Patent application number | Description | Published |
20110213871 | MACHINE-TO-MACHINE GATEWAY ARCHITECTURE AND FUNCTIONALITY - A machine-to-machine (M2M) gateway (GW) includes reachability, addressing, and repository (RAR) capability. The GW maintains a local mapping table and local device application repository, performs data aggregation, address/name translation, provides event reporting and establishes GW reachability and wake-up time. The GW supports requests from M2M applications or other capabilities within the GW, and from a network and application (N&A) domain RAR. The GW may include an M2M device and M2M gateway management (MDGM) capability that receives management requests for an M2M device and functions as a network proxy. The MDGM accepts and processes requests from the N&A domain on behalf of the M2M device and performs management functions of the M2M device on behalf of the N&A domain. The MDGM may request the N&A domain for permission to interact with the M2M device, initiate an interaction for device management tasks with the M2M device, and report to the N&A domain. | 09-01-2011 |
20110228750 | Extended Local IP Access For A Converged Gateway In A Hybrid Network - The implementation of Local IP Access (LIPA), “Extended” LIPA (ELIPA), and Selected IP Traffic Offload (SIPTO) for the design of a “Converged Gateway” (CGW) are disclosed. The gateway system may provide various features such as femtocell access to local networks, public Internet, and private service provider networks. | 09-22-2011 |
20120071168 | Bandwidth Management For A Converged Gateway In A Hybrid Network - Systems and methods for integrating bandwidth management (BWM) equipment into a network in order to manage the use of bandwidth over multiple radio access technologies (RATs) relating to communications between a wireless transmit receive unit and a mobile core network (MCN). When integrating itself into the network, a BWM server may be placed between a MCN and an femto access point. In order for WTRUs to communicate with the MCN through the femto access point and a BWM server, a BWM server may need deep packet inspection capabilities. | 03-22-2012 |
20120151028 | Application Layer Protocol Support For Sleeping Nodes In Constrained Networks - Methods and systems providing application layer support for one or more sleeping nodes in constrained networks are contemplated. Embodiments contemplate inserting sleep information in a header option or payload of an application layer message. The application layer message may be conveyed in a hypertext transfer protocol (HTTP) or a constrained application protocol (CoAP). Embodiments contemplate communicating the application layer message to a server, which may serve as a caching and/or buffering proxy. | 06-14-2012 |
20120230178 | METHOD AND APPARATUS FOR HANDLING BURSTY NETWORK ENTRY AND RE-ENTRY IN MACHINE TO MACHINE NETWORKS - A method and apparatus may be used for handling bursty network entry and re-entry in M2M networks. For example, a base station (BS) may receive a trigger from at least one device associated with the BS. The at least one device may be a wireless transmit/receive unit (WTRU), or it may be a network device. The BS may determine whether a widespread exception is imminent based on the trigger. If a widespread exception is imminent, the BS may transmit an indication to the at least one device. The indication may indicate to the at least one device that the BS has received a widespread exception report. The WTRU may receive the indication, and terminate a network entry procedure in response to the indication. The WTRU may enter a power saving mode in response to the indication. | 09-13-2012 |
20120231828 | DESYNCHRONIZED NETWORK ACCESS IN M2M NETWORKS - Systems, methods, and instrumentalities are disclosed to desynchronize transmissions in group-based operations. A group user equipment (UE), e.g., a UE that is a member of a group of UEs, may be in an inactive mode. The group UE may receive a multicast message indicating that the group UE may enter an active mode. For example, the group UE may use the active mode for periodic reporting of its monitoring activity to the network. The multicast message may indicate a mechanism for the group UE to use to send an uplink transmission to the network. The group UE may send the uplink transmission to the network at a transmission time indicated by the mechanism. The transmission time may be desynchronized from other UEs in the group. | 09-13-2012 |
20120243487 | METHOD AND APPARATUS FOR DATA TRANSMISSIONS IN A WIRELESS NETWORK - A method and apparatus for data transmissions in a wireless network are disclosed. A first device may send a first frame to a second device including information regarding a number of pending data frames to be transmitted from the first device to the second device. The first device receives an acknowledgement frame including a number of approved data frames for transmission from the first device to the second device. The first device then may send a plurality of data frames without performing the contention-based channel access procedure in response to the acknowledgement frame. The first device may send a first frame to a second device for requesting data frames that are pending at the second device. The first device receives an acknowledgement frame including a number of pending and approved data frames. The first device may receive a plurality of data frames in response to the acknowledgement frame. | 09-27-2012 |
