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    • 1. 发明申请
    • METHODS AND ARRANGEMENTS FOR ORTHOGONAL TRAINING SEQUENCES IN WIRELESS NETWORKS
    • 无线网络中正交训练序列的方法和安排
    • US20130272198A1
    • 2013-10-17
    • US13730989
    • 2012-12-29
    • Shahrnaz AziziThomas J. KenneyEldad PerahiaMinyoung Park
    • Shahrnaz AziziThomas J. KenneyEldad PerahiaMinyoung Park
    • H04W72/02
    • H04W72/02H04L5/0048H04L27/2613
    • Logic may implement an orthogonal frequency division multiplexing (OFDM) system operating in the one gigahertz and lower frequency bands. Logic may detect new long training sequences that are differentially orthogonal to each other for a first bandwidth mode of operation such as a one megahertz mode as well as differentially orthogonal to half of the long training sequence for a second bandwidth mode of operation such as a two megahertz or greater mode. Logic may implement two or more long training sequences for the first bandwidth mode of operation to transmit information based upon the selection of the particular long training sequence for the transmission. Logic may implement a new acknowledgement packet comprising a short training sequence and a long training sequence without a signal field and without a payload. And logic may implement bandwidth detection logic to classify a transmission based upon orthogonal properties of the long training sequences.
    • 逻辑可以实现在一千兆赫和更低频带中工作的正交频分复用(OFDM)系统。 逻辑可以检测对于第一带宽操作模式(例如一兆赫兹模式)以及与第二带宽操作模式的两个长训练序列的一半差异正交的彼此差异正交的新的长训练序列,例如两个 兆赫或更大的模式。 逻辑可以实现用于第一带宽操作模式的两个或更多个长训练序列,以基于用于传输的特定长训练序列的选择来发送信息。 逻辑可以实现包括短训练序列和长训练序列的新的确认分组,而没有信号场并且没有有效载荷。 并且逻辑可以实现带宽检测逻辑以基于长训练序列的正交特性对传输进行分类。
    • 2. 发明授权
    • Methods and arrangements for orthogonal training sequences in wireless networks
    • 无线网络中正交训练序列的方法和布置
    • US09078237B2
    • 2015-07-07
    • US13730989
    • 2012-12-29
    • Shahrnaz AziziThomas J. KenneyEldad PerahiaMinyoung Park
    • Shahrnaz AziziThomas J. KenneyEldad PerahiaMinyoung Park
    • H04W4/00H04W72/02H04L5/00H04L27/26
    • H04W72/02H04L5/0048H04L27/2613
    • Logic may implement an orthogonal frequency division multiplexing (OFDM) system operating in the one gigahertz and lower frequency bands. Logic may detect new long training sequences that are differentially orthogonal to each other for a first bandwidth mode of operation such as a one megahertz mode as well as differentially orthogonal to half of the long training sequence for a second bandwidth mode of operation such as a two megahertz or greater mode. Logic may implement two or more long training sequences for the first bandwidth mode of operation to transmit information based upon the selection of the particular long training sequence for the transmission. Logic may implement a new acknowledgement packet comprising a short training sequence and a long training sequence without a signal field and without a payload. And logic may implement bandwidth detection logic to classify a transmission based upon orthogonal properties of the long training sequences.
