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    • 2. 发明申请
    • SYSTEMS AND METHODS FOR AVOIDING AVALANCHE EFFECT IN COEXISTING WIRELESS NETWORKS
    • 用于避免无线网络中的AVALANCHE效应的系统和方法
    • US20090040990A1
    • 2009-02-12
    • US12174341
    • 2008-07-16
    • Ariton E. XHAFAXiaolin LUShantanu KANGUDE
    • Ariton E. XHAFAXiaolin LUShantanu KANGUDE
    • H04Q7/24
    • H04W28/18H04W88/06
    • Systems and methods for avoiding access point transmission rate fall-back mechanism having an avalanche effect when acknowledgements are not received for packets sent during co-existence of WLAN and other wireless network technologies. A receiver comprises at least two dissimilar network technology subsystems. In some embodiments, a transmitter transmits a handshake to the receiver prior to transmission of at least one data packet and does not reduce a transmission rate of future transmissions to the receiver if the transmitter does not receive a reply to the handshake. In other embodiments, the receiver is able to send an indicator to a transmitter requesting a protection mechanism be employed prior to transmission by the transmitter of at least one data packet. In further embodiments, the receiver is able to negotiate with the transmitter for the transmitter to employ a protection mechanism prior to transmission of at least one data packet to the receiver.
    • 用于在WLAN和其他无线网络技术的共存期间发送的分组没有接收到确认时,用于避免接入点传输速率下降机制具有雪崩效应的系统和方法。 接收机包括至少两个不同的网络技术子系统。 在一些实施例中,发射机在发送至少一个数据分组之前向接收机发送握手,并且如果发射机没有接收到对握手的回复,则不会将未来传输的传输速率降低到接收机。 在其他实施例中,接收机能够向发射机发送请求保护机制的指示符,由发射机发送至少一个数据分组之前使用。 在另外的实施例中,接收机能够与发射机进行协商以使发射机在将至少一个数据分组传输到接收机之前采用保护机制。
    • 3. 发明申请
    • MEDIA ACCESS CONTROL LAYER BRIDGING OF A REAL COMMUNICATION DEVICE TO A SIMULATED NETWORK
    • 媒体访问控制层将实际通信设备连接到模拟网络
    • US20080080536A1
    • 2008-04-03
    • US11865971
    • 2007-10-02
    • Harshal Shantanu CHHAYAShantanu KANGUDEAriton E. XHAFAXiaolin LU
    • Harshal Shantanu CHHAYAShantanu KANGUDEAriton E. XHAFAXiaolin LU
    • H04L12/28
    • H04W24/06H04L41/145H04L43/50
    • Systems and methods for media access control (MAC) layer bridging of a real communication device to a simulated network are described herein. Some illustrative embodiments include a communication network bridge that includes a processor that executes simulation software that implements a simulated network and further implements a simulated network interface that provides a communication path to the simulated communication network, and a real network interface that provides a communication path to a real communication network. A first media access control (MAC) layer message that conforms to a protocol associated with the real communication network is received by the real network interface from across the real communication network. The first MAC layer message is transformed by a first transformation operation into a second MAC layer message that is forwarded to a physical (PHY) layer of the simulated network interface.
    • 这里描述了用于实际通信设备到仿真网络的媒体访问控制(MAC)层桥接的系统和方法。 一些说明性实施例包括通信网络桥接器,其包括执行模拟软件的处理器,所述仿真软件实现模拟网络,并且还实现提供到模拟通信网络的通信路径的模拟网络接口,以及提供通信路径的实际网络接口 一个真正的通信网络。 实际网络接口从真实通信网络接收符合与真实通信网络相关联的协议的第一媒体接入控制(MAC)层消息。 第一MAC层消息被第一变换操作转换成被转发到模拟网络接口的物理(PHY)层的第二MAC层消息。
    • 4. 发明申请
    • SYSTEMS AND METHODS FOR TIME OPTIMIZATION FOR SILENCING WIRELESS DEVICES IN COEXISTENCE NETWORKS
    • 时间优化的系统和方法,用于沉没网络中的无线设备
    • US20090163145A1
    • 2009-06-25
    • US12251187
    • 2008-10-14
    • Ariton E. XHAFAXiaolin LUShantanu KANGUDE
    • Ariton E. XHAFAXiaolin LUShantanu KANGUDE
    • H04B1/00
    • H04W16/14
    • Embodiments provide systems and methods to optimize the time when to transmit a silencing frame, and hence, improve the overall network throughput and avoid access point transmission rate fall-back mechanism having an avalanche effect during coexistence of dissimilar wireless network technologies. A receiver comprises at least two dissimilar network technology subsystems, at least one subsystem of which is higher priority than at least another of the dissimilar subsystems. In some embodiments, a receiver is able to transmit a silencing frame during a predetermined transmission window within a lower priority technology network interval. In other embodiments, a receiver calculates a predetermined transmission window, the predetermined transmission window to occur within a lower priority technology network interval, and transmits a silencing frame during the predetermined transmission window. In further embodiments, a receiver is able to calculate a transmission window to occur during a lower priority technology network interval, and transmit a silencing frame during the calculated transmission window.
