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    • 2. 发明申请
    • METHOD FOR HANDOVER PROBLEM IDENTIFICATION
    • 用于切换问题识别的方法
    • US20120088507A1
    • 2012-04-12
    • US13278756
    • 2011-10-21
    • Peter LeggJohan JohanssonHenrik Olofsson
    • Peter LeggJohan JohanssonHenrik Olofsson
    • H04W36/30H04W24/00
    • H04W36/245
    • Method for handover problem identification in a mobile telecommunications system, the system including at least a first radio basestation, a second radio basestation and a mobile terminal able to communicate with said basestations, said mobile terminal is adapted to do a handover from the first basestation to the second basestation, the method including the steps of: take at least one measure of a link quality between the terminal and any of the stations, evaluate any measure of a link quality in regard of handover problem identification, The invention is distinguished by: in the step of taking the at least one measure, take said at least one measure of a link quality at an end of a successful handover execution of the mobile terminal from the first basestation to the second basestation. The invention also comprises a mobile terminal, a radio basestation and a management entity.
    • 一种用于在移动电信系统中切换问题识别的方法,所述系统至少包括第一无线电基站,第二无线电基站和能够与所述基站通信的移动终端,所述移动终端适于进行从第一基站到 第二基站,该方法包括以下步骤:对终端与任一站之间的链路质量进行至少一个度量,评估对于切换问题识别的链路质量的任何度量,本发明的特征在于: 采取所述至少一个措施的步骤在所述移动终端从所述第一基站到所述第二基站的成功切换执行结束时,采取链路质量的所述至少一个度量。 本发明还包括移动终端,无线电基站和管理实体。
    • 3. 发明申请
    • Method and Arrangement for Allocating a Dedicated Channel in a Cellular Communication System
    • 在蜂窝通信系统中分配专用信道的方法和装置
    • US20070259668A1
    • 2007-11-08
    • US11578090
    • 2005-04-07
    • Peter Legg
    • Peter Legg
    • H04Q7/36
    • H04W72/0446H04B7/2656H04L5/14H04W24/00H04W72/06
    • A dynamic channel assignment scheme for a TDD radio communication system (100) with coexisting dedicated (230; 240) and shared (210; 220) channels has segregated dedicated and shared channel mechanisms. Up to nDL—DCH—MAX/nUL—DCH—MAX dedicated downlink/uplink channel slots are granted, with the remainder of slots for shared channels. These maximum numbers accommodate the needs of conversational and streaming class traffic carried on shared channels. New slots can be claimed for dedicated channels (subject to this maximum) as required, taking the shared channel slot with the smallest timeslot. If the last DCH allocation in a slot is ended, the slot is freed for DSCH/USCH usage. This provides the following advantage(s): uplink algorithm metrics account for intercell interference, the most significant interference source in TDD mode systems, leading to greater capacity; midcall reallocation allows coverage and quality of service to a user to be maintained when a user moves from the centre of the cell to the cell edge; dynamic split between dedicated channel timeslots and shared channel timeslots allows the network to optimise radio resources according to traffic type, leading to an overall higher capacity when the network supports both dedicated channels and shared channels; alignment of the DCH slots across many cells improves the usefulness of measurements for DCA/CAC.
    • 具有共存专用(230; 240)和共享(210; 220)信道的TDD无线电通信系统(100)的动态信道分配方案具有分离的专用和共享信道机制。 SUB> MAX > 专用下行链路/上行链路信道时隙被授予,其余的用于共享信道的时隙。 这些最大数量适应共享信道上携带的会话和流媒体类流量的需求。 可以根据需要为专用通道(根据此最大值)要求新插槽,以最小的时隙采用共享通道插槽。 如果一个时隙中的最后一个DCH分配结束,则释放该时隙用于DSCH / USCH使用。 这提供了以下优点:上行链路算法指标考虑了小区间干扰,TDD模式系统中最重要的干扰源,导致更大的容量; 中间呼叫重新分配允许当用户从小区的中心移动到小区边缘时,维护用户的覆盖和服务质量; 专用信道时隙和共享信道时隙之间的动态分配允许网络根据流量类型来优化无线资源,当网络同时支持专用信道和共享信道时,导致整体更高的容量; 许多单元上的DCH插槽的对准提高了DCA / CAC测量的有用性。
    • 4. 发明申请
    • Scheduling data across a shared communication link in a cellular communication system
    • 在蜂窝通信系统中的共享通信链路上调度数据
    • US20060056373A1
    • 2006-03-16
    • US10941551
    • 2004-09-14
    • Peter Legg
    • Peter Legg
    • H04Q7/28
    • H04W72/1247H04W92/12
    • A system is provided for scheduling data from a network element (101), such as an RNC (101), of a cellular communication system to at least one base station (103) across a shared communication link (105) shared between a plurality of cell sectors (107-111). The apparatus comprises resource allocators (113, 115, 117) each of which schedules data for a single cell sector (107-111). A resource determination processor (119) dynamically determines a resource requirement parameter for at least one of the cell sectors (107-111). The resource determination processor (119) is coupled to a resource assignment processor (121) which dynamically assigns a resource availability of the shared communication link (105) to each of the resource allocators (113, 115, 117) in response to the resource requirement parameter. The resource allocators (113, 115, 117) then schedule data for communication over the shared communication link in response to the resource availability. The invention provides improved utilisation of a shared communication link (105) while allowing independent scheduling by resource allocators associated with a single cell.