20130103842 | METHODS, SYSTEMS AND APPARATUSES FOR APPLICATION SERVICE LAYER (ASL) INTER-NETWORKING - Systems and/or methods for providing internetworking among application services layers (ASLs) of different network technologies may be provided. For example, a tunnel anchor point (TAP) may be established. The TAP may be configured to enable communication between a local application in the network and a remote application in a different network. At the TAP, an ASL tunnel may be created to the local application in the network to facilitate the communication. Additionally, a message from the local application may be received where at least a portion of the message may be configured to be provided to a remote ASL and the remote application in the different network to which the local application wishes to communicate. At least the portion of the message may be provided to the remote ASL and the remote application in the different network. | 04-25-2013 |
20130155948 | SYSTEM AND METHOD FOR SHARING A COMMON PDP CONTEXT - Disclosed herein are methods and devices for sharing a packet data protocol (PDP) context among a plurality of devices. For example, a method or sharing a PDP context among a plurality of devices may include a wireless transmit/receive unit (WTRU) sending a request to establish or modify a PDP context. The request to establish or modify the PDP context may include an indication that the WTRU is a member of shared context group. The method may also include the WTRU receiving a response indicating that the request to establish or modify the PDP context was accepted. The method may also include the WTRU acting as a gateway for at least one other device in the shared context group. The request to establish or modify the PDP context may be an attach request. The indication that the WTRU is a member of shared context group may be a group identifier (ID). | 06-20-2013 |
20130188515 | METHOD AND APPARATUS FOR SUPPORTING MACHINE-TO-MACHINE COMMUNICATIONS - Method and apparatus for supporting machine-to-machine (M2M) communications in a hierarchical network architecture including an M2M gateway are disclosed. An M2M entity, (such as M2M device, M2M gateway, or M2M network entity), may perform a service capability discovery procedure to discover an M2M service capability entity that may provide an M2M service capability, and register with the discovered M2M service capability entity. The address or identity of the service capability entity may be pre-configured or obtained from the dispatcher server. The M2M entity may indicate a support M2M service identifier and receive an identity or address of the M2M service capability entity mapping the service identifier. The gateway may advertise M2M service identifiers supported by the gateway so that the M2M device may access the gateway if there is a match. The address of M2M service capability entities may be obtained from the core network. | 07-25-2013 |
20130203394 | METHOD AND APPARATUS TO SUPPORT M2M CONTENT AND CONTEXT BASED SERVICES - Devices, computer readable media, and methods for supporting services at an application service layer (ASL) are disclosed. The ASL may be a machine-to-machine (M2M) services capability layer (SCL). Content functions may interpret the data to generate a semantic description of the data. Semantic information associated with data may be stored. Context aware functions may process the semantic description of the data to generate lower level contextual cues. Context aware reasoning functions may process the lower level contextual cues to deduce higher level context. An application or a second ASL may use the contextual cues and the situational context to trigger an action. The ASL may create a trigger condition based on a received message. The ASL may invoke a function based on detecting a trigger condition. The ASL may perform a command based on a received command. The ASL may use a objective function and feedback to control a device. | 08-08-2013 |
20130203412 | IDENTIFIERS AND TRIGGERS FOR CAPILLARY DEVICES - Methods and apparatuses for capillary network device registration implemented in a wireless transmit/receive unit (WTRU) are disclosed. Registration or bootstrap messages may be received by a capillary network device where the WTRU acts as a gateway for communication between the capillary device and a network such as a 3GPP network. A capillary network device identifier (CNDID) is sent to the capillary device. A packet data protocol (PDP) context or PDN connection may be established with the network and the CNDID may be sent to a machine type communications (MTC) server. The WTRU may create the registration message, establish a connection with the network, and forward the registration message to the MTC server. Methods and apparatuses implemented in a network are also disclosed for identifying, addressing, and triggering the capillary devices from the MTC server. The trigger message may include fields for group communication, reducing signaling, and enabling charging. | 08-08-2013 |