    • 实施例提供了用于优化传输消音帧的时间的系统和方法,从而提高整体网络吞吐量,并避免在不同的无线网络技术共存期间具有雪崩效应的接入点传输速率回退机制。 接收机包括至少两个不同的网络技术子系统,其至少一个子系统比不同子系统中的至少另一个具有更高的优先级。 在一些实施例中,接收机能够在较低优先级技术网络间隔内的预定传输窗口期间传输消音帧。 在其他实施例中,接收机计算预定的传输窗口,预定的传输窗口发生在较低优先级的技术网络间隔内,并且在预定的传输窗口期间发送消音帧。 在另外的实施例中,接收机能够计算在较低优先级技术网络间隔期间发生的传输窗口,并且在计算的传输窗口期间传送消音帧。
    • 5. 发明申请
    • POWER STATE AND MEDIUM ACCESS COORDINATION IN COEXISTING WIRELESS NETWORKS
    • 在无线网络中的电源状态和中间访问协调
    • US20120020266A1
    • 2012-01-26
    • US13190858
    • 2011-07-26
    • Yanjun SUNAriton E. XHAFARamanuja VEDANTHAMXiaolin LU
    • Yanjun SUNAriton E. XHAFARamanuja VEDANTHAMXiaolin LU
    • H04W52/02
    • H04W52/0216Y02D70/142Y02D70/144
    • Apparatus and method for improving throughput in a wireless device accessing coexisting networks. In one embodiment, a wireless device includes first and second wireless transceivers, a power state controller, and an access controller. The first wireless transceiver is configured to access a first wireless network. The second wireless transceiver is configured to access a second wireless network. The power state controller is configured to switch the first wireless transceiver between an active state and a sleep state. The power consumed by the first wireless transceiver while in the sleep state is reduced relative to the active state. The access controller is configured to alternately allocate a wireless medium to the first wireless transceiver and the second wireless transceiver. The power state controller and the medium access controller are configured to coordinate power state switching of the first wireless transceiver and wireless medium access by the second wireless transceiver.
    • 用于提高无线设备中访问共存网络的吞吐量的装置和方法。 在一个实施例中,无线设备包括第一和第二无线收发器,电源状态控制器和访问控制器。 第一无线收发器被配置为访问第一无线网络。 第二无线收发器被配置为访问第二无线网络。 电源状态控制器被配置为在主动状态和睡眠状态之间切换第一无线收发器。 处于睡眠状态时,第一无线收发器消耗的功率相对于活动状态减小。 访问控制器被配置为交替地向第一无线收发器和第二无线收发器分配无线介质。 电源状态控制器和介质访问控制器被配置为协调第一无线收发器的功率状态切换和第二无线收发器的无线介质访问。
    • 6. 发明申请
    • SYNCHRONIZED CHANNEL ACCESS IN COEXISTING WIRELESS NETWORKS
    • 同步无线网络中的同步通道访问
    • US20100067516A1
    • 2010-03-18
    • US12559853
    • 2009-09-15
    • Yanjun SUNAriton E. XHAFAXiaolin LUJosef PEERY
    • Yanjun SUNAriton E. XHAFAXiaolin LUJosef PEERY
    • H04J3/06
    • H04W16/14H04L5/22H04W4/80H04W56/00H04W72/0446H04W88/06
    • A system and method for arbitrating channel access in a wireless device including co-located network transceivers are disclosed herein. A wireless device includes a first wireless transceiver and a second wireless transceiver. The first transceiver is configured for operation with a first wireless network. The second transceiver is configured for operation with a second wireless network. The wireless device further includes logic that determines which of the first and second transceivers is enabled to transmit at a given time. The logic causes the first transceiver to transmit a notification signal indicating a time period during which the second transceiver of the wireless device will perform a first wireless transaction, and during which, based on receiving the notification signal, a different wireless device performs a second wireless transaction via the second wireless network without transmitting a notification signal.
    • 本文公开了一种用于在包括共位网络收发器的无线设备中仲裁信道接入的系统和方法。 无线设备包括第一无线收发器和第二无线收发器。 第一收发器被配置为与第一无线网络一起操作。 第二收发器被配置为与第二无线网络一起操作。 无线设备还包括确定在给定时间能够发送第一和第二收发器中的哪一个的逻辑。 该逻辑使得第一收发器发送指示无线设备的第二收发器将执行第一无线交易的时间段的通知信号,并且在此期间,基于接收到该通知信号,不同的无线设备执行第二无线 经由第二无线网络进行交易,而不发送通知信号。
    • 9. 发明申请
    • PROTECTING UPLINK TRANSMISSIONS IN COEXISTING WIRELESS NETWORKS
    • 在无线网络中保护上行传输
    • US20100093392A1
    • 2010-04-15
    • US12574904
    • 2009-10-07
    • Yanjun SUNAriton E. XHAFAXiaolin LU
    • Yanjun SUNAriton E. XHAFAXiaolin LU
    • H04M1/00
    • H04W72/1215H04W88/06
    • A system and method for protecting a wireless device including co-located network transceivers from uplink starvation are disclosed herein. A wireless device includes a first wireless transceiver and a second wireless transceiver respectively configured for communication via a first wireless network and a second wireless network. The wireless device further includes logic that determines which of the first and second transceivers is enabled to transmit at a given time. The logic determines a duration of a pending transmission via the first transceiver, and determines a predicted start time of a predicted transmission via the second transceiver. Based on the duration and the predicted start time, the logic transmits a notification signal indicating that a receiving device should refrain from transmitting on the first network for a reserved time ending after the pending transmission starts. The pending transmission starts following completion of the predicted transmission.
    • 本文公开了一种用于保护包括来自上行链路不足的同位网络收发器的无线设备的系统和方法。 无线设备包括分别配置用于经由第一无线网络和第二无线网络进行通信的第一无线收发器和第二无线收发器。 无线设备还包括确定在给定时间能够发送第一和第二收发器中的哪一个的逻辑。 该逻辑确定经由第一收发器的未决传输的持续时间,并且确定经由第二收发器的预测传输的预测开始时间。 基于持续时间和预测的开始时间,逻辑发送指示接收设备应该在第一网络上避免在等待传输开始之后结束的保留时间的通知信号。 未完成的传输在预测的传输完成之后开始。