Lemko Corporation Patent applications |
Patent application number | Title | Published |
20140173388 | Fault Tolerant Distributed Mobile Architecture - A method includes detecting a failure condition relating to a first distributed mobile architecture (dMA) gateway (dMAG) at a dMAG management system. The dMAG management system is in communication with at least the first dMAG, a second dMAG, and dMA nodes. The method also includes determining that the first dMAG is offline based on the failure condition, selecting the second dMAG, sending a first notification from the dMAG management system to the second dMAG, and sending a second notification from the dMAG management system to an external system. The external system is configured to connect calls to a mobile station via the first dMAG. The first notification instructs the second dMAG to take over operations from the first dMAG. The second notification indicates that the external system is to connect subsequent calls to the mobile station via the second dMAG. | 06-19-2014 |
20140154967 | SYSTEM, METHOD, AND DEVICE TO CONTROL WIRELESS COMMUNICATIONS - Methods and systems for controlling wireless communications are provided. A method includes sending, from a mobile base station mimicking system, signals that mimic a first base station of a wireless communication system. The method also includes selectively routing, at the mobile base station mimicking system, communications associated with at least one communication device, wherein selectively routing the communications comprises forwarding a first communication associated with the at least one communication device and blocking a second communication associated with the at least one communication device. | 06-05-2014 |
20130148578 | System and Method to Control Wireless Communications - Methods and systems to control wireless communications are provided. A particular network communication system includes a plurality of distributed mobile architecture gateways. Each distributed mobile architecture gateway includes at least one interface to communicate with one or more legacy communication networks and each distributed mobile architecture gateway also includes a data network connection. The data network connection is adapted to connect to at least one other distributed mobile architecture gateway of the plurality of distributed mobile architecture gateways. Additionally, the system includes a private Internet Protocol (IP) network connecting each distributed mobile architecture gateway to a respective set of distributed mobile architecture (DMA) servers. Each DMA server is coupled to a respective base transceiver station, and the private IP network also connects each DMA server in a particular set of DMA servers to the DMA servers in the other sets of DMA servers. | 06-13-2013 |
20130130677 | System, Method, and Device for Providing Communications Using a Distributed Mobile Architecture - A method includes receiving, at a first distributed mobile architecture (DMA) system, a call from a first mobile subscriber to a second mobile subscriber and determining whether the second mobile subscriber is registered with one of the first DMA system and a second DMA system based on information stored at an authentication, authorization, and accounting module. The information stored at the AAA module includes a first home location register storing information associated with mobile subscribers registered with the first DMA system and a first community location register storing information associated with a second HLR of the second DMA system. | 05-23-2013 |
20130065583 | Multiple IMSI Numbers - A method includes determining a location of the wireless communication device and transmitting information indicating the location of the wireless communication device to a Mobile Subscriber Identity (IMSI) location register (MILR). The MILR stores information associated with the wireless communication device including a first IMSI number, a first Mobile Directory Number (MDN), a second IMSI number and a second MDN. | 03-14-2013 |
20130039279 | System, Method, and Device for Routing Calls Using a Distributed Mobile Architecture - A method includes transmitting communications information from a first DMA gateway of a DMA gateway communication network to a second DMA gateway of the DMA gateway communication network. The communications information is associated with a communication network that is accessible to the first DMA gateway. The method includes receiving a communication from the second DMA gateway via the DMA gateway communication network. The communication network and the DMA communication network are different. The communication is associated with a destination device that is indicated by the communications information to be served by the communication network that is accessible to the first DMA gateway. The method includes routing the communication to the destination device | 02-14-2013 |
20120252444 | Roaming Mobile Subscriber Registration in a Distributed Mobile Architecture - A method includes receiving a call routing request at a first distributed mobile architecture (DMA) node from a mobile switching center (MSC). The method includes identifying, at the first DMA node, a DMA node associated with a mobile subscriber device based on information included in a visitor location register (VLR) gateway accessible to the first DMA node. The VLR gateway identifies a set of visiting mobile subscriber devices. The method includes sending a call routing message from the first DMA node to the identified DMA node associated with the mobile subscriber device. | 10-04-2012 |
