Gradient Iteration Regularization to Solve Radio Tomographic Imaging Model in UHF RFID Scenarios

2021 IEEE International Conference on RFID Technology and Applications (RFID-TA) Pub Date : 2021-10-06 DOI:10.1109/RFID-TA53372.2021.9617256

Bobo Wang, Yongtao Ma, Xiuyan Liang

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Abstract

Radio tomographic imaging (RTI) is one of potential device-free localization (DFL) technologies. Solving RTI model is an ill-posed problem that the number of measurements is less than pixels in a reconstruction image. Currently, the Tikhonov regularization based least square method (TRLS) is used to handle the problem, but its artificial regularization parameter disturbs initial RTI model and results in low localization accuracy. Gradient iteration regularization method (GIRM) is proposed to solve RTI model and has the advantages of high accuracy, low storage cost, good convergence and high stability. Unlike the TRLS, it uses mathematical deviation to obtain its parameter required for the solution and adopts several iterations to further weaken the influence of the parameter on the model. The image processing eliminates false targets and artifacts in a reconstruction image to obtain the number and the locations of real targets. Simulation shows that the localization performance of proposed method is higher than TRLS.

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梯度迭代正则化求解UHF RFID场景下的射频层析成像模型

射频层析成像(RTI)是一种很有潜力的无设备定位技术。求解RTI模型是一个测量值小于重建图像像素的不适定问题。目前，基于Tikhonov正则化的最小二乘法(TRLS)用于定位，但其人为正则化参数会干扰初始RTI模型，导致定位精度较低。提出了求解RTI模型的梯度迭代正则化方法(GIRM)，该方法具有精度高、存储成本低、收敛性好、稳定性高等优点。与TRLS不同的是，它利用数学偏差来获得解所需的参数，并通过多次迭代来进一步削弱参数对模型的影响。图像处理去除重建图像中的假目标和伪影，得到真实目标的数量和位置。仿真结果表明，该方法的定位性能优于TRLS。

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2021 IEEE International Conference on RFID Technology and Applications (RFID-TA)

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