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    • 12. 发明申请
    • DATA PACKET TYPE RECOGNITION SYSTEM
    • 数据包类识别系统
    • WO2007023044A1
    • 2007-03-01
    • PCT/EP2006/064460
    • 2006-07-20
    • IPWIRELESS INCANDERSON, Nicholas
    • ANDERSON, Nicholas
    • H04L29/06
    • H04L1/0041H04L1/0046H04L1/0061
    • Embodiments of the present invention distinguish a first type of data packet transmitted over a random access communication channel of a wireless cellular communications system from a second type of data packet transmitted over the same random access communication channel, allowing the first and second data packet data packet types to share a common set of rando m access channels through the use of different types of channel coding. This reduces data packet collision probability by eliminating the need to segregate the set of random access channels according to data packet type. Backward compatibility with legacy base stations that handle only the first data packet type is maintained in that no changes to the first data packet type are needed.
    • 本发明的实施例将通过无线蜂窝通信系统的随机接入通信信道发送的第一类型的数据分组与通过相同的随机接入通信信道发送的第二类型的数据分组进行区分,从而允许第一和第二数据分组数据分组 类型通过使用不同类型的通道编码来共享一组通用的rando m访问通道。 这通过消除根据数据分组类型来隔离该组随机接入信道的需要来减少数据分组冲突概率。 与仅处理第一数据分组类型的传统基站的向后兼容性被维持为不需要对第一数据分组类型的改变。
    • 13. 发明申请
    • RESOURCE ASSIGNMENT IN AN ENHANCED UPLINK MOBILE COMMUNICATION SYSTEM
    • 增强上网手机通信系统资源配置
    • WO2007023022A1
    • 2007-03-01
    • PCT/EP2006/064034
    • 2006-07-07
    • IPWIRELESS INCANDERSON, Nicholas William
    • ANDERSON, Nicholas William
    • H04L12/56H04Q7/38
    • H04W72/0413H04W72/042H04W72/1263H04W72/1268H04W72/14H04W84/042
    • An apparatus, such as a base station, transmitting signalling information in a cellular communication system whereby a plurality of shared uplink transmission resources is divided into sets of mutually exclusive transmission resources. The apparatus comprises means for granting uplink resources to a wireless subscriber communication unit via a grant message for uplink transmission; means for receiving an uplink transmission from a wireless subscriber communication unit; means for deriving an uplink code resource identifier from the uplink transmission or the grant message; means for assigning at least one downlink code sequence used to carry downlink signalling information associated with the uplink transmission and which is derived using the uplink code resource identifier; and means for transmitting a downlink transmission comprising the at least one downlink code sequence to the wireless subscriber communication unit.
    • 诸如基站的装置在蜂窝通信系统中发送信令信息,由此多个共享的上行链路传输资源被划分为互斥的传输资源的集合。 该装置包括用于经由用于上行链路传输的授权消息向无线用户通信单元授予上行链路资源的装置; 用于从无线用户通信单元接收上行链路传输的装置; 用于从上行链路传输或授权消息导出上行链路码资源标识符的装置; 用于分配用于携带与所述上行链路传输相关联的下行链路信令信息的至少一个下行链路码序列并且使用所述上行链路码资源标识符导出的装置 以及用于将包括所述至少一个下行链路码序列的下行链路传输发送到所述无线用户通信单元的装置。
    • 14. 发明申请
    • COMMUNICATING UPLINK SIGNALLING INFORMATION
    • 传播上传信息信息
    • WO2006117251A1
    • 2006-11-09
    • PCT/EP2006/050806
    • 2006-02-09
    • IPWIRELESS INCANDERSON, Nicholas WilliamBEALE, Martin WarwickLEGG, Peter Jonathon
    • ANDERSON, Nicholas WilliamBEALE, Martin WarwickLEGG, Peter Jonathon
    • H04Q7/38
    • H04W72/1268H04L5/0044H04L47/14H04W72/04H04W72/0413H04W72/1284H04W74/004
    • A User Equipment, UE, (101) of a cellular communication system (100) transmits scheduling assistance data to a base station (105) comprising a base station scheduler (209) which schedules uplink packet data. The scheduling assistance data relates to uplink packet data transmission from the UE (101). The UE (101) comprises a channel controller (213) which is operable to cause the scheduling assistance data to be transmitted from the UE (101) to the base station (105) in a first physical resource of an uplink air interface. The first physical resource is not managed by the base station based scheduler (209). The scheduling assistance data may specifically be transmitted in a first transport channel multiplexed with other transport channel s on a physical resource. The transport channels may be individually optimised and may have different termination points and transmission reliabilities. Specifically, the transport channel supporting the scheduling assistance data signalling may have a high reliability and be terminated in the base station (105).
