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    • 7. 发明授权
    • High sensitivity GPS receiver
    • 高灵敏度GPS接收机
    • US08270457B2
    • 2012-09-18
    • US12145918
    • 2008-06-25
    • Qinfang SunWen-Chang YehHo-Chung Chen
    • Qinfang SunWen-Chang YehHo-Chung Chen
    • H04B1/00
    • H04L7/0016G01S19/24G01S19/30G01S19/36G01S19/37
    • A high sensitivity GPS receiver includes an acquisition engine and a tracking engine. The acquisition engine processes GPS satellite data at data rate that is substantially equal to twice the coarse acquisition (CA) code chip rate. This data rate advantageously enables the acquisition engine to process GPS satellite data with relatively less hardware area than traditional GPS acquisition approaches. In one embodiment, the high efficiency acquisition engine may be over-clocked, thereby allowing different phases of a CA code to be correlated quickly. The tracking engine can advantageously processes GPS satellite data at a data rate that does not have an integer relationship to the CA code chip rate.
    • 高灵敏度GPS接收机包括采集引擎和跟踪引擎。 采集引擎以基本上等于粗略采集(CA)码片速率的两倍的数据速率处理GPS卫星数据。 该数据速率有利地使得采集引擎能够以比传统的GPS采集方法更少的硬件面积来处理GPS卫星数据。 在一个实施例中,高效率采集引擎可以被超频,从而允许CA代码的不同阶段快速相关。 跟踪引擎可以以不与CA码片速率的整数关系的数据速率有利地处理GPS卫星数据。
    • 8. 发明申请
    • Multi-Stage GLONASS/GPS Automatic Frequency Control
    • 多级GLONASS / GPS自动频率控制
    • US20120075142A1
    • 2012-03-29
    • US12894067
    • 2010-09-29
    • Hao ZhouQinfang Sun
    • Hao ZhouQinfang Sun
    • G01S19/21
    • G01S19/33G01S19/24
    • A method of providing automatic frequency control pull-in for efficient receipt of GLONASS bits is described. This method can include first determining whether a channel noise (CNo) is greater than or equal to a predetermined value. When the CNo is greater than or equal to the predetermined value, the pull-in can be performed using a first series of predetection integration periods (PDIs) with activated decision-directed flips (DDFs) until a 20 ms boundary of a GLONASS data bit is found. When the CNo is less than the predetermined value, the pull-in can be performed using a second series of PDIs with always deactivated DDFs. A similar method of providing automatic frequency control pull-in for efficient receipt of GPS bits is also described.
    • 描述了提供自动频率控制拉入以有效接收GLONASS位的方法。 该方法可以包括首先确定信道噪声(CNo)是否大于或等于预定值。 当CNo大于或等于预定值时,可以使用具有激活的决策导向翻转(DDF)的第一系列预检整合周期(PDI)来执行引入,直到GLONASS数据位的20ms边界 被发现。 当CNo小于预定值时,可以使用具有永久禁用的DDF的第二系列PDI来执行引入。 还描述了提供自动频率控制拉入以有效接收GPS位的类似方法。
    • 10. 发明授权
    • Fine timing for high throughput packets
    • 高吞吐量数据包的精细时序
    • US09253742B1
    • 2016-02-02
    • US11947749
    • 2007-11-29
    • Qinfang SunKai Shi
    • Qinfang SunKai Shi
    • H04J3/06H04W56/00H04L7/04
    • H04W56/00H04L7/042
    • Improved methods of decoding data symbols of a high throughput (HT) data field in a mixed mode packet are provided. In one embodiment, first and second data symbols of the HT data field can be decoded using timing information derived from a legacy header of the mixed mode packet. In another embodiment, the first data symbol of the HT data field can be decoded using timing information derived from a legacy header of the mixed mode packet, whereas the second data symbol of the HT data field can be decoded using approximately half of the tones of the HT long training field in the mixed mode packet. Subsequent data symbols of the HT data field can be decoded using all tones of the HT long training field in the received mixed mode packet.
    • 提供了对混合模式分组中的高吞吐量(HT)数据字段的数据符号进行解码的改进方法。 在一个实施例中,可以使用从混合模式分组的传统头部导出的定时信息来解码HT数据字段的第一和第二数据符号。 在另一个实施例中,可以使用从混合模式分组的传统头部导出的定时信息来解码HT数据字段的第一数据符号,而HT数据字段的第二数据符号可以使用大约一半的 HT长训练场在混合模式包中。 可以使用接收到的混合模式分组中的HT长训练字段的所有音调来解码HT数据字段的后续数据符号。