Focal spot deblurring for high resolution direct conversion x-ray detectors
暂无分享,去创建一个
Small pixel high resolution direct x-ray detectors have the advantage of higher spatial sampling and decreased blurring characteristic. The limiting factors for such systems becomes the degradation due to the focal spot size. One solution is a smaller focal spot; however, this can limit the output of the x-ray tube. Here a software solution of deconvolving with an estimated focal spot blur is presented. To simulate images from a direct detector affected with focal-spot blur, first a set of high-resolution stent images (FRED from Microvention, Inc., Tustin, CA) were acquired using a 75μm pixel size Dexela-Perkin-Elmer detector and frame averaged to reduce quantum noise. Then the averaged image was blurred with a known Gaussian blur. To add noise to the blurred image a flat-field image was multiplied with the blurred image. Both the ideal and the noisy-blurred images were then deconvolved with the known Gaussian function using either threshold-based inverse filtering or Weiner deconvolution. The blur in the ideal image was removed and the details were recovered successfully. However, the inverse filtering deconvolution process is extremely susceptible to noise. The Weiner deconvolution process was able to recover more of the details of the stent from the noisy-blurred image, but for noisier images, stent details are still lost in the recovery process.
[1] A. Saberi,et al. Inverse filtering and deconvolution , 2001 .
[2] Geoffrey Dougherty,et al. The point spread function revisited: image restoration using 2-D deconvolution , 2001 .
[3] Karim S. Karim,et al. A study of factors limiting spatial resolution using a 25 micron pixel pitch direct-detection amorphous selenium imaging system , 2012, Medical Imaging.