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    • 31. 发明申请
    • SELF-CONFIGURATION OF POWER CONTROL PARAMETERS IN DENSE SMALL CELL DEPLOYMENTS
    • 电力控制参数自我配置在小型电池部署中的应用
    • US20150327182A1
    • 2015-11-12
    • US14275645
    • 2014-05-12
    • QUALCOMM INCORPORATED
    • Ping XiaMehmet YavuzChirag Sureshbhai Patel
    • H04W52/24
    • H04W52/146H04W52/242H04W52/244
    • A system for self-configuration of power control parameters based on path-loss is operable by a network entity that determines a default power parameter for an access terminal. The network entity determines a path-loss difference between a first path-loss for the access terminal to a serving cell and a second path-loss for the access terminal to a neighboring cell. A power control parameter is determined based on the default power parameter and the pass-loss difference. A system for self-configuration of power control parameters based on downlink power is operable by a network entity that determines a default power parameter for an access terminal. The network entity determines a downlink power difference between a downlink power of a serving cell and a downlink power of a neighboring cell. A power control parameter is determined based on the default power parameter, the downlink power difference.
    • 基于路径损耗的功率控制参数的自配置的系统由确定接入终端的默认功率参数的网络实体来操作。 网络实体确定接入终端到服务小区的第一路径损耗和接入终端到相邻小区的第二路径损耗之间的路径损耗差。 功率控制参数根据默认功率参数和通过损耗差异来确定。 基于下行链路功率的功率控制参数的自配置的系统可由确定接入终端的默认功率参数的网络实体来操作。 网络实体确定服务小区的下行链路功率与相邻小区的下行链路功率之间的下行链路功率差。 功率控制参数基于默认功率参数确定,下行功率差。
    • 38. 发明申请
    • MANAGING ACCESS TERMINAL HANDOVER IN VIEW OF ACCESS POINT PHYSICAL LAYER IDENTIFIER CONFUSION
    • 访问点物理层识别器隐藏视图中的访问终端切换管理
    • US20130143555A1
    • 2013-06-06
    • US13689624
    • 2012-11-29
    • QUALCOMM Incorporated
    • Damanjit SINGHPeerapol TinnakornsrisuphapYeliz TokgozMehmet Yavuz
    • H04W36/00
    • H04W36/0077H04W8/26H04W36/0072
    • Confusion associated with a physical layer identifier is detected and action taken to address this confusion. In some aspects, confusion detection involves determining whether signals such as beacons or pilots that are associated with the same physical layer identifier are also associated with different timing (e.g., different observed time difference (OTD) values). In some aspects, confusion detection involves determining whether an inordinate number of handover failures is associated with a particular physical layer identifier. In some aspects, the action taken upon detecting physical layer identifier confusion involves ensuring that an access terminal is not handed over to an access point that uses that physical layer identifier. In some aspects, the action taken upon detecting physical layer identifier confusion involves resolving the confusion.
    • 检测到与物理层标识符相关联的混淆,并采取行动来解决这种混乱。 在一些方面,混淆检测涉及确定与相同物理层标识符相关联的诸如信标或导频的信号是否也与不同的定时(例如,不同的观察时间差(OTD)值))相关联。 在一些方面,混淆检测涉及确定过度数量的切换失败是否与特定物理层标识符相关联。 在一些方面,在检测物理层标识符混淆时所采取的行动涉及确保接入终端不被切换到使用该物理层标识符的接入点。 在某些方面,检测物理层标识符混淆所采取的行动涉及解决混淆。