20130279373 | METHOD AND APPARATUS FOR PROVIDING AN INTERNET PROTOCOL MULTIMEDIA SUBSYSTEM TRIGGERING SERVICE - A method and apparatus are described for providing triggering services over multiple access networks. A triggering service server (TSS) architecture includes a triggering identity function (TIF) which maintains a database of device and application identifier mappings across multiple access networks, triggering capabilities and triggering preferences. The TSS also includes a triggering decision function (TDF) that uses information from the TIF and determines how triggers should be performed towards a device and/or an application hosted on a particular device. The TSS also includes triggering gateways (T-GWs) that perform triggering in different domains. A “not-registered-triggerable” state may be used to indicate whether an entity, such as a device, application or user can receive triggers although it is not registered in a specific access network. Methods and apparatus are also described for implementing various unassisted triggering and assisted triggering procedures using wireless transmit/receive units (WTRUs), application servers (ASs) and service capability servers (SCSs). | 10-24-2013 |
20130303206 | SERVICE CAPABILITY SERVER (SCS) TERMINATED SHORT MESSAGE SERVICE (SMS) SYSTEMS AND METHODS - Systems, methods, and instrumentalities are provided to determine routing associated with a short message. A SMS-SC may send a first routing request to a home subscriber server (HSS). The first routing request may be associated with the short message. The SMS-SC may receive a first routing reply. The first routing reply may include one of an indication that the short message is associated with a service capability server (SCS) or a first control plane routing associated with the short message. The SMS-SC may send the short message to an SCS serving node. The first routing reply may include the indication that the short message is associated with a service capability server (SCS). The SMS-SC may send a second routing request to a SCS subscription database. The SMS-SC may receive a second routing reply from the SCS subscription database, which may indicate a second control plane routing for the short message. | 11-14-2013 |
20130336222 | Machine-To-Machine (M2M) Interface Procedures For Announce and De-Announce of Resources - Systems, methods, and instrumentalities are disclosed to propagate announcement and de-announcement of a resource across one or more networks. A first entity, which may be a hosting service capability layer (SCL), may receive a request from an issuer to announce a resource. The first entity may create a representation of the resource. The representation may be referred to as an announced resource. The first entity may send an announce resource request to a second entity (e.g., an announced-to SCL), which may be registered with the first entity. The announce resource request may be sent over an mid interface. The first entity may receive a first response from the second entity over the mid interface indicating that the second entity created the announced resource. | 12-19-2013 |
20140029434 | CONFIGURABLE ARCHITECTURE WITH A CONVERGED COORDINATOR - Methods and apparatus for a configurable architecture with a converged coordinator are described. The converged coordinator may have multiple radio transceivers or interfaces. The converged coordinator may communicate with a plurality of clusters or Personal Area Networks (PANs). The converged coordinator may include a protocol stack with a Convergence Layer and a Converged Medium Access Control (MAC) layer. The converged coordinator may perform channel switching to allow devices to switch from one channel to another (or from one PAN to another). The method may include active channel switching, passive channel switching, and group-based channel switching, as well as two-step active channel switching and one-step active channel switching. The converged coordinator may perform channel switching due to increased congestion or traffic in a particular cluster or PAN. The method may include new messages and fields within messages for use in channel switching. | 01-30-2014 |
20140067902 | METHOD AND APPARATUS FOR USING MULTIPLE UNIVERSAL RESOURCE IDENTIFIERS IN M2M COMMUNICATIONS - A method and apparatus may use multiple URIs (MU) in a single request message for machine-to-machine (M2M) communication networks. Multiple single URI (SU)-type request messages may be received from an application client (e.g. a constrained application protocol (CoAP)/hypertext transfer protocol (HTTP) client) at a (CoAP/HTTP) intermediary node. The multiple SU-type request messages may be aggregated into a single MU-type request message at the intermediary node, and the single MU-type request message may be transmitted to a (CoAP/HTTP) server. A multiple value (MV)-type response message may be received from the (CoAP/HTTP) server. The MV-type response message may be deaggregated into multiple single value (SV)-type response messages. The multiple SV-type response messages may be transmitted to the (CoAP/HTTP) client. | 03-06-2014 |
20140089478 | METHOD AND APPARATUS FOR ACCESSING SERVICES AFFILIATED WITH A DISCOVERED SERVICE PROVIDER - A method and apparatus are described for accessing services affiliated with a service provider. A first discovery procedure may be performed to discover at least one service provider, and a bootstrap procedure may be performed with the at least one discovered service provider. A second discovery procedure may then be performed to determine available service capability layers (SCLs) supported by the at least one discovered service provider. The first discovery procedure may include transmitting a service provider discovery request including information for querying a record database to determine matching service provider discovery records, and receiving a service provider discovery response including a service discovery function record list that matches queries in the service provider discovery request. At least one service provider from the service discovery function record list may be selected to bootstrap with. Various versions of the second discovery procedure are described. | 03-27-2014 |
