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    • 6. 发明授权
    • Wireless MAC and link-layer simulation modeling
    • 无线MAC和链路层仿真建模
    • US08249094B2
    • 2012-08-21
    • US11501388
    • 2006-08-09
    • Pradeep K. SinghAlain J. CohenAlejandro Talavera-MartinezArun PasupathyPoonam SinghIbrahim Utku Moral
    • Pradeep K. SinghAlain J. CohenAlejandro Talavera-MartinezArun PasupathyPoonam SinghIbrahim Utku Moral
    • H04L12/413
    • H04W16/225H04W74/00
    • Simulation models of media access control and physical layer characteristics facilitate the simulation/emulation of a variety of phenomena that affect transmissions via a wireless media. Such phenomena include media access contention delays, packet drops, and retransmissions that are generally dependent upon changes in transmitter/receiver locations. Each wireless environment is characterized by a model of the communication channel that characterizes transmission effects based on the number of competing transmitters in the environment, which is dynamically determined based on the location of each node in the environment. Additionally, the location of nodes is used to simulate the effects of ‘hidden nodes’, nodes that are unknown to a transmitting node but can interfere with the reception of transmissions at a receiving node. Each device/node model in the wireless environment preferably accesses the same model of the communication channel, thereby minimizing the amount of detail required at each device model.
    • 介质访问控制和物理层特性的仿真模型有助于模拟/仿真影响通过无线介质传输的各种现象。 这种现象包括通常取决于发射机/接收机位置的改变的媒体接入争用延迟,分组丢弃和重传。 每个无线环境的特征在于基于环境中的竞争发射机的数量来表征传输效应的通信信道的模型,其基于环境中的每个节点的位置动态地确定。 另外,节点的位置用于模拟“隐藏节点”,发送节点未知的节点的影响,但可能会干扰接收节点的传输接收。 无线环境中的每个设备/节点模型优选地访问通信信道的相同模型,从而最小化每个设备模型所需的细节量。
    • 7. 发明授权
    • Wireless network hybrid simulation
    • 无线网络混合仿真
    • US07469203B2
    • 2008-12-23
    • US10923214
    • 2004-08-20
    • Alain J. CohenPradeep Singh
    • Alain J. CohenPradeep Singh
    • G06F17/50G06F9/45G06F14/173G06F11/30
    • H04W16/18H04L41/145H04W40/02
    • A simulation method and system partitions network traffic into background traffic and explicit traffic, wherein explicit traffic is processed in detail, and background traffic is processed at a more abstract level. The packets of explicit traffic are modeled in complete detail, so that precise timing and behavior characteristics can be determined, whereas large volumes of traffic are modeled more abstractly as background flows, and only certain aspects, such as routing through the network, are simulated. Tracer packets are used to model the background traffic and carry a number of characteristics of interest for generating simulation results. In this manner, the effect of the background traffic on the explicit traffic can be modeled at each network element. The abstract processing of background traffic is facilitated by techniques that include multi-variate table look-up, neural networks, and the like.
    • 模拟方法和系统将网络流量分为后台流量和显式流量,其中详细处理显式流量,并且以更抽象的级别处理后台流量。 明确流量的数据包将被完整的建模,从而可以确定精确的时序和行为特征,而大量的流量则作为背景流更抽象地进行建模,只有模拟网络路由等某些方面。 示踪器数据包用于对后台流量进行建模,并携带多个感兴趣的特性以生成仿真结果。 以这种方式,可以在每个网络元件上对后台流量对显式流量的影响进行建模。 通过包括多变量表查找,神经网络等的技术来促进背景流量的抽象处理。
    • 10. 发明申请
    • NETWORK CAPACITY PLANNING
    • 网络容量规划
    • US20110055390A1
    • 2011-03-03
    • US12861832
    • 2010-08-24
    • Patrick J. MalloyDana ZnamovaAlain J. CohenAntoine DunnJohn W. StrohmAbbas Haider AliRussell Mark Elsner
    • Patrick J. MalloyDana ZnamovaAlain J. CohenAntoine DunnJohn W. StrohmAbbas Haider AliRussell Mark Elsner
    • G06F15/16
    • H04L41/145H04L41/22
    • Data representing application deployment attributes, network topology, and network performance attributes based on a reduced set of element attributes is utilized to simulate application deployment. The data may be received from a user directly, a program that models a network topology or application behavior, and a wizard that implies the data based on an interview process. The simulation may be based on application deployment attributes including application traffic pattern, application message sizes, network topology, and network performance attributes. The element attributes may be determined from a lookup table of element operating characteristics that may contain element maximum and minimum boundary operating values utilized to interpolate other operating conditions. Application response time may be derived using an iterative analysis based on multiple instances of one or more applications wherein a predetermined number of iterations is used or until a substantially steady state of network performance is achieved.
    • 利用表示应用程序部署属性,网络拓扑和基于简化的元素属性集合的网络性能属性的数据来​​模拟应用程序部署。 可以直接从用户接收数据,对网络拓扑或应用行为进行建模的程序,以及基于访问过程暗示数据的向导。 模拟可以基于应用部署属性,包括应用流量模式,应用消息大小,网络拓扑和网络性能属性。 可以从可能包含用于内插其他操作条件的元件最大和最小边界操作值的元件操作特性的查找表来确定元素属性。 可以使用基于一个或多个应用的​​多个实例的迭代分析来导出应用响应时间,其中使用预定数量的迭代,或直到达到基本稳定的网络性能状态。