A telecommunications system including a base station has a transceiver associated with a cellular network and a wireless access point. The system receives a request from a client device that includes a service set identifier (SSID). The system determines whether the SSID is registered for virtual wireless services and provisions a virtual router accessible through the wireless access point and identifiable using the SSID. The system may then authenticate and associate the client device with the virtual router.
A data link error feedback signaling system includes a transmitting network device and a receiving network device. The receiving network device may be operable to receive a network data unit from the transmitting network device over a data link, detect an error in the network data unit, and provide data link integrity information based on the error to the transmitting network device. The receiving network device may provide the data link integrity information by marking the data link flawed in a routing protocol, transmitting the data link integrity information via an informational protocol, and so on. The transmitting network device may respond to the data link integrity information, such as by marking the data link less preferred, marking the data link down, transmitting an alarm regarding the data link to a network operator, omitting taking an action upon determining that errors are below an error threshold, and so on.
A router in a switching network has input interfaces communicatively coupled to other routers and first and second output interfaces communicatively coupled to other routers in the switching network. First and second output interface queues, respectively associated with the first and second output interfaces, store data packets awaiting transmission respectively on the first and second output interfaces. A routing table maps first and second destination addresses to the first output interface as a primary interface and maps the first destination address to the second output interface as an alternate interface. A route controller assigns, using the routing table, data packets having one of the first or second destination address to the primary output interface for transmission, the primary output interface being the first output interface. The controller monitors the first output interface queue and determines whether to activate an alternate route for transmitting data packets having the first destination address over the switching network.
Service Continuity For Network Management Systems In Ipv6 Networks
Systems and methods for reducing bandwidth loss in IPv6 packet switching networks. A network appliance is configured to sample IPv6 packets and mirror sampled packets to a working memory or memory structure, such as a queue. A transport layer payload is extracted from each sampled packet and a transport layer checksum validation operation is performed. Upon detecting an error, the network appliance updates a dropped packet rate or other metric.
Link Quality Metrics As Constraints In Source Routing Switching Networks
A label switching router for a switching network configured for source routing can be configured to modify one or more reported properties of a link associated with that router based on one or more link quality metrics. For example, a router can include a link with available bandwidth of Gbps, a value that can be used by a headend when evaluating nodes of the network against a set of constraints required by a particular requested connection or tunnel. A link of that router may exhibit an increased bit error rate which can be used by the label switching router to artificially deflate available bandwidth, thereby reducing the number of label switching paths including the router are selected by the headend.
Host-Based Network Socket Security Controls And Telemetry
An electronic device includes a network communications interface, a processor, and a memory configured to store instructions that, when executed by the processor, cause the processor to instantiate a set of processes; receive, over a network and via the network communications interface, a policy for network socket creation; receive, from the set of processes, a set of requests to create a first set of network sockets used to communicate over the network via the network communications interface; collect telemetry pertaining to a second set of network sockets used to communicate over the network via the network communications interface; allow or block creation of network sockets in the first set of network sockets, in accordance with the collected telemetry and the policy for network socket creation; and transmit at least part of the collected telemetry to a controller, over the network and via the network communications interface.
Non-Real-Time Store And Forward Of Internet Of Things Sensor Data
A mobile sensor reader for Internet of Things (IoT) devices includes a wireless communications system, a memory configured to store sensor data received via the wireless communications system from an IoT device, and a processor. The processor is configured to monitor for remote electronic data collectors that come within a communication range of the wireless communications system as at least one of the mobile sensor reader or one of the remote electronic data collectors move to different locations; determine a first parameter of a remote electronic data collector that has come within the communication range of the wireless communications system; determine a second parameter of the mobile sensor reader or the sensor data; and forward the sensor data to the remote electronic data collector, via the wireless communications system, at least partly in response to the first parameter and the second parameter satisfying a set of one or more conditions.
Systems And Methods For Providing Cellular Network Enhancements
Systems, methods, and apparatuses for providing cellular network enhancements may utilize sensors mounted on or within a cellular base stations to collect information concerning environmental and/or shelter conditions. The collected information may be used by processing devices to predict a future load on a cellular network and may be used to optimize the number of channels needed for a particular base station. The collected information may also be transmitted to electronic devices in a cell coverage area to inform users of the electronic devices of the detected environmental and/or shelter conditions.
T-Mobile 2005 - Aug 2011
Principal Engineer
T-Mobile 2005 - Aug 2011
Senior Mts and Director
New Edge Networks 2004 - 2005
Senior Engineer
Lantana Gmbh 2004 - 2004
Senior Engineer
Sprint 2000 - 2003
Network Design Engineer Ii
Education:
Unm Anderson School of Management 2003 - 2006
Master of Business Administration, Masters, Business
University of Virginia 2001 - 2002
University of Pittsburgh 1997 - 1999
Bachelors, Bachelor of Science
Linux Professional's Institute
Skills:
Ipv6 Network Architecture Ip Network Design Lte Mpls Cisco Technologies Networking Wireless Umts Network Security 3Gpp Android Architecture Strategy Development
Languages:
English Mandarin
Name / Title
Company / Classification
Phones & Addresses
Cameron Byrne Principal
Amazing Entertainment Entertainer/Entertainment Group