1) Braess's network
Braess网络
2) Braess paradox
Braess诡异
1.
The relation of network minimum flow and Braess paradox phenomena is analyzed.
分析网络最小流与Braess诡异现象的联系,定义了网络的正向弧和反向弧,通过实例分析改变网络中各条弧容量及网络新增弧对网络最小流影响的灵敏度。
2.
Review of research of Pas,Principio and Penchina on this subject shows that it might underestimate the occurring probability of Braess paradox by neglecting the influence of new road on the parameters of performance functions of its intersectant roads.
对城市道路网络设计中Braess诡异发生条件进行分析,指出Pas,Principio和Penchi-na的分析忽视了新增道路对相交道路路阻函数参数的影响,低估了Braess诡异出现的可能性。
3.
With this effect considered,the probability of Braess paradox occurring is higher than the previous estimation.
对离散路网设计问题中新增道路带来原有路网单元结构与属性变化的影响进行分析,指出考虑这一影响后,Braess诡异出现的可能性大大增加。
3) Braess paradox
Braess悖论
1.
The analysis of game theory for Braess paradox and the dual model;
Braess悖论及其对偶形式的博弈论分析
2.
Analyzing a simple network with Braess Paradox,we state that it occurs when the Nash equilibrium is not Pareto optimal.
平衡交通流网络中存在一种看似矛盾的Braess悖论现象,即在交通网络中增加一条通路反而会降低网络性能。
3.
It analyzes the similiarization of customers behavior,which caueses Braess s paradox,points out that ignoreing the diverse and personal demands of dynamic vehicle navigation s customers is the main reason,and comes up with the conception that an exhaustive consideration of customes diverse demands is the key to the solution of Braess paradox.
对导致 Braess悖论的用户行为趋同性进行分析 ,指出对动态导航用户多样化个性需求的忽视是其发生的根源 ,提出对用户个性化需求的充分考虑是解决 Braess悖论的关键。
4) Braess's paradox
Braess佯谬
5) network web
网络 网络
6) Network
[英]['netwɜ:k] [美]['nɛt'wɝk]
网络
1.
Dyeing and printing machine synchronization system based on network and frequency conversion technologies;
基于网络和变频技术的印染机械同步系统
2.
Study and application of network derivation constraint method of multi-flow heat exchanger;
多股流换热器网络衍生约束法研究及应用
3.
Study of network based CAI system for computer-aided calculation in chemical processes;
化工过程计算机辅助计算的网络CAI系统的研究
补充资料:《网络分析和反馈放大器设计》
论述网络分析和反馈放大器设计的名著,H.W.博德著,1945年在美国出版。作者在本书中叙述并发展了网络的一般理论,首先提出在一个网络中任何元件的回归差F 等于该元件具有正常值时的网络行列式与该元件值为零时网络行列式之比,推导出回归比T和环路传输μβ的关系
F=1+T=1-μβ
详细推导了网络函数的实部和虚部之间的关系,并把这种关系应用于负反馈放大器的输入、输出和级间网络的设计上。
详细推导了网络函数的实部和虚部之间的关系,并把这种关系应用于负反馈放大器的输入、输出和级间网络的设计上。
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