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Computer codes in nuclear safety, radiation transport and dosimetry; Les codes de calcul en radioprotection, radiophysique et dosimetrie

Abstract

The purpose of this conference was to describe the present state of computer codes dedicated to radiation transport or radiation source assessment or dosimetry. The presentations have been parted into 2 sessions: 1) methodology and 2) uses in industrial or medical or research domains. It appears that 2 different calculation strategies are prevailing, both are based on preliminary Monte-Carlo calculations with data storage. First, quick simulations made from a database of particle histories built though a previous Monte-Carlo simulation and secondly, a neuronal approach involving a learning platform generated through a previous Monte-Carlo simulation. This document gathers the slides of the presentations.
Publication Date:
Jul 01, 2006
Product Type:
Conference
Report Number:
INIS-FR-6955
Resource Relation:
Conference: 3. meeting dedicated to computer codes in nuclear safety, radiation transport and dosimetry, 3. rencontre consacree aux codes de calcul en radioprotection, radiophysique et dosimetrie, Saclay INSTN (France), 28-29 Nov 2006
Subject:
61 RADIATION PROTECTION AND DOSIMETRY; COMPUTER CODES; COMPUTERIZED SIMULATION; DOSIMETRY; MONTE CARLO METHOD; RADIATION DOSE DISTRIBUTIONS; RADIATION TRANSPORT; USES
OSTI ID:
20975267
Research Organizations:
Societe Francaise de Radioprotection (SFRP), 92 - Fontenay aux Roses (France)
Country of Origin:
France
Language:
French
Other Identifying Numbers:
TRN: FR0702133005126
Availability:
Available from INIS in electronic form
Submitting Site:
FRN
Size:
642 pages
Announcement Date:
Feb 06, 2008

Citation Formats

Bordy, J M, Kodeli, I, Menard, St, Bouchet, J L, Renard, F, Martin, E, Blazy, L, Voros, S, Bochud, F, Laedermann, J P, Beaugelin, K, Makovicka, L, Quiot, A, Vermeersch, F, Roche, H, Perrin, M C, Laye, F, Bardies, M, Struelens, L, Vanhavere, F, Gschwind, R, Fernandez, F, Quesne, B, Fritsch, P, Lamart, St, Crovisier, Ph, Leservot, A, Antoni, R, Huet, Ch, Thiam, Ch, Donadille, L, Monfort, M, Diop, Ch, and Ricard, M. Computer codes in nuclear safety, radiation transport and dosimetry; Les codes de calcul en radioprotection, radiophysique et dosimetrie. France: N. p., 2006. Web.
Bordy, J M, Kodeli, I, Menard, St, Bouchet, J L, Renard, F, Martin, E, Blazy, L, Voros, S, Bochud, F, Laedermann, J P, Beaugelin, K, Makovicka, L, Quiot, A, Vermeersch, F, Roche, H, Perrin, M C, Laye, F, Bardies, M, Struelens, L, Vanhavere, F, Gschwind, R, Fernandez, F, Quesne, B, Fritsch, P, Lamart, St, Crovisier, Ph, Leservot, A, Antoni, R, Huet, Ch, Thiam, Ch, Donadille, L, Monfort, M, Diop, Ch, & Ricard, M. Computer codes in nuclear safety, radiation transport and dosimetry; Les codes de calcul en radioprotection, radiophysique et dosimetrie. France.
Bordy, J M, Kodeli, I, Menard, St, Bouchet, J L, Renard, F, Martin, E, Blazy, L, Voros, S, Bochud, F, Laedermann, J P, Beaugelin, K, Makovicka, L, Quiot, A, Vermeersch, F, Roche, H, Perrin, M C, Laye, F, Bardies, M, Struelens, L, Vanhavere, F, Gschwind, R, Fernandez, F, Quesne, B, Fritsch, P, Lamart, St, Crovisier, Ph, Leservot, A, Antoni, R, Huet, Ch, Thiam, Ch, Donadille, L, Monfort, M, Diop, Ch, and Ricard, M. 2006. "Computer codes in nuclear safety, radiation transport and dosimetry; Les codes de calcul en radioprotection, radiophysique et dosimetrie." France.
@misc{etde_20975267,
title = {Computer codes in nuclear safety, radiation transport and dosimetry; Les codes de calcul en radioprotection, radiophysique et dosimetrie}
author = {Bordy, J M, Kodeli, I, Menard, St, Bouchet, J L, Renard, F, Martin, E, Blazy, L, Voros, S, Bochud, F, Laedermann, J P, Beaugelin, K, Makovicka, L, Quiot, A, Vermeersch, F, Roche, H, Perrin, M C, Laye, F, Bardies, M, Struelens, L, Vanhavere, F, Gschwind, R, Fernandez, F, Quesne, B, Fritsch, P, Lamart, St, Crovisier, Ph, Leservot, A, Antoni, R, Huet, Ch, Thiam, Ch, Donadille, L, Monfort, M, Diop, Ch, and Ricard, M}
abstractNote = {The purpose of this conference was to describe the present state of computer codes dedicated to radiation transport or radiation source assessment or dosimetry. The presentations have been parted into 2 sessions: 1) methodology and 2) uses in industrial or medical or research domains. It appears that 2 different calculation strategies are prevailing, both are based on preliminary Monte-Carlo calculations with data storage. First, quick simulations made from a database of particle histories built though a previous Monte-Carlo simulation and secondly, a neuronal approach involving a learning platform generated through a previous Monte-Carlo simulation. This document gathers the slides of the presentations.}
place = {France}
year = {2006}
month = {Jul}
}