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A real-time implementation of Richardson-Lucy deconvolution
Source International Symposium on Field Programmable Gate Arrays archive
Proceedings of the 2006 ACM/SIGDA 14th international symposium on Field programmable gate arrays table of contents
Monterey, California, USA
POSTER SESSION: Applications table of contents
Pages: 232 - 232  
Year of Publication: 2006
ISBN:1-59593-292-5
Authors
Oliver Sims  Institute for System Level Integration, Alba Campus, Livingston, Scotland, UK
James Irvine  University of Strathclyde, Glasgow, Scotland, UK
Sponsors
ACM: Association for Computing Machinery
SIGDA: ACM Special Interest Group on Design Automation
Publisher
ACM  New York, NY, USA
Bibliometrics
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ABSTRACT

Deconvolution is an important technique in image processing that may be used to recover images that have been subjected to a blurring process, usually caused by atmospheric effects or limitations of the image capturing equipment. Noise in the image data means that the problem is ill-posed, and thus mathematically complex statistical estimation techniques must be employed. This complexity, and the high throughput levels required for video data, renders a real-time software implementation unfeasible, however the parallelism of FPGA devices makes them an ideal medium. In this paper an FPGA implementation of an accelerated Richardson-Lucy deconvolution algorithm will be presented. The design uses multistage separable filters as a hardware efficient means of implementing the several large 2D convolutions that are required. The results show that real-time full scene deconvolution is viable with today's FPGA technology.


INDEX TERMS

Primary Classification:
  B. Hardware

Additional Classification:
  B. Hardware
  B.7 INTEGRATED CIRCUITS
      B.7.1 Types and Design Styles
          Subjects: Algorithms implemented in hardware

Collaborative Colleagues:
Oliver Sims: colleagues
James Irvine: colleagues

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