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    • 1. 发明申请
    • MEASUREMENT BASED QOS ADAPTATION
    • 基于测量的QOS适应
    • US20150023195A1
    • 2015-01-22
    • US14378000
    • 2012-02-22
    • Nils BrännströmPeter LundhErik Geijer Lundin
    • Nils BrännströmPeter LundhErik Geijer Lundin
    • H04W24/08H04W28/02
    • H04W24/08H04L47/824H04L47/828H04W28/0236H04W28/22H04W28/24
    • The invention relates to a method and device (14) of controlling bit rate of a terminal (11, 12, 13) included in a group of terminals. To this end, a method is provided comprising the steps of acquiring a predetermined QoS parameter for the terminal, which parameter stipulates target QoS to be given to the terminal relative to other terminals in the group, and acquiring either one or both of (a) at least one measure of a channel condition of the terminal and (b) at least one capacity measure of the terminal. Further, the method comprises the step of controlling the bit rate of the terminal on the basis of a reference weighting factor created by a combination of the acquired predetermined QoS parameter, the acquired at least one measure of a channel condition of the terminal and/or the acquired at least one capacity measure of the terminal.
    • 本发明涉及一种控制包括在一组终端中的终端(11,12,13)的比特率的方法和装置(14)。 为此,提供一种方法,该方法包括以下步骤:为该终端获取预定的QoS参数,该参数规定给定终端相对于该组中的其他终端的目标QoS,并且获取(a) 终端的信道状况的至少一个度量,以及(b)终端的至少一个容量测量。 此外,该方法包括以下步骤:基于由所获取的预定QoS参数,获取的终端的信道状况的所述至少一个度量和/或所获取的预定QoS参数的组合而产生的参考加权因子来控制终端的比特率。 获得终端的至少一个容量测量。
    • 5. 发明授权
    • Dynamic bandwidth allocation control in a multi-access radio communication system
    • 多址无线电通信系统中的动态带宽分配控制
    • US08687576B2
    • 2014-04-01
    • US13141241
    • 2011-05-27
    • Nils BrännströmStephen CraigRaimundas GaigalasSara Khosravi
    • Nils BrännströmStephen CraigRaimundas GaigalasSara Khosravi
    • H04W72/04H04W4/00
    • H04W28/10H04L43/0882H04W72/121H04W72/1231H04W72/1247
    • A scheduler for ranking-based scheduling of multiple users on a shared communication channel of a serving base station in a wireless communication system comprises a determiner (42), a priority ranker (44), a user selector (46) and a resource allocator (48). The determiner (42) is configured to determine, for each user of a given traffic class, measured bandwidth share ratios with respect to each of a number of other traffic classes. The priority ranker (44) is configured to determine, for each user, a priority rank based on i) achievable bit rate of the user according to reported channel quality, and ii) a quality of service component representing compliance of the measured bandwidth share ratios to corresponding target bandwidth share ratios. The user selector (46) is configured to select a subset of the users among those users having the highest priority ranks, and the resource allocator (48) is configured to allocate transmission resources of the base station to the selected subset of the users for transmission of user data on the shared communication channel.
    • 一种用于在无线通信系统中的服务基站的共享通信信道上的多个用户的基于排序的调度的调度器,包括确定器(42),优先级筛选器(44),用户选择器(46)和资源分配器 48)。 确定器(42)被配置为针对给定业务类别的每个用户确定相对于多个其他业务类别中的每一个的测量带宽分配比率。 优先级排队员(44)被配置为针对每个用户确定基于i)根据报告的信道质量的用户可达到的比特率的优先等级,以及ii)表示所测量的带宽份额比率的顺应性的服务质量成分 到相应的目标带宽占有率。 用户选择器(46)被配置为在具有最高优先级的用户中选择用户的子集,并且资源分配器(48)被配置为将基站的传输资源分配给所选择的用户的子集以进行传输 的共享通信信道上的用户数据。
    • 6. 发明申请
    • Dynamic Bandwidth Allocation Control in a Multi-Access Radio Communication System
    • 多址无线电通信系统中的动态带宽分配控制
    • US20120057478A1
    • 2012-03-08
    • US13141241
    • 2011-05-27
    • Nils BrännströmStephen CraigRaimundas GaigalasSara Khosravi
    • Nils BrännströmStephen CraigRaimundas GaigalasSara Khosravi
    • H04W72/04H04W24/00H04L12/26
    • H04W28/10H04L43/0882H04W72/121H04W72/1231H04W72/1247
    • A scheduler for ranking-based scheduling of multiple users on a shared communication channel of a serving base station in a wireless communication system comprises a determiner (42), a priority ranker (44), a user selector (46) and a resource allocator (48). The determiner (42) is configured to determine, for each user of a given traffic class, measured bandwidth share ratios with respect to each of a number of other traffic classes. The priority ranker (44) is configured to determine, for each user, a priority rank based on i) achievable bit rate of the user according to reported channel quality, and ii) a quality of service component representing compliance of the measured bandwidth share ratios to corresponding target bandwidth share ratios. The user selector (46) is configured to select a subset of the users among those users having the highest priority ranks, and the resource allocator (48) is configured to allocate transmission resources of the base station to the selected subset of the users for transmission of user data on the shared communication channel.
    • 一种用于在无线通信系统中的服务基站的共享通信信道上的多个用户的基于排序的调度的调度器,包括确定器(42),优先级筛选器(44),用户选择器(46)和资源分配器 48)。 确定器(42)被配置为针对给定业务类别的每个用户确定相对于多个其他业务类别中的每一个的测量带宽分配比率。 优先级排队员(44)被配置为针对每个用户确定基于i)根据报告的信道质量的用户可达到的比特率的优先等级,以及ii)表示所测量的带宽份额比率的顺应性的服务质量成分 到相应的目标带宽占有率。 用户选择器(46)被配置为在具有最高优先级的用户中选择用户的子集,并且资源分配器(48)被配置为将基站的传输资源分配给所选择的用户的子集以进行传输 的共享通信信道上的用户数据。