Patent application number | Description | Published |
20110149756 | PACKET BASED LOCATION PROVISIONING IN WIRELESS NETWORKS - A system may include a plurality of wireless devices, each wireless device including a time source and configured to selectively communicate with at least one other of the plurality of wireless devices by way of a packet-based time precision protocol. The plurality of wireless devices may include a first wireless device and a second wireless device, the first wireless device being configured to determine whether the first wireless device and the second wireless device are in selective communication over a single-hop wireless link; determine a one-way delay over the single-hop wireless link by way of at least one packed-based time precision protocol message; and calculate a distance measurement between the first wireless device and the second wireless device based at least in part on the one-way delay. | 06-23-2011 |
20110201299 | ENHANCED EMERGENCY SERVICES IN FIXED WIRELESS NETWORKS - A computing device receives a location inquiry for a user device, the location inquiry including an identifier for the user device, and retrieves fixed location data associated with the identifier. The computing device also obtains, from the user device, current geographic location data for the user device and calculates a difference between the fixed location data and the current geographic location data. The computing device selects, from a group of threshold values, a particular threshold value for the calculated difference between the fixed location data and the current geographic location data. The computing device responds to the location inquiry using the fixed location data when the difference between the fixed location data and the geographic location data is within the particular threshold and otherwise responds to the location inquiry using the current geographic location data. | 08-18-2011 |
20120034912 | OPTIMIZING SERVICES IN EXTREME ENVIRONMENTS FOR BUNDLED SERVICES IN A FIXED BROADBAND WIRELESS INSTALLATION - A device monitors temperature readings from a sensor associated with an outdoor broadband unit. When the temperature readings increase above a stored threshold value, the device sends, to a device at a core network, an alert signal that invokes, at the core network, an emergency profile associated with the outdoor broadband unit. When the temperature readings decrease below the stored threshold value, the device sends, to the device at the core network, a normal signal that invokes, at the core network, a default profile associated with the outdoor broadband unit. | 02-09-2012 |
20120040663 | CUSTOMER PREMISES EQUIPMENT INSTALLATION FOR BUNDLED SERVICES IN A FIXED BROADBAND WIRELESS INSTALLATION - A mobile device assists installation of an outdoor broadband unit on a customer premises. The device identifies one or more cell towers, associated with a broadband carrier, within a horizon of the customer premises. The device recognizes a connection with the outdoor broadband unit and receives, from the outdoor broadband unit and at multiple locations around the customer premises, RF signal readings of each of the one or more cell towers. The device provides, to a user, an indication of one or more optimal installation locations, based on the RF signal readings, for the outdoor broadband unit. | 02-16-2012 |
20120040664 | QUALIFYING LOCATIONS FOR FIXED WIRELESS SERVICES - A device receives an address from a computer terminal; determines a location associated with the address; and determines a current signal quality at the location by referencing a file that represents an area that includes the location. The device further determines whether the location qualifies for a fixed wireless service based on the current signal quality. The device also transmits information to the computer terminal. The information indicates whether the location qualifies for the fixed wireless service. | 02-16-2012 |
20120042345 | CUSTOMER PREMISES EQUIPMENT ARCHITECTURE FOR BUNDLED SERVICES IN A FIXED BROADBAND WIRELESS INSTALLATION - One or more network devices receive, at a location outside a customer premises, a broadband signal from a base station of a wireless network and a satellite television signal from a satellite antenna. The one or more network devices combine, at the location outside the customer premises, the broadband signal with the satellite television signal in a single coaxial cable and send, via the single coaxial cable, the broadband signal and the satellite television signal to one or more devices inside the customer premises. | 02-16-2012 |
20120057462 | TRANSMISSION CONTROL PROTOCOL (TCP) THROUGHPUT OPTIMIZATION IN POINT-TO-MULTIPOINT AND HETEROGENEOUS WIRELESS ACCESS NETWORKS - A device receives a packet provided in a wireless access network, and determines whether the packet is a payload packet or an acknowledgment (Ack) packet. The device also allocates, when the packet is an acknowledgement packet, the acknowledgment packet to an expedited priority queue, and allocates, when the packet is a payload packet, the payload packet to a regular priority queue. The device further delivers one or more acknowledgment packets provided in the expedited priority queue prior to delivering one or more payload packets provided in the regular priority queue. | 03-08-2012 |
