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    • 6. 发明授权
    • CDMA base station assisted soft handoff
    • CDMA基站辅助软切换
    • US06353602B1
    • 2002-03-05
    • US09131390
    • 1998-08-07
    • Terry Si-Fong ChengChing Yao Huang
    • Terry Si-Fong ChengChing Yao Huang
    • H04Q734
    • H04W36/18H04W36/38
    • A code-division multiple access base station assisted quality soft handoff algorithm screens or filters out candidate pilot signals from a pilot strength measurement message generated by a mobile station and provides the revised pilot strength measurement message to the mobile switching center of the mobile communication system. The mobile switching center subsequently conducts handoff processing in accordance with the revised pilot strength measurement message. If the combined pilot signal strength of the existing mobile station active legs is less than a first threshold, the current pilot strength measurement message is maintained. If the combined pilot signal strength of the existing mobile station active legs is greater than or equal to the first threshold, all candidate pilot signals are deleted from the pilot strength measurement message such that only pilot signals of existing mobile station active legs remain. Also, if the pilot signal strength of a candidate pilot signal is greater than a second threshold, the candidate pilot signal is added to the pilot strength measurement message. The number of handoffs per call are reduced using the revised pilot strength measurement message such that forward link power and network processing resources are conserved.
    • 码分多址基站辅助质量软切换算法根据移动台生成的导频强度测量消息对候选导频信号进行屏蔽或滤除,并向移动通信系统的移动交换中心提供经修订的导频强度测量消息。 移动交换中心随后根据经修订的导频强度测量消息进行切换处理。 如果现有移动台主动支路的组合导频信号强度小于第一阈值,则维持当前导频强度测量消息。 如果现有移动台主动支路的组合导频信号强度大于或等于第一阈值,则从导频强度测量消息中删除所有候选导频信号,使得仅剩下现有移动台活动小区的导频信号。 此外,如果候选导频信号的导频信号强度大于第二阈值,则将候选导频信号与导频强度测量消息相加。 使用修订的导频强度测量消息来减少每个呼叫的切换次数,使得前向链路功率和网络处理资源被保存。
    • 7. 发明授权
    • Dynamic channel assignment for intelligent antennas
    • 智能天线的动态信道分配
    • US06640104B1
    • 2003-10-28
    • US09473513
    • 1999-12-28
    • Simon C. BorstTerry Si-Fong ChengSudheer A. GrandhiBoris Dmitrievich LubachevskyPhilip Alfred Whiting
    • Simon C. BorstTerry Si-Fong ChengSudheer A. GrandhiBoris Dmitrievich LubachevskyPhilip Alfred Whiting
    • H04Q720
    • H04B7/088H04B7/086H04W16/10H04W16/28H04W24/10H04W72/082
    • Disclosed is a method for improving call quality and capacity by integrating a dynamic channel allocation technique into an intelligent antenna system. The intelligent antenna systems includes beams which are grouped into sets, wherein each set has associated a long list and a primary short list, and each beam has associated a secondary short list. In one embodiment, long term interference levels are measured on each beam in a set of beams for a plurality of communication channels to produce the long list; short term interference levels are measured on each beam in the set of beams for a portion of the plurality of communication channels to produce a plurality of secondary short lists and the primary short list; and communication channels are assigned to a mobile-station from the portion of the plurality of communication channels based on the measured short term interference levels on each beam in the set of beams. The long list and the primary short list are based upon highest measured long and short term interference levels, respectively, for each of the plurality of communication channels across each beam in the set of beams.
    • 公开了一种通过将动态信道分配技术集成到智能天线系统中来改善呼叫质量和容量的方法。 智能天线系统包括被分组成组的波束,其中每个组具有相关联的长列表和主要短列表,并且每个波束具有辅助短列表。 在一个实施例中,在用于多个通信信道的一组波束中的每个波束上测量长期干扰电平以产生长列表; 在多个通信信道的一部分的波束组中的每个波束上测量短期干扰电平以产生多个次要短列表和主要短列表; 并且基于在该组波束中的每个波束上测量的短期干扰电平,从多个通信信道的部分向移动台分配通信信道。 长列表和主要短列表分别基于跨越该组波束中的每个波束的多个通信信道中的每一个的最高测量长和短期干扰电平。
    • 8. 发明授权
    • Methods and apparatus for determining forward and reverse link
performance in a wireless communication system
    • 用于确定无线通信系统中的前向和反向链路性能的方法和装置
    • US6154638A
    • 2000-11-28
    • US8255
    • 1998-01-16
    • Terry Si-Fong ChengAsif Dawoodi Gandhi
    • Terry Si-Fong ChengAsif Dawoodi Gandhi
    • H04B7/26H04B17/00
    • H04B17/3911H04B17/16
    • Link performance is measured in a code division multiple access (CDMA) personal communication service (PCS) or cellular system, or other type of wireless system, using a test set-up which permits the simulation of various changes in system configuration. An illustrative embodiment includes a first attenuator arranged in a common portion of a receive path and a transmit path of a mobile station of the system, and a second attenuator arranged in either a receive-only portion of the receive path or a transmit-only portion of the transmit path. The amounts of attenuation provided by the first and second attenuators are decoupled such that a different amount of attenuation can be provided on the transmit path than on the receive path. Performance of forward and reverse links of the system are measured while varying a value of at least one of the first or second attenuators. For a given measurement, the attenuator values may be selected to simulate performance of the system in a configuration in which base station amplifier power is increased or decreased. As another example, the attenuator values may be selected to simulate performance of the system in a configuration in which cell size is increased. This arrangement of decoupled forward and reverse link attenuation in accordance with the invention permits efficient and accurate determination of link balance conditions.
