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    • 2. 发明申请
    • Method and Apparatus for Controlling Access to a Radio Resource
    • 用于控制对无线电资源的访问的方法和装置
    • US20110216710A1
    • 2011-09-08
    • US13129061
    • 2009-03-23
    • Peter LarssonMikael PrytzYngve Selén
    • Peter LarssonMikael PrytzYngve Selén
    • H04W48/04
    • H04W72/04H04W16/14H04W40/04H04W84/18
    • In a radio system where wireless nodes are in contact, the wireless nodes are enabled to exchange information with adjacent nodes. In addition, in one embodiment distant nodes out of range for direct communication can be communicated with by forwarding data over multiple hops. When a user, in particular a primary user, is detected by a node, a spectrum access blocking message is sent, to other nodes in the vicinity of the node thereby enabling blocking of the radio resource in a geographical area in which the other usage is detected. This means that the radio resource is blocked in that area from being accessed by other users than the primary user. The blocking message can be distributed in any suitable manner and can be tailored for the application at hand.
    • 在无线节点接触的无线电系统中,无线节点能够与相邻节点交换信息。 另外,在一个实施例中,用于直接通信的远程节点可以通过在多跳上转发数据来传送。 当用户特别是主用户被节点检测到时,向该节点附近的其他节点发送频谱接入阻塞消息,从而能够阻止另一个使用的地理区域中的无线电资源 检测到。 这意味着该区域的无线电资源被其他用户访问而不是主用户阻止。 阻塞消息可以以任何合适的方式分发,并且可以针对手头的应用进行定制。
    • 3. 发明授权
    • Method of sensing in a radio system employing opportunistic spectrum access
    • 采用机会频谱接入的无线电系统中的感测方法
    • US09066319B2
    • 2015-06-23
    • US13129286
    • 2009-03-23
    • Peter LarssonYngve SelénMikael Prytz
    • Peter LarssonYngve SelénMikael Prytz
    • H04W84/18H04W72/02H04W72/04H04W72/08
    • H04W72/02H04W72/0406H04W72/085H04W84/18
    • In a radio system where wireless nodes are in contact, the wireless nodes are enabled to exchange information with adjacent nodes. In addition, distant nodes out of range for direct communication can be communicated with by forwarding data over multiple hops. The wireless nodes are configured to perform sensing of at least one radio resource. A node can be adapted to combine the sensing measurement data into a sensing result, such as an estimate of the probability of whether the resource is free or not. The sensing performed in a node is distributed to at least one other wireless node. Each wireless node can, therefore, access sensing information from at least one other wireless node located in the vicinity of the wireless node. Based on the collective information from at least one other node, a wireless node can make an improved decision if a particular radio resource is free to use or not.
    • 在无线节点接触的无线电系统中,无线节点能够与相邻节点交换信息。 另外,用于直接通信的远程节点可以通过在多跳上转发数据来传送。 无线节点被配置为执行至少一个无线电资源的感测。 节点可以适于将感测测量数据组合成感测结果,例如资源是否空闲的概率的估计。 在节点中执行的感测被分发到至少一个其他无线节点。 因此,每个无线节点可以从位于无线节点附近的至少一个其他无线节点访问感测信息。 基于来自至少一个其他节点的集体信息,无线节点可以在特定无线电资源是否自由使用时进行改进的决定。
    • 4. 发明授权
    • Method of sensing
    • 检测方法
    • US09001674B2
    • 2015-04-07
    • US13129149
    • 2009-03-23
    • Peter LarssonYngve SelénMikael Prytz
    • Peter LarssonYngve SelénMikael Prytz
    • H04W24/00H04W72/02H04W72/04H04W72/08H04W84/18
    • H04W72/02H04W72/0406H04W72/085H04W84/18
    • Wireless nodes for use in a radio system are provided. A wireless node for use in a radio system may include a transmit and receive unit configured to request sensing information of at least one radio resource from at least one other wireless node of the radio system, and to receive the sensing information of the at least one radio resource from the at least one other wireless node of the radio system. The wireless node may include a sensing unit configured to determine whether a particular radio resource among the at least one radio resource is free to use based on the sensing information received from the at least one other wireless node. Related methods are also provided.
