Patent application number | Description | Published |
20110225060 | Mobility Network Operator Service Delivery Hub - A service delivery hub controlled by a network operator includes an access controller; a network services gateway in communication with the access controller and in communication with external network elements, a partner management center in communication with the access controller and the network services gateway, the partner management center configured to establish a service level agreement with application service providers or enabler providers; an interface defined by the service level agreement, the interface configured to provide a single point access to the application service developers, to provide a set of programming interfaces to the developers whereas the programming interfaces provide access to the external network elements; and a charging system interface to a charging gateway, wherein the charging system is subject to the service level agreement and wherein the service delivery hub allocates revenue in accordance with the service level agreement. | 09-15-2011 |
20110225061 | Method For Automating Onboarding Of User Generated Ringback Tones To Sales Distribution Channel - A method for automating an onboarding process for a developer onto a service delivery hub operated by a network operator includes providing the developer with information relating to use of the service delivery hub, receiving data relating to the developer, approving the developer, certifying an application provided by the developer, and configuring the application for use. A method for synchronization with the service delivery hub is also provided. | 09-15-2011 |
20110225320 | Method For Mechanically Generating Content For Messages - A method for inserting content through a service delivery hub includes the steps of designating a set of tags to be made available through an API, providing the API for use by third parties; intercepting a communication from the third party; interrogating the communication for a data tag, substituting content for the data tag and delivering the communication to an intended recipient. The method may further include that the content substituted for the data tag is dependent upon a parameter such as the MSISDN. | 09-15-2011 |
20110225636 | Method For Automating Onboarding Application Developers To Sales Distribution Channel - A method for automating an onboarding process for a developer onto a service delivery hub operated by a network operator includes providing the developer with information relating to use of the service delivery hub, receiving data relating to the developer, approving the developer, certifying an application provided by the developer, and configuring the application for use. A method for synchronization with the service delivery hub is also provided. | 09-15-2011 |
20120030019 | Enablers For Service Delivery HUB On A Mobility Network - A system includes a hub server for providing a single point of access for an application and wherein the hub server also provides an access point for a user to access the application and wherein the application accesses one of a profile of the user, a location of the user, and an identity for the user and at least one enabler in communication with the hub server to provide additional functionality to the application based on the user's identity. The method includes querying a search enabler for search history of the user, identifying at least one of an identity of the user, a location of the user, and the profile of a user, creating an advertisement profile based on the search history to be retrieved and retrieving the advertisement based on the advertisement profile created. | 02-02-2012 |
20120030478 | Dynamic Storage Enabler For Service Delivery HUB On A Mobility Network - A system includes a hub having interfaces to an application service provider and a portal in communication with an end user, a storage enabler connected to the hub, the storage enabler having application programming interfaces configured to receive a request for a storage facility from the application service provider and to allocate the storage facility based on the request for storage, and wherein the hub provides a single interface for the application service provider to request the storage facility when servicing the end user without regard to a location of the end user. The storage enabler is further configured to track data stored by one of the end user and the application service provider and to further provide encryption functionality. | 02-02-2012 |
20120030774 | Method For Encrypting And Embedding Information In A URL For Content Delivery - A method for accessing a remote network includes identifying a content server associated with the remote network, generating a uniform resource locator, embedding additional data in the uniform resource locator, encrypting the uniform resource locator, and accessing a server in the remote network identified by the uniform resource locator. The method further includes wherein the additional data comprises authentication data, a delivery session identification, a time stamp, or comprises subscriber identification data. The URL may provide access to the content server for a time period indicated by the time stamp. The method includes wherein at least the subscriber identification data prevents unauthorized sharing of the URL. | 02-02-2012 |