    • 逻辑可以实现在一千兆赫和更低频带中工作的正交频分复用(OFDM)系统。 逻辑可以检测对于第一带宽操作模式(例如一兆赫兹模式)以及与第二带宽操作模式的两个长训练序列的一半差异正交的彼此差异正交的新的长训练序列,例如两个 兆赫或更大的模式。 逻辑可以实现用于第一带宽操作模式的两个或更多个长训练序列,以基于用于传输的特定长训练序列的选择来发送信息。 逻辑可以实现包括短训练序列和长训练序列的新的确认分组,而没有信号场并且没有有效载荷。 并且逻辑可以实现带宽检测逻辑以基于长训练序列的正交特性对传输进行分类。
    • 6. 发明申请
    • TECHNIQUES FOR PROVIDING FLEXIBLE CLEAR CHANNEL ASSESSMENT DETECTION THRESHOLDS IN A WIRELESS NETWORK
    • 在无线网络中提供灵活的清除信道评估检测技术的技术
    • US20160050674A1
    • 2016-02-18
    • US14779992
    • 2013-12-20
    • Thomas J. KENNEYEldad PERAHIAMinyoung PARKShahrnaz AZIZI
    • Thomas J. KenneyEldad PerahiaMinyoung ParkShahrnaz Azizi
    • H04W72/08
    • H04W72/08H04W74/002H04W84/12
    • Examples are disclosed for providing flexible clear channel assessment (CCA) detection thresholds in a wireless local access network (WLAN). In some examples, an apparatus for dynamically setting a clear channel assessment (CCA) threshold in a wireless local area network (WLAN) may comprise a processor component, a radio coupled to the processor component, and logic for execution by the processor component to establish a CCA threshold for a wireless channel of the WLAN, send a first wireless message to one or more wireless station (STA) devices in wireless proximity to the apparatus informing the one or more STA devices of the established CCA threshold and instructing the one or more STA devices to avoid CCA levels exceeding the CCA threshold on the wireless channel and send a second wireless message to a wireless access point (AP) device associated with the apparatus informing the AP device of the established CCA threshold and instructing the AP device to broadcast use of the CCA threshold on the wireless channel. Other examples are described and claimed.
    • 公开了用于在无线本地接入网络(WLAN)中提供灵活的清除信道评估(CCA)检测阈值的示例。 在一些示例中,用于在无线局域网(WLAN)中动态地设置清除信道评估(CCA)阈值的装置可以包括处理器组件,耦合到处理器组件的无线电和由处理器组件执行以建立 用于WLAN的无线信道的CCA阈值向位于所述设备的无线接近的一个或多个无线站(STA)设备发送第一无线消息,通知所述一个或多个STA设备所建立的CCA阈值并且指示所述一个或多个 STA设备,以避免CCA级别超过无线信道上的CCA阈值,并向与AP设备相关联的无线接入点(AP)设备发送第二无线消息,通知AP设备建立的CCA阈值并指示AP设备广播使用 的无线信道上的CCA阈值。 其他的例子被描述和要求保护。
    • 7. 发明授权
    • Methods and arrangements for frequency selective transmission
    • 频率选择传输的方法和布置
    • US09066265B2
    • 2015-06-23
    • US13731001
    • 2012-12-29
    • Minyoung ParkEldad PerahiaThomas J. KenneyShahrnaz Azizi
    • Minyoung ParkEldad PerahiaThomas J. KenneyShahrnaz Azizi
    • H04W4/00H04W28/16H04W74/00
    • H04W28/16H04L5/0048H04W74/002
    • Logic such as hardware and/or code to narrow available sub-channels in frequency selective transmission communications in which a station selects a narrow band from a wider channel bandwidth. A frequency selective transmission scheme for communications devices may select a 1 or 2 MHz channel from a wider channel bandwidth (e.g., 4, 8, 16 MHz) that consists of a number of 1 or 2 MHz sub-channels and transmitting packets on the selected sub-channel. The access point may narrow the number of sub-channels available for selection by stations. Stations may narrow the number of sub-channels. Both the AP and the stations may operate to narrow the number of sub-channels. A medium access control sub-layer protocol common to the communications devices may facilitate a frequency selective transmission scheme.
