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    • 2. 发明授权
    • QoS link protocol (QLP)
    • QoS链路协议(QLP)
    • US07200154B1
    • 2007-04-03
    • US10141268
    • 2002-05-08
    • Geng WuHang ZhangMo-Han FongJun Li
    • Geng WuHang ZhangMo-Han FongJun Li
    • H04J3/16H04J3/22H04J1/16H04Q7/20G01R31/08G06F11/00G08C15/00
    • H04W28/24
    • A Quality of Service (QoS) Link Protocol (QLP) for use in a wireless telecommunications network. A plurality of data inputs are provided, each utilized for receiving packet data streams from respective applications over an IP network. Each of the applications has at least one QoS requirement. The QLP comprises a transmission confirmation receiving mechanism for receiving indications from mobile terminals whether data transmitted to the terminal has been successful. The QLP also has a plurality of automatic retransmission request (ARQ) units each coupled to an input for a packet data stream and to the transmission confirmation receiving mechanism, and which is responsible for transmitting each packet and retransmitting each packet if the packet was not transmitted successfully. Finally, the QLP comprises a QoS multiplexor that receives a data stream from each ARQ and adds header data to each packet for identifying the particular physical layer treatment for each packet in accordance with the QoS associated with the data stream. The QoS and the physical layer treatment are influenced by the status of the network.
    • 用于无线电信网络的服务质量(QoS)链路协议(QLP)。 提供了多个数据输入,每个数据输入用于通过IP网络从相应的应用接收分组数据流。 每个应用程序至少有一个QoS要求。 QLP包括发送确认接收机构,用于从移动终端接收发送到终端的数据是否成功的指示。 QLP还具有多个自动重传请求(ARQ)单元,每个自动重传请求(ARQ)单元分别耦合到分组数据流的输入和发送确认接收机制,并且负责发送每个分组并且如果分组未被发送则重新发送每个分组 成功了 最后,QLP包括QoS多路复用器,其接收来自每个ARQ的数据流,并且根据与数据流相关联的QoS,将标题数据添加到每个分组以标识每个分组的特定物理层处理。 QoS和物理层处理受网络状态的影响。
    • 4. 发明授权
    • Service-driven air interface protocol architecture for wireless systems
    • 无线系统的服务驱动的空中接口协议架构
    • US07492737B1
    • 2009-02-17
    • US10141013
    • 2002-05-08
    • Mo-Han FongGeng WuHang ZhangJun Li
    • Mo-Han FongGeng WuHang ZhangJun Li
    • H04Q7/00
    • H04L5/0016H04W72/00H04W88/08
    • Disclosed is an air interface protocol architecture for a multi-carrier wireless communications network having a plurality of carriers. The protocol architecture comprises a common layer 2/3 protocol for each of the carriers. The common layer 2/3 protocol provides a common interface with wireline upper level protocols. In addition to the common layer 2/3 protocol, the architecture comprises a multimode physical layer for each of the carriers. The protocol architecture enables the physical layer of each carrier may have a different protocol configuration for each mobile station serviced by the carrier. Each air interface protocol instance includes one or more resource pools. The resource pools each includes: (1) a quality of service (QoS) supported; (2) a list of manageable resources; (3) a carrier identification; and (4) an air interface configuration. Additionally, the layer 2 protocol of the common layer 2/3 protocol includes one or more Radio Link Protocol (RLP) instances (or a QoS Link Protocol) and one or more Medium Access Control (MAC) sublayer instances.
