改进的DV-Hop无线传感网络节点定位算法

针对传感器部署密度大、分布不均匀,DV-Hop定位算法误差大等问题,提出了一种改进DV-Hop的无线传感器节点定位算法.首先采用DV-Hop算法对未知传感器节点位置进行计算,然后在采用遗传算法对DV-Hop定位的误差进行修正.仿真结果表明,改进DV-Hop算法提高了节点的定位精度,降低定位的误差,更能真实地反映传感器网络节点的实际分布情况.     

无线传感器网络中平均跳距修正的DV-Hop定位算法

针对基本无线传感器网络DV-Hop定位算法中,计算平均跳距时产生偏小误差的原因,提出了基于平均跳距修正的DV-Hop算法。改进算法中,引入信标节点个数比例、所有信标节点平均跳距的最大值以及所有信标节点平均跳距的平均值三个因子,并采用它们对平均跳距进行修正。通过Matlab软件对算法进行仿真验证,结果表明,改进后的DV-Hop算法有效降低了未知节点的定位误差,是一种可行的无线传感器网络节点定位解决方案。     

基于差分进化和人工蜂群混合策略的DV-Hop改进算法

为了解决无线传感器网络依靠DV-Hop算法定位过程中存在误差偏高的问题,将人工蜂群算法和差分进化算法融合,引入传统DV-Hop算法中,提出一种HDV-Hop算法。该算法在继承经典DV-Hop算法的前提下,获取锚节点的信息及平均跳距距离,在未知节点定位阶段引入混合策略的目标函数,优化搜索算法,提高定位精度,完成对未知节点的定位。仿真分析表明,该算法相比于DV-Hop算法和基于人工蜂群的定位算法能有效降低定位误差,提高稳定性。     

无线传感器网络中一种改进的DV-Hop定位算法研究

节点定位算法是无线传感器网络中的关键技术。针对DV-Hop定位算法定位精度不高的问题,提出一种改进的DV-Hop定位算法,通过减小全网平均跳距与真实的平均跳距的差距,重新修订不在网络区域的未知节点的坐标,提高平均跳距取值的准确性。仿真结果表明,在同等网络环境下,改进的DV-Hop定位算法的定位误差减小,能有效提高节点的定位精度。     

改进的无线传感器网络DV-Hop 节点定位算法

DV-Hop 算法是解决无线传感器网络节点定位问题的一种经典算法。文中根据经典的DV-Hop 算法提出了一种改进算法,通过引入更优的误差矫正和双曲线定位算法,减少了经典算法中多跳过程中积累的定位误差。比较和分析了经典DV-Hop 算法和改进后算法的仿真结果可以看出,改进后的DV-Hop 算法定位精度提高显著,在给定条件下的定位误差下降了约50%。     

一种基于变异系数的DV-Hop定位改进

无线传感器网络节点定位至关重要,有着广泛的应用前景。为减小DV-Hop算法在无线传感器网络节点定位中的误差,针对DV-Hop中平均每跳距离的计算方式进行了改进,利用变异系数的加权方式来求解平均每跳距离,使其更接近真实值。仿真结果表明,改进算法在定位精度、稳定性方面都具有更好的性能,是一种可行的定位解决方案。     

基于混合人工蜂群策略的改进DV-Hop定位算法

为了减小DV-Hop算法在无线传感器网络节点定位中的误差,提出了一种基于混合人工蜂群算法的改进算法。该算法结合了粒子群算法收敛速度快和蜂群算法搜索能力强的特性,首先通过DV-Hop算法估计锚节点与未知节点之间的距离,然后采用粒子群算法计算未知节点的初始位置,最后利用蜂群算法进行迭代求精,从而实现基于不同距离测量方法的总体优化。仿真结果表明,改进算法的定位精度较DV-Hop算法和基于粒子群的定位算法有明显改善。     

一种无线传感器网络中 DV-Hop定位的改进算法

针对无线传感器网络中经典定位算法 DV-Hop 存在定位精度低的缺陷,提出了一种改进算法。在传统 DV-Hop 算法的基础上,首先采用最小均方误差准则校正信标节点的平均每跳距离,然后对各未知节点到参考信标节点的平均每跳距离进行加权处理,最后通过参数分析,对未知节点进行位置修正。仿真实验结果表明,改进算法相比于传统的 DV-Hop 定位算法以及已有的改进算法具有很高的定位精度,并且无需增加额外的硬件设施。因此在工程上具有很好的实用性。     

