作者结合面向对象的设计思想,提出了一种实用的网络计划模型,并实现了实用网络计划工具类组件。
In this paper, based on object-oriented technique, an applied arrow network model is studied and a component of arrow network tools is developed.
结合完工隶属函数,给出了安全时差的计算模型,通过安全时差的计算结果,能够合理地反映出网络计划模型中潜在的不确定性的影响程度。
Furthermore, an approach for calculating the safe float is given, by which the influence of the potential uncertainty in network could be reflected rationally.
在时间-费用关系为非线性的假设下,建立求网络计划最低成本日程的优化模型。
An optimization model to find the lowest budget schedule of network planning is established under the assumption that the time-cost relationship is nonlinear.
在网络计划中提出了资源优化问题,并建立了资源优化数学模型。
For network planning, resource optimization was put forward, and a mathematical model of resource optimization was set up.
本文的主要研究成果包括:(1)建立适于区域网络的公交发车计划优化模型,并采用合适的方法求解。
The major research of this paper includes: (1) Establish departure plan optimization model for regional networks of public transport and use appropriate solving method.
本文从工序时间的模糊性和概率性出发,运用云模型理论对网络计划技术进行了研究。
This paper start from the time of process of fuzzy and probability, and making the use of cloud model theory to study network planning techniques.
提出了基于模糊网络进度计划的施工索赔工期分析,建立计算模型并使之程序化。
Give the analysis of construction claims construction period based on Fuzzy-network progress plan, and make it as a calculate model program.
本文针对国内外研究的现状与存在的问题,研究了风险元传递理论在网络计划类项目中的模型和应用。
Against to the existing condition and problems of this study field, this paper studied the model and application of risk element transfer theory in network planning project.
对于搭接网络计划,该模型比传统的计算模型概念更清晰、形式更简明、表述更严谨,便于应用。
For the spliced network planning, the new models are of clear meaning, concise modality and precise describing, and convenient for application.
为得到最优计划方案,针对搭接网络计划,建立了资源均衡优化的数学模型,并设计了自适应蚁群系统的求解算法与实现过程。
To get the optimum solution for the planning, I construct a model of resource optimization for spliced network planning, and design Adaptive Ant Colony Algorithm to solve it.
基于对搭接网络计划的分析,给出一组一般网络计划、搭接网络计划和流水网络计划的通用时间参数计算模型。
In this paper, a set of unified calculating models for general network planning, spliced network planning and streamlined network planning based on analysis of the spliced network planning.
本文基于关键路线和次关键路线的概念,建立了网络计划最低成本日程的模型,并提出一种求解该模型的新算法。理论分析和实际计算表明,它简单、易行、效果好。
Based on the concepts of both critical paths and suberitical paths. a model for the least cost scheduling in network project is built, and a new algorithm for solving this model is proposed.
建立了实际桥梁施工网络计划资源优化模型,提出用统一的参数来评价优化模型的数学公式。
By building models of resources optimization in the practical bridge construction, the paper gives mathematics formula to evaluate optimization model using the same parameter.
在云模型网络计划中,利用逆向云发生器算法来实现工序时间估计向云模型的转换。
For network planning based the cloud model, Reverse cloud generator algorithm was used to converse the estimated time to the cloud model.
在本文中,生产作业计划人工神经网络模型的研究可分为三个方面:数据处理、优化计算和知识处理。
The research area in production schedule based on artificial neural network includes: data description, optimization computation and knowledge handling.
提出了核工程质量与进度集成控制网络计划技术及其网络图模型,介绍了该网络计划的编制和使用方法。
The network planning technique and its' network model is presented for nuclear project quality and schedule integration control.
接着基于面向对象技术和人机协同思想研究了网络计划系统的模型、结构模型和算法设计;
Then based on the object-oriented technology, the class model, framework model and algorithm of network project system are researched.
在每个网络计划项目中,对网络都做了具体定义,其研究思路是以广义项目风险元传递理论为基础的,并对各个模型进行了实例分析。
In the network planning projects, the network has been definited based on generic project risk element transmission theory, and all the models can be analyzed by the different examples.
目前网络计划优化的问题有两个:第一,网络计划优化技术中的顺序优化没有统一的数学模型;
There are two problems in optimization of network plan at the moment: first, no unified mathematical model is found on sequence optimization of optimal technology of network plan ;
采用网络理论构造了平行流水作业的非连接图模型,提出了采用蚁群算法求解平行流水作业计划问题,以及求解过程中可行路径表的建立方法。
This concept is the integration of identical parallel machine scheduling with flow shop scheduling. The solution to IFSP is a non- polynomial computation of time problem.
采用网络理论构造了平行流水作业的非连接图模型,提出了采用蚁群算法求解平行流水作业计划问题,以及求解过程中可行路径表的建立方法。
This concept is the integration of identical parallel machine scheduling with flow shop scheduling. The solution to IFSP is a non- polynomial computation of time problem.
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