    • 公开了一种用于具有多个载波的多载波无线通信网络的空中接口协议架构。 协议架构包括用于每个载波的公共层2/3协议。 公共层2/3协议提供与有线上级协议的通用接口。 除了公共层2/3协议之外,该架构包括用于每个载波的多模物理层。 协议架构使得每个载波的物理层可以对于由载波服务的每个移动台具有不同的协议配置。 每个空中接口协议实例包括一个或多个资源池。 资源池各自包括:(1)支持的服务质量(QoS); (2)可管理资源清单; (3)承运人识别; 和(4)空中接口配置。 另外,公共层2/3协议的层2协议包括一个或多个无线链路协议(RLP)实例(或QoS链路协议)和一个或多个媒体访问控制(MAC)子层实例。
    • 6. 发明授权
    • Mapping information in wireless communications systems
    • 无线通信系统中的映射信息
    • US07436857B2
    • 2008-10-14
    • US10179283
    • 2002-06-26
    • Mo-Han FongHang ZhangGeng Wu
    • Mo-Han FongHang ZhangGeng Wu
    • H04J3/00
    • H04W28/065H04L1/16H04L1/1812H04L29/06H04L69/32H04L69/324H04W72/1263
    • A wireless communications system includes a shared TDM data channel for communications in different time slots with respective mobile stations (MSs), as well as dedicated channels. A first medium access control (MAC) multiplexing sublayer, provided in a base station controller, maps information of logical channels for communications services to the communications channels. A second MAC multiplexing sublayer maps information, mapped to the shared data channel in the first MAC multiplexing sublayer, to respective data units for communication in respective TDM time slots of the shared channel. The second MAC multiplexing sublayer handles scheduling, adaptive modulation and coding, and automatic retransmission of information on the shared data channel, as well as shared control channels for the shared data channel and channel quality feedback and data acknowledgement channels from the MSs.
    • 无线通信系统包括用于与各个移动站(MS)以及专用信道在不同时隙中进行通信的共享TDM数据信道。 在基站控制器中提供的第一媒体接入控制(MAC)复用子层将用于通信业务的逻辑信道的信息映射到通信信道。 第二MAC复用子层将映射到第一MAC复用子层中的共享数据信道的信息映射到用于在共享信道的各个TDM时隙中通信的各个数据单元。 第二MAC复用子层处理调度,自适应调制和编码以及共享数据信道上的信息的自动重传,以及来自MS的共享数据信道和信道质量反馈和数据确认信道的共享控制信道。
    • 7. 发明申请
    • Adaptive dual-mode reverse link scheduling method for wireless telecommunications networks
    • 无线电信网络的自适应双模反向链路调度方法
    • US20050020273A1
    • 2005-01-27
    • US10626056
    • 2003-07-24
    • Mo-Han FongDerek YuJun LiAshvin ChhedaWen TongGeng Wu
    • Mo-Han FongDerek YuJun LiAshvin ChhedaWen TongGeng Wu
    • H04W36/18H04W72/12H04Q7/20
    • H04W72/1252H04W36/18H04W72/1268
    • The present invention provides for a scheduling scheme to be used with respect to a given mobile station. It is determined whether the given mobile station is or is not in soft-handoff. This is performed through examining a reduced active set. The reduced active set is based upon the active set, and the selection of the reduced active set includes considerations such as received reverse link channel signal strength. If the mobile station is in soft hand-off or with reduced active set size of greater than one, congestion control scheduling of reverse link communications from the given mobile station is utilized, using a data rate set by the congestion control of the reverse link channel. If the mobile station is not in soft-handoff or with reduced active set size of one, explicit scheduling of the reverse link communications from the given mobile station is utilized, using a data rate set by the explicit data rate control of the reverse link channel.
