简介:Basedonthesuccessfulmultimediaexpertsystemsoflonganandcauliflowerplantingtechniques.Thispaperdeeplysummarizesandanalyzestheknowledgefeaturesofagriculturalmultimediaexpertdomainsandvariousrelateddatamodels.Accordingtotherealneedsofagriculturalfield,wedesignandimplementthearchitectureandfunctionsofthesystem,andproposethedesignideasofthehybridknowledgerepresentationandfuzzyreasoninginthearticle.
简介:October25to27,2006,Troyes,Francehttp://www.utt.fr/ieee-sssm06/SponsoredbyServiceSystemsandOrganizationCommittee,IEEESystems,ManandCyberneticsSocietyIEEEThemeServiceisanemergingsectorforeconomicgrowthinthe21stcentury.Itcoversourdailylifeandalmostallindustries,frommedicalcaretotheproductionofhigh-techproducts.Anation'seconomicevolutionhighlyreliesonitsservicesystemsandservicemanagement.Theproductionofaproductinamanufacturingplantmaybeinterruptedbecauseoftheshortageofrequiredcomponentscausedbyanunreliablelogisticsservice.Thelivingstandardofpeopleinacountrymaybedegradedbecauseofitsineffectivemedicalcaresystem.Intheinformationerawheretheindustrializedworldisnolongercharacterizedbyscarcityofmerchandises,serviceandqualityoflifehavebecometheprimaryfocusforsocialandeconomicdevelopment.Giventheincreasingimportance,thecomplexity,andtheinterdisciplinarynatureofservicesystemsandservicemanagement,itisessentialtobringresearchersandprofessionalsfromallrelevantdisciplines(systemtheoryandsystemsengineering,marketingandorganizationalbehavior,logisticsandoperationsmanagement,qualityassurance,informationtechnology,etc)togethertodiscussissuesandsharetheirresearchanddevelopmentresultsandexperiencesintheareasofservicesystemsandservicemanagement,inordertodevelopinnovativeandadvancedconcepts,strategies,systemdesignandoperationsmanagementmethodsforthe21stcentury'sservice.Authorsareinvitedtosubmittheir
简介:Wepresentasimulationrunallocationschemeforimprovingefficiencyinsimulationexperimentsfordecisionmakingunderuncertainty.ThisschemeiscalledOptimalComputingBudgetAllocation(OCBA).OCBAadvancesthestate-of-the-artbyintelligentlyallocatingacomputingbudgettothecandidatealternativesunderevaluation.Thebasicideaistospendlesscomputationaleffortonsimulatingnon-criticalalternativestosavecomputationcost.Inparticular,OCBAisemployedtointelligentlyprovidethesmallestnumberofsimulationrunsforadesiredaccuracy.Inthispaper,wepresentanewandmoregeneralOCBAschemewhichcanconsidercasesthatusersareinterestednotonlythebestdesign,butalsoanyoneinagooddesignset.Inaddition,thispaperalsopresentstheapplicationofourOCBAtoadesignprobleminUSairtrafficmanagement.ThenationalairtrafficsysteminUSismodeledasalarge,complex,andstochasticnetwork.Thenumericalexamplesshowthatthecomputationtimecanbereducedby54%to88%withtheuseofOCBA.
简介:Inthispaperthroughthecomprehensiveanalysisofthefactorsofenterprises'SCMperformance,thetargetsystemofenterprises'SCMperformanceevaluationisestablishedandthemethodoffuzzymultiplecomprehensiveevaluationisproposed.ThismethodconvertsthecomplicatedproblemsofSCMintoaquantitativeevaluationtargetbyusingfuzzysyntheticoperationsothatitcanevaluateenterprises'SCMperformancemorescientificallyandguideenterprises'SCMtoworkwell.
简介:Thispaperputsforwardanewidea-InnovationOperation,thenewstageofenterprisedevelopment,andanalysesanewmodelofenterprisedevelopmentandholdsanewideaandnewmethodofbuildingenterprisemanagementinformationsystemunderthenewenvironment.