兵工自动化
兵工自動化
병공자동화
ORDNANCE INDUSTRY AUTOMATION
2014年
4期
79-83
,共5页
周晓光%冯百胜%迟志艳%张原
週曉光%馮百勝%遲誌豔%張原
주효광%풍백성%지지염%장원
航母%舰载机%出动架次率
航母%艦載機%齣動架次率
항모%함재궤%출동가차솔
aircraft carrier%carrier-borne aircraft%sortie generation rate
为提升舰载机出动能力,科学计算舰载机出动架次率,提出一种基于闭排队网络理论的舰载机出动架次率计算方法。将舰载机出动回收过程相关的处理阶段抽化成闭排队网络中的节点,构建了基于闭排队网络的舰载机出动架次模型,研究了具有 Fork-Joint 节点的闭排队网络的改进启发式平均值分析方法,并采用改进的均值分析方法对模型进行求解,应用典型案例对舰载机数量、故障检测时间、同时起降数量等因素对舰载机触动架次率的影响进行分析,给出了舰载机出动架次率与各变量之间的关系曲线。该研究结果可为提升舰载机出动能力,以及优化舰载机作战训练操作运转流程提供量化依据和决策方法。
為提升艦載機齣動能力,科學計算艦載機齣動架次率,提齣一種基于閉排隊網絡理論的艦載機齣動架次率計算方法。將艦載機齣動迴收過程相關的處理階段抽化成閉排隊網絡中的節點,構建瞭基于閉排隊網絡的艦載機齣動架次模型,研究瞭具有 Fork-Joint 節點的閉排隊網絡的改進啟髮式平均值分析方法,併採用改進的均值分析方法對模型進行求解,應用典型案例對艦載機數量、故障檢測時間、同時起降數量等因素對艦載機觸動架次率的影響進行分析,給齣瞭艦載機齣動架次率與各變量之間的關繫麯線。該研究結果可為提升艦載機齣動能力,以及優化艦載機作戰訓練操作運轉流程提供量化依據和決策方法。
위제승함재궤출동능력,과학계산함재궤출동가차솔,제출일충기우폐배대망락이론적함재궤출동가차솔계산방법。장함재궤출동회수과정상관적처리계단추화성폐배대망락중적절점,구건료기우폐배대망락적함재궤출동가차모형,연구료구유 Fork-Joint 절점적폐배대망락적개진계발식평균치분석방법,병채용개진적균치분석방법대모형진행구해,응용전형안례대함재궤수량、고장검측시간、동시기강수량등인소대함재궤촉동가차솔적영향진행분석,급출료함재궤출동가차솔여각변량지간적관계곡선。해연구결과가위제승함재궤출동능력,이급우화함재궤작전훈련조작운전류정제공양화의거화결책방법。
In order to enhance the capacity of sortie generation, and to present a scientific calculate method for sortie generation rate, a calculate method for carrier-borne aircraft sortie generation rate based on closed queuing network is present in this paper. Firstly the steps of sortie generation process are designed to the nodes of closed queuing networks, the aircraft launch and recovery model based closed queuing networks is build. Secondly, the theory of closed queuing networks and improved mean value analysis (MVA) algorithm is introduced. A new analytical model based on a modified MAV algorithm using Fork-Joint queues is researched. Finally a typical example of sortie generation is given, the factors how to affect the sortie generation rate is analyzed, including aircraft number, trouble shoot time and launch capacity. The relationship between sortie generation rate and every variable is given in the simulation. The results of this paper can provide reference and quantization basis for improving the capacity of sortie generation and operation efficiency.