    • 本发明提供了关于给定移动台使用的调度方案。 确定给定的移动台是否处于软切换。 这是通过检查减少的活动集执行的。 减小的有效集合基于有效集合,并且减小的活动集合的选择包括诸如接收的反向链路信道信号强度之类的考虑。 如果移动台处于软切换状态或活动集大小减小的情况下,则利用由反向链路信道的拥塞控制设置的数据速率来利用来自给定移动台的反向链路通信的拥塞控制调度 。 如果移动站没有处于软切换或者具有减小的活动集大小的一个,则利用来自给定移动站的反向链路通信的显式调度,使用由反向链路信道的显式数据速率控制设置的数据速率 。
    • 8. 发明授权
    • Data link control proctocol for 3G wireless system
    • 3G无线系统的数据链路控制协议
    • US06542490B1
    • 2003-04-01
    • US09239545
    • 1999-01-29
    • Nima AhmadvandMo-Han FongGeng Wu
    • Nima AhmadvandMo-Han FongGeng Wu
    • H04J324
    • H04L47/10H04L47/14H04L47/2491H04L69/16H04L69/166H04L69/168H04L69/324H04W4/18H04W28/06H04W28/24H04W80/02H04W84/04
    • A Data Link Control protocol for 3G wireless communication system for direct support for network layer protocols, e.g. the Internet Protocol (IP), is provided. The Link Layer disclosed comprises a Link Access Control (LAC) sublayer and a Medium Access Control (MAC) sublayer. At a transmit end of the wireless system, a plurality of Quality of Service (QoS) data planes are created to directly support the IP QoS. Each QoS data plane is optimized to handle QoS requirements for a corresponding Class of Service (CoS). Data packets received at the LAC sublayer are directed to a QoS data plane according to the particular QoS information they contain and processed according to the particular QoS requirement to generate variable size LAC frames. The variable size LAC frames are transmitted to the MAC sublayer for generating radio link protocol data units (RLP PDUs) to be transmitted to a receiving end. A new level of error correction is provided at the LAC sublayer as the size of the LAC PDUs can be dynamically adjusted in response to the conditions of the communication link. A dual mode ARQ is provided at the MAC sublayer to improve the quality of the air transmission for bursty as well as non-bursty traffic conditions.
    • 用于3G无线通信系统的数据链路控制协议,用于直接支持网络层协议,例如 提供了互联网协议(IP)。 公开的链路层包括链路接入控制(LAC)子层和媒体接入控制(MAC)子层。 在无线系统的发射端,创建多个服务质量(QoS)数据平面以直接支持IP QoS。 优化每个QoS数据平面以处理相应服务等级(CoS)的QoS要求。 在LAC子层接收的数据分组根据其包含并根据特定QoS要求处理的特定QoS信息被引导到QoS数据平面,以生成可变大小的LAC帧。 可变大小的LAC帧被发送到MAC子层,用于生成要发送到接收端的无线电链路协议数据单元(RLP PDU)。 在LAC子层提供新的纠错级别,因为LAC PDU的大小可以根据通信链路的条件进行动态调整。 在MAC子层提供双模ARQ,以提高突发性和非突发性业务条件下的空中传输质量。
    • 10. 发明申请
    • EXCHANGING CONFIGURATION DATA
    • 交换配置数据
    • US20130272181A1
    • 2013-10-17
    • US13681370
    • 2012-11-19
    • Mo-Han FongGeng WuChang Hong ShanPuneet JainMuthaiah Venkatachalam
    • Mo-Han FongGeng WuChang Hong ShanPuneet JainMuthaiah Venkatachalam
    • H04W72/04
    • H04W72/044H04W4/00H04W4/20H04W4/50
    • Embodiments of apparatus, computer-implemented methods, systems, devices, and computer-readable media are described herein for a user equipment (“UE”) to generate, for transmission to a remote entity executing on a remote computing device in communication with the UE over an air interface of an Evolved Universal Terrestrial Radio Access Network (“EUTRAN”), a container that includes UE or base station (e.g., Evolved Node B, or “eNB”) configuration data (e.g., an inactivity time interval), or over-the-top (“OTT”) application configuration data. In embodiments, the UE may transmit the container through a logical tunnel passing through the air interface between a local processing entity executing on the computing device and the remote entity. A base station such as an eNB may be similarly configured to generate and/or transmit, to a UE, a container with UE, base station, or OTT application configuration data, through a logical tunnel passing through the air interface.
    • 本文描述了设备,计算机实现的方法,系统,设备和计算机可读介质的实施例,用于用户设备(“UE”)生成用于与在与UE通信的远程计算设备上执行的远程实体的传输 在演进的通用陆地无线电接入网络(“EUTRAN”)的空中接口上,包括UE或基站(例如演进节点B或“eNB”)配置数据(例如,不活动时间间隔)的容器,或 顶级(“OTT”)应用程序配置数据。 在实施例中,UE可以通过穿过计算设备上执行的本地处理实体与远程实体之间的空中接口的逻辑隧道来发送容器。 诸如eNB的基站可以类似地配置为通过穿过空中接口的逻辑隧道向UE发送和/或向UE发送具有UE,基站或OTT应用配置数据的容器。