20140105139 | BANDWIDTH MANAGEMENT FOR A CONVERGED GATEWAY IN A HYBRID NETWORK - Systems and methods for integrating bandwidth management (BWM) equipment into a network in order to manage the use of bandwidth over multiple radio access technologies (RATs) relating to communications between a wireless transmit receive unit and a mobile core network (MCN). When integrating itself into the network, a BWM server may be placed between a MCN and an femto access point. In order for WTRUs to communicate with the MCN through the femto access point and a BWM server, a BWM server may need deep packet inspection capabilities. | 04-17-2014 |
20140112232 | APPLICATION LAYER PROTOCOL SUPPORT FOR SLEEPING NODES IN CONSTRAINED NETWORKS - Methods and systems providing application layer support for one or more sleeping nodes in constrained networks are contemplated. Embodiments contemplate inserting sleep information in a header option or payload of an application layer message. The application layer message may be conveyed in a hypertext transfer protocol (HTTP) or a constrained application protocol (CoAP). Embodiments contemplate communicating the application layer message to a server, which may serve as a caching and/or buffering proxy. | 04-24-2014 |
20140126581 | SYSTEMS, METHODS AND APPARATUS FOR MANAGING MACHINE-TO-MACHINE (M2M) ENTITIES - Systems, methods and apparatus for managing machine-to-machine (M2M) entities are disclosed. Included herein is a method that may include implementing one or more management layers for managing M2M entities in an M2M environment. The method may also include using a plurality of management layers to manage a M2M area network, wherein the M2M area network may include one or more M2M end devices. The M2M end devices may include, for example, an M2M gateway and/or an M2M device. The management layers may include any of an application management layer, service management layer, network management layer and a device management layer. The management layers may provide any of configuration management, fault management, and performance management of the M2M entities. | 05-08-2014 |
20140233473 | SERVICE LAYER RESOURCE PROPAGATION ACROSS DOMAINS - Techniques are disclosed for Machine-to-Machine (M2M) Announce procedures that allow advertisement machine-to-machine service capabilities layer resources and subresources. Resource structures and signal flows of the various disclosed embodiments are defined. | 08-21-2014 |
20140330952 | Device Triggering - Service layer and application triggering may be used in a machine-to-machine environment. In an embodiment, an existing service layer procedure, such as registration, may allow a device or gateway service layer or application to indicate to a machine-to-machine server what port is listened to for triggers. In another embodiment, triggering may be used to provide bootstrapping instructions, including temporary bootstrapping identifiers, in trigger requests. In another embodiment, triggering may be used to assist with event notification. Service layer or application instructions may be embedded inside of trigger payloads. A trigger payload format is defined. | 11-06-2014 |
20140349614 | Access Network Assisted Bootstrapping - The Generic Bootstrapping Architecture is used in a method for assigning the bootstrapping transaction ID so that a machine-to-machine server or other device can locate and communicate with a bootstrapping server function. The bootstrapping server function assigns the bootstrapping transaction ID and updates a DNS server with an entry that maps the bootstrapping transaction ID to a network node IP Address. | 11-27-2014 |
20140351312 | LIGHTWEIGHT IOT INFORMATION MODEL - A lightweight and extensible information model for machine-to-machine systems is disclosed. A service layer information management architecture uses three categories of atomic objects, subjects, actions, and descriptions. Information for use within the model is built using the atomic information objects. Application programming interfaces are used to perform operations and information processing by different nodes. Common service functions are used in the model as instances of a generic common service information model. | 11-27-2014 |
20140351592 | Machine-To-Machine Network Assisted Bootstrapping - The service layer may leverage the access network infrastructure so that applications on a device may bootstrap with a machine-to-machine server without requiring provisioning beyond what is already required by the access network. | 11-27-2014 |
20140359035 | DATA AGGREGATION - Data aggregation in an internet of things (IoT) system refers generally to collecting data such that the data can be processed in a useful manner. Existing approaches to data aggregation in IoT systems, such as a system including a network of sensors for example, often focus on network logical topology and data transmission scheduling and routing schemes. Embodiments disclosed herein include systems that can aggregate data at an application-protocol layer. | 12-04-2014 |
