会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • H-ARQ ACKNOWLEDGMENT DETECTION VALIDATION BY RE-DECODING
    • 通过重新解码的H-ARQ确认检测确认
    • US20110292811A1
    • 2011-12-01
    • US13152875
    • 2011-06-03
    • Ming-Chang TsaiJames J. Wu
    • Ming-Chang TsaiJames J. Wu
    • H04W24/00
    • H04L1/1845H04L1/1812H04L1/1838
    • Systems and methodologies are described that facilitate reliably receiving a sequence of data packets in a wireless communications environment. In particular, mechanisms are provided that enhance hybrid automatic repeat request protocols through validation of acknowledgment message detection by re-decoding. A transmitter sends a data packet from a sequence of packets in one or more data transmissions. A receiver acknowledges the data packet upon obtaining sufficient transmissions to decode the packet. The receiver re-decodes a successive data transmission in combination with previously received transmissions to validate if the transmitter detected the acknowledgment.
    • 描述了有助于在无线通信环境中可靠地接收数据分组序列的系统和方法。 特别地,提供了通过重新解码确认确认消息检测来增强混合自动重传请求协议的机制。 发射机在一个或多个数据传输中从数据包序列发送数据包。 接收机在获得足够的传输以对分组进行解码时确认数据分组。 如果发射机检测到确认,则接收机与先前接收到的传输结合重新解码连续的数据传输以验证。
    • 2. 发明申请
    • H-ARQ ACKNOWLEDGMENT DETECTION VALIDATION BY RE-DECODING
    • 通过重新解码的H-ARQ确认检测确认
    • US20080232403A1
    • 2008-09-25
    • US11971842
    • 2008-01-09
    • Ming-Chang TsaiJames J. Wu
    • Ming-Chang TsaiJames J. Wu
    • H04J3/24
    • H04L1/1845H04L1/1812H04L1/1838
    • Systems and methodologies are described that facilitate reliably receiving a sequence of data packets in a wireless communications environment. In particular, mechanisms are provided that enhance hybrid automatic repeat request protocols through validation of acknowledgment message detection by re-decoding. A transmitter sends a data packet from a sequence of packets in one or more data transmissions. A receiver acknowledges the data packet upon obtaining sufficient transmissions to decode the packet. The receiver re-decodes a successive data transmission in combination with previously received transmissions to validate if the transmitter detected the acknowledgment.
    • 描述了有助于在无线通信环境中可靠地接收数据分组序列的系统和方法。 特别地,提供了通过重新解码确认确认消息检测来增强混合自动重传请求协议的机制。 发射机在一个或多个数据传输中从数据包序列发送数据包。 接收机在获得足够的传输以对分组进行解码时确认数据分组。 如果发射机检测到确认,则接收机与先前接收到的传输结合重新解码连续的数据传输以验证。
    • 9. 发明授权
    • Dynamic management of receiver resources
    • 接收资源的动态管理
    • US08369356B2
    • 2013-02-05
    • US12042834
    • 2008-03-05
    • Ming-Chang TsaiJames J. WuPillappakkam SrinivasRic SeniorVinayak Chowdiah
    • Ming-Chang TsaiJames J. WuPillappakkam SrinivasRic SeniorVinayak Chowdiah
    • H04J3/16
    • H04L27/00
    • Techniques for dynamically managing receiver resources to achieve good latency and throughput performance are described. A receiver may have various types of receiver resources such as demod resources for demodulating packets, decode resources for decoding packets, packet processing resources, etc. These various types of receiver resources may be dynamically assigned to packets. In one design, receiver resource usage by each packet to be processed by the receiver may be estimated. The available receiver resources may be assigned to packets based on the estimated receiver resource usage by each packet and one or more assignment criteria such as priority, latency requirements, etc. The latency of each packet may be determined based on the receiver resource assignment. If the latency requirements of any packet are not met, then receiver processing may be skipped or deferred for one or more packets such that the latency requirements of each packet to be processed can be met.
    • 描述了用于动态管理接收机资源以实现良好延迟和吞吐量性能的技术。 接收机可以具有各种类型的接收机资源,例如用于解调分组的解调资源,用于解码分组的解码资源,分组处理资源等。这些各种类型的接收机资源可以动态地分配给分组。 在一种设计中,可以估计由接收机处理的每个分组的接收机资源使用。 可以基于每个分组的估计的接收机资源使用和一个或多个分配标准(例如优先级,等待时间要求等)将可用的接收机资源分配给分组。可以基于接收机资源分配来确定每个分组的等待时间。 如果不满足任何分组的等待时间要求,则可以针对一个或多个分组跳过或延迟接收机处理,从而可以满足要处理的每个分组的等待时间要求。
    • 10. 发明申请
    • DYNAMIC MANAGEMENT OF RECEIVER RESOURCES
    • 接收资源的动态管理
    • US20080232400A1
    • 2008-09-25
    • US12042834
    • 2008-03-05
    • Ming-Chang TsaiJames J. WuPhillappakkam SrinivasRic SeniorVinayak Chowdiah
    • Ming-Chang TsaiJames J. WuPhillappakkam SrinivasRic SeniorVinayak Chowdiah
    • H04J3/16
    • H04L27/00
    • Techniques for dynamically managing receiver resources to achieve good latency and throughput performance are described. A receiver may have various types of receiver resources such as demod resources for demodulating packets, decode resources for decoding packets, packet processing resources, etc. These various types of receiver resources may be dynamically assigned to packets. In one design, receiver resource usage by each packet to be processed by the receiver may be estimated. The available receiver resources may be assigned to packets based on the estimated receiver resource usage by each packet and one or more assignment criteria such as priority, latency requirements, etc. The latency of each packet may be determined based on the receiver resource assignment. If the latency requirements of any packet are not met, then receiver processing may be skipped or deferred for one or more packets such that the latency requirements of each packet to be processed can be met.
    • 描述了用于动态管理接收机资源以实现良好延迟和吞吐量性能的技术。 接收机可以具有各种类型的接收机资源,例如用于解调分组的解调资源,用于解码分组的解码资源,分组处理资源等。这些各种类型的接收机资源可以动态地分配给分组。 在一种设计中,可以估计由接收机处理的每个分组的接收机资源使用。 可以基于每个分组的估计的接收机资源使用和一个或多个分配标准(例如优先级,等待时间要求等)将可用接收机资源分配给分组。可以基于接收机资源分配来确定每个分组的等待时间。 如果不满足任何分组的等待时间要求,则可以针对一个或多个分组跳过或延迟接收机处理,从而可以满足要处理的每个分组的等待时间要求。