Scene based non-uniformity correction in thermal images using Kalman filter

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摘要

Thermal array detectors, also known as focal-plane arrays (FPA), are a rapidly developing technology and are used in a variety of civil, medical and military applications. The detectors, which are sensitive to radiation in the infrared band, output a high resolution low noise thermal picture. The existence of non-uniformities in the responsitivity of the element array is a severe problem typical to FPA. These non-uniformities result in a fixed pattern “curtain”-like feature that appear in the image. One of the most common methods to correct non-uniformity is the use of a uniform reference target. This type of non-uniformity correction has a number of disadvantages. The work presented in this paper proposes a new method to calibrate a thermal detector. The proposed correction method is scene based, relying only on the camera’s captured video sequence. The algorithm utilizes redundant information achieved from the thermal camera’s high sample rate, combined with the camera’s motion. The proposed correction algorithm contains two steps: (1) Application of frame registration that compensates for the camera motion. The registration process matches two consecutive frames and produces a residual (difference) frame. Here, we use well-known techniques. (2) Definition of the calibration parameters as a system of linear equations that is solved with the use of a Kalman filter. The Kalman filter tracks the value of each element specific responsitivity value (unknown) through time. Extensive experimental results demonstrate the success of the proposed scheme. The proposed algorithm necessitates modest computational power (ran on a PC with a Pentium III 550 MHz processor) due to the sparsity of the involved matrices.

论文关键词:Focal-plane array,Thermal picture,Detection and correction of non-uniformities,Kalman filter

论文评审过程:Received 13 January 2005, Revised 31 March 2006, Accepted 31 May 2006, Available online 10 July 2006.

论文官网地址:https://doi.org/10.1016/j.imavis.2006.05.019