20140359131 | LOAD BALANCING IN THE INTERNET OF THINGS - Disclosed herein are a variety of devices, methods, and systems for load balancing in the internet of things. Devices and other entities can be grouped together in a load balancing group and traffic for such devices balanced according to load balancing criteria. Groups may be discovered, created, manipulated, and deleted by various entities. | 12-04-2014 |
20150029854 | SERVICE LAYER SOUTHBOUND INTERFACE AND QUALITY OF SERVICE - Existing resource reservation techniques are inefficient for M2M communications. In an example embodiment described herein, a system comprises a service layer server that resides on a service layer and a control plane node that resides on an access network, wherein the service layer server communicates with the control plane node via a control plane interface. The control plane interface can be used to configure quality of service (QoS) policies (rules) that are based on an object that is being addressed. In this context, for example, an object may be a memory location or value. For example, the service layer may configure one or more QoS rules for the access network based on the object by sending a QoS provisioning message that includes one or more parameters to the control plane node. The control plane node may determine the object that is identified in the one or more QoS rules, and the QoS rules may be distributed to one or more routers that may be used to access the object. The access network may apply the one or more QoS rules in accordance with the parameters. | 01-29-2015 |
20150029894 | Service Domain Charging Systems and Methods - Various mechanisms are disclosed for a service domain charging system that can interact with underlying networks. A service domain charging architecture is defined with several logical functions. Service-based charging types may be and applied to existing event, session, online, and offline charging mechanisms. Service domain charging messages may be exchanged over the X, Y, Z reference points. An E reference point may be used for interfacing with a service domain billing system, and a B reference point may be used between a service domain billing system and underlying network's billing system. | 01-29-2015 |
20150031335 | Service Layer Device Location Management and Privacy Control - A machine to machine (M2M) service layer can facilitate acquiring and providing location information for use by M2M devices. The service layer can also ensure that privacy controls are maintained and enforced for location information. A device can report its location and its privacy preferences to a service layer device. Other devices can receive this location information subject to qualifying to receive it based on the privacy preferences. Devices in an area may advertise services with the service layer acting as a filter and relay point ensuring that such advertisements satisfy the privacy policies of the devices involved. | 01-29-2015 |
20150033311 | End-To-End M2M Service Layer Sessions - Mechanisms support machine-to-machine service layer sessions that can span multiple service layer hops where a machine-to-machine service layer hop is a direct machine-to-machine service layer communication session between two machine-to-machine service layer instances or between a machine-to-machine service layer instance and a machine-to-machine application. Mechanisms are also disclosed that illustrate machine-to-machine session establishment procedures for oneM2M Session Management Service supporting multiple resources. | 01-29-2015 |
20150033312 | End-To-End M2M Service Layer Sessions - Mechanisms support machine-to-machine service layer sessions that can span multiple service layer hops where a machine-to-machine service layer hop is a direct machine-to-machine service layer communication session between two machine-to-machine service layer instances or between a machine-to-machine service layer instance and a machine-to-machine application. Mechanisms are also disclosed that illustrate machine-to-machine session establishment procedures for oneM2M Session Management Service supporting multiple resources. | 01-29-2015 |
20150055557 | METHOD AND APPARATUS FOR SUPPORTING MACHINE-TO-MACHINE CACHING AT A SERVICE CAPABILITY LAYER - A method and apparatus for supporting machine-to-machine (M2M) caching at a service capability layer are disclosed. A service capability layer of an M2M entity provides functions that are shared by the M2M applications and expose functionalities to the M2M applications through a set of open interfaces. The service capability layer may be configured to cache resources in a resource structure of the service capability layer. The service capability layer caching can provide complete cached resource discovery, and provide more intelligent and robust security mechanism to authenticate the clients, and subscription to the cached resource becomes flexible and feasible. M2M service may be virtualized in a cloud. An M2M cache manager may maintain a record of resources cached in a plurality of M2M servers and coordinate the M2M servers in caching the resources. The M2M cache manager may provide mapping between a virtualized cached resource and a real cached resource. | 02-26-2015 |
