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    • 94. 发明申请
    • Frequency Hopping In License-Exempt/Shared Bands
    • 频繁跳频在许可证豁免/共享频带
    • US20120307744A1
    • 2012-12-06
    • US13151557
    • 2011-06-02
    • Gilles CharbitTao Chen
    • Gilles CharbitTao Chen
    • H04W72/08
    • H04W72/1205H04B1/713H04J2211/001H04J2211/005H04L1/0002H04L5/001H04L5/0091H04W16/14H04W28/18H04W72/04
    • RRC signaling is used to configure a user device for N secondary cells SCells on license-exempt channels wi in a frequency hopping channel set W={wi} where i=1, 2, . . . N. Then cross-carrier scheduling is sent on a primary cell PCell to schedule a frequency hopping FH resource block hi on the ith license-exempt channel wi. Based on measurements of at least some of the license-exempt channels wi received from at least the user device, parameters for the frequency hopping are adapted. The FH resource block contains M physical resource blocks, scheduled for the SCell during a FH time interval Tu*L+j by a resource grants sent on a PDCCH of the PCell. In an embodiment the RRC signaling is sent by a micro access node/HeNB on the PCell, the cross carrier scheduling is sent also by the micro access node/HeNB on the PCell, and the PCell lies within a LTE licensed frequency band.
    • RRC信令用于配置N个辅助小区的用户设备在跳频信道集合W = {wi}其中i = 1,2,...的许可证免除信道上。 。 。 然后,在主小区PCell上发送跨载波调度,以在第i个免许可频道wi上调度跳频FH资源块hi。 基于至少从至少一个用户设备接收到的至少一些免许可频道的测量,适配跳频的参数。 FH资源块包含通过在PCell的PDCCH上发送的资源授权在FH时间间隔Tu * L + j期间为SCell调度的M个物理资源块。 在一个实施例中,RRC信令由PCell上的微接入节点/ HeNB发送,交叉载波调度也由PCell上的微接入节点/ HeNB发送,并且PCell位于LTE许可频带内。
    • 100. 发明授权
    • Reverse link channel architecture for a wireless communication system
    • 无线通信系统的反向链路信道架构
    • US08098581B2
    • 2012-01-17
    • US11046357
    • 2005-01-28
    • Edward G. Tiedemann, Jr.Tao ChenAvinash Jain
    • Edward G. Tiedemann, Jr.Tao ChenAvinash Jain
    • H04L12/26H04Q7/00H04B1/00
    • H04W72/0473H04L1/1809H04L1/1819H04L1/1858H04L1/1874H04L2001/125H04W48/08
    • A channel structure and mechanisms that support effective and efficient allocation and utilization of the reverse link resources. In one aspect, mechanisms are provided to quickly assign resources (e.g., a supplemental channel) as needed, and to quickly de-assign the resources when not needed or to maintain system stability. The reverse link resources may be quickly assigned and de-assigned via short messages exchanged on control channels on the forward and reverse links. In another aspect, mechanisms are provided to facilitate efficient and reliable data transmission. A reliable acknowledgment/negative acknowledgment scheme and an efficient retransmission scheme are provided. Mechanisms are also provided to control the transmit power and/or data rate of the remote terminals to achieve high performance and avoid instability.
    • 支持反向链路资源的有效分配和利用的信道结构和机制。 在一个方面,提供了用于根据需要快速分配资源(例如,补充信道)的机制,并且在不需要时快速地分配资源或维持系统稳定性。 反向链路资源可以通过在前向链路和反向链路上的控制信道上交换的短消息来快速分配和解除分配。 在另一方面,提供了用于促进有效和可靠的数据传输的机制。 提供可靠的确认/否定确认方案和有效的重传方案。 还提供了用于控制远程终端的发射功率和/或数据速率以实现高性能并避免不稳定性的机制。