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    • 1. 发明授权
    • Terminal bitrate indicator
    • 终端码率指示
    • US06668159B1
    • 2003-12-23
    • US09200882
    • 1998-11-30
    • Håkan OlofssonPeter SchrammFrank MullerJohan Sköld
    • Håkan OlofssonPeter SchrammFrank MullerJohan Sköld
    • H04B1700
    • H04W48/20H04L1/20H04W88/02
    • A bit rate indicator for use in the mobile station of a radiotelephone system which provides an indication to the user of the maximal bit rate available in the current cell and the predicted bit rate the user can expect to achieve if a session were initiated in his present location. In calculating the maximal bit rate, the mobile station receives a message from the base station indicating the base station's capabilities, such as support for multi-slot operations and coding/modulation schemes. The mobile station then uses the base station's capabilities along with its own capabilities to determine the maximal bit rate. In calculating predicted bit rate, the mobile station measures the link quality of at least one channel and based on, at least one of, the measured link quality and mobile's capabilities, determines a predicted bit rate the user would achieve in his present location. Both the maximal and predicted bit rates can be outputted on the mobile station for comparison by the user. This information can be used to effectively direct the user to the location in a cell with the best link quality. The present invention may be especially useful when using a mobile station to interface with the Internet.
    • 用于在无线电话系统的移动台中使用的比特率指示符,其向用户提供当前小区中可用的最大比特率的指示,以及如果在他的现在发起会话,则用户可以期望实现的预测比特率 位置。 在计算最大比特率时,移动台从基站接收指示基站能力的消息,例如支持多时隙操作和编码/调制方案。 移动台随后使用基站的能力及其自己的能力来确定最大比特率。 在计算预测比特率时,移动站测量至少一个信道的链路质量,并且基于所测量的链路质量和移动能力中的至少一个,确定用户将在其当前位置实现的预测比特率。 最大和预测的比特率都可以在移动台上输出以供用户比较。 该信息可用于有效地将用户定向到具有最佳链路质量的小区中的位置。 当使用移动台与因特网进行接口时,本发明可能是特别有用的。
    • 7. 发明申请
    • Method and Arrangement for Resource Management
    • 资源管理方法与安排
    • US20120202549A1
    • 2012-08-09
    • US13501347
    • 2009-10-15
    • Ann-Christine ErikssonHåkan OlofssonFredrik Persson
    • Ann-Christine ErikssonHåkan OlofssonFredrik Persson
    • H04W72/06
    • H04W28/16H04W28/18H04W72/0433H04W72/0453H04W72/0473H04W72/10H04W72/1215H04W72/1242H04W88/10
    • The invention relates to a method in a communication node (10,200,201,202,211,212,222) for commonly managing resources in a radio access network between different network access technologies, which communication node (10,200,201,202,211,212,222) is comprised in a radio access network of a radio communications network. The communication node receives (71) from a first local resource manager (111) of a first network access technology, a first report of information regarding resources needed per service associated with the first network access technology, which service is associated with a first local service priority. The communication node (10,200,201,202,211,212,222) then receives (72) from a second local resource manager (112) of a second network access technology, a second report of information regarding resources needed per service associated with the second network access technology. The service is associated with a second local service priority. The communication node ranks the service priority in the first report in relation to the service priority in the second report. The communication node generates an allocation scheme of resources, which allocation scheme allocates resources to at least one of the first or second local resource managers (111,112) based on the ranking of the service priorities.
    • 本发明涉及通信节点(10,200,201,202,211,212,222)中的一种方法,用于在不同的网络接入技术之间共同管理无线电接入网络中的资源,该通信节点(10,200,201,202,211,212,222)包括在无线电通信网络的无线电接入网络中。 通信节点从第一网络接入技术的第一本地资源管理器(111)接收(71)第一报告关于与第一网络接入技术相关联的每个服务所需的资源的信息,该服务与第一本地服务相关联 优先。 通信节点(10,200,201,202,211,212,222)然后从第二网络接入技术的第二本地资源管理器(112)接收(72)第二个关于与第二网络接入技术相关联的服务所需资源的信息的第二报告。 该服务与第二个本地服务优先级相关联。 通信节点在第一报告中针对第二报告中的服务优先级对服务优先级进行排序。 通信节点生成资源的分配方案,该分配方案基于服务优先级的排序向第一或第二本地资源管理器(111,112)中的至少一个分配资源。
    • 9. 发明授权
    • Cell identification based on distance
    • 基于距离的小区识别
    • US06285874B1
    • 2001-09-04
    • US09196167
    • 1998-11-20
    • Sverker MagnussonHåkan OlofssonKatarina IsakssonStephan Trzeciak
    • Sverker MagnussonHåkan OlofssonKatarina IsakssonStephan Trzeciak
    • H04Q720
    • H04W16/00H04W16/10H04W36/08H04W48/08
    • The present invention relates generally to the problem of determining the identity of a cell for e.g. cell handoff or automatic frequency planning, and more particularly to the problem of determining the true identity of a cell when only the transmission frequency and a non-unique identity code is known. A candidate list is created for each cell. This candidate list is created based on a function of various elements e.g. distance, transmission power, cell type, and antenna placement. The cells are then ranked on the candidate list based on this function. When a particular frequency/code combination is detected, the candidate list is then consulted, and the highest ranking cell with the same frequency/code combination is chosen as being the signal source. In an alternative embodiment the neighbor cell list is used to create the candidate list. If there are no matches on this list for the detected frequency/code combination, then the neighbors of the cells on the candidate list are also added to the candidate list which is then checked for a match.
    • 本发明一般涉及确定例如细胞的细胞的身份的问题。 小区切换或自动频率规划,更具体地说,涉及当仅知道传输频率和非唯一性身份码时确定小区的真实身份的问题。 为每个单元格创建候选列表。 基于各种元素的功能创建该候选列表。 距离,发射功率,小区类型和天线放置。 然后,基于该功能,将这些单元列在候选列表上。 当检测到特定的频率/代码组合时,然后查询候选列表,并且选择具有相同频率/代码组合的最高等级的单元作为信号源。 在替代实施例中,相邻小区列表用于创建候选列表。 如果检测到的频率/代码组合在该列表上没有匹配,则候选列表中的单元格的邻居也被添加到候选列表,然后检查匹配。