20150055640 | METHOD AND APPARATUS FOR SUPPORTING MACHINE-TO-MACHINE COMMUNICATIONS - A method and apparatus for distributed services and data in a machine-to-machine (M2M) communication network are disclosed. A network server, an M2M gateway, and M2M devices include an M2M service capability layer for supporting M2M service capabilities, respectively. Reference points may be defined for interactions between network service capability layers, between gateway service capability layers, between a gateway service capability layer and a device service capability layer of an M2M device, between M2M device applications, and/or between a network, gateway, or device service capability layer and an M2M application. The network server may be split into a control server and a data server at a service capability layer to provide service capabilities for control functions and service capabilities for data functions, respectively. The data server may be configured to interact with another data server to push or pull data or resources either directly or indirectly via the control server. | 02-26-2015 |
20150067154 | Internet of Things Event Management Systems and Methods - Internet of Things (IoT) event objects can be tailored to specific device types and capabilities. An IoT event object can use a flexible definition of an event that can be reconfigured. An IoT event object allows for the ability to set different triggering conditions and priorities. Individual event definitions can be extended to create more complex events. A Notification Handler supports sending a request or command in response to an event that requires action. | 03-05-2015 |
20150071178 | METHOD AND APPARATUS FOR DATA TRANSMISSIONS IN A WIRELESS NETWORK - A method and apparatus for data transmissions in a wireless network are disclosed. A first device may send a first frame to a second device including information regarding a number of pending data frames to be transmitted from the first device to the second device. The first device receives an acknowledgement frame including a number of approved data frames for transmission from the first device to the second device. The first device then may send a plurality of data frames without performing the contention-based channel access procedure in response to the acknowledgement frame. The first device may send a first frame to a second device for requesting data frames that are pending at the second device. The first device receives an acknowledgement frame including a number of pending and approved data frames. The first device may receive a plurality of data frames in response to the acknowledgement frame. | 03-12-2015 |
20150088979 | Enhanced M2M Content Management Based On Interest - Methods, devices, and systems are disclosed for an M2M Interest Function. An M2M Interest Function may receive requests from users to publish the users' personal interests in particular data identify relationships and patterns in the data. Associated data may then be stored in a single best location for such data based on various criteria rather than on separate M2M Gateways or M2M Servers. This location may be provided to users interested in such data. Relationship and association data may be provided to M2M gateways. | 03-26-2015 |
20150163831 | DESYNCHRONIZED NETWORK ACCESS IN M2M NETWORKS - Systems, methods, and instrumentalities are disclosed to desynchronize transmissions in group-based operations. A group user equipment (UE), e.g., a UE that is a member of a group of UEs, may be in an inactive mode. The group UE may receive a multicast message indicating that the group UE may enter an active mode. For example, the group UE may use the active mode for periodic reporting of its monitoring activity to the network. The multicast message may indicate a mechanism for the group UE to use to send an uplink transmission to the network. The group UE may send the uplink transmission to the network at a transmission time indicated by the mechanism. The transmission time may be desynchronized from other UEs in the group. | 06-11-2015 |
20150195671 | SERVICE-BASED DISCOVERY IN NETWORKS - Systems, methods, and instrumentalities may implement service-based discovery in a network, such as a 3GPP or 3GPP2 network. A Discovery Server may be used to query and find services offered by the network or by entities that interface with the network. Situational context information or policy information, or both, may be communicated to the discovery server so that the Discovery Server can provide context-aware and policy-based discovery services. The Discovery Server may be used to control which of the entities that interface with the network can discover one another. The Discovery Server may support queries based on, for example, the type of MTC entity, the type of services hosted on the entity, the availability times of the entity, types of protocols supported, levels of Quality of Service (QoS) supported, and MTC-IWF services. | 07-09-2015 |
20150227618 | Enabling Resource Semantics - Disclosed are methods and systems for Semantics Node functions which provide semantics support in machine-to-machine systems. In an example, a Semantic node may manage semantics resources capable of being discovered, retrieved, or validated by other devices. In another example, the Semantics Node may be discovered by other nodes, and semantics resources may be discovered with subscription mechanisms. | 08-13-2015 |