20130138522 | METHOD FOR AUTOMATING ONBOARDING OF USER GENERATED RINGBACK TONES TO SALES DISTRIBUTION CHANNEL - A method for automating an onboarding process for a developer onto a service delivery hub operated by a network operator includes providing the developer with information relating to use of the service delivery hub, receiving data relating to the developer, approving the developer, certifying an application provided by the developer, and configuring the application for use. A method for synchronization with the service delivery hub is also provided. | 05-30-2013 |
Patent application number | Description | Published |
20090122802 | Enhanced encapsulation mechanism using GRE protocol - Wireless gateway nodes are enabled to support mobile node services, such as content based billing, when a data treatment server is present in the system. Using one of a defined Content Flow Label (CFL), an Application Program Interface (API), and a compression protocol header, content based billing is provided such as by exchanging content and byte count information with the data treatment server. | 05-14-2009 |
20100220627 | Enhanced Encapsulation Mechanism using GRE Protocol - Wireless gateway nodes are enabled to support mobile node services, such as content based billing, when a data treatment server is present in the system. Using one of a defined Content Flow Label (CFL), an Application Program Interface (API), and a compression protocol header, content based billing is provided such as by exchanging content and byte count information with the data treatment server. | 09-02-2010 |
20120300705 | Enhanced Encapsulation Mechanism Using GRE Protocol - Wireless gateway nodes are enabled to support mobile node services, such as content based billing, when a data treatment server is present in the system. Using one of a defined Content Flow Label (CFL), an Application Program Interface (API), and a compression protocol header, content based billing is provided such as by exchanging content and byte count information with the data treatment server. | 11-29-2012 |
20130235802 | Enhanced Encapsulation Mechanism Using GRE Protocol - Wireless gateway nodes are enabled to support mobile node services, such as content based billing, when a data treatment server is present in the system. Using one of a defined Content Flow Label (CFL), an Application Program Interface (API), and a compression protocol header, content based billing is provided such as by exchanging content and byte count information with the data treatment server. | 09-12-2013 |
Patent application number | Description | Published |
20110051341 | Datacommunications/Telecommunications Patching Systems with Integrated Connectivity Module - A module adapted for use with a datacommunications equipment mounting structure includes: a generally upright divider panel; a cover panel disposed generally parallel to the divider panel, the cover panel and divider panel being spaced apart from each other to form a gap; and a plurality of telecommunications cables, each of the telecommunications cables comprising a plurality of telecommunications patch cords, the cables comprising bundled patch cords at a first end and unbundled patch cords at a second opposite end, the cables being positioned in the gap between the divider panel and cover panel. The bundled patch cords at the cable first end include first interconnection terminals, and the unbundled patch cords at the second end include second interconnection terminals. The first terminals are located at first edges of the divider and cover panels. The unbundled patch cords are separately moveable between a stored position, in which the second terminals are located at second edges of the divider and cover panels, and an extended position, in which the second terminals are positioned away from the second edges of the divider and cover panels. | 03-03-2011 |
20130242506 | DATACOMMUNICATIONS MODULES, CABLE-CONNECTOR ASSEMBLIES AND COMPONENTS THEREFOR - A telecommunications module includes: (a) an enclosure having a housing member with a floor and opposed side walls that each has a post that extends inwardly and an upper lip with an outwardly-facing slot; a bezel with a main body and a pair of rearwardly-extending projections, each having an aperture that receives a respective post of the housing side walls, the main body being positioned adjacent a forward edge of the housing floor; and a cover having a ceiling, a rear wall and opposed side walls, each having at least one inwardly-extending finger received in a slot of one of the housing member side walls, the rear wall being positioned adjacent a rear edge of the housing floor; (b) an MPO adapter; (c) a plurality of optical fibers attached to the MPO adapter; and (d) a plurality of caps mounted in the bezels and attached to respective optical fibers. | 09-19-2013 |
