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    • 3. 发明授权
    • Anchor carrier selection in multi-carrier wireless network
    • 多载波无线网络中的锚载波选择
    • US08699467B2
    • 2014-04-15
    • US12934427
    • 2008-09-03
    • Bengt LindoffStefan ParkvallMatthias Kamuf
    • Bengt LindoffStefan ParkvallMatthias Kamuf
    • H04W4/00
    • H04W72/0453H04L5/0053H04L5/006H04L5/0091H04W72/085Y02D70/1222Y02D70/1262Y02D70/164Y02D70/24
    • Mechanism to receive control signals transmitted from a base station (210, 510, 910) to the user equipment (220, 520, 920) in a manner that minimizes power consumption on the user equipment (220, 520, 920) while still maintaining some acceptable level of performance is described. The user equipment (220, 520, 920) periodically measures the signal quality of component carriers used by the base station (210, 510, 910) and requests control signaling (anchor) carrier reselection. Either a single component carrier can be chosen if the single carrier has sufficient quality or multiple component carriers can be selected when the quality of the single quality is low. The anchor carrier reselection may also be triggered to manage the system as a whole. For fast moving user equipments (220, 520, 920), anchor carrier hopping pattern can be provided to increase robustness and reduce reselection signaling overhead.
    • 用于接收从基站(210,510,910)发送到用户设备(220,520,920)的控制信号的机制,其方式是使用户设备(220,520,920)上的功率消耗最小化,同时仍保持一些 描述可接受的性能水平。 用户设备(220,520,920)周期性地测量由基站(210,510,910)使用的分量载波的信号质量,并请求控制信令(锚)载波重选。 如果单载波具有足够的质量,则可以选择单个分量载波,或者当单个质量的质量低时,可以选择多个分量载波。 也可以触发锚载体重新选择来整体管理系统。 对于快速移动的用户设备(220,520,920),可以提供锚定载波跳频模式以增加鲁棒性并减少重选信令开销。
    • 4. 发明申请
    • Timing of Uplink Transmissions in a Multi-Carrier Communication System
    • 多载波通信系统上行链路传输的时序
    • US20110243111A1
    • 2011-10-06
    • US12869693
    • 2010-08-26
    • Niklas AndgartChristian BergljungMatthias KamufBengt LindoffAnders Wallén
    • Niklas AndgartChristian BergljungMatthias KamufBengt LindoffAnders Wallén
    • H04W4/00
    • H04W56/0045H04L5/001H04W72/12
    • A terminal with transmitter and receiver operates in a multi-carrier communication system and receives at least two downlink carriers. One or more timing advance commands are received, each associated with a group of one or more uplink carriers, each group being associated with one or more of the received downlink carriers. For each downlink carrier associated with one of the groups of uplink carriers, one is selected as a reference downlink carrier; the reference downlink carrier timing is ascertained; and a transmission time period is ascertained based on the timing of the downlink reference carrier and an offset specified by the timing advance command associated with the group of uplink carriers. The transmission time period comprises a start time and a stop time. Transmission is initiated at an earliest transmission start time of the ascertained transmission time periods and is ceased at a latest ascertained stop time.
    • 具有发射机和接收机的终端在多载波通信系统中操作并且接收至少两个下行链路载波。 接收一个或多个定时提前命令,每个定时提前命令与一个或多个上行链路载波的组相关联,每个组与所接收的下行链路载波中的一个或多个相关联。 对于与上行链路载波组中的一个相关联的每个下行链路载波,选择一个作为参考下行链路载波; 确定参考下行链路载波定时; 并且基于下行链路参考载波的定时和由与上行链路载波组相关联的定时提前命令指定的偏移来确定传输时间段。 传输时间段包括开始时间和停止时间。 传输在所确定的传输时间段的最早的传输开始时间开始,并且在最后确定的停止时间停止。
    • 5. 发明申请
    • Method and Apparatus for Blind Decoding
    • 盲解码的方法和装置
    • US20090154607A1
    • 2009-06-18
    • US12134243
    • 2008-06-06
    • Bengt LindoffMatthias KamufFredrik Nordstrom
    • Bengt LindoffMatthias KamufFredrik Nordstrom
    • H03D1/00
    • H04L1/0091H04L1/0038H04L1/0046
    • According to the teachings presented herein, a method and apparatus provide a reduced search space for blindly decoding a message included in a signal received at a communication receiver, where the message has an unknown format. Improving blind detection efficiency in this manner offers numerous advantages, including but not limited to lower power consumption through reduced processing overhead, and lower power consumption through expanded sleep opportunities. As a non-limiting example, the communication receiver comprises a mobile station configured for operation according to Long Term Evolution (LTE) standards, as promulgated by the 3GPP for E-UTRA systems, where the mobile station is configured to reduce a search space of DCI message decoding by determining message format likelihoods and blindly decoding a received DCI message based on the message format likelihoods.
