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    • 1. 发明授权
    • Networking method of single frequency network in TD-SCDMA system
    • TD-SCDMA系统单频网络组网方法
    • US08072960B2
    • 2011-12-06
    • US12022984
    • 2008-01-30
    • Yanshan ShiLing LvJingdong LinDatong Chen
    • Yanshan ShiLing LvJingdong LinDatong Chen
    • H04J3/00
    • H04W72/005H04W48/10
    • A networking method of single frequency network in a TD-SCDMA system includes the steps of: (1) deciding a networking configuration scheme by a universal mobile telecommunications system terrestrial radio access network (UTRAN), (2) based on the decided networking configuration scheme, configuring an intra-frequency cell info list information element and an inter-frequency cell info list information element in system information and measurement control messages by the UTRAN, (3) transmitting signals over a servicing area by the UTRAN, and (4) receiving the system information and measurement control messages by a user equipment (UE) from the UTRAN, acquiring working mode configuration information of each frequency and each timeslot of a serving cell and neighboring cells, and judging whether there are duplicated cell information elements in the intra-frequency cell info list information element or the inter-frequency cell info list information element.
    • TD-SCDMA系统中单频网络的组网方法包括以下步骤:(1)通过通用移动电信系统陆地无线接入网(UTRAN)决定网络配置方案,(2)基于所确定的网络配置方案 ,在UTRAN的系统信息和测量控制消息中配置频率小区信息列表信息单元和频率间小区信息列表信息单元,(3)由UTRAN通过服务区域发送信号,以及(4)接收 来自UTRAN的用户设备(UE)的系统信息和测量控制消息,获取服务小区和相邻小区的每个频率和每个时隙的工作模式配置信息,并且判断是否存在复制小区信息元素, 频率单元信息列表信息单元或频率间单元信息列表信息单元。
    • 3. 发明申请
    • DEMAND PAGING METHOD FOR MOBILE TERMINAL, CONTROLLER AND MOBILE TERMINAL
    • 移动终端,控制器和移动终端的需求寻呼方法
    • US20130212077A1
    • 2013-08-15
    • US13698337
    • 2011-08-15
    • Yipeng ChaiMingjun JiaYanshan Shi
    • Yipeng ChaiMingjun JiaYanshan Shi
    • G06F17/30
    • G06F17/30153G06F12/08G06F17/3007G06F17/30129G06F2212/251G06F2212/253G06F2212/401H04L67/06H04L69/04
    • A demand paging method for a mobile terminal, a controller and a mobile terminal, wherein the demand paging method determines, when a mobile terminal needs to operate a compressed file, a storage location of the compressed file in an external part of the controller of the mobile terminal; a decoding unit of the internal part of the controller of the mobile terminal decompresses the compressed file in the storage location; the mobile terminal saves the decompressed file to a designated part of the memory, wherein the designated part of the memory comprises the memory in the internal part of the controller of the mobile terminal and/or the memory in the external part of the controller of the mobile terminal; the mobile terminal continues to operate on the basis of the decompressed file. The technical solution increases the processing efficiency of demand paging of the mobile terminal.