    • 提供一种用于将数据从蜂窝通信系统的诸如RNC(101)的网元(101)的数据调度到跨多个共享通信链路(105)之间的共享通信链路(105)的至少一个基站(103)的系统, 单元扇区(107-111)。 该装置包括资源分配器(113,115,117),每个资源分配器调度单个小区扇区(107-111)的数据。 资源确定处理器(119)动态地确定至少一个小区扇区(107-111)的资源需求参数。 所述资源确定处理器(119)耦合到资源分配处理器(121),所述资源分配处理器响应于所述资源需求动态地将所述共享通信链路(105)的资源可用性分配给所述资源分配器(113,115,117) 参数。 然后,资源分配器(113,115,117)响应于资源可用性来调度用于通过共享通信链路的通信的数据。 本发明提供了共享通信链路(105)的改进的利用,同时允许与单个小区相关联的资源分配器的独立调度。
    • 7. 发明申请
    • FOLDING TRAMPOLINE
    • 折叠三角裤
    • US20110021321A1
    • 2011-01-27
    • US12528317
    • 2008-02-21
    • Peter Legg
    • Peter Legg
    • A63B5/11
    • A63B5/11A63B21/023A63B71/022A63B2071/025A63B2210/50A63B2210/56
    • The present invention relates to a foldable trampoline comprising a frame for suspending a trampoline mat, the frame being connected to a support for supporting the frame and wherein the frame is formed with two wings which can pivotally move between a deployed position where the wings are substantially horizontal, and a storage position where the wings are brought towards each other, each wing having a fixed arm extending from the wing which forms a lever and directly links the wing to a linear actuator for controlling the movement of the wings between the deployed and storage positions. The present invention also relates to a kit of parts for producing the foldable trampoline.
    • 本发明涉及一种可折叠蹦床,其包括用于悬挂蹦床垫的框架,该框架连接到用于支撑框架的支撑件,并且其中框架形成有两个翼,其可在枢转地在展开位置之间枢转地移动, 水平和存放位置,其中机翼相互朝向,每个机翼具有从机翼延伸的固定臂,所述固定臂形成杆,并将翼直接连接到线性致动器,用于控制机翼在展开和存储之间的运动 职位 本发明还涉及一种用于制造可折叠蹦床的部件套件。
    • 8. 发明授权
    • Communication system, communication unit and method of power saving therein
    • 通讯系统,通讯单元及省电方法
    • US07209750B2
    • 2007-04-24
    • US10563410
    • 2004-05-20
    • Stephen John BarrettPeter Legg
    • Stephen John BarrettPeter Legg
    • H04Q7/20
    • H04W24/00H04W28/08Y02D70/1224Y02D70/1242
    • A communication system (200) comprises a system management function (246) for managing base-site resources and system throughput of data. The system management function (246) defines a number of resources. The system management function (236), such as a radio network controller, comprises a data throughput identification function to identify one or more bottleneck resources from a sub-set of system resources involved in the system's data throughput. A method of reducing power consumption (MIPS) in a system management function (236) and a radio network controller (236) are also provided.The identification of a bottleneck resource helps determine whether MIPS could be saved by not performing one or more QoS management algorithms, the benefit from which is reduced due to the bottleneck resource.
    • 通信系统(200)包括用于管理基站资源和数据的系统吞吐量的系统管理功能(246)。 系统管理功能(246)定义了许多资源。 诸如无线电网络控制器的系统管理功能(236)包括数据吞吐量识别功能,以从系统的数据吞吐量中涉及的系统资源的子集中识别一个或多个瓶颈资源。 还提供了一种在系统管理功能(236)和无线电网络控制器(236)中降低功耗(MIPS)的方法。 瓶颈资源的识别有助于确定是否可以通过不执行一个或多个QoS管理算法来节省MIPS,由于瓶颈资源而减少了其中的好处。