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1.
设备的一种计划维修策略 总被引:1,自引:0,他引:1
本文根据设备在全寿命内有事后修理、计划修理和最后报废的实际情况,以全寿命内单位时间的更新维修期望费用最少为目标函数,建立一种数学模型,寻求设备在全寿命内最佳计划修理次数N和最佳的一组计划维修时间间隔集T。 相似文献
2.
王立群 《军械工程学院学报》1990,(2)
本文论述建立维修科学理论体系的意义和研究时应考虑的一些准则,并提出具体的体系结构模式。该体系由维修导论、维修技术、装备采办和维修管理4个学科分支组成。 相似文献
3.
刘瑾辉 《军械工程学院学报》1990,(2)
本文根据近几年关于维修方式讨论中提出的一些问题,在维修方式的分类、应用决策、设计要求和效能等方面,联系维修实际进行了探讨,提出了一些原则、方法和观点。 相似文献
4.
贾希胜 《军械工程学院学报》1990,(1)
以可靠性为中心的维修(Reliability Centered maintenance——RCM)是美国航空界和美国防部制订装备预防维修大纲时所使用的一种维修理论,其主要目的是以最低的费用保持复杂装备的固有可靠性水平。本文跟踪RCM的发展过程,简述其基本原理和基本内容,并在综述国内外有关文献的基础上提出了笔者对RCM的认识及在军械系统应用RCM的必要性。 相似文献
5.
美国空军飞机战伤修理的发展及其对我们的启示 总被引:1,自引:0,他引:1
王立群 《军械工程学院学报》1995,(2)
论述了美国空军战伤修理在方针、组织、培训、战伤修理规程、备件及工具箱、设计、试验数据库、新技术开发和常用抢修技术等方面的发展。同时提出了我空军战伤修理在这些方面的发展建议。 相似文献
6.
与装备维修组织设计相关的几个问题 总被引:1,自引:0,他引:1
论述了建立装备维修组织过程中的主要活动及它们之间的关系。分析了国内外目前在该领域的研究状况。重点讨论了装备维修组织设计中任务环境、资源组成、资源分布、管理结构、维修专业组结构及资源动态决策等六个问题。 相似文献
7.
The problem of minimum makespan on an m machine jobshop with unit execution time (UET) jobs (m ≥ 3) is known to be strongly NP‐hard even with no setup times. We focus in this article on the two‐machine case. We assume UET jobs and consider batching with batch availability and machine‐dependent setup times. We introduce an efficient \begin{align*}(O(\sqrt{n}))\end{align*} algorithm, where n is the number of jobs. We then introduce a heuristic for the multimachine case and demonstrate its efficiency for two interesting instances. © 2011 Wiley Periodicals, Inc. Naval Research Logistics, 2011 相似文献
8.
We study a pull‐type, flexible, multi‐product, and multi‐stage production/inventory system with decentralized two‐card kanban control policies. Each stage involves a processor and two buffers with finite target levels. Production stages, arranged in series, can process several product types one at a time. Transportation of semi‐finished parts from one stage to another is performed in fixed lot sizes. The exact analysis is mathematically intractable even for smaller systems. We present a robust approximation algorithm to model two‐card kanban systems with batch transfers under arbitrary complexity. The algorithm uses phase‐type modeling to find effective processing times and busy period analysis to identify delays among product types in resource contention. Our algorithm reduces the effort required for estimating performance measures by a considerable margin and resolves the state–space explosion problem of analytical approaches. Using this analytical tool, we present new findings for a better understanding of some tactical and operational issues. We show that flow of material in small procurement sizes smoothes flow of information within the system, but also necessitates more frequent shipments between stages, raising the risk of late delivery. Balancing the risk of information delays vis‐à‐vis shipment delays is critical for the success of two‐card kanban systems. Although product variety causes time wasted in setup operations, it also facilitates relatively short production cycles enabling processors to switch from one product type to another more rapidly. The latter point is crucial especially in high‐demand environments. Increasing production line size prevents quick response to customer demand, but it may improve system performance if the vendor lead‐time is long or subject to high variation. Finally, variability in transportation and processing times causes the most damage if it arises at stages closer to the customer. © 2007 Wiley Periodicals, Inc. Naval Research Logistics, 2007 相似文献
9.
We consider the integrated problem of optimally maintaining an imperfect, deteriorating sensor and the safety‐critical system it monitors. The sensor's costless observations of the binary state of the system become less informative over time. A costly full inspection may be conducted to perfectly discern the state of the system, after which the system is replaced if it is in the out‐of‐control state. In addition, a full inspection provides the opportunity to replace the sensor. We formulate the problem of adaptively scheduling full inspections and sensor replacements using a partially observable Markov decision process (POMDP) model. The objective is to minimize the total expected discounted costs associated with system operation, full inspection, system replacement, and sensor replacement. We show that the optimal policy has a threshold structure and demonstrate the value of coordinating system and sensor maintenance via numerical examples. © 2017 Wiley Periodicals, Inc. Naval Research Logistics 64: 399–417, 2017 相似文献
10.