Min‐Cheng Pan scite author profile

We propose and implement three-dimensional (3-D) ring-scanning equipment for near-infrared (NIR) diffuse optical imaging to screen breast tumors under prostrating examination. This equipment has the function of the radial, circular, and vertical motion without compression of breast tissue, thereby achieving 3-D scanning; furthermore, a flexible combination of illumination and detection can be configured for the required resolution. Especially, a rotation-sliding-and-moving mechanism was designed for the guidance of source-and detectionchannel motion. Prior to machining and construction of the system, a synthesized image reconstruction was simulated to show the feasibility of this 3-D NIR ring-scanning equipment; finally, this equipment is verified by performing phantom experiments. Rather than the fixed configuration, this addressed screening/diagnosing equipment has the flexibilities of optical-channel expansion for spatial resolution and the dimensional freedom for scanning in reconstructing optical-property images. Downloaded From: http://opticalengineering.spiedigitallibrary.org/ on 08/17/2015 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx d DC, direct current NIR; FD, frequency domain (or amplitude modulated) NIR; TD, time domain (or pulsed) NIR. Optical Engineering 073107-2 July 2015 • Vol. 54(7) Yu et al.: Design and implementation of three-dimensional ring-scanning equipment for optimized. . . Downloaded From: http://opticalengineering.spiedigitallibrary.org/ on 08/17/2015 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx

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Efficient method for improving Poisson MAP super-resolution

Pan¹,

Lettington

1999

Electron. Lett.

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A novel blind super‐resolution technique based on the improved Poisson maximuma posteriorialgorithm

Pan

2002

Int J Imaging Syst Tech

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Image restoration has received considerable attention. In many practical situations, unfortunately, the blur is often unknown, and little information is available about the true image. Therefore, the true image is identified directly from the corrupted image by using partial or no information about the blurring process and the true image. In addition, noise will be amplified to induce severely ringing artifacts in the process of restoration. This article proposes a novel technique for the blind super-resolution, whose mechanism alternates between de-convolution of the image and the point spread function based on the improved Poisson maximum a posteriori superresolution algorithm. This improved Poisson MAP super-resolution algorithm incorporates the functional form of a Wiener filter into the Poisson MAP algorithm operating on the edge image further to reduce noise effects and speed restoration. Compared with that based on the Poisson MAP, the novel blind super-resolution technique presents experimental results from 1-D signals and 2-D images corrupted by Gaussian point spread functions and additive noise with significant improvements in quality.

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Artificial Neural Networks-Based Diffuse Optical Tomography

Pan

Hong

Chen

et al. 2010

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Min‐Cheng Pan

Visualized numerical assessment for near infrared diffuse optical tomography with contrast-and-size detail analysis

Design and implementation of three-dimensional ring-scanning equipment for optimized measurements of near-infrared diffuse optical breast imaging

Efficient method for improving Poisson MAP super-resolution

A novel blind super‐resolution technique based on the improved Poisson maximuma posteriorialgorithm

Artificial Neural Networks-Based Diffuse Optical Tomography

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