    • 诸如用于在频率选择性传输通信中缩小可用子信道的硬件和/或代码的逻辑,其中站从更宽的信道带宽选择窄带。 用于通信设备的频率选择性传输方案可以从由多个1或2MHz子信道组成的较宽信道带宽(例如,4,8,16MHz)中选择1或2MHz信道,并在所选择的信道上传输分组 子频道 接入点可以缩小可用于站点选择的子信道的数量。 车站可能会缩小子频道的数量。 AP和站都可以操作以缩小子信道的数量。 通信设备公用的介质访问控制子层协议可以促进频率选择性传输方案。
    • 9. 发明申请
    • METHODS AND ARRANGEMENTS TO MITIGATE COLLISIONS IN WIRELESS NETWORKS
    • 在无线网络中缓解冲突的方法和安排
    • US20140192820A1
    • 2014-07-10
    • US13931918
    • 2013-06-29
    • Shahrnaz AziziAdrian P. StephensThomas J. KenneyEldad PerahiaMinyoung Park
    • Shahrnaz AziziAdrian P. StephensThomas J. KenneyEldad PerahiaMinyoung Park
    • H04W28/04H04W74/08
    • H04W72/04C12N15/74H04W74/0816H04W84/18
    • Logic for collision mitigation between transmissions of wireless transmitters and receivers operating at different bandwidths. Logic of the receivers may be capable of receiving and detecting signals transmitted at narrower bandwidths. In several embodiments, the receivers comprise a clear channel assessment logic that implements a guard interval (or cyclic prefix) detector to detect transmissions at narrower bandwidths. For instance, a two MegaHertz (MHz) bandwidth receiver may implement a guard interval detector to detect 1 MHz bandwidth signals and a 16M Hz bandwidth receiver may implement logic to detect one or more 1 MHz bandwidth signals and any other combination of, e.g., 1, 2, 4, 8 MHz bandwidth signals. In many embodiments, the guard interval detector may be implemented to detect guard intervals on a channel designated as a primary channel as well as on one or more non-primary channels.
    • 用于在不同带宽下工作的无线发射机和接收机的传输之间的冲突缓解的逻辑。 接收机的逻辑可能能够接收和检测在较窄带宽上传输的信号。 在几个实施例中,接收机包括清除信道评估逻辑,其实现保护间隔(或循环前缀)检测器以检测较窄带宽的传输。 例如,两兆赫(MHz)带宽接收机可以实现一个保护间隔检测器来检测1 MHz带宽信号,一个16M Hz带宽接收器可以实现逻辑检测一个或多个1 MHz带宽信号和任何其他组合,例如1 ,2,4,8 MHz带宽信号。 在许多实施例中,保护间隔检测器可被实现为检测被指定为主信道以及在一个或多个非主信道上的信道上的保护间隔。
    • 10. 发明申请
    • METHODS AND ARRANGEMENTS TO DECODE COMMUNICATIONS
    • 解决通信的方法和安排
    • US20140146722A1
    • 2014-05-29
    • US13685631
    • 2012-11-26
    • Shahrnaz AziziEldad PerahiaThomas J. KenneyMinyoung Park
    • Shahrnaz AziziEldad PerahiaThomas J. KenneyMinyoung Park
    • H04L29/06
    • H04L69/22H04L27/2647
    • Embodiments may comprise logic such as hardware and/or code to reduce power consumption by, e.g., a device such as a station or relay by implementing prediction logic to decode and determine whether a communication affects the operation of the device. Some embodiments may comprise logic to receive at least a portion of a header of a frame from a physical layer and begin to decode the portion of the header of the frame without first checking the correctness of the value in the frame check sequence field. In many embodiments, prediction logic may determine whether the frame could have an impact on the operation of the device. For circumstances in which the prediction logic determines that the frame will not have an impact, the MAC logic may terminate processing, receipt, and decoding of the frame and enter the device into a low power consumption state.
    • 实施例可以包括诸如硬件和/或代码的逻辑,以通过实现预测逻辑来解码并确定通信是否影响设备的操作来减少例如诸如站或中继的设备的功率消耗。 一些实施例可以包括用于从物理层接收帧的头部的至少一部分的逻辑,并且开始对帧的头部的部分进行解码,而不首先检查帧校验序列字段中的值的正确性。 在许多实施例中,预测逻辑可以确定帧是否可能对设备的操作产生影响。 对于预测逻辑确定帧不会产生影响的情况,MAC逻辑可以终止帧的处理,接收和解码,并将该设备进入低功耗状态。