eprintid: 4274 rev_number: 5 eprint_status: archive userid: 351 dir: disk0/00/00/42/74 datestamp: 2016-01-15 02:05:09 lastmod: 2021-08-27 17:35:56 status_changed: 2016-01-15 02:05:09 type: article metadata_visibility: show item_issues_count: 1 creators_name: Morita, T. creators_name: Matsuoka, Y. creators_name: Kainuma, M. creators_id: 1586 title: Development of an integrated model (AIM) to assess policy options for stabilizing global climate ispublished: pub internal_subjects: iis_env internal_subjects: iis_cli internal_subjects: iis_mod internal_subjects: iis_met divisions: prog_mda abstract: The Asian-Pacific Integrated Model (AIM) is a large-scale computer simulation model for assessing policy options to stabilize global climate, particularly in the Asian-Pacific region, from the two perspectives of reducing greenhouse emissions and avoiding the impacts of climate change. AIM is comprised of three linked models : an emission model, a climate model and an impact model. A major part of the emission model is the energy modules for estimating greenhouse gases (GHG) caused by fossil fuel combustions. In the modules, more than 100 technologies are evaluated for their potential to improve energy efficiency and for energy demand estimates at country level, and these are linked to a top-down economic model at global level. The climate model was created by developing original linkages to join several modules such as atmospheric reaction, ocean uptake, carbon cycle, radiative forcing and feedbacks for determining GHG concentrations and climatic changes. The impact model has a spatial water balance model, an ecological matching model, a food production model and a malaria distribution model, so that the increased risks of droughts, flood, vegetation changes, agricultural damages and molarias can be assessed. date: 1995 date_type: published publisher: CiNii iiasapubid: XJ-95-059 iiasa_bibref: Simulation; 14(1):4-11 [1995] iiasa_bibnotes: [in Japanese] creators_browse_id: 1351 full_text_status: none publication: Journal of the Japan Society for Simulation Technology volume: 14 number: 1 pagerange: 4-11 refereed: TRUE issn: 0285-9947 coversheets_dirty: FALSE fp7_type: info:eu-repo/semantics/article citation: Morita, T., Matsuoka, Y., & Kainuma, M. (1995). Development of an integrated model (AIM) to assess policy options for stabilizing global climate. Journal of the Japan Society for Simulation Technology 14 (1) 4-11.