References

 

ICRP, 2016. Occupational Intakes of Radionuclides: Part 2. ICRP Publication 134. Ann. ICRP 45(3/4), 1–352. (Authors on behalf of ICRP: F. Paquet, M.R. Bailey, R.W. Leggett, J. Lipsztein, T.P. Fell,T. Smith, D. Nosske, K.F. Eckerman, V. Berkovski, E. Ansoborlo,A. Giussani, W.E. Bolch, J.D. Harrison)

 

ICRP, 2017. Occupational Intakes of Radionuclides: Part 3. ICRP Publication 137. Ann. ICRP 46(3/4). (Authors on behalf of ICRP: F. Paquet, M.R. Bailey, R.W. Leggett, J. Lipsztein, J. Marsh, T.P. Fell, T. Smith, D. Nosske, K.F. Eckerman, V. Berkovski, E. Blanchardon, D. Gregoratto, J.D. Harrison)

 

ICRP, 2019. Occupational Intakes of Radionuclides: Part 4. ICRP Publication 141. Ann. ICRP 48(2-3). (Authors on behalf of ICRP: F. Paquet, M.R. Bailey, R.W. Leggett, G. Etherington, E. Blanchardon, T. Smith, G. Ratia, T.P. Fell, V. Berkovski, J.D. Harrison)

 

 

Summary

 

 

The new version IDEAplus has adopted the most recent ICRP Recommendations as published in the OIR series (ICRP Publications 134, 137 and 141).

 

The application of the new biokinetical models and the respective biokinetic functions and dose coeffizients results in a further improvement of both the precision and accuracy of internal dose assessment.

 

IDEAplus provides the following innovations:

  

 

More isotopes

 

More organs and tissues

 

Gender specific dose coefficients

 

More biokinetic functions

 

Improved time scale

 

Improved biokinetic models

 

Exploration of new monitoring procedures

 

 

Of course, the new version IDEAplus provides also all approved features of the last version of the IDEA software (Version MV-03.6.7).

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 


 

 

Prof. Dr.-Ing. Hans Richard Doerfel

IDEA System GmbH, Am Burgweg 4, D-76227 Karlsruhe, Germany.

E-Mail: info@idea-system.com