无线传感器网络中一种基于加权的DV-Hop定位算法

无线传感器网络节点定位至关重要,有着广泛的应用前景。为减小DV-Hop算法在无线传感器网络节点定位中的误差,针对DV-Hop中平均每跳距离的计算方式进行了改进,利用变异系数的加权方式来求解平均每跳距离,使其更接近真实值。仿真结果表明,改进算法在定位精度、稳定性方面都具有更好的性能,是一种可行的定位解决方案。     

DV-Hop无线网络定位算法研究

针对无线传感器网络定位的DV-Hop定位算法定位精度不足,文中提出了一种改进后的DV-Hop算法。改进后的算法在原基础上引入了均匀量化模型来提高每段跳距的精度和最小二乘法以解决定位过程中造成的累积误差。仿真结果证明,改进后的算法显著的提高了未知节点的定位精度。     

An Advanced DV-Hop Localization Algorithm for Wireless Sensor Networks

In emerging sensor network applications, localization in wireless sensor network is a recent area of research. Requirement of its applications and availability of resources need feasible localization algorithm with lower cost and higher accuracy. In this paper, we propose an Advanced DV-Hop localization algorithm that reduces the localization error without requiring additional hardware and computational costs. The proposed algorithm uses the hop-size of the anchor (which knows its location) node, from which unknown node measures the distance. In the third step of Advanced DV-Hop algorithm, inherent error in the estimated distance between anchor and unknown node is reduced. To improve the localization accuracy, we use weighted least square algorithm. Furthermore, location of unknown nodes is refined by using extraneous information obtained by solving the equations. By mathematical analysis, we prove that Advanced DV-Hop algorithm has lesser correction factor in the distance between anchor and the unknown node compared with DV-Hop algorithm, improved DV-Hop algorithm (Chen et al. 2008) and improved DV-Hop algorithm (Chen et al. in IEICE Trans Fundam E91-A(8), 2008), which is cause of better location accuracy. Simulation results show that the performance of our proposed algorithm is superior to DV-Hop algorithm and improved DV-Hop algorithms in all considered scenarios.     

Power efficient range-free localization algorithm for wireless sensor networks

Considering energy consumption, hardware requirements, and the need of high localization accuracy, we proposed a power efficient range-free localization algorithm for wireless sensor networks. In the proposed algorithm, anchor node communicates to unknown nodes only one time by which anchor nodes inform about their coordinates to unknown nodes. By calculating hop-size of anchor nodes at unknown nodes one complete communication between anchor node and unknown node is eliminated which drastically reduce the energy consumption of nodes. Further, unknown node refines estimated hop-size for better estimation of distance from the anchor nodes. Moreover, using average hop-size of anchor nodes, unknown node calculates distance from all anchor nodes. To reduce error propagation, involved in solving for location of unknown node, a new procedure is adopted. Further, unknown node upgrades its location by exploiting the obtained information in solving the system of equations. In mathematical analysis we prove that proposed algorithm has lesser propagation error than distance vector-hop (DV-Hop) and other considered improved DV-Hop algorithms. Simulation experiments show that our proposed algorithm has better localization performance, and is more computationally efficient than DV-Hop and other compared improved DV-Hop algorithms.     

一种基于误差距离加权与跳段算法选择的遗传优化DV-Hop定位算法

针对Distance Vector-Hop (DV-Hop) 定位算法存在较大定位误差的问题,该文提出了一种基于误差距离加权与跳段算法选择的遗传优化DV-Hop定位算法,即WSGDV-Hop定位算法。改进算法用基于误差与距离的权值处理锚节点的平均每跳距离;根据判断的位置关系选择适合的跳段距离计算方法;用改进的遗传算法优化未知节点坐标。仿真结果表明,WSGDV-Hop定位算法的性能明显优于Distance Vector-Hop (DV-Hop) 定位算法,减小了节点定位误差、提高了算法定位精度。     

Novel DV-Hop localization algorithm for wireless sensor networks

Many improved DV-Hop localization algorithm have been proposed to enhance the localization accuracy of DV-Hop algorithm for wireless sensor networks. These proposed improvements of DV-Hop also have some drawbacks in terms of time and energy consumption. In this paper, we propose Novel DV-Hop localization algorithm that provides efficient localization with lesser communication cost without requiring additional hardware. The proposed algorithm completely eliminates communication from one of the steps by calculating hop-size at unknown nodes. It significantly reduces time and energy consumption, which is an important improvement over DV-Hop—based algorithms. The algorithm also uses improvement term to refine the hop-size of anchor nodes. Furthermore, unconstrained optimization is used to achieve better localization accuracy by minimizing the error terms (ranging error) in the estimated distance between anchor node and unknown node. Log-normal shadowing path loss model is used to simulate the algorithms in a more realistic environment. Simulation results show that the performance of our proposed algorithm is better when compared with DV-Hop algorithm and improved DV-Hop—based algorithms in all considered scenarios.     