    • 一种用于移动终端,控制器和移动终端的请求寻呼方法,其中,当移动终端需要操作压缩文件时,所述请求寻呼方法确定压缩文件的存储位置在所述控制器的外部部分 移动终端; 移动终端的控制器的内部的解码单元解压缩存储位置中的压缩文件; 移动终端将解压缩的文件保存到存储器的指定部分,其中存储器的指定部分包括移动终端的控制器的内部部分中的存储器和/或控制器的外部部分中的存储器 移动终端; 移动终端在解压文件的基础上继续操作。 技术方案提高了移动终端需求寻呼的处理效率。
    • 4. 发明申请
    • METHOD FOR ASSIGNING SIGNATURE SEQUENCES FOR E-HICH CHANNEL
    • 用于标识E-HICH信道的签名序列的方法
    • US20100220672A1
    • 2010-09-02
    • US12605019
    • 2009-10-23
    • Aimin ZhangZhiqun ChenYanshan Shi
    • Aimin ZhangZhiqun ChenYanshan Shi
    • H04W72/00
    • H04L1/1692H04J13/16
    • The present disclosure discloses a method for assigning signature sequences for E-HICH channel which may avoid the unbalanced situation brought about by the codeword assignment, wherein the use of UE signature sequences on E-HICH channel is equalized, so as to drive the average detection performance toward equity for different UEs to detect their respective signature sequences on E-HICH channel, and to reduce the average false detection rate for the respective UE on the feedback information transmitted thereto. The method comprises: firstly, assigning a E-HICH logical signature sequence index r for each UE; then, converting the logical signature sequence index r into a physical signature sequence index r′ varying with time by using a random permutation function; and after that, assigning a signature sequence corresponding to the physical signature sequence index r′ to the respective UE.
    • 本公开公开了一种用于为E-HICH信道分配签名序列的方法,其可以避免由码字分配引起的不平衡情况,其中在E-HICH信道上使用UE签名序列被均衡,以便驱动平均检测 针对不同UE的权益的性能来检测其在E-HICH信道上的各自的签名序列,并且减少相应UE对发送的反馈信息的平均错误检测率。 该方法包括:首先为每个UE分配E-HICH逻辑签名序列索引r; 然后,通过使用随机置换函数将逻辑签名序列索引r转换成随时间变化的物理签名序列索引r'; 之后,将与物理签名序列索引r'相对应的签名序列分配给各个UE。
    • 5. 发明授权
    • Demand paging method for mobile terminal, controller and mobile terminal
    • 移动终端,控制器和移动终端的需求寻呼方法
    • US09471584B2
    • 2016-10-18
    • US13698337
    • 2011-08-15
    • Yipeng ChaiMingjun JiaYanshan Shi
    • Yipeng ChaiMingjun JiaYanshan Shi
    • G06F7/00G06F17/30G06F12/08H04L29/08H04L29/06
    • G06F17/30153G06F12/08G06F17/3007G06F17/30129G06F2212/251G06F2212/253G06F2212/401H04L67/06H04L69/04
    • A demand paging method for a mobile terminal, a controller and a mobile terminal, wherein the demand paging method determines, when a mobile terminal needs to operate a compressed file, a storage location of the compressed file in an external part of the controller of the mobile terminal; a decoding unit of the internal part of the controller of the mobile terminal decompresses the compressed file in the storage location; the mobile terminal saves the decompressed file to a designated part of the memory, wherein the designated part of the memory comprises the memory in the internal part of the controller of the mobile terminal and/or the memory in the external part of the controller of the mobile terminal; the mobile terminal continues to operate on the basis of the decompressed file. The technical solution increases the processing efficiency of demand paging of the mobile terminal.
