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Convolution_for_optical_broad-beam_responses_in_scattering_media abstract "Photon transport theories, such as the Monte Carlo method, are commonly used to model light propagation in tissue. The responses to a pencil beam incident on a scattering medium are referred to as Green's functions or impulse responses. Photon transport methods can be directly used to compute broad-beam responses by distributing photons over the cross section of the beam. However, convolution can be used in certain cases to improve computational efficiency.".
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageExternalLink 1997LWCMPBConv.pdf.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageExternalLink mc.html.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageExternalLink mc.
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Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageOutDegree "26".
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageRevisionID "606784240".
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Absorption_(electromagnetic_radiation).
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Analysis_of_algorithms.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Bessel_function.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Big_O_notation.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Category:Scattering_theory.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Convolution.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Convolution_theorem.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Dirac_delta_function.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Fast_Fourier_transform.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Gaussian_beam.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Greens_function.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Impulse_response.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Linearity.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Monte_Carlo_method.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Monte_Carlo_method_for_photon_transport.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Pencil_(optics).
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Radiant_exposure.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Radiative_transfer_equation_and_diffusion_theory_for_photon_transport_in_biological_tissue.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Reflectance.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Superposition_principle.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Time-invariant_system.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Tophat_beam.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Translational_symmetry.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLink Transmittance.
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageWikiLinkText "Convolution for optical broad-beam responses in scattering media".
Convolution_for_optical_broad-beam_responses_in_scattering_media wikiPageUsesTemplate Template:Context.
Convolution_for_optical_broad-beam_responses_in_scattering_media subject Category:Scattering_theory.
Convolution_for_optical_broad-beam_responses_in_scattering_media type Page.
Convolution_for_optical_broad-beam_responses_in_scattering_media type Redirect.
Convolution_for_optical_broad-beam_responses_in_scattering_media comment "Photon transport theories, such as the Monte Carlo method, are commonly used to model light propagation in tissue. The responses to a pencil beam incident on a scattering medium are referred to as Green's functions or impulse responses. Photon transport methods can be directly used to compute broad-beam responses by distributing photons over the cross section of the beam. However, convolution can be used in certain cases to improve computational efficiency.".
Convolution_for_optical_broad-beam_responses_in_scattering_media label "Convolution for optical broad-beam responses in scattering media".
Convolution_for_optical_broad-beam_responses_in_scattering_media sameAs Q5166602.
Convolution_for_optical_broad-beam_responses_in_scattering_media sameAs m.09gmr9f.
Convolution_for_optical_broad-beam_responses_in_scattering_media sameAs Q5166602.
Convolution_for_optical_broad-beam_responses_in_scattering_media wasDerivedFrom Convolution_for_optical_broad-beam_responses_in_scattering_media?oldid=606784240.
Convolution_for_optical_broad-beam_responses_in_scattering_media isPrimaryTopicOf Convolution_for_optical_broad-beam_responses_in_scattering_media.