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    • 62. 发明授权
    • Method and system for quick Bluetooth low energy (BLE) protocol signal presence detection for coexistence
    • 快速蓝牙低能(BLE)协议信号存在检测方法和系统共存
    • US08874034B2
    • 2014-10-28
    • US12267951
    • 2008-11-10
    • John S. WalleyBrima Babatunde IbrahimSteven HallPrasanna DesaiYuan Zhuang
    • John S. WalleyBrima Babatunde IbrahimSteven HallPrasanna DesaiYuan Zhuang
    • H04B7/00H04W16/14
    • H04W16/14
    • Aspects of the invention may comprise managing operations of BLE interfaces and/or other radio interfaces in a wireless device to mitigate interference to communication via the BLE interfaces by the other radio interfaces. Operating parameters may be communicated between the BLE interfaces and the other radio interfaces to enable mitigating the interference to the BLE interfaces, and at least some of the BLE interfaces and/or the other radio interfaces may be configured based on the communicated operating parameters. The operating parameters may comprise adaptive frequency hopping (AFH) maps that may be adjusted to prevent use of common and/or used channels. The communication device may detect energy associated with BLE communication via scan of all or some of channels used for BLE communication. BLE communication may be predicted based on monitoring of frequency bands used during BLE communication, and/or monitoring of events that may trigger and/or occur during BLE communication.
    • 本发明的方面可以包括管理无线设备中的BLE接口和/或其他无线电接口的操作,以减轻其他无线电接口经由BLE接口的通信的干扰。 可以在BLE接口和其他无线电接口之间传送操作参数,以便减轻对BLE接口的干扰,并且可以基于传送的操作参数来配置至少一些BLE接口和/或其他无线接口。 操作参数可以包括可以被调整以防止使用公共和/或使用的信道的自适应跳频(AFH)映射。 通信设备可以通过扫描用于BLE通信的全部或一些信道来检测与BLE通信相关联的能量。 可以基于在BLE通信期间使用的频带的监视和/或监视在BLE通信期间可能触发和/或发生的事件的BLE通信。
    • 63. 发明授权
    • Method and system for reducing burden on a bluetooth low power end-point device
    • 降低蓝牙低功耗终端设备负担的方法和系统
    • US08744351B2
    • 2014-06-03
    • US12546638
    • 2009-08-24
    • Ash KapurPrasanna Desai
    • Ash KapurPrasanna Desai
    • H04B7/00
    • H04W12/02H04L63/0464H04W84/12H04W84/18H04W88/04Y02D70/00Y02D70/142Y02D70/144Y02D70/146Y02D70/26
    • A relay host wireless device is paired with a target host wireless device over a secure link. The relay host wireless device is operable to acquire link security information, which is associated with a link between the target host wireless device and a wireless end-point device, from the target host wireless device. The relay host wireless device is enabled to establish a link with the target host wireless device by faking its identity as an assumed identity of the target host wireless device. The acquired link security information is applied to the established link. The relay host wireless device is enabled to relay content between the target host wireless device and the wireless end-point device via the established fake link using said assumed identity of the target host wireless device and the secure link between the relay host wireless device and the target host wireless device, successively.
    • 中继主机无线设备通过安全链路与目标主机无线设备配对。 中继主机无线设备可操作以从目标主机无线设备获取与目标主机无线设备和无线端点设备之间的链路相关联的链路安全信息。 允许中继主机无线设备通过将其身份伪造为目标主机无线设备的假定身份来建立与目标主机无线设备的链路。 获取的链路安全信息应用于已建立的链路。 中继主机无线设备能够使用目标主机无线设备的所述假定身份以及中继主机无线设备与所述主机无线设备之间的安全链路,经由建立的假链路在目标主机无线设备与无线终点设备之间中继内容 目标主机无线设备。
    • 64. 发明授权
    • Method and system for multi-radio coexistence and a collaborative interface
    • 用于多无线电共存的方法和系统以及协作接口
    • US08345704B2
    • 2013-01-01
    • US11950559
    • 2007-12-05
    • Prasanna DesaiBrima IbrahimJohn WalleyGang Lu
    • Prasanna DesaiBrima IbrahimJohn WalleyGang Lu
    • H04L12/40
    • H04B1/0067H04B1/0064H04B1/0475H04B1/40H04W72/02H04W88/06
    • Aspects of a method and system for multi-radio coexistence and a collaborative interface may include exchanging information between a plurality of radio transceivers integrated within a single device to enable coexistence, and coordinating sharing of transmit and receive resources between the plurality of radio transceivers by controlling access to the transmit and receive resources, where any one of the plurality of radio transceivers may be enabled to be selected to control the access based on the exchanged information. Selecting one of the radio transceivers for the controlling of the access band may be based on processing capability or priority of communication. The resources may comprise frequency bands, time slots, and antenna access. The information may be exchanged via a serial bus between the plurality of radio transceivers, where the serial bus may conform to an I2C (I-square-C) multi-master serial bus. Each of the radio transceivers may conform to one or more radio frequency technology.