    • 一种用于移动终端,控制器和移动终端的请求寻呼方法,其中,当移动终端需要操作压缩文件时,所述请求寻呼方法确定压缩文件的存储位置在所述控制器的外部部分 移动终端; 移动终端的控制器的内部的解码单元解压缩存储位置中的压缩文件; 移动终端将解压缩的文件保存到存储器的指定部分,其中存储器的指定部分包括移动终端的控制器的内部部分中的存储器和/或控制器的外部部分中的存储器 移动终端; 移动终端在解压文件的基础上继续操作。 技术方案提高了移动终端需求寻呼的处理效率。
    • 6. 发明申请
    • MOBILE TERMINAL AND SERVICE PROCESSING METHOD THEREOF, AND BASEBAND PROCESSING CHIP
    • 移动终端和服务处理方法以及基带处理芯片
    • US20140146667A1
    • 2014-05-29
    • US13978733
    • 2011-08-12
    • Zhi ZhangJiwu LiuXianliang ChenYuan XuXichun GaoWenbo LuYanshan ShiMa ZhangYingping Hu
    • Zhi ZhangJiwu LiuXianliang ChenYuan XuXichun GaoWenbo LuYanshan ShiMa ZhangYingping Hu
    • H04W28/02H04W68/02H04W88/06
    • H04W28/0268H04W68/02H04W68/12H04W72/1242H04W76/34H04W88/06
    • Disclosed are a mobile terminal and a service processing method thereof, and a baseband processing chip are disclosed in the embodiments of this invention, wherein the service processing method of the mobile terminal comprises: in response to the situation that a first user card in an on-network state is required to process a high real time service, identifying whether PS domain data being received/transmitted in a PS domain service currently processed on a second user card is the critical data for maintaining the QoS level of the PS domain service, wherein the high real time service has higher requirement to real-time than the PS domain service, and the first user card and the second user card belong to the multiple user-cards inserted in the same mobile terminal; in response to the PS domain data being received/transmitted is non-critical data, suspending the processing of the PS domain service and processing the high real time service. Embodiments of this invention allow a multi-card multi-standby mobile terminal based on a single RF single baseband scheme to process a high real time service on other user cards during processing a PS domain service on a user card.
    • 公开了一种移动终端及其服务处理方法,并且在本发明的实施例中公开了基带处理芯片,其中,移动终端的服务处理方法包括:响应于第一用户卡在 需要网络状态来处理高实时服务,识别在当前在第二用户卡上处理的PS域服务中接收/发送的PS域数据是否是用于维护PS域服务的QoS等级的关键数据,其中 高实时业务对PS域业务的实时性要求较高,第一用户卡和第二用户卡属于插入同一移动终端的多个用户卡; 响应于接收/发送的PS域数据是非关键数据,暂停处理PS域服务并处理高实时业务。 本发明的实施例允许基于单个RF单基带方案的多卡多待机移动终端在用户卡处理PS域服务期间处理其他用户卡上的高实时服务。
    • 7. 发明授权
    • Method for assigning signature sequences for E-HICH channel
    • E-HICH信道分配签名序列的方法
    • US08305982B2
    • 2012-11-06
    • US12605019
    • 2009-10-23
    • Aimin ZhangZhiqun ChenYanshan Shi
    • Aimin ZhangZhiqun ChenYanshan Shi
    • H04W4/00
    • H04L1/1692H04J13/16
    • A method for assigning signature sequences for E-HICH channel which may avoid the unbalanced situation brought about by the codeword assignment is provided, wherein the use of User Equipment (UE) signature sequences on Enhanced Dedicated Channel Hybrid Automatic Repeat Request Acknowledgement Indicator Channel (E-HICH) is equalized, so as to drive the average detection performance toward equity for different UEs to detect their respective signature sequences on E-HICH channel, and to reduce the average false detection rate for the respective UE on the feedback information transmitted thereto. The method includes: firstly, assigning a E-HICH logical signature sequence index r for each UE; then, converting the logical signature sequence index r into a physical signature sequence index r′ varying with time by using a random permutation function; and after that, assigning a signature sequence corresponding to the physical signature sequence index r′ to the respective UE.
    • 提供了一种用于为E-HICH信道分配签名序列的方法,其可以避免由码字分配引起的不平衡情况,其中在增强专用信道混合自动重传请求确认指示符信道(E)上使用用户设备(UE)签名序列 -HICH)相等,以便将不同UE的平均检测性能推向权衡,以便在E-HICH信道上检测它们各自的签名序列,并且减少针对其发送的反馈信息上各个UE的平均错误检测率。 该方法包括:首先为每个UE分配E-HICH逻辑签名序列索引r; 然后,通过使用随机置换函数将逻辑签名序列索引r转换成随时间变化的物理签名序列索引r'; 之后,将与物理签名序列索引r'相对应的签名序列分配给各个UE。