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    • 2. 发明申请
    • Method and Arrangement for White Space Device Transmission
    • 白空间设备传输方法与布置
    • US20140023031A1
    • 2014-01-23
    • US14110365
    • 2011-04-08
    • Tim IrnichJonas KronanderYngve Selén
    • Tim IrnichJonas KronanderYngve Selén
    • H04L5/00
    • H04L5/0073H04W16/14H04W72/082
    • The disclosure relates to a white space device (WSD) of a secondary wireless network, and to a related method for transmitting a first signal on a channel available for secondary usage allocated to a primary wireless system. The method in the WSD comprises determining (410) a further channel used by the primary wireless system, that would be interfered by a transmission of the first signal on the channel available for secondary usage, retrieving (420) signal information associated with the determined further channel from the primary wireless system, transmitting (430) the first signal on the channel available for secondary usage, and transmitting (440) a second signal on the determined further channel based on the retrieved signal information, simultaneously with the first signal on the channel available for secondary usage* such that an interference generated in the primary wireless system by the first signal transmission is compensated for by the second signal transmission.
    • 本公开涉及辅助无线网络的白空间设备(WSD)以及用于在可用于分配给主无线系统的辅助使用的信道上发送第一信号的相关方法。 WSD中的方法包括确定(410)由主无线系统使用的另一信道,其将被可用于二次使用的信道上的第一信号的传输干扰,检索(420)与所确定的进一步相关联的信号信息 发送(430)可用于二次使用的信道上的第一信号,以及基于所检索的信号信息,在所确定的另一信道上发送(440)第二信号,同时与信道上的第一信号 可用于二次使用*,使得通过第一信号传输在主无线系统中产生的干扰由第二信号传输补偿。
    • 3. 发明申请
    • Method for Controlling Interference from White Space Units
    • 控制白色空间单位干扰的方法
    • US20140220901A1
    • 2014-08-07
    • US14241309
    • 2011-11-08
    • Yngve SelénJonas Kronander
    • Yngve SelénJonas Kronander
    • H04B15/00H04W16/14
    • H04B15/00H04B17/391H04W16/14H04W52/225H04W52/367
    • The present invention relates to a method of a node such as a geo-location database, for controlling an aggregated interference generated by at least two white space units in at least one point in space for at least one frequency channel. A model of propagation channels from each of the at least two white space units to each of the at least one point comprises a variable with a lognormal distribution. The method comprises receiving (810) requests for usage of white space frequency channels from the at least two white space units, the requests comprising positions of the at least two white space units. The method also comprises determining (820) output power limits for the at least two white space units by maximizing a utility function while fulfilling a probabilistic constraint on the amount of aggregated interference generated in each of the at least one point, based on the received requests and on said model of propagation channels. A sum of lognormal variables in the probabilistic constraint is approximated by a single lognormal variable. The method further comprises transmitting (830) the determined output power limits to the respective at least two white space units.
    • 本发明涉及诸如地理位置数据库的节点的方法,用于在至少一个频率信道的至少一个空间点中控制由至少两个空白单元产生的聚集干扰。 从至少两个白色空间单元中的每一个到至少一个点中的每一个的传播通道的模型包括具有对数正态分布的变量。 该方法包括从至少两个空白单元接收(810)使用白空间频道的请求,所述请求包括所述至少两个空白单元的位置。 该方法还包括通过使效用函数最大化来确定(820)至少两个空白单元的输出功率限制,同时基于接收到的请求来满足在至少一个点中的每一个中产生的聚合干扰量的概率约束 并且在所述传播信道模型上。 概率约束中的对数正态变量的总和由单个对数正态变量近似。 该方法还包括将确定的输出功率限制发送(830)到相应的至少两个空白单元。
    • 4. 发明申请
    • Method for Determining White Space Interference Margin
    • 确定白色空间干涉余量的方法
    • US20130343219A1
    • 2013-12-26
    • US14003254
    • 2011-03-11
    • Jonas KronanderYngve Selén
    • Jonas KronanderYngve Selén
    • H04W52/28
    • H04W52/28H04W52/243H04W52/283H04W52/343
    • The disclosure relates to a network node of a wireless network, and to a related method for determining a margin of an interference level. The network node controls at least one white space device, and the interference level is associated with a critical position and a channel available for secondary usage by the at least one white space device. The method comprises the following steps: (a) initializing (410) the margin; (b) determining (420) a transmit power level for the at least one white space device when transmitting on the channel available for secondary usage, based on the interference level with the margin added; (c) calculating (430) a probability that an aggregated interference from the at least one white space device at the critical position exceeds the interference level, based on the determined transmit power level and a channel model uncertainty; and (d) modifying (440) the margin of the interference level if the calculated probability falls outside of a probability interval. The method also comprises iterating the steps (b), (c), and (d) until the calculated probability falls within the probability interval.
