Results 71 - 80 of 2310
[RESULT IN BRIEF] Mejorar las mediciones de la dosis interna personalizada
El proyecto IDEA, financiado en el marco del Programa Euratom de Investigación y Formación, validó la herramienta de software OEDIPE - acrónimo francés de "herramienta para evaluar la dosis interna personalizada" - para el recuento corporal total y el control de los niveles bajos de energía.
Programme: FP5-EAECTP C
Record Number: 83104
Last updated on: 2006-12-11
[RESULT IN BRIEF] Improving measurements of personalised internal dose
The IDEA project, which was funded within the Euratom Research and Training Programme, validated the OEDIPE software tool - the French acronym stands for "tool for assessment of personalised internal dose" - for whole body counting and low energy monitoring.
Programme: FP5-EAECTP C
Record Number: 83104
Last updated on: 2006-12-11
[RESULT IN BRIEF] Amélioration des mesures de la dose interne perso
Le projet IDEA, financé dans le cadre du programme Euratom Research and Training, a validé l'outil logiciel OEDIPE - acronyme français pour "outil d'évaluation de la dose interne personnalisée" - pour le comptage du corps entier et la surveillance des radiations à faible énergie.
Programme: FP5-EAECTP C
Record Number: 83104
Last updated on: 2006-12-11
[RESULT IN BRIEF] Migliorare la misurazione della dose interna personalizzata
Il progetto IDEA, finanziato nell'ambito del programma Euratom di ricerca e formazione, ha validato lo strumento software di valutazione della dose interna personalizzata OEDIPE (acronimo dal francese Outil de simulation de la mesure anthroporadiamétrique) per il radiametro biologico ad analizzatore di ampiezza e il monitoraggio a bassa energia.
Programme: FP5-EAECTP C
Record Number: 83104
Last updated on: 2006-12-11
[REPORT SUMMARY] Using OEDIPE for creation of VOXEL phantoms
The radiation safety of atomic industry personnel handling radionuclides, Fission and Activation Products (FAP), actinides, etc., inevitably involves radiation monitoring and internal exposure control. The specialized techniques of individual monitoring used at atomic enterpri...
Programme: FP5-EAECTP C
Record Number: 39501
Last updated on: 2006-02-28
[REPORT SUMMARY] Mathematical calibration of a whole body counter
The Application of MIRD phantoms in whole body counting in the scanning geometry.
To introduce computer supported calibration techniques the measurements of bottle phantoms filled with a Ho-166m and Co-60 solution on a whole body counter in scan geometry have been compared to...
Programme: FP5-EAECTP C
Record Number: 39504
Last updated on: 2006-02-28
[REPORT SUMMARY] Implementation of bioassay methods to improve assessment of incorporated radionuclides
The work which was carried out within the work package "bioassay" shall provide commonly acceptable guidelines for optimum performance of inductively coupled plasma mass spectrometry (ICP-MS) measurements with main focus on urinary measurements of uranium, thorium and actinide...
Programme: FP5-EAECTP C
Record Number: 39502
Last updated on: 2006-02-28
[PROJECT] IDEA - Internal dosimetry - enhancements in application
ID: FIKR-CT-2001-00164
Start date: 2002-01-01, End date: 2005-06-30
Workers in the nuclear industry and members of the general public are exposed to ionising radiation, both from sources external to their bodies as to radionuclides incorporated into their bodies. The monitoring of such internal radiation exposure is less accurate and more tedi...
Programme: FP5-EAECTP C
Record Number: 60099
Last updated on: 2003-04-01
[RESULT IN BRIEF] Optimierte Kalibrierung bei der In-vivo-Radioaktivitätsüberwachung
Um die Genauigkeit und Geschwindigkeit von Kontrollverfahren für die interne Strahlenexposition zu optimieren, wurden im Rahmen des IDEA-Projekts Computersimulationen untersucht, bei denen geeignete Phantome für die Ganzkörperzählung in der Scannergeometrie verwendet werden.
Programme: FP5-EAECTP C
Record Number: 83064
Last updated on: 2006-11-27
[RESULT IN BRIEF] Improving calibration for in-vivo radioactivity monitoring
Aiming at improving the accuracy and speed of internal exposure monitoring techniques, the IDEA project studied computer simulations using suitable phantoms on whole body counting in the scanning geometry.
Programme: FP5-EAECTP C
Record Number: 83064
Last updated on: 2006-11-27
List retrieved on: 2017-08-02