    • 用于多无线电共存和协作接口的方法和系统的方面可以包括在集成在单个设备内的多个无线电收发器之间交换信息以实现共存,以及通过控制来协调多个无线电收发器之间的发送和接收资源的共享 访问发送和接收资源,其中可以使多个无线收发器中的任一个能够被选择以基于所交换的信息来控制访问。 选择用于控制接入频带的无线电收发机之一可以基于处理能力或通信的优先级。 资源可以包括频带,时隙和天线接入。 信息可以通过串行总线在多个无线电收发器之间交换,其中串行总线可以符合I2C(I-square-C)多主机串行总线。 每个无线电收发器可以符合一个或多个射频技术。
    • 67. 发明申请
    • METHOD AND SYSTEM FOR A DUAL-MODE BLUETOOTH LOW ENERGY DEVICE
    • 双模蓝牙低能量器件的方法和系统
    • US20110021142A1
    • 2011-01-27
    • US12546621
    • 2009-08-24
    • Prasanna DesaiChikan KwanAngel PoloSong QiaoCindy TianYuan ZhuangGuoxin XieLatha CaliaperoumalBrima Ibrahim
    • Prasanna DesaiChikan KwanAngel PoloSong QiaoCindy TianYuan ZhuangGuoxin XieLatha CaliaperoumalBrima Ibrahim
    • H04B7/00
    • H04W8/005H04W4/80H04W52/0216H04W84/18Y02D70/00Y02D70/144
    • A dual-mode BLE device identifies idle intervals within Bluetooth BR/EDR traffic communications. The identified idle intervals are used by the dual-mode BLE device to concurrently perform various BLE activities. For example, advertising packet transmissions, advertising packet scanning, connection setup, and/or data packet communication may be concurrently performed within identified idle intervals within the Bluetooth BR/EDR traffic communications. Packet transmission timing, advertising interval, scan window, and/or packet size are determined based on the identified idle intervals within the Bluetooth BR/EDR traffic communications. A scan window is adjusted based on timing of expected advertising transmissions and/or advertising interval(s) for saving power. BLE packets and Bluetooth BR/EDR packets may be detected in a single advertising channel. Maximal payload size is set based on the identified idle intervals within Bluetooth BR/EDR traffic communications. As a slave, the dual-mode BLE device updates connection parameters based on the identified idle intervals within Bluetooth BR/EDR traffic communications.
    • 双模式BLE设备识别蓝牙BR / EDR通信通信中的空闲间隔。 识别的空闲间隔由双模BLE设备用于同时执行各种BLE活动。 例如,广告分组传输,广告分组扫描,连接建立和/或数据分组通信可以在蓝牙BR / EDR业务通信内的标识的空闲间隔内同时执行。 基于蓝牙BR / EDR业务通信中识别的空闲间隔来确定分组传输定时,广告间隔,扫描窗口和/或分组大小。 基于预期的广告发送的定时和/或用于节省功率的广告间隔来调整扫描窗口。 可以在单个广告信道中检测到BLE分组和蓝牙BR / EDR分组。 基于蓝牙BR / EDR业务通信中识别的空闲间隔来设置最大有效载荷大小。 作为从设备,双模BLE设备基于蓝牙BR / EDR业务通信中识别的空闲间隔来更新连接参数。
    • 68. 发明申请
    • METHOD AND SYSTEM FOR DYNAMIC SELECTION OF A COEXISTENCE METHOD AND TRANSMIT POWER LEVEL BASED ON CALIBRATION DATA
    • 用于动态选择共同方法和基于校准数据发送功率电平的方法和系统
    • US20100273426A1
    • 2010-10-28
    • US12428085
    • 2009-04-22
    • John WalleyPrasanna Desai
    • John WalleyPrasanna Desai
    • H04B15/00
    • H04W52/265G01S19/21H04B1/1027H04B7/06H04W24/00H04W28/18H04W52/346H04W72/00H04W88/06
    • Aspects of the invention may comprise calibrating operations of wireless transmitters and/or receivers in a communication device to mitigate interference caused during concurrent communications via the wireless interfaces in the communication device. Calibration may be performed dynamically, and may comprise managing system parameters and/or physical resources of the communication device and/or the wireless transmitters and/or receivers; managing characteristics of wireless communication performed via the wireless transmitters and/or receivers; and/or managing isolation between two or more of said plurality of wireless transmitters and/or receivers in said communication device. The calibration may be performed based on data generated, via the wireless transmitters and/or receivers, during active and/or idle phases of operations. The data may be based on monitoring of RF effects caused by operations of other wireless transmitters and/or receivers. A coexistence manager may exchange data and/or control signaling with the wireless transmitters and/or receivers during to performing the calibration.