    • 本公开涉及无线网络的网络节点以及用于确定干扰电平的余量的相关方法。 所述网络节点控制至少一个空白设备,并且所述干扰级别与所述至少一个空白设备的临时位置和可用于二次使用的信道相关联。 该方法包括以下步骤:(a)初始化(410)边缘; (b)基于所添加的边缘的干扰电平,确定(420)当在可用于二次使用的信道上进行发送时,所述至少一个空白设备的发射功率电平; (c)基于所确定的发射功率电平和信道模型不确定性来计算(430)来自所述至少一个白空间设备在所述临界位置处的聚合干扰超过所述干扰电平的概率; 如果所计算的概率超出概率间隔,则(d)修改(440)干扰电平的余量。 该方法还包括迭代步骤(b),(c)和(d),直到所计算的概率落入概率间隔内。
    • 5. 发明授权
    • Method and apparatus for transmitting available radio access possibilities in a communications area
    • 用于在通信区域中发送可用的无线电接入可能性的方法和装置
    • US09037175B2
    • 2015-05-19
    • US12881901
    • 2010-09-14
    • Jonas KronanderYngve Selén
    • Jonas KronanderYngve Selén
    • H04B7/00H04W48/10H04W16/14
    • H04W48/10H04W16/14
    • A local radio access information transmitter (LRAIT) may be used in a communications area serviced by multiple different radio access technologies (RATs) allocated to different radio resources in different locations in the communications area. Each RAT is associated with RAT radio transceiver(s) for serving UEs in the communications area. The LRAIT is in addition to the RAT transceivers and located near a hotspot service area in the communications area. The LRAIT determines local radio access information (LRAI) including different RATs available in the hotspot service area and frequenc(ies) of operation allocated to each RAT in the hotspot service area, sends a registration message to a wide area radio access information controller, and based on a response therefrom, determines what radio resources to use to transmit the LRAI signals. The LRAIT transmits the LRAI signals for receipt by UEs in the hotspot service area using those radio resources.
    • 本地无线电接入信息发射机(LRAIT)可以在通信区域中不同位置分配给不同无线电资源的多个不同无线电接入技术(RAT)所服务的通信区域中使用。 每个RAT与用于为通信区域中的UE服务的RAT无线电收发器相关联。 LRAIT除了RAT收发器之外,位于通信区域的热点服务区附近。 LRAIT确定包括热点服务区域中可用的不同RAT的本地无线电接入信息(LRAI),以及分配给热点服务区域中每个RAT的操作的频率,向广域无线接入信息控制器发送注册消息,以及 基于其响应,确定用于发送LRAI信号的无线电资源。 LRAIT使用这些无线电资源发送LRAI信号以供在热点服务区域中的UE接收。
    • 6. 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。
    • 8. 发明申请
    • Trusted Paired-Device Initial Connection Assistance
    • 可信配对设备初始连接协助
    • US20120214526A1
    • 2012-08-23
    • US13505304
    • 2009-11-05
    • Yngve SelénJonas Kronander
    • Yngve SelénJonas Kronander
    • H04W76/02
    • H04W48/16H04W84/18H04W88/06
    • The present invention relates to a solution for wireless communication and in particular for facilitating connection to a radio access network. This is provided in a number of aspects such as method, devices, and system. The solution comprises using a local short range communication connection between two user equipments, UEs, (101, 102) for assisting each other in connecting to a radio access network, RAN (103). One UE is often an always on UE and one is often a sporadic use UE. The always on UE has normally an active connection with the RAN and has knowledge about valid radio access technologies, RAT. The sporadic use UE may connect with the always on UE with a trusted connection and negotiate for information about available RATs and use this information for faster connection with the RAN. The two UEs may together scan for available RATs by dividing frequency bands and each searching different parts and thus reducing the scan process and reducing resource use.
