Environmental Engineering Reference
In-Depth Information
Belhouchette, J., Wery, J., Therond, O., Duru, M., Bigot, G., et al. (2006b). The major characteristics
of environmental policies and agro-ecological technologies to be studied in Test case 2 .
SEAMLESS Rep. No.13, SEAMLESS Integrated Project, EU 6th Framework Programme,
contract no. 010036-2, www.SEAMLESS-IP.org , 87 p.
Boehm, B. W. (1981). Software engineering economics . Englewood Cliffs, NJ: Prentice Hall.
Boehm, B.W. (1988). A spiral model of software development and enhancement. Computer , May ,
61-72.
Börjeson, L., Hojer, M., Dreborg, K. H., Ekvall, T., & Finnveden, G. (2006). Scenario types and
techniques: Towards a user's guide. Futures, 38 , 723-739.
Brunner, N., & Starkl, M. (2004). Decision aid systems for evaluating sustainability: A critical
survey. Environmental Impact Assessment Review, 24 , 441-469.
Darses, F. (2002). A cognitive analysis of collective decision-making in the participatory design
process . Participatory Design Conference, Malmö, Sweden.
Darses, F., Détienne, F., & Visser, W. (2004). Les activités de conception et leur assistance.
In P. Falzon (Ed.), Ergonomie (pp. 545-563). Paris: PUF.
Dieste, O., Genero, M., Juristo, N., Mate, J. L., & Moreno, A. M. (2003). A conceptual model
completely independent of the implementation paradigm. Journal of Systems and Software, 68 ,
183-198.
Finlay, P. N., & Wilson, J. M. (1991). Validation for decision support systems: Recent developments
and findings. Systems Practice, 4 , 599-610.
Gabbert, S., Van Ittersum, M., Ewert, F., Kroeze, C., Stalpers, S. & Alkan-Olsson, J., (2009).
Uncertainty information in Integrated Assessment: The users' perspective. Regional
Environmental Change , in press.
Harris, G. (2002). Integrated assessment and modelling: An essential way of doing science.
Environmental Modelling and Software, 17 , 201-207.
Jakeman, A. J., Letcher, R. A., & Norton, J. P. (2006). Ten iterative steps in development and
evaluation of environmental models. Environmental Modelling and Software, 21 , 602-614.
Langvad, A. M., & Noe, E. (2006). (Re-)innovating tools for decision-support in the light of farmers'
various strategies. In H. Langeveld & N. Röling (Eds.), Changing European farming systems for
a better future - new visions for rural areas (pp. 335-339). The Netherlands: Wageningen.
Lopez, M. (2003). Application of an evaluation framework for analyzing the architecture tradeoff
analysis methodSM. Journal of Systems and Software, 68 , 233-241.
Louhichi, K., Belhouchette, H., Flichman, G., Therond, O., & Wery, J. (2008). Application of
FSSIM in two test case regions to assess agro-environmental policies at farm and regional
level, PD6.3.2.2 . SEAMLESS Integrated Project, EU 6th Framework Programme, contract no.
010036-2, www.SEAMLESS-IP.org , 67 p.
Mosqueira-Rey, E., & Moret-Bonillo, V. (2000). Validation of intelligent systems: A critical study
and a tool. Expert Systems with Applications, 18 , 1-16.
Oreskes, N., Shrader-Frechette, K., & Belitz, K. (1994). Verification, validation, and confirmation
of numerical models in the earth sciences. Science, 263 , 641-646.
Parker, P., Letcher, R. A., Jakeman, A. J., Beck, M. B., Harris, G., Argent, R. M., et al. (2002). Progress
in integrated assessment and modelling. Environmental Modelling and Software, 17 (3), 209-217.
Pastre, P. (2005). Apprendre par la simulation: de l'analyse du travail aux apprentissages
professionnels . Octares, Collection Formation, 363 p.
Rotmans, J. (1998). Methods for IA: The challenges and opportunities ahead. Environmental
Modeling and Assessment, 3 , 155-179.
Rykiel, E. J., Jr. (1996). Testing ecological models: The meaning of validation. Ecological
Modelling, 90 , 229-244.
SEC (2005). Impact Assessment Guidelines (791) , from http://ec.europa.eu/governance/impact/
docs/SEC2005_791_IA_guidelines_main.pdf
Sharma, M., & Norton, B. G. (2005). A policy decision tool for integrated environmental
assessment. Environmental Science and Policy, 8 , 356-366.
Sinclair, T. R., & Seligman, N. G. (2000). Criteria for publishing papers on crop modeling. Field
Crops Research, 68 , 165-172.
Search WWH ::




Custom Search