交通运输系统工程与信息
交通運輸繫統工程與信息
교통운수계통공정여신식
JOURNAL OF COMMUNICATION AND TRANSPORTATION SYSTEMS ENGINEERING AND INFORMATION
2015年
4期
173-180
,共8页
刘斌%马剑%牟瑞芳%王先明%沈宜欣
劉斌%馬劍%牟瑞芳%王先明%瀋宜訢
류빈%마검%모서방%왕선명%침의흔
铁路运输%性能分析%障碍物模型%现代有轨电车%感知域
鐵路運輸%性能分析%障礙物模型%現代有軌電車%感知域
철로운수%성능분석%장애물모형%현대유궤전차%감지역
railway transportation%performance evaluation%obstacle modelling%modern tram%perception area
近年来,疏散性能评估已成为客车车厢设施布局及设计流程中的必要环节.考虑狭长通道下障碍物特性对人员疏散影响显著,引入感知域概念,刻画疏散人员翻越座椅等行为决策特性;进一步引入一类多值函数扩充元胞状态集合,量化障碍物的可翻越特性,建立障碍物模型,模拟紧急状态下人员无序疏散行为;为对模型结果验证分析,建立基本模型,构建其与AnyLogic?均可模拟的基本场景,在此场景下对二者模拟结果交叉验证.模拟分析结果及结论是,移动规则合理有效,结合障碍物模型并考虑可翻越障碍物影响的模拟结果是可信的;发现N kO-tkevac曲线与此情形下的疏散动画具有一定的时空关联性,可为车体设计提供进一步参考;此外,随疏散人员感知域的增大,疏散时间逐渐减小.
近年來,疏散性能評估已成為客車車廂設施佈跼及設計流程中的必要環節.攷慮狹長通道下障礙物特性對人員疏散影響顯著,引入感知域概唸,刻畫疏散人員翻越座椅等行為決策特性;進一步引入一類多值函數擴充元胞狀態集閤,量化障礙物的可翻越特性,建立障礙物模型,模擬緊急狀態下人員無序疏散行為;為對模型結果驗證分析,建立基本模型,構建其與AnyLogic?均可模擬的基本場景,在此場景下對二者模擬結果交扠驗證.模擬分析結果及結論是,移動規則閤理有效,結閤障礙物模型併攷慮可翻越障礙物影響的模擬結果是可信的;髮現N kO-tkevac麯線與此情形下的疏散動畫具有一定的時空關聯性,可為車體設計提供進一步參攷;此外,隨疏散人員感知域的增大,疏散時間逐漸減小.
근년래,소산성능평고이성위객차차상설시포국급설계류정중적필요배절.고필협장통도하장애물특성대인원소산영향현저,인입감지역개념,각화소산인원번월좌의등행위결책특성;진일보인입일류다치함수확충원포상태집합,양화장애물적가번월특성,건립장애물모형,모의긴급상태하인원무서소산행위;위대모형결과험증분석,건립기본모형,구건기여AnyLogic?균가모의적기본장경,재차장경하대이자모의결과교차험증.모의분석결과급결론시,이동규칙합리유효,결합장애물모형병고필가번월장애물영향적모의결과시가신적;발현N kO-tkevac곡선여차정형하적소산동화구유일정적시공관련성,가위차체설계제공진일보삼고;차외,수소산인원감지역적증대,소산시간축점감소.
In recent years, evacuation performance evaluation taking into account of different facility layout has become a necessary procedure of the passenger carriage design. Considering that obstacle effects will influence tram evacuation significantly in a long and narrow aisle, this paper introduces the concept of perception area to describe an area which influences the decision making process of an evacuee to decide his next step. Further, we assign those chairs and some other low obstacle characteristics representing their availability for evacuees to simulate evacuation under a disordered and uncontrolled condition. To verify the simulation results, a fundamental model(M1)is established and a circumstance is configured that can be simulated by both AnyLogic? and M1. Simulation results indicate that two models above make resemble results. The curve N kO-t kevac can reflect pedestrian behaviors in this situation in details, based on which we can optimize and revise the carriage design. With the increasing of perception area, the evacuation time becomes smaller, meaning the perception area do provide helpful information for evacuees.
