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    • 95. 发明申请
    • ENHANCED NEIGHBOR DISCOVERY FOR COMMUNICATION NETWORKS
    • 增强邻域发现通信网络
    • WO2017040922A1
    • 2017-03-09
    • PCT/US2016/050104
    • 2016-09-02
    • CONVIDA WIRELESS, LLC
    • LY, QuangWANG, ChonggangDI GIROLAMO, RoccoCHEN, ZhuoCHOYI, Vinod, KumarRAHMAN, Shamim, AkbarLI, Xu
    • H04L29/12
    • H04L61/2061
    • The application is directed to an apparatus for allocating address space. The apparatus includes a non-transitory memory operably coupled to a processor configured to perform the step of locating a router on a network. The processor also performs the step of sending a router solicitation message including an address allocation flag to the router to reserve the address space. The processor also performs the step of receiving a router advertisement message based upon the router solicitation message including an address space option. Further, the processor performs the step of saving the address space provided in the router advertisement. The application is also directed to a computer-implemented apparatus for communicating address space between routers. The application is also directed to a computer-implemented apparatus for reallocating assigned IP address space. The application is also directed to an apparatus for registering a node with a router.
    • 该应用涉及用于分配地址空间的装置。 该装置包括可操作地耦合到被配置为执行在网络上定位路由器的步骤的处理器的非暂时性存储器。 处理器还执行向路由器发送包括地址分配标志的路由器请求消息以保留地址空间的步骤。 处理器还执行基于包括地址空间选项的路由器请求消息来接收路由器通告消息的步骤。 此外,处理器执行保存路由器广告中提供的地址空间的步骤。 该应用还涉及用于在路由器之间传送地址空间的计算机实现的装置。 该应用还涉及用于重新分配分配的IP地址空间的计算机实现的设备。 该应用还涉及用于向路由器注册节点的装置。
    • 99. 发明申请
    • INTERNET OF THINGS END-TO-END SERVICE LAYER QUALITY OF SERVICE MANAGEMENT
    • 互联网端到端服务层服务质量管理
    • WO2017024100A1
    • 2017-02-09
    • PCT/US2016/045473
    • 2016-08-04
    • CONVIDA WIRELESS, LLC
    • SEED, Dale, N.STARSINIC, Michael, F.CHOYI, Vinod, KumarLY, QuangSHAH, Yogendra, C.FLYNN, William, RobertRAHMAN, Shamim, AkbarCHEN, Zhuo
    • H04W4/00H04W28/24H04L29/08
    • H04L47/10H04L67/12H04L67/14H04W4/70H04W4/80
    • Methods, system, and apparatuses may support end-to-end (E2E) quality of service (QoS) through the use of service layer (SL) sessions. For example, an application can communicate with a targeted device based on application specified schedule, latency, jitter, error rate, throughput, level of security, and cost requirements. Exemplary system 150 supports mechanisms to manage QoS in an end-to-end fashion. System 150 supports use cases that require application 156 to specify on-demand E2E QoS requirements. On-demand E2E QoS requirements may include reachability schedule (e.g., when the application requires that a targeted M2M/IoT device be reachable to service its SL requests), E2E latency, E2E throughput, E2E jitter, E2E error rate, E2E security level, or E2E cost of communication, among other things. System 150 includes Internet of Things (IoT) servers (e.g., IoT server 152), IoT gateways (e.g., IoT gateway 151), and devices (e.g., IoT field device 153 or IoT device 154) interconnected to one another via a diverse combination of local area and wide area underlying networks (e.g., 3GPP 161, broadband Ethernet 162, Wi-Fi 163, or 6LoWPAN 164). Hosted on the servers and gateways are instances of IoT SLs (e.g., IoT SL 166 or IoT SL 165). Hosted on the devices in the field as well as the devices in the backend are IoT applications (e.g., IoT device application 155 and IoT application 156) that communicate with one another. For example, E2E communication between a patient's IoT sensor or actuator and a backend patient monitoring application. System 150 further includes a service layer connection manager (SLCM) function (e.g., SLCM 157 or SLCM 158), an application connection manager (ACM) function (e.g., ACM 159 or ACM 160) and an underlying network connection manager (UNCM) function (e.g., UNCM 167, UNCM 168, or UNCM 169). Together the SLCM, ACM, and UNCM functions interact with one another to more intelligently manage and configure the end-to-end underlying network QoS and connectivity of IoT devices, gateways, servers, and applications in support of E2E QoS.
    • 方法,系统和装置可以通过使用服务层(SL)会话来支持端到端(E2E)服务质量(QoS)。 例如,应用程序可以根据应用程序指定的时间表,延迟,抖动,错误率,吞吐量,安全级别和成本要求与目标设备进行通信。 示例性系统150支持以端到端的方式来管理QoS的机制。 系统150支持需要应用程序156指定按需E2E QoS要求的用例。 按需E2E QoS要求可能包括可达性计划(例如,当应用程序要求目标M2M / IoT设备可到达其SL请求服务时),E2E延迟,E2E吞吐量,E2E抖动,E2E错误率,E2E安全级别, 或E2E交流成本等。 系统150包括物联网(IoT)服务器(例如,IoT服务器152),IoT网关(例如,IoT网关151)以及经由多种组合彼此互连的设备(例如,IoT现场设备153或IoT设备154) 的局域和广域底层网络(例如,3GPP 161,宽带以太网162,Wi-Fi 163或6LoWPAN 164)。 在服务器和网关上托管是IoT SL(例如,IoT SL 166或IoT SL 165)的实例。 托管在现场设备以及后端设备中的是彼此通信的IoT应用(例如,IoT设备应用155和IoT应用156)。 例如,患者的IoT传感器或致动器与后端患者监护应用之间的E2E通信。 系统150还包括服务层连接管理器(SLCM)功能(例如,SLCM 157或SLCM 158),应用连接管理器(ACM)功能(例如,ACM 159或ACM 160)和底层网络连接管理器(UNCM)功能 (例如,UNCM 167,UNCM 168或UNCM 169)。 SLCM,ACM和UNCM功能相互交互,以更智能地管理和配置支持E2E QoS的IoT设备,网关,服务器和应用程序的端到端底层网络QoS和连接。