20130266283 | DATACOMMUNICATIONS/TELECOMMUNICATIONS PATCHING SYSTEMS WITH INTEGRATED CONNECTIVITY MODULE - A module adapted for use with a datacommunications equipment mounting structure includes: a generally upright divider panel; a cover panel disposed generally parallel to the divider panel, the cover panel and divider panel being spaced apart from each other to form a gap; and a plurality of telecommunications cables, each of the telecommunications cables comprising a plurality of telecommunications patch cords, the cables comprising bundled patch cords at a first end and unbundled patch cords at a second opposite end, the cables being positioned in the gap between the divider panel and cover panel. The bundled patch cords at the cable first end include first interconnection terminals, and the unbundled patch cords at the second end include second interconnection terminals. The first terminals are located at first edges of the divider and cover panels. The unbundled patch cords are separately moveable between a stored position, in which the second terminals are located at second edges of the divider and cover panels, and an extended position, in which the second terminals are positioned away from the second edges of the divider and cover panels. | 10-10-2013 |
Patent application number | Description | Published |
20090121092 | Cable Management Systems Having Access Doors Connected Thereto Via Latch/Hinge Assemblies - Communications cable management systems include a cable trough and a door that is configured to provide access to the cable trough. A first latch structure is attached to the door that includes a first latch and a second latch. A second latch structure is attached to the door that includes a third latch and a fourth latch. The systems also include a support structure that has first through fourth latch receiving assemblies that are configured to receive the respective first through fourth latches. The first through fourth latch receiving assemblies may comprise hinge brackets and/or pivotable latch members. The first and second latches and their corresponding first and second latch receiving assemblies are each configured to act as a hinge when the third and fourth latches are removed from their corresponding latch receiving assemblies. Similarly, the third and fourth latches and their corresponding third and fourth latch receiving assemblies are each configured to act as a hinge when the first and second latches are removed from their corresponding latch receiving assemblies. | 05-14-2009 |
20090194647 | Cable Management System for Moveable Communication Panels - A cable management system or member has an optional enclosure and annular hubs defining an axis. A rotatable support frame is attached to the annular hubs, with a patching field having a plurality of ports and first and second primary sides attached to the rotatable support frame. Rotation of the rotatable support frame about the axis produces corresponding rotation of the annular hubs. When cable bundles pass through the annular hubs, they may also rotate with the support frame, reducing or eliminating the need for cable slack loops and reducing or eliminating stress at cable/port connection points. | 08-06-2009 |
20100086274 | Telecommunications Patching Systems with Vertically-Oriented Patching Modules - A telecommunications patching system includes: a carrier having a horizontally disposed member with longitudinal slots; and at least one patching module. The module includes: a generally vertically disposed main panel; a plurality of connectors mounted on the main panel, the connectors configured to receive and interconnect patch cords; and a guide member connected with the main panel and received in one of the longitudinal slots of the carrier. The module is slidable relative to the carrier along a path defined by the slot between an access position, in which a front portion of the main panel slides forward so that the plurality of connectors are accessible to a technician, and a non-access position, in which the plurality of connectors are not accessible to a technician. | 04-08-2010 |
20100105244 | Telecommunications Patching Systems with Obliquely-Angled Patching Modules - A telecommunications patching system includes: a carrier having a generally vertically disposed carrier panel, the carrier panel including a cutout area; and a plurality of patching modules. Each of the patching modules has a main panel and a plurality of telecommunications connectors mounted thereon. The patching modules are inserted into the cutout area so that the main panels thereof are substantially parallel to each other, and so that the main panels define an oblique angle relative to vertical. In such a configuration port density can be increased over typical systems. | 04-29-2010 |
20100189403 | Telecommunications Patching Systems with High Density Patching Modules - A telecommunications patching system includes: a generally horizontal main panel; a row of front connectors associated with the main panel, each of the front connectors being spaced apart from immediately adjacent front connectors by a gap; and a row of rear connectors associated with the main panel, each of the rear connectors being spaced apart from immediately adjacent rear connectors by a gap. The front connectors are laterally offset from the rear connectors such that each of the gaps between the rear connectors aligns with a respective front connector, and each of the gaps between the front connectors aligns with a respective rear connector. In this configuration, cords or cables connected with the front row of connectors can reside in the gaps between the rear connectors, and cords or cable with the rear connectors can reside in the gaps between the front connectors. This arrangement can provide high port density to the patching system. | 07-29-2010 |