| The Emergency Logistics Delivery System is one of the most important parts of military construction to win the war, which needs higher effectiveness and survivability. Xinjiang military region faces with asymmetric warfare threat of terrorism and natural disasters over a long period of time. In operations to meet such threat, vehicles are mainly employed for material transportation. Emergency material distribution system based on vehicle transportation, especially material damage estimation and adjustment, was studied in this thesis.The thesis firstly defined the key elements and analyzed the requirement of the problem, and educed the characteristics of the system, the construction requirements and framework etc. The core issues of material distribution system include material distribution, damage estimate problem and adjustment problem. Three problems are connected in series, wherein the material distribution problem is the basis of the other two. The entity modeling of the material distribution problem was carried out from the input and output aspect. The processing method was mathematical modeled, and the objective function was established as minimizing the delay time of transportation plans relative to transportation requirement. The output of distribution problem is one of the inputs of loss problem. Then the input and output of the loss estimate problem were entity modeled, and loss estimate problem was modeled. Then the processing mechanism of damage assessment problem and the solutions of adjustment problem were proposed. According to the vehicle and material damage, three cases were analyzed, and adjustment algorithms were proposed respectively. Finally, the realization method of each system module was illustrated in detail, and then the damage estimate and adjustment module were tested. |
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