20150264134 | ENHANCED DISTRIBUTED RESOURCE DIRECTORY - In accordance with an example embodiment, an enhanced distributed resource directory provides resource lookup capabilities without need to know a uniform resource identifier of the resource. For example, a resource directory node may receive a message payload from an endpoint. The message payload includes a registration request or a resource lookup request. The resource directory node may determine keys associated with the message payload. The keys may comprise parameters and values associated with the parameters. Upon determining the keys, the keys may be applied to a hash function to generate mapping information that has identities of peer resource directories. Based on the mapping information, the resource directory may transmit the message payload to peer resource directories. The resource directory may receive responses from the peer resource directories such that an appropriate response may be provided to the requesting endpoint. | 09-17-2015 |
20150264659 | IDENTIFIERS AND TRIGGERS FOR CAPILLARY DEVICES - Methods and apparatuses for capillary network device registration implemented in a wireless transmit/receive unit (WTRU) are disclosed. Registration or bootstrap messages may be received by a capillary network device where the WTRU acts as a gateway for communication between the capillary device and a network such as a 3GPP network. A capillary network device identifier (CNDID) is sent to the capillary device. A packet data protocol (PDP) context or PDN connection may be established with the network and the CNDID may be sent to a machine type communications (MTC) server. The WTRU may create the registration message, establish a connection with the network, and forward the registration message to the MTC server. Methods and apparatuses implemented in a network are also disclosed for identifying, addressing, and triggering the capillary devices from the MTC server. The trigger message may include fields for group communication, reducing signaling, and enabling charging. | 09-17-2015 |
20150373127 | METHODS AND APPARATUSES FOR RESTFUL BATCH SERVICES - Apparatuses, computer readable media, and methods are disclosed for supporting services at an application service layer (ASL). The method may include responding to receiving batched requests from an entity by processing the batched requests, and sending a response to the batched requests to the entity. The method may include sending a separate response to each request indicated in the batched request to the entity, or sending a batched response. Two or more batched requests may have the same operation and the operation may be only specified once. The operation may be determined based on a name of the batched requests or an attribute of the batched request. The request may be determined to be a batch request based on a name of the batched request, attributes associated with the batched request, or an address to which the batched request is addressed. The ASL may be a service capability layer. | 12-24-2015 |
20150381776 | METHOD AND APPARATUS FOR INCORPORATING AN INTERNET OF THINGS (IoT) SERVICE INTERFACE PROTOCOL LAYER IN A NODE - A method and apparatus are described for incorporating an Internet of Things (IoT) service interface protocol layer in at least one node. The format of various IoT messages used to communicate over a service interface are also described. A set of IoT service level operations may be defined in the node. The IoT service level operations may be performed on IoT information elements (IEs). The IoT service level operations may be defined in terms of various actions that are generic and applicable across industry verticals. The operations may leverage each other as sub-operations, (e.g., collaborate, share, synchronize, discover, associate, collect, aggregate, concatenate, share, relocate, invoke, delegate or surrogate). The IoT IEs may include at least one of a content IoT IE, a context IoT IE, a policy IoT IE, a decision IoT IE, an event IoT IE, a discovery IoT IE or a descriptor IoT IE. | 12-31-2015 |
20160006815 | INFORMATION MODELING FOR THE FUTURE INTERNET OF THINGS - A method and apparatus for communication between multiple entities in an Internet of Things (IoT) are described herein. The method comprises receiving a first information wherein the first information comprises a first instance of a category of information, wherein the first instance comprises a field which relates to a second instance of a category of information, and wherein the first instance and second instance are each selected from the group consisting of an IoT content category; an IoT context category; an IoT policy category; an IoT decision category; an IoT event category; an IoT discovery category; and an IoT descriptor category. | 01-07-2016 |
20160007390 | METHOD AND APPARATUS FOR TRIGGERING DEVICES AND DELIVERING SMALL DATA - Method and apparatus are described for delivering triggers and small data. In an embodiment, a receiver may be configured to receive a trigger or small data packet, and a transmitter may be configured to transmit a subscriber information request to see whether a subscriber is present. The receiver may be further configured to receive an identity of a second node on a condition that the subscriber is present. The transmitter may be further configured to transmit the trigger or small data packet to the second node over an interface, the second node configured to create an Internet Protocol (IP) packet with an IP address containing the trigger or small data packet and deliver the IP packet to a wireless transmit/receive unit (WTRU) using the IP address and a default or dedicated bearer of the WTRU. | 01-07-2016 |