Censored data parameter self-adaption estimation method based on information theory learning

A technology of adaptive estimation and learning method, applied in the direction of baseband system components, etc., can solve problems such as satisfying Gaussian distribution

Inactive Publication Date: 2015-09-09
HANGZHOU DIANZI UNIV
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Problems solved by technology

However, in many cases the measurement noise n k,i does not necessarily satisfy the Gaussian distribution

Method used

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  • Censored data parameter self-adaption estimation method based on information theory learning
  • Censored data parameter self-adaption estimation method based on information theory learning
  • Censored data parameter self-adaption estimation method based on information theory learning

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Embodiment 1

[0081] Suppose a sensor network contains K=20 nodes, and the vector w to be estimated 0 is a normalized 5×1 vector (ie ||w 0 || 2 = 1). noise n k,i It is generalized Gaussian noise, that is, the probability density of the noise satisfies f(n)∝exp(-|v| p ), where p is the shape parameter, when 0k,i is super-Gaussian noise (in particular, p=1, n k,i is super Laplacian noise), when p=2, n k,i is Gaussian noise, when p>2, n k,i is sub-Gaussian noise. Define the signal-to-noise ratio as: In addition, the width parameter adopted by the Gaussian kernel function in this method is σ=2. In the following experiments, the present method is compared with MSE-based adaptive methods:

[0082] Experiment 1: In the case of SNR=5dB, calculate the relationship between the mean square estimation error and the iterative cycle i, the results are as attached image 3 It is shown and shown that no matter in super-Gaussian, Gaussian or sub-Gaussian noise environment, the method of the prese...

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Abstract

The invention discloses a censored data parameter self-adaption estimation method based on information theory learning. The invention comprises following steps of 1: designing estimation error functions of censored signals; 2: calculating secondary Renyi entropy of the estimation errors; 3: obtaining local estimation of all node parameters by means of gradient descent; 4: designing weighing coefficient according to local estimation of each node and neighbor node thereof; and 5: exchanging local estimation of the node and the neighbor node and calculating weighing estimation of the node and the neighbor node thereof by use of the weighing coefficient obtained in the step 4. According to the invention, 1) self-adaption estimation of parameters included in the censored data is achieved; 2) collaborative estimation of all nodes of a sensor network is achieved; 3) impacts on estimation performance by signal abnormal values caused by attacks suffered by the network nodes can be effectively reduced; and 4) higher estimation precision can be provided under a gaussian or non-gausssian noise environment.

Description

technical field [0001] The invention belongs to the technical field of statistical signal processing, in particular to an adaptive estimation method of censored data parameters based on information theory learning. Background technique [0002] A sensor network is a distributed network system composed of a large number of sensor nodes, which can collaboratively monitor, perceive and collect physical information of various environments or monitoring objects in the network coverage area in real time, and process and transmit it. Signal parameter estimation is an important application of sensor network. It uses various algorithms to obtain estimates of unknown physical quantities (such as temperature, target orientation, motion speed, etc.) from the measurement values ​​of multiple sensors polluted by noise. The distributed estimation method does not require a central processing unit, and has high reliability and robustness; it reduces the data transmission and processing of th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04L25/02
Inventor 刘兆霆余旺科
Owner HANGZHOU DIANZI UNIV
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