    • 提供了用于无线电系统的无线节点。 用于无线电系统的无线节点可以包括被配置为从无线电系统的至少一个其他无线节点请求至少一个无线电资源的感测信息的发射和接收单元,并且接收至少一个 来自无线电系统的至少一个其他无线节点的无线电资源。 无线节点可以包括感测单元,其被配置为基于从至少一个其他无线节点接收的感测信息来确定所述至少一个无线电资源中的特定无线电资源是否可以自由使用。 还提供了相关方法。
    • 5. 发明授权
    • Method and apparatus for controlling access to a radio resource
    • 用于控制对无线电资源的访问的方法和装置
    • US08665790B2
    • 2014-03-04
    • US13129061
    • 2009-03-23
    • Peter LarssonMikael PrytzYngve Selén
    • Peter LarssonMikael PrytzYngve Selén
    • H04W4/00H04W72/04H04W16/14H04W40/04H04W84/18
    • H04W72/04H04W16/14H04W40/04H04W84/18
    • In a radio system where wireless nodes are in contact, the wireless nodes are enabled to exchange information with adjacent nodes. In addition, in one embodiment distant nodes out of range for direct communication can be communicated with by forwarding data over multiple hops. When a user, in particular a primary user, is detected by a node, a spectrum access blocking message is sent, to other nodes in the vicinity of the node thereby enabling blocking of the radio resource in a geographical area in which the other usage is detected. This means that the radio resource is blocked in that area from being accessed by other users than the primary user. The blocking message can be distributed in any suitable manner and can be tailored for the application at hand.
    • 在无线节点接触的无线电系统中,无线节点能够与相邻节点交换信息。 另外,在一个实施例中,用于直接通信的远程节点可以通过在多跳上转发数据来传送。 当用户特别是主用户被节点检测到时,向该节点附近的其他节点发送频谱接入阻塞消息,从而能够阻止另一个使用的地理区域中的无线电资源 检测到。 这意味着该区域的无线电资源被其他用户访问而不是主用户阻止。 阻塞消息可以以任何合适的方式分发,并且可以针对手头的应用进行定制。
    • 6. 发明申请
    • METHOD OF SENSING IN A RADIO SYSTEM EMPLOYING OPPORTUNISTIC SPECTRUM ACCESS
    • 在使用机会频谱访问的无线电系统中进行感测的方法
    • US20110217922A1
    • 2011-09-08
    • US13129286
    • 2009-03-23
    • Peter LarssonYngve SelénMikael Prytz
    • Peter LarssonYngve SelénMikael Prytz
    • H04W84/18
    • H04W72/02H04W72/0406H04W72/085H04W84/18
    • In a radio system where wireless nodes are in contact, the wireless nodes are enabled to exchange information with adjacent nodes. In addition, distant nodes out of range for direct communication can be communicated with by forwarding data over multiple hops. The wireless nodes are configured to perform sensing of at least one radio resource. A node can be adapted to combine the sensing measurement data into a sensing result, such as an estimate of the probability of whether the resource is free or not. The sensing performed in a node is distributed to at least one other wireless node. Each wireless node can, therefore, access sensing information from at least one other wireless node located in the vicinity of the wireless node. Based on the collective information from at least one other node, a wireless node can make an improved decision if a particular radio resource is free to use or not.
    • 在无线节点接触的无线电系统中,无线节点能够与相邻节点交换信息。 另外,用于直接通信的远程节点可以通过在多跳上转发数据来传送。 无线节点被配置为执行至少一个无线电资源的感测。 节点可以适于将感测测量数据组合成感测结果,例如资源是否空闲的概率的估计。 在节点中执行的感测被分发到至少一个其他无线节点。 因此,每个无线节点可以从位于无线节点附近的至少一个其他无线节点访问感测信息。 基于来自至少一个其他节点的集体信息,无线节点可以在特定无线电资源是否自由使用时进行改进的决定。
    • 7. 发明申请
    • Network Node and Method for Managing Radio Resources Dedicated to Beacon Signalling for D2D Discovery
    • 用于管理专用于D2D发现的信标信号的无线电资源的网络节点和方法
    • US20150271656A1
    • 2015-09-24
    • US14427556
    • 2012-09-13
    • Joachim SachsMikael PrytzYngve Selén
    • Joachim SachsMikael PrytzYngve Selén
    • H04W8/00H04W40/24H04W76/02H04W72/08H04W48/08
    • H04W8/005H04W40/244H04W48/08H04W72/085H04W76/14H04W84/042
    • A network node (110) and a method therein for managing radio, resources are disclosed. The radio resources are dedicated for beacon (121, 122) signaling, fey a first device; (131) and a second device (132), in conjunction with device-to-device, “D2D”, discovery. The first device: (131) is stationary and the second device (132) is non-stationary. The network node (110) selects (202) a first and a second set of radio resources out of the radio resources. The first and second sets are dedicated for beacon signaling by the first device (131) and the second device (132), respectively. The first set of radio resources Is non-overlapping with the second set of radio resources. Then the network node (110) schedules (203) a specific radio resource of the first set of radio resources to the first device (131). Next, the network node (110) sends (204) information about the scheduled specific radio resource to the first device (131). The network node (110) further sends (205) information about the second set of radio resources to the second device (132). In this manner, the second device (132) restricts Us radio resources usable for beacon signaling to the second set of radio resources.
