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    • 144. 发明申请
    • DETERMINING AND COMMUNICATING SECURITY POSTURE ATTRIBUTES
    • 确定并传达安全的姿势属性
    • WO2018075930A1
    • 2018-04-26
    • PCT/US2017/057661
    • 2017-10-20
    • IDAC HOLDINGS, INC.
    • SHAH, Yogendra, C.CHOYI, Vinod, KumarABDELHAMID, AymanFERDI, SamirBRUSILOVSKY, Alec
    • H04L29/06
    • H04L63/105
    • It is recognized herein that the revolution of the 5G network business model and architecture introduces Network Infrastructure Security (NIS) as a critical aspect of a Network Slice (NS). Described herein is a systematic framework and approach that may be used to assess and measure the level of trust (or risk involved with regard to the various deployment models and services to be provided), and to aid secure delivery of the anticipated 5G services through slices, individual network functions, or traditional network infrastructure. Furthermore, the processes for deriving and measuring the level of trust takes into consideration the policy requirements from different stakeholders, and takes into consideration security attributes that are important to the stakeholder in evaluating the level of trust. It is recognized herein that the latter part may be critically important for 5G networks because much of the infrastructure might not be shared and not owned by the operators.
    • 在此认识到,5G网络业务模型和体系结构的革命将网络基础设施安全(NIS)引入为网络切片(NS)的关键方面。 这里描述的是一个系统框架和方法,可用于评估和衡量信任级别(或涉及各种部署模型和提供服务的风险),并帮助通过切片安全地交付预期的5G服务 ,个人网络功能或传统网络基础设施。 此外,推导和测量信任级别的过程考虑了来自不同利益相关方的政策要求,并考虑了对利益相关方评估信任级别很重要的安全属性。 在此认识到后一部分可能对5G网络至关重要,因为大部分基础设施可能不被共享,并且不由运营商拥有。
    • 146. 发明申请
    • SEMANTIC QUERY OVER DISTRIBUTED SEMANTIC DESCRIPTORS
    • 对分布式语义描述符的语义查询
    • WO2018064442A1
    • 2018-04-05
    • PCT/US2017/054230
    • 2017-09-29
    • CONVIDA WIRELESS, LLC
    • LI, XuWANG, ChonggangLY, QuangSEED, Dale
    • G06F17/30
    • G06F16/2471G06F16/951G06F16/9535
    • Currently there is no existing solution for semantic query processing directly over distributed semantic descriptors (e.g., oneM2M resources). Discussed herein are multiple applications for semantic query over distributed semantic descriptors. In a first exemplary method, semantic query is considered when information is stored in a single semantic descriptor. In a second exemplary method, semantic query is considered when information that is requested or otherwise needed is not stored in semantic descriptors. In a third exemplary method, semantic query is considered when information is distributed in different but related semantic descriptors. In a fourth exemplary method, semantic query is considered when information is distributed in different and unrelated or peer semantic descriptors. In a fifth method, there may be indirect querying of information from targeted resources by leveraging existing semantic resource discovery mechanisms.
    • 目前,对于直接在分布式语义描述符(例如,oneM2M<语义描述符>资源)上的语义查询处理,现在没有解决方案。 这里讨论的是在分布式语义描述符上进行语义查询的多种应用。 在第一示例性方法中,当信息被存储在单个语义描述符中时,考虑语义查询。 在第二示例性方法中,当被请求或以其他方式需要的信息未被存储在语义描述符中时,考虑语义查询。 在第三示例性方法中,当信息分布在不同但相关的语义描述符中时,考虑语义查询。 在第四示例性方法中,当信息分布在不同和不相关或对等语义描述符中时,考虑语义查询。 在第五种方法中,可以通过利用现有的语义资源发现机制间接查询来自目标资源的信息。
    • 147. 发明申请
    • BEAM MANAGEMENT
    • 光束管理
    • WO2018031908A1
    • 2018-02-15
    • PCT/US2017/046547
    • 2017-08-11
    • CONVIDA WIRELESS, LLC
    • MURRAY, Joseph M.ADJAKPLE, Pascal M.CHEN, WeiIYER, Lakshmi R.ZHANG, QianZHANG, GuodongTSAI, Allan Y.
    • H04B7/06H04W72/04
    • Layer 2 structures and procedures may be used for beam management in new radio networks. In a first example, a new radio layer 2 structure may be used to facilitate beam management at the medium access control sublayer. In a second example, new radio feedback mechanisms may be signaled between peer medium access control entities and used to assist with beam management. In a third example, new radio beam management procedures may include new radio beam training, new radio beam alignment, new radio beam tracking, or new radio beam configuration. In a fourth example, new radio connection control procedure may include new radio initial access or new radio mobility management.
    • 第二层结构和程序可以用于新的无线电网络中的波束管理。 在第一示例中,可以使用新的无线电层2结构来促进介质访问控制子层处的波束管理。 在第二示例中,新的无线电反馈机制可以在对等媒体访问控制实体之间用信号通知并且用于辅助波束管理。 在第三示例中,新的无线电波束管理过程可以包括新的无线电波束训练,新的无线电波束对准,新的无线电波束跟踪或新的无线电波束配置。 在第四示例中,新的无线电连接控制过程可以包括新的无线电初始接入或新的无线电移动性管理。
    • 148. 发明申请
    • DOWNLINK SYNCHRONIZATION
    • 下行链路同步
    • WO2017184837A1
    • 2017-10-26
    • PCT/US2017/028566
    • 2017-04-20
    • CONVIDA WIRELESS, LLCXU, Tianyi
    • XU, TianyiTSAI, Allan Y.IYER, Lakshmi R.ZHANG, GuodongMURRAY, Joseph M.LI, QingCHEN, WeiADJAKPLE, Pascal M.
    • H04B7/06H04W56/00H04L27/26
    • The present application is at least directed to an apparatus on a 5G network. The apparatus includes a non-transitory memory including instructions stored thereon for performing configuration of an initial access signal in the 5G network. The apparatus also includes a processor, operably coupled to the non-transitory memory, capable of executing an instruction of monitoring transmission of a downlink sweeping subframe including a beam sweeping block carrying a downlink initial access signal. The processor is capable of also executing the instruction of detecting the downlink initial access signal carrying a synchronization signal. The processor is capable of also executing the instruction of determining, based on the synchronization signal, an identity of the beam sweeping block associated with the downlink initial access signal. The present application is also directed to an apparatus configured to perform downlink synchronization of a cell in the 5G network.
    • 本申请至少针对5G网络上的装置。 该装置包括包含存储在其上的用于在5G网络中执行初始接入信号的配置的指令的非瞬态存储器。 该装置还包括可操作地耦合到非暂时性存储器的处理器,其能够执行监视包括携带下行链路初始接入信号的波束扫描块的下行扫描子帧的传输的指令。 处理器还能够执行检测承载同步信号的下行初始接入信号的指令。 处理器还能够执行基于同步信号确定与下行链路初始接入信号相关联的波束扫描块的标识的指令。 本申请还涉及被配置为执行5G网络中的小区的下行链路同步的设备。