1) science and technology policy-making
科学技术决策
1.
Research on building the institution for public participating science and technology policy-making in China;
关于建立我国公众参与科学技术决策制度的探讨
2) decision-making technology
决策技术
1.
This paper studied a new kind of decision-making technology(DAM)was studied.
针对这一问题,阐述了一种新型的提高采收率决策技术——DAM决策技术,应用这一技术研究了陈庄油田的渗透率分布规律和水驱规律及陈庄油田调驱措施的选井、选剂、选量;研究了适合稠油油藏的高、中、低强度的调驱剂系列,特别是研究了一种具有深部调剖和驱油双重作用的调驱剂;研究了适合稠油油藏的调驱剂组合与设置方式,包括高、中、低强度调驱剂的注入顺序、用量分配及不同调驱剂在地层中放置的位置对堵水和驱油效果的影响;研究了调驱剂用量与注入参数的优化设计方法;研究了现场施工工艺,包括调驱剂的配制工艺、注入方式等,并进行了现场施工。
2.
The rock mechanical features and disasters characteristic concerning deep mining,novel disaster control measures and decision-making technology are described.
介绍深井开采的岩石力学问题及深井灾害的特点、灾害控制新思路、决策技术。
3) Decision technology
决策技术
1.
Introduced the application of decision technology in -350m level of No.
介绍了淮南潘一矿在- 350 m 水平两条石门同时揭过煤与瓦斯突出危险的 B4 煤层施工中,应用决策技术的实践情况,并分析了技术经济效果。
2.
And the paper uses fuzzy eveluating forecesting in qualitive and quantitative analysis,then uses decision technology in order to the combine qualitive analysis and quantitative analysis and Supports the price decision.
全面考虑影响定价决策的成本、竞争、需求等因素,用系统方法构造了一个产品引入期定价决策模型,分别用模糊评判、预测等方法进行定性、定量分析,再利用决策技术,实现定性定量结合,支持定价决策。
3.
Currently, the management decision in Our military grass-roots is not efficient, for the low level of the Evaluation-Decision technology and the influence of the artificial factor , which gives a negative influence to the officer and soldiers in the grass-roots troops and leads to some unstability to some extent.
因此,军队基层管理工作急需引入先进的评估决策技术,并要求结合基层管理实践加以创造性应用,以减少人为因素的影响,使评估和决策更加准确有效。
4) technical decision
技术决策
1.
This paper presents the method to optimize the technical decision of oil spill emergency program.
提出了溢油应急处理的优化决策方法 ,并运用优化理论建立评价模型来对技术决策结果进行最优化处理 ,从而使得各港口的溢油处理设备能够得到合理的调配 ,同时使溢油处理的费用降低到最低程度 ,而溢油处理的效果最佳 ,为区域合作计划的制定提供了依据。
2.
Then,decision-making during the product design process is classified into two main categories,namely organizational and technical decisions,which are illustrated in a three-dimensional figure.
本文首先讨论了产品设计决策的内涵,综述了相关的研究工作;进而将产品设计决策分为两类:组织决策和技术决策,并基于产品设计过程,用三维图将设计决策类型以及设计决策者表示了其间的关系。
5) tactical decision
战术决策
1.
Aiming at our battleplans having the characteristic of holding multi-type battleplans and having great difference in air combat capabilities, using the theory on cooperative air combat, the method of tactical decision in multi-target distribution fitting for multi-type cooperative air combat was discussed.
针对多个机型能够同时使用而且空战性能差别很大的特点,研究运用多机协同作战的理论来探讨适合多机型协同空战的目标分配战术决策方法。
2.
The neural network has good foreground in the field of air combat tactical decision.
最后给出了仿真算例,计算结果表明,通过文中介绍的方法改进的协同优先权算法可以更有针对性地完成战术决策任务。
3.
In this thesis,the tactical decision method of corrdinated air battle of multi-groups aircrafts under command of AWACS is analysed,the models of its tactical formation,threat assessment and target assignment are established.
分析了预警机指挥下的多机群协同空战的战术决策方法,建立起了它的战术编队、威胁评估以及目标分配模型,并进行了仿真计算,结果表明此战术决策方法对于提高多机群协同空战的作战效能有着显著的作用,对于未来无人作战飞机多编队协同作战也具有很好的参考价值。
6) tactics decision-making
战术决策
1.
On the basis of the targets danger evaluation,probability calculation of targets damage and the fighter s operating effectiveness,the fuzzy model of the multi-target attack tactics decision-making is established.
基于目标的威胁程度、对目标的毁伤概率、以及载机实施多目标攻击过程中操纵的平滑性三个因素,建立了多目标攻击战术决策的模糊数学模型;采用连续型 Hopfield 神经网络解算方案,实现多目标攻击火控解算的高速和高精度。
2.
The tactics decision-making should be a dynamic decision-making process with uncertainty because of the uncertainty of air combat situation.
空战过程中由于空战态势的不确定性,战术决策也应作为一个动态的不确定性决策问题进行研究。
3.
The unmanned combat airplane vehicle(UCAV) teams tactics decision-making based on infiuence diag rams with their advantages of dealing with uncertainty inference is built.
随着武器的高科技化、战场环境的复杂化、战斗节奏的加快,智能化的战术决策系统在现代战争中占有越来越重要的地位。
补充资料:国防科学技术先期技术开发(见国防科学技术预先研究)
国防科学技术先期技术开发(见国防科学技术预先研究)
advanced technology development of national defense science and technology
guomng kexue listiu Xlanqi lishu切ifa国防科学技术元期仪不井汉哗u-vanced teehnology develoPment ofnationalde-fense seienee and teehnology)见国防科学技术预先研究。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条