lifetime for data gathering without aggregation with tree-based topology.Abstract:
Wireless sensor networks (WSNs), often composed of a large number of sensor nodes with limited power, have been widely used for environmental monitoring and battlefield surveillance. A basic operation in such networks is data gathering. In the applications of data gathering without aggregation, the 1-hop nodes always incur much heavier traffic load compared with other nodes, which determine the lifetime of the whole network. Due to the energy constrained nature of sensor devices, energy-efficient methods should be employed for data gathering. In this paper, we propose a Load-Balanced and energy-efficient Tree (LBT) algorithm to maximize the lifetime of WSNs, which takes into account the load balance and energy efficiency of 1-hop nodes. To the best of our knowledge, we are the first to present the upper bound of network lifetime for data gathering without aggregation with tree-based topology. Simulation results demonstrate that our algorithm utilizes up to 98 % of the total energy of the 1-hop nodes and outperforms the state-of-the-art algorithms in terms of network lifetime. Furthermore, LBT can achieve a lifetime consistently close to the upper bound.read more
Citations
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Journal ArticleDOI
An Efficient Tree-Based Self-Organizing Protocol for Internet of Things
TL;DR: Simulation results show that the proposed protocol can construct a reliable tree-based network quickly and the success rate of packet in ETSP is much higher compared with ad~hoc on demand distance vector routing and destination sequenced distance vectors routing.
Journal ArticleDOI
An Approximation Algorithm for the Maximum-Lifetime Data Aggregation Tree Problem in Wireless Sensor Networks
Hwa-Chun Lin,Wei-Yu Chen +1 more
TL;DR: Simulation results show that properly adjusting transmission power levels of the sensors yields higher lifetime of the network than keeping their transmissionPower levels at the maximum level, and an approximation algorithm is developed to construct a data aggregation tree whose inverse lifetime is guaranteed to be within a bound from the optimal one.
Journal ArticleDOI
Switching algorithm with prediction strategy for maximizing lifetime in wireless sensor network
TL;DR: A switching algorithm with prediction strategy (SAPS) to enhance the lifetime of WSNs through reducing the load of the node with the highest load by switching its descendants and ensuring that the routing tree is shortest, thus reducing the delay and energy expenditure of data collection.
Book ChapterDOI
Azimuth Tree-Based Self-organizing Protocol for Internet of Things
TL;DR: In this article, an azimuth tree-based network algorithm is proposed on a uniform random distribution of scattered points which is actually graph-based and the algorithm for finding the weight function of the tree would constrain the number of points to be considered during the routing, thereby limiting the search space, reducing time complexities, and inducing further optimizations.
Proceedings ArticleDOI
Rate allocation for maximizing lifetime of data gathering tree without aggregation in wireless sensor networks
TL;DR: The algorithm, which denotes as RMLTT (Rate allocation for constructing Maximum-Lifetime data gathering Tree wiThout aggregation), approximately allocates the optimal data rates for sensor nodes with the goal to prolong the lifetime of the network as possible as it can.
References
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Journal ArticleDOI
Wireless sensor networks: a survey
TL;DR: The concept of sensor networks which has been made viable by the convergence of micro-electro-mechanical systems technology, wireless communications and digital electronics is described.
Journal ArticleDOI
A survey on sensor networks
TL;DR: The current state of the art of sensor networks is captured in this article, where solutions are discussed under their related protocol stack layer sections.
Journal ArticleDOI
Wireless sensor network survey
TL;DR: This survey presents a comprehensive review of the recent literature since the publication of a survey on sensor networks, and gives an overview of several new applications and then reviews the literature on various aspects of WSNs.
Journal ArticleDOI
Energy conservation in wireless sensor networks: A survey
TL;DR: This paper breaks down the energy consumption for the components of a typical sensor node, and discusses the main directions to energy conservation in WSNs, and presents a systematic and comprehensive taxonomy of the energy conservation schemes.
Journal ArticleDOI
Power efficient data gathering and aggregation in wireless sensor networks
TL;DR: This paper proposes two new algorithms under name PEDAP (Power Efficient Data gathering and Aggregation Protocol), which are near optimal minimum spanning tree based routing schemes, where one of them is the power-aware version of the other.