    • 在码分多址(CDMA)个人通信业务(PCS)或蜂窝系统或其他类型的无线系统中测量链路性能,使用允许模拟系统配置的各种变化的测试设置。 示例性实施例包括布置在系统的移动台的接收路径和发送路径的公共部分中的第一衰减器,以及布置在接收路径的仅接收部分或仅发送部分中的第二衰减器 的传输路径。 由第一衰减器和第二衰减器提供的衰减量被去耦合,使得在发射路径上可以提供与在接收路径上不同的衰减量。 在改变第一衰减器或第二衰减器中的至少一个衰减器的值的同时测量系统的正向和反向链路的性能。 对于给定的测量,可以选择衰减器值以在基站放大器功率增加或减小的配置中模拟系统的性能。 作为另一示例,可以选择衰减器值以在其中小区大小增加的配置中模拟系统的性能。 根据本发明的去耦合正向和反向链路衰减的这种布置允许链路平衡条件的有效和准确的确定。
    • 9. 发明授权
    • Expanding cell radius in a wireless communication system
    • 在无线通信系统中扩展小区半径
    • US07706311B2
    • 2010-04-27
    • US11298554
    • 2005-12-09
    • Qi BiTerry Si-Fong ChengFrances JiangYang Yang
    • Qi BiTerry Si-Fong ChengFrances JiangYang Yang
    • H04B7/00
    • H04W28/22H04L1/0072H04W16/24
    • The present invention provides a method and an apparatus for a wireless communication between a base station and at least one mobile station. The method includes receiving a request for a data rate from the mobile station on a reverse link channel to the base station. The method further includes, in response to the request, skipping a first slot after a delay for a portion of a slot on a forward link transmission before transmitting a data packet in a second slot. By beginning the forward link transmission at the start of the second slot, for example, a software module may cause the base station to skip a slot immediately after the half slot delay. This additional delay of one slot or a portion of the slot may expand radius of a cell for a wireless communication between the base station and the mobile station in a relatively high-speed wireless data network.
    • 本发明提供了一种用于基站与至少一个移动台之间的无线通信的方法和装置。 该方法包括从反向链路信道向基站接收来自移动站的数据速率请求。 该方法还包括响应于该请求,在在第二时隙中发送数据分组之前在前向链路传输上的时隙的一部分的延迟之后跳过第一时隙。 通过在第二时隙的开始处开始前向链路传输,例如,软件模块可以使基站在半时隙延迟之后立即跳过一个时隙。 一个时隙或时隙的一部分的这种附加延迟可以扩展用于在相对高速无线数据网络中的基站和移动站之间的无线通信的小区的半径。
    • 10. 发明授权
    • Dynamic reverse link rate limit algorithm for high data rate system
    • US06999425B2
    • 2006-02-14
    • US09732454
    • 2000-12-07
    • Terry Si-Fong ChengFrances JiangStanley Vitebsky
    • Terry Si-Fong ChengFrances JiangStanley Vitebsky
    • H04Q7/00H04J3/22
    • H04L1/0002H04W28/22
    • A method for determining the reverse link data Rate Limit for mobile stations active on the reverse link of a High Data Rate system is disclosed. In the ideal case, the Rate Limit is based on only the number of mobile stations located in a common sector that are actually active on the reverse link. Currently, the Rate Limit is determined from the total number of mobile stations in a common sector where the total includes mobiles that are transmitting and receiving. Thus, the current method includes mobile stations that are active on the forward link and may not be active on the reverse link. In this invention, a more optimum method of estimating the reverse link loading is obtained from calculations which includes only the mobile stations which are active on the reverse link. An estimate of the reverse link loading of the mobile stations in a common cell is obtained by adding together the data rates of the data sent from each mobile in a common sector during a common frame. This aggregate rate of data during the frame is filtered to minimize irregularities by using the moving average of an infinite impulse response filter and then normalized. The normalized result is a percentage of the maximum achievable aggregate reverse link rate. The final result is compared with a set of threshold values to obtain the maximum Rate Limit that is then set for each mobile station.