    • 本发明的方面可以包括校准通信设备中的无线发射机和/或接收机的操作,以减轻通过通信设备中的无线接口在并发通信期间引起的干扰。 可以动态地执行校准,并且可以包括管理通信设备和/或无线发射器和/或接收器的系统参数和/或物理资源; 管理经由无线发射机和/或接收机执行的无线通信的特性; 和/或管理所述通信设备中的所述多个无线发射机和/或接收机中的两个或更多个之间的隔离。 可以在活动和/或空闲操作阶段期间,经由无线发射器和/或接收器产生的数据执行校准。 数据可以基于由其他无线发射器和/或接收器的操作引起的RF效应的监视。 在执行校准期间,共存管理器可以与无线发射机和/或接收机交换数据和/或控制信令。
    • 69. 发明申请
    • METHOD AND SYSTEM FOR QUICK BLUETOOTH LOW ENERGY (BLE) PROTOCOL SIGNAL PRESENCE DETECTION FOR COEXISTENCE
    • 快速蓝牙低能(BLE)协议信号存在检测方法与系统
    • US20100120362A1
    • 2010-05-13
    • US12267951
    • 2008-11-10
    • John S. WalleyBrima Babatunde IbrahimSteven HallPrasanna DesaiYuan Zhuang
    • John S. WalleyBrima Babatunde IbrahimSteven HallPrasanna DesaiYuan Zhuang
    • H04B7/00
    • H04W16/14
    • Aspects of the invention may comprise managing operations of BLE interfaces and/or other radio interfaces in a wireless device to mitigate interference to communication via the BLE interfaces by the other radio interfaces. Operating parameters may be communicated between the BLE interfaces and the other radio interfaces to enable mitigating the interference to the BLE interfaces, and at least some of the BLE interfaces and/or the other radio interfaces may be configured based on the communicated operating parameters. The operating parameters may comprise adaptive frequency hopping (AFH) maps that may be adjusted to prevent use of common and/or used channels. The communication device may detect energy associated with BLE communication via scan of all or some of channels used for BLE communication. BLE communication may be predicted based on monitoring of frequency bands used during BLE communication, and/or monitoring of events that may trigger and/or occur during BLE communication.
    • 本发明的方面可以包括管理无线设备中的BLE接口和/或其他无线电接口的操作,以减轻其他无线电接口经由BLE接口的通信的干扰。 可以在BLE接口和其他无线电接口之间传送操作参数,以便减轻对BLE接口的干扰,并且可以基于传送的操作参数来配置至少一些BLE接口和/或其他无线接口。 操作参数可以包括可以被调整以防止使用公共和/或使用的信道的自适应跳频(AFH)映射。 通信设备可以通过扫描用于BLE通信的全部或一些信道来检测与BLE通信相关联的能量。 可以基于在BLE通信期间使用的频带的监视和/或监视在BLE通信期间可能触发和/或发生的事件的BLE通信。
    • 70. 发明申请
    • COLLABORATIVE COEXISTENCE OF CO-LOCATED MOBILE WIMAX, WIRELESS LAN, AND/OR BLUETOOTH RADIOS
    • 合作移动WIMAX,无线局域网和/或蓝牙无线电的协同共识
    • US20090196210A1
    • 2009-08-06
    • US12048444
    • 2008-03-14
    • Prasanna Desai
    • Prasanna Desai
    • G08C17/00
    • H04W52/0229H04W16/14H04W52/0225H04W88/06Y02D70/1224Y02D70/1244Y02D70/1246Y02D70/142Y02D70/144Y02D70/146Y02D70/162Y02D70/166
    • Collaborative coexistence of co-located mobile WiMAX, wireless LAN, and/or Bluetooth radios. Within a communication device that includes multi-protocol communication capability, the various radio modules included within such a communication device operate cooperatively such that collisions are avoided between those various radios. When a first of the radio modules operates as governed by a relatively rigid frame structure, a second of the radio modules capitalizes upon that predetermined nature (of the relatively rigid frame structure) to support communication during times in which that first radio module has a lower level of activity (e.g., turned off completely, within a power savings mode, in a sleep mode, etc.). The radio module operation is performed within a time-orthogonal manner, such that multiple radio modules are not attempting to transmit or receive simultaneously. Moreover, CTS2SELF operation can be employed alone or in conjunction with power savings operation of co-located radios within a communication device.
    • 共同移动WiMAX,无线局域网和/或蓝牙无线电的协同共存。 在包括多协议通信能力的通信设备中,包括在这种通信设备内的各种无线电模块协作地进行操作,以避免这些各种无线电之间的冲突。 当无线电模块中的第一个由相对刚性的帧结构来操作时,第二个无线电模块利用该预定特性(相对刚性的帧结构)来支持在该第一无线电模块具有较低的 活动水平(例如,在省电模式下,睡眠模式下等)完全关闭。 以时间正交的方式执行无线电模块操作,使得多个无线电模块不尝试同时发送或接收。 此外,CTS2SELF操作可以单独使用或与通信设备内的同位置无线电的功率节省操作结合使用。