Dierck Hillmann ; with a foreword by Gereon Hüttmann.
--Wiesbaden:
Springer Vieweg
, c2014.
- Available Online
- View e-Book
- Location
- Online
Holoscopy is a new tomographic imaging modality that combines techniques of digital holography with Fourier-domain optical coherence tomography (FD-OCT). Dierck Hillmann gives a theoretical introduction to the mathematics and physics of holoscopy and develops an efficient numerical reconstruction procedure. Compared to FD-OCT, holoscopy provides unique advantages by enabling tomographic imaging without a limited depth of focus, but results in an increased numerical cost for reconstruction. In f…
- Available Online
- View e-Book
- Author
- Hillmann, Dierck
- Responsibility
- Dierck Hillmann ; with a foreword by Gereon Hüttmann
- Place of Publication
- Wiesbaden
- Publisher
- Springer Vieweg
- Date of Publication
- c2014
- Physical Description
- 1 online resource (xvii, 206 pages)
- ISBN
- 9783658064792 (electronic bk.)
- 9783658064785
- Subjects (MeSH)
- Tomography, Optical Coherence
- Subjects (LCSH)
- Optical coherence tomography
- Notes
- Originally presented as author's dissertation, University of Lübeck, 2013.
- Abstract
- Holoscopy is a new tomographic imaging modality that combines techniques of digital holography with Fourier-domain optical coherence tomography (FD-OCT). Dierck Hillmann gives a theoretical introduction to the mathematics and physics of holoscopy and develops an efficient numerical reconstruction procedure. Compared to FD-OCT, holoscopy provides unique advantages by enabling tomographic imaging without a limited depth of focus, but results in an increased numerical cost for reconstruction. In further chapters, the author introduces techniques for FD-OCT that are relevant to holoscopy as well. He demonstrates and compares numerical reconstruction methods for FD-OCT and shows how motion and dispersion artifacts in FD-OCT can be numerically compensated.
- Contents
- Introduction -- Theory -- FD-OCT signal processing using the NFFT [non-equispaced fast Fourier transform] -- Motion and dispersion correction in FD-OCT -- Holoscopy -- Conclusion -- Appendix A. Mathematical supplements -- Appendix B. Resolution in signal processing and optics -- Appendix C. Discretization of the reconstruction.
- Format
- e-Book
- Location
- Online