20120106454 | PROVIDING COMMUNICATIONS USING A DISTRIBUTED MOBILE ARCHITECTURE - A method includes receiving a call at a distributed mobile architecture (DMA) server. The DMA server includes a mobile switching center (MSC) module, a wireless transceiver, and a base station controller (BSC). The MSC module includes an authentication, authorization, and accounting (AAA) module configured to support generation of call detail records at the DMA server. The method includes routing the call from the DMA server to a communication device. The method further includes generating a call detail record associated with the call at the DMA server. | 05-03-2012 |
20120094659 | OAMP FOR DISTRIBUTED MOBILE ARCHITECTURE - A method includes receiving a first call to a mobile station at a first distributed mobile architecture gateway (dMAG). The mobile station is accessible via the first dMAG. The method includes determining a routing path for the first call based on register data associated with the mobile station. The routing path includes one or more components of the first dMAG, a first distributed mobile architecture (dMA) node, and a private Internet Protocol (IP) network. The method includes sending one or more command messages to reserve the one or more components of the first dMAG, the first dMA node, and the private IP network and receiving one or more confirmation messages indicating that the one or more components are reserved to route the first call. The method further includes connecting the first call to the mobile station via the one or more reserved components. | 04-19-2012 |
20120002607 | SYSTEM AND METHOD TO CONTROL WIRELESS COMMUNICATIONS - A method of controlling wireless communications is provided. A call is received from a first mobile device at a base transceiver station (BTS) interface of a first distributed mobile architecture (DMA) server. The call is associated with a destination device. The first DMA server determines that a first distributed mobile architecture gateway (DMAG) supports communication with the destination device based on registration data stored at the first DMA server. Voice information associated with the call is converted to packet data. The packet data is routed to the destination device via the first DMAG. | 01-05-2012 |
20110223921 | MULTIPLE IMSI NUMBERS - A method includes receiving communication data that is directed to a first Mobile Directory Number (MDN) that is associated with a mobile communication device of a mobile subscriber. The first MDN is a local telephone number in a first country. The method includes determining a location of the mobile communication device. A first International Mobile Subscriber Identity (IMSI) number is active when the mobile communication device is located in the first country, and a second IMSI number is active when the mobile communication device is located in a second country. The method includes routing the communication data to the mobile communication device based on the location of the mobile communication device. | 09-15-2011 |
20110060853 | SYSTEM, METHOD, AND DEVICE FOR ROUTING CALLS USING A DISTRIBUTED MOBILE ARCHITECTURE - Methods and devices for routing communications between distributed mobile architecture (DMA) servers using DMA gateways are disclosed. Communications information is received at a first DMA gateway of a DMA gateway communications network. The communications information is associated with a communications network that is accessible by a second DMA gateway of the DMA gateway communications network. The communications information is stored at a memory of the first DMA gateway. The first DMA gateway receives a communication that is associated with a destination device indicated by the communications information to be served by the second DMA gateway. The communication is routed from the first DMA gateway to the destination device by relaying the communication from the first DMA gateway to the second DMA gateway via the DMA gateway communications network. | 03-10-2011 |
20110059740 | SYSTEM, METHOD, AND DEVICE FOR PROVIDING COMMUNICATIONS USING A DISTRIBUTED MOBILE ARCHITECTURE - A non-transitory computer readable storage medium of a first distributed management architecture (DMA) system includes a first home location register (HLR) that stores information associated with one or more mobile subscribers that are registered with the first DMA system. The non-transitory computer readable storage medium includes a community location register (CLR) associated with a second DMA system. The CLR stores information associated with a second HLR of the second DMA system, and the second HLR stores information associated with one or more mobile subscribers that are registered with the second DMA system. The non-transitory computer readable storage medium includes instructions that, when executed by a processor, cause the processor to initiate connection of a call from a first mobile subscriber to a second mobile subscriber via the first DMA system and the second DMA system when the second mobile subscriber is registered with the second DMA system. | 03-10-2011 |
20100075668 | MULTIPLE IMSI CONNECTIONS - A system is disclosed that includes a first multiple International Mobile Subscriber Identity (IMSI) location register (MILR) module. The first MILR module includes user information associated with a plurality of mobile subscribers. For each of the mobile subscribers, the user information includes a first IMSI number and a first Mobile Directory Number (MDN). The first IMSI number and the first MDN are associated with a first country. The user information includes a second IMSI number and a second MDN. The second IMSI number and the second MDN are associated with a second country. The user information also includes active location information for each of the mobile subscribers. | 03-25-2010 |