航天发射场电力传输线WSN定位算法与仿真

为了准确、快速地查找航天发射场电力传输线故障的位置,在电力传输线上安装传感器用于故障定位。由于这些传感器呈线性分布,所以采用传统的DV-Hop算法进行传感器节点定位时,会导致定位失效。为此,提出一种改进的DV-Hop定位算法,该算法将电力传输线上的传感器等间距分布,计算最小跳步获得未知节点到信标节点的物理距离,采用双曲线定位算法求解出未知节点的坐标位置。最后,通过应用仿真,结果表明：改进的DV-HOP算法比传统的其他传感器定位算法的定位精确度高,且性能更加稳定,能够实现发射场电力传输线故障的快速、准确定位。     

Unconstrained Face Detection of Multiple Humans Present in the Video

Accurate and fast localization of randomly deployed sensor nodes is needed for many applications in wireless sensor networks. Localization also benefits in recognizing the geographically area where an event took place. There is no meaning of any event information without the knowledge of its location coordinates. DV-Hop is one of the main range free localization technique, which estimates the position of nodes using distance vector. Particle swarm optimization is suitable for the localization issues because of its fast computing speed and high precision. To further reduce the positioning error, the traditional DV-Hop localization algorithm based on single objective optimization algorithm is converted into a multi objective optimization algorithm. In our proposed scheme, we have considered six different single objective functions and three different multi objective functions. In this paper, a multi objective particle swarm optimization based DV-Hop localization is proposed in 3-dimensional wireless sensor networks. The proposed functions has been evaluated on the basis of computation time, average localization error and localization error variance. The simulation results show that our proposed multi objective function performs better as compared to traditional single objective function.

     

一种基于加权处理的无线传感器网络平均跳距离估计算法

定位技术是无线传感器网络的关键技术之一,传统DV-Hop定位算法只考虑了最近一个锚节点估计的平均跳距离值,而单个锚节点估计的平均跳距离值无法准确地反映网络的实际平均跳距离。本文提出了一种基于加权处理的平均跳距离估计算法,考虑多个锚节点估计的平均跳距离值,根据距离未知节点的跳数进行加权,使网络平均跳距离的估计更加准确,从而提高定位精度。仿真结果表明,与DV-Hop算法的平均跳距离估计算法相比,本文算法更准确地估计平均跳距离,降低了均方根误差,并提高了定位精度。     

DV-Hop定位算法在随机传感器网络中的应用研究

DV-Hop节点定位算法是一种重要的与距离无关的定位算法。在各向同性的密集网络中,DV-Hop可以得到比较合理的定位精度,然而在随机分布的网络中,节点定位误差较大。该文根据DV-Hop算法定位过程,在平均每跳距离估计、未知节点到各参考节点之间距离的计算和节点位置估计方法等3个方面进行了改进,分析和仿真了不同改进措施和综合改进的定位性能。结果表明,与有关方法相比,该文提出的改进措施可极大地提高节点定位精度。此外,该文改进措施不改变DV-Hop算法的定位过程,因此不需要增加网络通信量和额外硬件支持,是理想的与距离无关算法。     

WSN中基于最佳指数的加权DV-Hop算法

DV-Hop算法是一种低成本、低定位精度的无需测距定位算法,在粗精度定位中应用广泛。为提高DV-Hop算法定位精度,从减小锚节点的平均每一跳距离误差和减小未知节点平均每一跳校正值误差两方面考虑。首先,用最佳指数值下的公式计算锚节点平均每一跳距离。然后,将未知节点的校正值加权处理,使所有的锚节点根据与未知节点距离的远近影响校正值的大小。MATLAB实验证明,改进的基于最佳指数值下的加权DV-Hop算法比DV-Hop算法、加权DV-Hop、最佳指数值下DV-Hop算法定位精度分别提高2%左右、1.65%左右、1.15%左右,同时不会增加网络硬件成本。     

水下光无线传感器网络的连接性分析与定位技术

针对水下光无线传感器网络(UOWSN)节点的传输范围受限和间歇性连接的问题,利用多跳通信扩大传输范围来增强网络连接性,提出一种网络节点定位算法.首先,将UOWSN建模为三维(3D)随机缩放模型图,并根据网络节点数、通信范围以及光发散角推导了该模型下网络节点的连接性概率表达式;然后,利用接收信号强度(RSS)定位算法修正...