    • 本发明涉及用于无线通信的解决方案,特别涉及便于连接到无线接入网络。 这在诸如方法,设备和系统的许多方面提供。 该解决方案包括在两个用户设备之间使用本地短距离通信连接,UE(101,102)用于辅助彼此连接到无线电接入网络RAN(103)。 一个UE通常总是在UE上,一个UE通常是零星的UE。 总是在UE上通常与RAN的主动连接,并且了解有效的无线电接入技术RAT。 零星使用UE可以通过可信连接与始终在UE上连接,并协商有关可用RAT的信息,并使用该信息来更快地与RAN建立连接。 两个UE可以通过划分频带并且每个搜索不同部分一起扫描可用RAT,从而减少扫描过程并减少资源使用。
    • 9. 发明授权
    • Method and apparatus relating to spectrum sensing
    • 与频谱感测相关的方法和装置
    • US08509701B2
    • 2013-08-13
    • US12990880
    • 2009-06-01
    • Yngve SelénJonas KronanderHugo Tullberg
    • Yngve SelénJonas KronanderHugo Tullberg
    • H04B17/00
    • H04W24/08H04W4/08H04W24/00H04W88/02
    • The invention presents methods and corresponding devices for improving cooperative spectrum initiating sensing. A device (61;61.1) first receives an invitation (17;35) to participate in cooperative spectrum sensing. The device performs an autonomous decision (19) on whether or not to participate in the cooperative spectrum sensing in response to the invitation. If it is determined to participate in the cooperative spectrum sensing to which the invitation relates, spectrum sensing is then performed (21;45). With the invention, sensor selection becomes “distributed”, i.e. it is up to the device itself to decide on participation in the cooperative sensing, rather than having, for example, a central entity determining what devices should act as sensors in the cooperative spectrum sensing. One advantage is that the amount of signalling required for sensor selection can be kept at a minimum, thereby saving communication resources.
    • 本发明提出了用于改进协作频谱启动感测的方法和相应装置。 设备(61; 61.1)首先接收参与协作频谱感测的邀请(17; 35)。 设备响应于该邀请执行是否参与协作频谱感测的自主决定(19)。 如果决定参与与邀请相关的协作频谱感知,则进行频谱感测(21; 45)。 利用本发明,传感器选择变得“分散”,即由设备自身来决定参与协作感测,而不是具有例如确定哪些设备应当用作协作频谱感测中的传感器的中央实体 。 一个优点是可以将传感器选择所需的信号量保持在最低限度,从而节省通信资源。
    • 10. 发明授权
    • Method and apparatus for transmitting available radio access possibilities in a communications area
    • 用于在通信区域中发送可用的无线电接入可能性的方法和装置
    • US08380234B2
    • 2013-02-19
    • US12926855
    • 2010-12-14
    • Jonas KronanderYngve Selén
    • Jonas KronanderYngve Selén
    • H04B7/00
    • H04W48/10H04W16/14H04W16/32H04W48/12H04W88/06
    • The technology described in this application provides a wide-area radio access information transmission scheme where the wide-area radio access information transmitter shares its radio resources with local radio access information transmitters. The radio resources may be divided for example in one or more of the time, frequency, space, and/or code domains. The wide-area radio access information transmitter sets aside and does not use some portions or “chunks” of its radio resources and allocates those unused portions or chunks for use by local radio access information transmitters to transmit local radio access information signals. In one non-limiting example embodiment, the radio resources include time slots, and during those time slots allocated to the local radio access information transmitters, the wide-area radio access information transmitter does not transmit, and thus, is quiet. Hence, those allocated time slots are referred to as “quiet periods” from the perspective of the wide-area radio access information transmitter. The wide-area radio access information transmitter can optionally explicitly signal what those resources are to simplify for the local radio access information transmitters who otherwise have to detect those resources themselves.
    • 本申请中描述的技术提供了一种广域无线电接入信息传输方案,其中广域无线电接入信息发射机与本地无线电接入信息发射机共享其无线电资源。 无线电资源可以例如在时间,频率,空间和/或代码域中的一个或多个中被划分。 广域无线电接入信息发射机放在一边并且不使用其无线电资源的一些部分或块,并且分配用于由本地无线电接入信息发射机使用的那些未使用的部分或块以发送本地无线电接入信息信号。 在一个非限制性示例实施例中,无线电资源包括时隙,并且在分配给本地无线电接入信息发射机的那些时隙期间,广域无线接入信息发射机不发射,因此是安静的。 因此,从广域无线电接入信息发送器的角度来看,这些分配的时隙被称为安静时段。 广域无线电接入信息发射机可以可选地明确地信令那些资源为了简化本地无线电接入信息发射机而需要简化的,否则本地无线接入信息发射机必须自己检测这些资源。