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Technical Note: The nearest neighborhood-based approach for estimating basis line-integrals using photon-counting detector

Title
Technical Note: The nearest neighborhood-based approach for estimating basis line-integrals using photon-counting detector
Author(s)
Nam, JeonghyeonLee, Okkyun
Issued Date
2021-10
Citation
Medical Physics, v.48, no.10, pp.6531 - 6535
Type
Article
Author Keywords
k-d treemaximum likelihoodnearest neighborphoton-counting detector
Keywords
Photon counting detectorsRegion of interestX-ray computed tomographyX ray detectorsCalibrationComputerized tomographyImage segmentationMaximum likelihood estimationPhotonsTrees (mathematics)Calibration measurementsComputationally efficientMaximum likelihood estimatorNearest neighborhoodNearest neighbors
ISSN
0094-2405
Abstract
Purpose: This study aims to develop a calibration-based estimator for the photon-counting detector (PCD)-based x-ray computed tomography. Methods: We propose the nearest neighborhood (NN)-based estimator, which searches for the nearest calibration data for a given PCD output and sets the associated basis line-integrals as the estimate. Searching for the nearest neighbors can be accelerated using the pre-calculated k-d tree for the data. Results: The proposed method is compared to the model-based maximum likelihood (ML) estimator. For slab phantom study, both ML and NN-based methods achieve the Cramér-Rao lower bound and are unbiased for various combinations of three basis materials (water, bone, and gold). The proposed method is also validated for K-edge imaging and presents almost unbiased Au concentrations in the region of interest. Conclusions: The proposed NN-based method is demonstrated to be as accurate as the model-based ML estimator, but it is computationally efficient and requires only calibration measurements. © 2021 American Association of Physicists in Medicine
URI
http://hdl.handle.net/20.500.11750/15489
DOI
10.1002/mp.14920
Publisher
American Association of Physicists in Medicine
Related Researcher
  • 이옥균 Lee, Okkyun
  • Research Interests Diffuse optical tomography; Functional brain imaging; Compressed sensing; Photon counting CT
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Appears in Collections:
Department of Robotics and Mechatronics Engineering Next-generation Medical Imaging Lab 1. Journal Articles

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