哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2015年
8期
1024-1029
,共6页
贺益雄%黄立文%牟军敏%熊勇
賀益雄%黃立文%牟軍敏%熊勇
하익웅%황립문%모군민%웅용
让路船%船舶领域%水动力模型%交叉相遇局面%自动避碰%二分法%避碰规则
讓路船%船舶領域%水動力模型%交扠相遇跼麵%自動避踫%二分法%避踫規則
양로선%선박영역%수동력모형%교차상우국면%자동피팽%이분법%피팽규칙
give-way vessel%ship domain%hydrodynamic model%crossing situation%automatic collision avoidance%dichotomy%COLREG
为研究交叉相遇局面让路船自动避碰方案,通过局面要素将局面分为4个阶段,基于避碰规则和海员通常做法研究各个阶段自动避碰行动。紧迫局面形成点和紧迫危险形成点的计算以MMG模型和圆形船舶领域模型为基础,依靠基于龙格库塔方法和二分法的数学模型实现。改进的碰撞危险度模型以空间碰撞危险度和时间碰撞危险度基于海员通常做法合成。一种新的最有效避让方式比较模型用于产生碰撞危险产生以前和紧急情况下的自动避碰方案。以一艘交叉相遇局面让路船为对象进行仿真,验证采用的数学模型并生成应采取的自动避碰行动。结果表明:MMG模型精度满足要求;基于二分法的局面要素数值化计算模型能可靠、快速地收敛;可生成符合避碰规则和海员通常做法的自动避碰方案。
為研究交扠相遇跼麵讓路船自動避踫方案,通過跼麵要素將跼麵分為4箇階段,基于避踫規則和海員通常做法研究各箇階段自動避踫行動。緊迫跼麵形成點和緊迫危險形成點的計算以MMG模型和圓形船舶領域模型為基礎,依靠基于龍格庫塔方法和二分法的數學模型實現。改進的踫撞危險度模型以空間踫撞危險度和時間踫撞危險度基于海員通常做法閤成。一種新的最有效避讓方式比較模型用于產生踫撞危險產生以前和緊急情況下的自動避踫方案。以一艘交扠相遇跼麵讓路船為對象進行倣真,驗證採用的數學模型併生成應採取的自動避踫行動。結果錶明:MMG模型精度滿足要求;基于二分法的跼麵要素數值化計算模型能可靠、快速地收斂;可生成符閤避踫規則和海員通常做法的自動避踫方案。
위연구교차상우국면양로선자동피팽방안,통과국면요소장국면분위4개계단,기우피팽규칙화해원통상주법연구각개계단자동피팽행동。긴박국면형성점화긴박위험형성점적계산이MMG모형화원형선박영역모형위기출,의고기우룡격고탑방법화이분법적수학모형실현。개진적팽당위험도모형이공간팽당위험도화시간팽당위험도기우해원통상주법합성。일충신적최유효피양방식비교모형용우산생팽당위험산생이전화긴급정황하적자동피팽방안。이일소교차상우국면양로선위대상진행방진,험증채용적수학모형병생성응채취적자동피팽행동。결과표명:MMG모형정도만족요구;기우이분법적국면요소수치화계산모형능가고、쾌속지수렴;가생성부합피팽규칙화해원통상주법적자동피팽방안。
In order to study the automatic collision avoidance ( ACA) action for a give?way vessel in the crossing sit?uation, the whole encounter is separated into four stages by situation elements ( SE) . The ACA action in different stages is studied according to the convention on the international regulations for preventing collisions at sea ( COL?REGS) and the ordinary practice of seamen. The computing basis of point close?quarter situation formed ( PCSF) and point immediate danger formed ( PIDF) is the mathematical modeling group ( MMG) hydrodynamic model and circular ship domain theories. The Runge?Kutta and dichotomy methods are used in the mathematical model for PCRF and PCSF. An improved collision risk index model, which is composed of the space collision risk index and time collision risk index, is established based on COLREGS and the ordinary practice of seamen. A new most effec?tive collision avoidance comparison model is used to generate ACA plan before occurring of collision risk and in e?mergency situations. In order to verify the mathematical model and produce correct ACA plan, a power?driven ves?sel in the crossing situation is simulated. The followings are proven: The accuracy of MMG model is enough; the computing model of quantitative SEs is rapidly and reliably convergent during computing;different ACA actions of a give?way vessel in different stages can be produced as per rules and the ordinary practice of seamen.
