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Showing below up to 50 results starting with #201.

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201. Goal programming (GP)‏‎ (10 links)
202. The use of the DSS improved communication among the planning team by providing a framework of the‏‎ (10 links)
203. Basic structure‏‎ (10 links)
204. Need of a moderator function‏‎ (10 links)
205. Category:Decision support system‏‎ (10 links)
206. Dynamic programming‏‎ (10 links)
207. It should be possible to specify the rotation time of a species not only by age but also by target‏‎ (10 links)
208. Use of the DSS has been considered successful by the participating organizations, even though it has‏‎ (10 links)
209. Design‏‎ (10 links)
210. As the core of forest DSS are models describing the development of trees and stands (growth and‏‎ (10 links)
211. The adoption of the collaborative learning method made possible to gradually select the conceptual‏‎ (10 links)
212. MAPSS‏‎ (10 links)
213. Identification‏‎ (10 links)
214. Estonia‏‎ (10 links)
215. Enabling the analyses of several ecosystem services (timber and non-timber resources) in one and the‏‎ (10 links)
216. PractiSFM‏‎ (10 links)
217. Harvesting technology selection‏‎ (10 links)
218. The tracing of the actor network supported the identification of the key actors influencing the collaborative DSS implementation and institutionalization‏‎ (10 links)
219. Utilities‏‎ (10 links)
220. The analysis team used internal prototyping, which helped train the staff and identify possible‏‎ (10 links)
221. From a management perspective, to avoid the complication of testing something new, the models used‏‎ (10 links)
222. The tracing of the current actor network interactions made the group realize that they need a different kind of stakeholders from what they previously thought‏‎ (10 links)
223. Portugal-Supporting a multi stakeholders decision process in a Portuguese National Forest‏‎ (10 links)
224. Requirement of specialized skills can discourage some potential users‏‎ (10 links)
225. Projmgt‏‎ (10 links)
226. The kinds of DSS traditionally used to calculate timber harvest levels are now being used to model‏‎ (10 links)
227. Knowledge Storage‏‎ (10 links)
228. It is necessary to know which data will be use as variables in the models before designing the DSS‏‎ (9 links)
229. Plan the system architecture based on a broad view of future possibilities‏‎ (9 links)
230. Expert System‏‎ (9 links)
231. Prioritization of management strategies‏‎ (9 links)
232. The development of large and enduring systems requires a long term approach‏‎ (9 links)
233. Forest fire‏‎ (9 links)
234. The activation of an iterative process through periodical meetings permitted to all the stakeholders‏‎ (9 links)
235. Artificial Intelligence‏‎ (9 links)
236. The user has to be aware of the possibly large impact that the chosen land indicators and threshold‏‎ (9 links)
237. The choice to develop the system in an Excel environment was based on the status of computer‏‎ (9 links)
238. Modular approach helpful in assisting industry uptake‏‎ (9 links)
239. ForMIS‏‎ (9 links)
240. SifPlan‏‎ (9 links)
241. KUBIK‏‎ (9 links)
242. SADfLOR‏‎ (9 links)
243. Russia‏‎ (9 links)
244. Model building was rapid, it was assembling the data that took by far the most time‏‎ (9 links)
245. Portugal-Pulpwood Supply Chain Planning in a Portuguese integrated Pulp and Paper Company‏‎ (9 links)
246. Lack of proper documentation and support services (manual, website, etc) can severely limit the‏‎ (9 links)
247. DSS‏‎ (9 links)
248. Evaluation‏‎ (9 links)
249. Providing procedures and structure for data flow from selection of field sample, performing field‏‎ (9 links)
250. The definition of standardized and specific criteria for selecting and zoning forest compartment‏‎ (9 links)

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