    • 公开了一种用于管理无线电资源的网络节点(110)及其方法。 无线电资源专用于信标(121,122)信令,第一设备; (131)和第二设备(132),与设备到设备“D2D”的发现相结合。 第一装置(131)是静止的,并且第二装置(132)是非静止的。 网络节点(110)从无线电资源中选择(202)第一和第二组无线电资源。 第一和第二组分别专用于第一设备(131)和第二设备(132)的信标信令。 第一组无线电资源与第二组无线电资源不重叠。 然后,网络节点(110)将第一组无线电资源的特定无线电资源调度(203)到第一设备(131)。 接下来,网络节点(110)向第一设备(131)发送(204)关于调度的特定无线电资源的信息。 网络节点(110)还向第二设备(132)发送关于第二组无线电资源的信息(205)。 以这种方式,第二设备(132)将可用于信标信令的Us无线电资源限制到第二组无线电资源。
    • 9. 发明授权
    • Methods and devices for intersystem quiet period synchronization
    • 系统间安静周期同步的方法和装置
    • US08983484B2
    • 2015-03-17
    • US13881392
    • 2010-11-05
    • Jonas KronanderYngve SelénMikael Prytz
    • Jonas KronanderYngve SelénMikael Prytz
    • H04W72/00H04W16/14H04W48/16H04W72/12
    • H04W16/14H04W48/16H04W72/1278
    • The present invention relates to the technical field of dynamic spectrum access. Synchronization of quiet periods for spectrum sensing can significantly benefit sharing of available secondary access spectrum between two or more wireless communication systems in the same geographic region. The object of the present invention is to provide a methodology by which quiet periods can be synchronized in time between different secondary access wireless communication systems. Quiet Period Clients (QPC) of secondary access wireless communication systems are adapted to send requests to a Quiet Period Server (QPS) to obtain a quiet period rule set. The QPC receives from the QPS an answer specifying the quiet period rule set, and optional quiet period synchronization information. The systems perform their transmissions in accordance with the received rules.
    • 本发明涉及动态频谱接入的技术领域。 用于频谱感测的静默周期的同步可以显着地有益于在相同地理区域中的两个或更多个无线通信系统之间共享可用的二次接入频谱。 本发明的目的是提供一种方法,通过该方法可以在不同的辅助接入无线通信系统之间在时间上同步安静时段。 辅助接入无线通信系统的安静周期客户端(QPC)适于向安静周期服务器(QPS)发送请求以获得安静时段规则集。 QPC从QPS接收一个指定安静周期规则集的答案,以及可选的安静周期同步信息。 系统根据接收到的规则执行其传输。
    • 10. 发明申请
    • METHODS AND DEVICES FOR INTERSYSTEM QUIET PERIOD SYNCHRONIZATION
    • 用于系统间时钟同步的方法和设备
    • US20130237238A1
    • 2013-09-12
    • US13881392
    • 2010-11-05
    • Jonas KronanderYngve SelénMikael Prytz
    • Jonas KronanderYngve SelénMikael Prytz
    • H04W16/14
    • H04W16/14H04W48/16H04W72/1278
    • The present invention relates to the technical field of dynamic spectrum access. Synchronization of quiet periods for spectrum sensing can significantly benefit sharing of available secondary access spectrum between two or more wireless communication systems in the same geographic region. The object of the present invention is to provide a methodology by which quiet periods can be synchronized in time between different secondary access wireless communication systems. Quiet Period Clients (QPC) of secondary access wireless communication systems are adapted to send requests to a Quiet Period Server (QPS) to obtain a quiet period rule set. The QPC receives from the QPS an answer specifying the quiet period rule set, and optional quiet period synchronization information. The systems perform their transmissions in accordance with the received rules.
    • 本发明涉及动态频谱接入的技术领域。 用于频谱感测的静默周期的同步可以显着地有益于在相同地理区域中的两个或更多个无线通信系统之间共享可用的二次接入频谱。 本发明的目的是提供一种方法,通过该方法可以在不同的辅助接入无线通信系统之间在时间上同步安静时段。 辅助接入无线通信系统的安静周期客户端(QPC)适于向安静周期服务器(QPS)发送请求以获得安静时段规则集。 QPC从QPS接收一个指定安静周期规则集的答案,以及可选的安静周期同步信息。 系统根据接收到的规则执行其传输。