    • 蜂窝通信系统(100)的用户设备UE(101)向基站(105)发送调度辅助数据,基站(105)包括调度上行分组数据的基站调度器(209)。 调度辅助数据涉及来自UE(101)的上行链路分组数据传输。 UE(101)包括信道控制器(213),其可操作以使调度辅助数据在上行链路空中接口的第一物理资源中从UE(101)发送到基站(105)。 第一物理资源不由基于基站的调度器(209)管理。 调度辅助数据可以具体地在与物理资源上的其他传输信道S复用的第一传输信道中发送。 传输信道可以被单独优化,并且可以具有不同的终止点和传输可靠性。 具体地,支持调度辅助数据信令的传输信道可能具有高可靠性并且在基站(105)中终止。
    • 15. 发明申请
    • INTRA-FRAME CODE DIVERSITY
    • 内部框架代码多样性
    • WO2006015988A1
    • 2006-02-16
    • PCT/EP2005/053966
    • 2005-08-11
    • IPWIRELESS INCANDERSON, Nicholas WilliamPONNAMPALAM, Vishakan
    • ANDERSON, Nicholas WilliamPONNAMPALAM, Vishakan
    • H04J13/00
    • H04J13/16
    • Provided are methods and apparatuses to encode portions of user data with corresponding spreading sequences within a frame wherein the user data is associated with a single user. Specifically, data may be transmitted on a link from a first radio to a second radio across a plu rality of timeslots in a frame by associating a first portion of user data with a first portion o f the frame and associating a second portion of user data with a second portion of the frame. The first and second portions o f user data are then encoded with different sp reading sequences. The user data is transmitted from the first radio to the second radio by transmitting the encoded first portion of user data in the first portion of the frame and the encoded second portion of user data in the second portion of the frame.
    • 提供了用于在用户数据与单个用户相关联的帧中对应的扩展序列对用户数据的部分进行编码的方法和装置。 具体地,可以通过将用户数据的第一部分与该帧的第一部分相关联并将用户数据的第二部分与用户数据的第二部分相关联,将数据从第一无线电到第二无线电通过帧中的时隙的频率发送 框架的第二部分。 然后用不同的sp读取序列对用户数据的第一和第二部分进行编码。 通过在帧的第二部分中发送帧的第一部分中的用户数据的编码的第一部分和用户数据的编码的第二部分,将用户数据从第一无线电发送到第二无线电。
    • 18. 发明申请
    • A SYSTEM FOR MONITORING AND LOCATING PEOPLE AND OBJECTS
    • 监视和定位人员和对象的系统
    • WO2004019168A2
    • 2004-03-04
    • PCT/US2003/026201
    • 2003-08-20
    • BLUESPAN, L.L.C.HATHIRAM, DaraiusCUMMINGS, BruceANDERSON, NicholasHAM, Ronald, E.CHAPUT, James
    • HATHIRAM, DaraiusCUMMINGS, BruceANDERSON, NicholasHAM, Ronald, E.CHAPUT, James
    • G06F
    • G08B21/0202
    • A method, computer program product and system for monitoring and locating an object using secure communications without relying on GPS. A monitoring device may activate a monitored unit (unit monitored by monitoring device) by transmitting a seed of an algorithm and a time synchronization to the monitored unit. The seed and time synchronization may be used in conjunction with an algorithm, e.g., frequency hopping table, stored in both the monitoring device and the monitored unit, to allow both the monitoring device and the monitored unit to communicate with one another at a uniquely synchronized time and frequency thereby making it more difficult for a third party to locate the monitored unit. An alert may be generated when the monitored unit is located beyond a predetermined zone. The monitored unit may be located by activating a directional antenna in conjunction with a digital compass on the monitoring device.
