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    • 2. 发明授权
    • Discontinuous reception for multi-component carrier system
    • 不连续接收多分量载波系统
    • US09107190B2
    • 2015-08-11
    • US13391212
    • 2010-08-17
    • Lars DalsgaardJorma KaikkonenJarkko Koskela
    • Lars DalsgaardJorma KaikkonenJarkko Koskela
    • H04W48/16H04W36/30H04W72/02H04W52/02H04W72/12
    • H04W72/02H04W52/0216H04W72/1289Y02D70/1262Y02D70/1264Y02D70/24
    • A method includes operating a user equipment to initiate monitoring of a control channel associated with a particular component carrier for determining if the user equipment is scheduled by the control channel associated with the particular component carrier. In response to determining that the user equipment is not scheduled, autonomously terminating the monitoring of the control channel associated with the particular component carrier. A further method includes establishing a set of rules defining how and when a user equipment autonomously deactivates use of component carriers transmitted by a network access node. The network access node assumes, in response to the network access node not scheduling the user equipment in a control channel of a particular component carrier for some period, that the user equipment has autonomously deactivated monitoring of the control channel of the particular component carrier. Various apparatus and computer programs are also disclosed that operate in accordance with the methods.
    • 一种方法包括操作用户设备以启动与特定分量载波相关联的控制信道的监视,以确定用户设备是否由与特定分量载波相关联的控制信道调度。 响应于确定用户设备未被调度,自主地终止与特定分量载波相关联的控制信道的监视。 另一种方法包括建立一组规则,定义用户设备如何以及何时自主地去激活由网络接入节点发送的分量载波的使用。 网络接入节点响应于网络接入节点不对特定分量载波的控制信道调度一段时间的用户设备,使得用户设备具有对特定分量载波的控制信道的自主停用监视。 还公开了根据该方法操作的各种装置和计算机程序。
    • 3. 发明申请
    • Discontinuous Reception for Multi-Component Carrier System
    • 多分量载波系统的不连续接收
    • US20120178445A1
    • 2012-07-12
    • US13391212
    • 2010-08-17
    • Lars DalsgaardJorma KaikkonenJarkko Koskela
    • Lars DalsgaardJorma KaikkonenJarkko Koskela
    • H04W60/00
    • H04W72/02H04W52/0216H04W72/1289Y02D70/1262Y02D70/1264Y02D70/24
    • A method includes operating a user equipment to initiate monitoring of a control channel associated with a particular component carrier for determining if the user equipment is scheduled by the control channel associated with the particular component carrier. In response to determining that the user equipment is not scheduled, autonomously terminating the monitoring of the control channel associated with the particular component carrier. A further method includes establishing a set of rules defining how and when a user equipment autonomously deactivates use of component carriers transmitted by a network access node. The network access node assumes, in response to the network access node not scheduling the user equipment in a control channel of a particular component carrier for some period, that the user equipment has autonomously deactivated monitoring of the control channel of the particular component carrier Various apparatus and computer programs are also disclosed that operate in accordance with the methods.
    • 一种方法包括操作用户设备以启动与特定分量载波相关联的控制信道的监视,以确定用户设备是否由与特定分量载波相关联的控制信道调度。 响应于确定用户设备未被调度,自主地终止与特定分量载波相关联的控制信道的监视。 另一种方法包括建立一组规则,定义用户设备如何以及何时自主地去激活由网络接入节点发送的分量载波的使用。 网络接入节点响应于网络接入节点不对特定分量载波的控制信道中的用户设备调度一段时间,用户设备具有对特定分量载波的控制信道的自主停止监视各种设备 并且还公开了根据该方法操作的计算机程序。
    • 6. 发明申请
    • RE-SELECTION OPTIMIZATION FOR PACKET AND CIRCUIT SWITCHED CONNECTIONS
    • 分组和电路切换连接的选择优化
    • US20150016381A1
    • 2015-01-15
    • US14380179
    • 2012-03-06
    • Jorma KaikkonenJussi-Pekka KoskinenJarkko Koskela
    • Jorma KaikkonenJussi-Pekka KoskinenJarkko Koskela
    • H04W48/18
    • H04W48/18
    • A user equipment UE determines from downlink signaling at least two different types of priority information for at least a first and a second cell. These cells operate simultaneously in a same area with different radio access technologies RATs (inter-RAT neighbors) and/or with different carrier frequencies (inter-frequency neighbors). The UE checks a characteristic of data that is to be wirelessly exchanged, and selects between those cells for establishing a wireless connection, based on which of those types of priority information correspond to that characteristic of the data. In the examples the different types of priority information are circuit switched CS and packet switched PS. The characteristic the UE checks for the data may be: CS voice call or PS data; volume; latency tolerance; active or background mode; and minimum QoS; to name a few. The downlink signaling may be broadcast or a page.
    • 用户设备UE从下行链路信令确定用于至少第一和第二小区的至少两种不同类型的优先级信息。 这些小区在与不同的无线电接入技术RAT(RAT间邻居)和/或具有不同载波频率(频间邻居)的同一区域中同时工作。 UE根据这些数据的特征来检查要进行无线交换的数据的特性,并且在这些小区之间选择用于建立无线连接的那些类型的优先级信息。 在这些示例中,不同类型的优先级信息是电路交换CS和分组交换PS。 UE检查数据的特征可以是:CS语音呼叫或PS数据; 卷; 延迟容忍度 活动或背景模式; 和最低QoS; 举几例。 下行链路信令可以是广播或页面。