20100008369 | System, Method, and Device for Routing Calls Using a Distributed Mobile Architecture - Methods and devices for routing communications between distributed management architecture (DMA) servers using DMA gateways are disclosed. Communications information is received at a first DMA gateway for a communications network accessible by a second DMA gateway. The communications information indicates one or more devices that are accessible by one of a DMA server and a legacy communications network. The first DMA gateway and the second DMA gateway participate in a DMA gateway communications network. The communications information is stored in a home DMA register of the first DMA gateway. A communication is received at the first DMA gateway for a target device indicated by the communications information to be served by the second DMA gateway. The communication is routed from the first DMA gateway to the target device by relaying the communication from the first DMA gateway to the second DMA gateway via the DMA gateway communications network. | 01-14-2010 |
20100008306 | OAMP FOR DISTRIBUTED MOBILE ARCHITECTURE - A method of routing calls includes receiving a first call at a first distributed mobile architecture gateway (dMAG) from a legacy communication network. A routing path for the first call is determined based on register data associated with a mobile station, the routing path including at least one component of each of the first dMAG, a first dMA node, and a private Internet Protocol (IP) network. One or more command messages are sent to reserve the components of the first dMAG, the first dMA node, and the private Internet Protocol (IP) network. One or more confirmation messages are received indicating that components of the first dMAG, the first dMA node, and the private IP network are reserved to route the first call. The first call is connected to the mobile station via the reserved components of the first dMAG, the first dMA node, and the private IP network. | 01-14-2010 |
20090327819 | Fault Tolerant Distributed Mobile Architecture - A method, system and machine-readable storage medium for providing fault tolerance in a distributed mobile architecture (dMA) system. The method includes receiving a message or failing to receive the message within a predetermined time relating to a first dMA gateway (dMAG) at a second dMAG. It is determined whether the first dMAG is not operational or is otherwise offline based on the received message or the failure to receive the message. One or more dMA nodes associated with the first dMAG are notified in order to request connections to an external system via the second dMAG. The external system is also notified to request connections to one or more dMA nodes associated with the first dMAG via the second dMAG. | 12-31-2009 |
20090325584 | System and Method to Control Wireless Communications - Methods and systems to control wireless communications are provided. A particular network communication system includes a plurality of distributed mobile architecture gateways. Each distributed mobile architecture gateway includes at least one interface to communicate with one or more legacy communication networks and each distributed mobile architecture gateway also includes a data network connection. The data network connection is adapted to connect to at least one other distributed mobile architecture gateway of the plurality of distributed mobile architecture gateways. Additionally, the system includes a private Internet Protocol (IP) network connecting each distributed mobile architecture gateway to a respective set of distributed mobile architecture (DMA) servers. Each DMA server is coupled to a respective base transceiver station, and the private IP network also connects each DMA server in a particular set of DMA servers to the DMA servers in the other sets of DMA servers. | 12-31-2009 |
20090271491 | SYSTEM AND METHOD TO CONTROL WIRELESS COMMUNICATIONS - A method of controlling wireless communications is provided. A first call is received at a first distributed mobile architecture (DMA) server from a first mobile communication device. The first DMA server communicates with the first mobile communication device via a first wireless communication protocol. A second call is received at the first DMA server from a second mobile communication device. The first DMA server communicates with the second mobile communication device via a second wireless communication protocol. Voice information associated with the first call is converted to first packet data and voice information associated with the second call to second packet data. The first packet data and the second packet data are routed via a private Internet Protocol (IP) network to at least one second DMA device, where the first call is accessible to a first destination device and the second call is accessible to a second destination device via the at least one second DMA device. | 10-29-2009 |
20090205023 | PROVIDING COMMUNICATIONS USING A DISTRIBUTED MOBILE ARCHITECTURE - A communication apparatus is disclosed that includes a wireless transceiver and a computer readable storage medium. A mobile switching center (MSC) module is embedded in the computer readable storage medium. The MSC module includes an authentication, authorization, and accounting (AAA) module configured to support generation of a set of call detail records at the communication apparatus. A base station controller (BSC) module is also embedded in the computer readable storage medium. The communication apparatus is adapted to transmit Internet Protocol (IP) packet data received at the wireless transceiver to a second apparatus via a peer-to-peer IP connection. | 08-13-2009 |