    • 根据本文呈现的教导,一种方法和装置提供减少的搜索空间,用于盲目地解码包括在通信接收器处接收的信号中的消息,其中消息具有未知格式。 以这种方式提高盲目检测效率提供了许多优点,包括但不限于通过减少处理开销降低功耗,并通过扩展的睡眠机会降低功耗。 作为非限制性示例,通信接收机包括被配置用于根据长期演进(LTE)标准进行操作的移动台,如3GPP针对E-UTRA系统所公布的,其中移动台被配置为减少搜索空间 通过确定消息格式似然性并基于消息格式可能性对接收的DCI消息进行盲解码来进行DCI消息解码。
    • 6. 发明授权
    • Device and method for controlling interference
    • 用于控制干扰的装置和方法
    • US09385833B2
    • 2016-07-05
    • US14125384
    • 2012-05-31
    • Bengt LindoffKonstantinos DimouMatthias Kamuf
    • Bengt LindoffKonstantinos DimouMatthias Kamuf
    • H04L1/00H04J11/00
    • H04L1/0009H04J11/0023H04L1/0036
    • Embodiments herein relate to a method in a transceiver (400) for enabling control of interference cancelling in the transceiver (400). The transceiver (400) is in a first decoding mode. The transceiver (400) stores a received signal comprising a data block. The transceiver (400) decodes the received signal using the first decoding mode, thereby obtaining the data block. When an event is triggered, the transceiver (400) retrieves the stored signal. The transceiver (400) decodes the retrieved signal using a second decoding mode, thereby obtaining the data block. The transceiver (400) controls the interference cancelling in the transceiver (400), based on the data block decoded using the first decoding mode and the data block decoded using the second decoding mode.
    • 本文的实施例涉及收发器(400)中用于使得能够控制收发器(400)中的干扰消除的方法。 收发器(400)处于第一解码模式。 收发器(400)存储包括数据块的接收信号。 收发器(400)使用第一解码模式对接收到的信号进行解码,从而获得数据块。 当事件被触发时,收发器(400)检索存储的信号。 收发器(400)使用第二解码模式解码所检索的信号,从而获得数据块。 收发器(400)基于使用第一解码模式解码的数据块和使用第二解码模式解码的数据块来控制收发器(400)中的干扰消除。
    • 7. 发明授权
    • Method and apparatus for ARQ control in wireless communications
    • 无线通信中ARQ控制的方法和装置
    • US08693352B2
    • 2014-04-08
    • US12638451
    • 2009-12-15
    • Bengt LindoffMatthias Kamuf
    • Bengt LindoffMatthias Kamuf
    • H04B7/185H04L12/26H04W4/00
    • H04L1/1692H04L1/0017H04L5/003H04L2001/0093H04W52/325H04W52/367H04W52/48
    • In one or more aspects, the method and apparatus presented herein consider corresponding uplink resource allocations when allocating ARQ signal powers. In particular, in at least one embodiment, more power is allocated to the acknowledgment (“ack”) signal(s) corresponding to user equipment (UE) transmissions that involve larger allocations of uplink resources. For the example context of an LTE network, an eNodeB “boosts” its ack signaling power for acknowledging UE transmissions associated with larger uplink bandwidth allocations. Additionally, or alternatively, the UE is configured to bias its ARQ signal evaluations, to bias its ack/nack decision determinations to favor the ack decision, at least for those acks associated with transmissions that used greater resource allocations.
    • 在一个或多个方面,本文中呈现的方法和装置在分配ARQ信号功率时考虑对应的上行链路资源分配。 特别地,在至少一个实施例中,将更多功率分配给涉及较大分配上行链路资源的用户设备(UE)传输的确认(“ack”)信号。 对于LTE网络的示例性上下文,eNodeB“提升”其用于确认与较大上行链路带宽分配相关联的UE传输的确认信令功率。 另外或替代地,UE被配置为偏置其ARQ信号评估,以便至少对于与使用更大的资源分配的传输相关联的那些ack的偏移来偏置其ACK / NACK决定确定以有利于确认决定。
    • 10. 发明申请
    • Device and Method for Controlling Interference
    • 用于控制干扰的装置和方法
    • US20140153490A1
    • 2014-06-05
    • US14125384
    • 2012-05-31
    • Bengt LindoffKonstantinos DimouMatthias Kamuf
    • Bengt LindoffKonstantinos DimouMatthias Kamuf
    • H04L1/00
    • H04L1/0009H04J11/0023H04L1/0036
    • Embodiments herein relate to a method in a transceiver (400) for enabling control of interference cancelling in the transceiver (400). The transceiver (400) is in a first decoding mode. The transceiver (400) stores a received signal comprising a data block. The transceiver (400) decodes the received signal using the first decoding mode, thereby obtaining the data block. When an event is triggered, the transceiver (400) retrieves the stored signal. The transceiver (400) decodes the retrieved signal using a second decoding mode, thereby obtaining the data block. The transceiver (400) controls the interference cancelling in the transceiver (400), based on the data block decoded using the first decoding mode and the data block decoded using the second decoding mode.
    • 本文的实施例涉及收发器(400)中用于使得能够控制收发器(400)中的干扰消除的方法。 收发器(400)处于第一解码模式。 收发器(400)存储包括数据块的接收信号。 收发器(400)使用第一解码模式对接收到的信号进行解码,从而获得数据块。 当事件被触发时,收发器(400)检索存储的信号。 收发器(400)使用第二解码模式解码所检索的信号,从而获得数据块。 收发器(400)基于使用第一解码模式解码的数据块和使用第二解码模式解码的数据块来控制收发器(400)中的干扰消除。