    • 用于使用安全通信监视和定位对象而不依赖于GPS的方法,计算机程序产品和系统。 监控设备可以通过向被监控单元发送算法的种子和时间同步来激活被监控单元(由监控设备监控的单元)。 种子和时间同步可以与存储在监控设备和被监控单元中的算法(例如,跳频表)结合使用,以允许监控设备和被监控单元以唯一同步的方式彼此通信 时间和频率,从而使第三方更难以找到被监测单元。 当监控单元位于预定区域之外时,可能会产生警报。 监控设备可以通过与监控设备上的数字罗盘一起激活定向天线来定位。
    • 20. 发明申请
    • POWER CONTROL METHOD DURING CALL ESTABLISHMENT IN A RADIO COMMUNICATIONS SYSTEM
    • 无线电通信系统呼叫建立期间的功率控制方法
    • WO0193455A8
    • 2002-05-02
    • PCT/EP0106148
    • 2001-05-30
    • MOTOROLA INCNEIL RORIE OANDERSON NICHOLAS WILLIAM
    • O'NEIL RORIEANDERSON NICHOLAS WILLIAM
    • H04B7/005H04W52/12H04W52/22H04W52/24H04W52/26H04W52/28H04W52/50
    • H04W52/12H04W52/225H04W52/226H04W52/24H04W52/26H04W52/283H04W52/50
    • Upon call set-up requests in a CDMA-based communication system (1), an outer power control loop function is initially armed (158) with a time-averaged Eb/No value for a desired quality of service (QoS) of a specific service-type, e.g. voice, data or video, at a particular location. Clearly, different locations (Xn, Yn) within the communication system (10) are subject to different propagation environments and so the time-averaged Eb/No values (110) vary between services and locations. Generally, as exemplified in Fig 3, an RNC (36-40) is operable to maintain a continuously updated database (100) through recodal of converged outer loop targets (for a cell or georgraphic location) for each specific type of service. When a new call is initiated (150), an initial outer power control loop target is taken (110) to be the time-averaged Eb/No valude from the database (100). In this way, any transient period (160) between call establishment (150-158) and convergence to a true required outer loop threshold is reduced, increasing overall network quality and capacity. The initial default within the database (100) doe not need to be chosed with particular care since it will soon be updated once an associated Node B (26-31) goes live, tereby avoiding the necessity of having to extensively system test new Node B sites in an interference-critical radio environment. The process of updating location-specific converged Eb/No values may be maintained (168) in-call.
    • 在基于CDMA的通信系统(1)中的呼叫建立请求中,外部功率控制回路功能被初始化(158),具有用于期望的服务质量(QoS)的时间平均的Eb / No值 服务类型,例如 语音,数据或视频。 显然,通信系统(10)内的不同位置(Xn,Yn)经受不同的传播环境,因此时间平均Eb / No值(110)在服务和位置之间变化。 通常,如图3所示,RNC(36-40)可操作以通过对于每种特定类型的服务的汇聚外环目标(对于小区或地理位置)进行重新编排来维持连续更新的数据库(100)。 当开始新的呼叫(150)时,采取初始外部功率控制环路目标(110)为来自数据库(100)的时间平均Eb / No值。 以这种方式,减少呼叫建立(150-158)和收敛到真实所需外部环路阈值之间的任何瞬态时段(160),从而提高整体网络质量和容量。 数据库(100)中的初始默认值不需要特别小心选择,因为一旦相关联的节点B(26-31)生效,它将很快被更新,因为避免了必须广泛地系统测试新的节点B 干扰关键的无线电环境中的站点。 可以维护更新位置特定的收敛Eb / No值的过程(168)呼叫。