20120099428 | QUALITY OF SERVICE MANAGEMENT IN A FIXED WIRELESS CUSTOMER PREMISES NETWORK - A method, performed by a fixed wireless router device, may include receiving a packet from a Long Term Evolution network, where the packet is associated with a particular Long Term Evolution Quality of Service class and mapping the particular Long Term Evolution Quality of Service class to a particular Differentiated Services Core Point Quality of Service class. The method may further include assigning a Differentiated Services Core Point Quality of Service class to the packet based on the particular Differentiated Services Core Point Quality of Service class and forwarding the packet to particular device associated with a customer premises network serviced by the fixed wireless router device, based on a priority associated with the assigned Differentiated Services Core Point Quality of Service class. | 04-26-2012 |
20120106346 | LOAD BALANCING TO PROVIDE A TARGET GRADE OF SERVICE (GOS) - A method includes receiving metrics associated with traffic that complies with a grade of service (GOS) associated with a customer premises equipment (CPE) device, where the metrics identify a group of cells via which the traffic is received by the CPE device. The method also includes retrieving information associated with traffic conditions within a group of base stations; initiating a load balancing operation when traffic conditions within a base station indicate that a particular cell, associated with the base station, is congested; and sending, to a set of base stations that send traffic to the CPE device, a notification, where the notification causes traffic, not destined for the CPE device, to be rerouted to another base station, which enables the base station to send traffic, that complies with the GOS, to the CPE device, or causes the CPE device to receive traffic, that complies with the GOS, from a further based station. | 05-03-2012 |
20120166783 | RESETTING AN LTE UNIT THAT IS NOT IN A READILY ACCESSIBLE LOCATION - A system may include a device that is in a first location that is not readily accessible. The device may detect a powering up of the device a particular quantity of times during a particular time interval. Powering up of the device may be controlled from a second location that is readily accessible. The device may also be reset, in response to detecting the device being powered up the particular quantity of times during the particular time interval, to original factory settings. | 06-28-2012 |
20120242495 | LINK QUALITY INDICATOR FOR A FIXED INSTALLATION RADIO FREQUENCY TERRESTRIAL NETWORK - A visual indicator, such as a light emitting diode (LED), may display the quality of the radio frequency (RF) link. In one implementation, a device may include, a RF antenna; a control module to connect to a Long-Term Evolution (LTE) network through the RF antenna; and a LED, disposed on an outer surface of the device, to emit light of a number of different colors, where the color to emit is selected based on a quality of the connection to the LTE network. The device may include an outdoor broadband unit connected to an external portion of a customer premise. | 09-27-2012 |
20120243159 | SIM CARD MODULE AND INTERFACE FOR EXTERNAL INSTALLATION TO PROVIDE BROADBAND TO A CUSTOMER PREMISES - An outdoor broadband unit may be connected to an external portion of a customer premises. The outdoor broadband unit may include a radio frequency (RF) antenna to receive communications from a Long-Term Evolution (LTE) network and a printed wiring board. The printed wiring board may include an integrated circuit (IC) chip to implement a subscriber identity module (SIM) to provide services for the LTE network. The IC chip may be soldered to the printed wiring board and have a rated temperature range corresponding to an industrial grade or military grade integrated circuit. The IC chip may provide authentication services for the SIM using a hypertext transfer protocol secure (HTTPS) connection. The printed wiring board may further include a control module to implement an air interface for the LTE network. A radome may contain the RF antenna and the printed wiring board. | 09-27-2012 |
20120243463 | COAXIAL CABLE INTERFACE TO OUTDOOR BROADBAND UNIT - An outdoor broadband unit implements full IP-based routing between a wide area network (WAN)-side interface (such as a Long-Term Evolution (LTE) air interface) and a local area network (LAN)-side interface (such as a home network using MoCA protocol). The outdoor broadband unit maintains a routing table for all connections through an internal routing system based on matching between WAN-side Internet Protocol (IP) addresses and/or ports and LAN-side IP addresses and/or ports. The outdoor broadband unit may support both connection-oriented transport layer routing (such as Transmission Control Protocol (TCP)) and connectionless transport layer routing (such as User Datagram Protocol (UDP)). | 09-27-2012 |
20120243464 | MECHANICAL MOUNTING FOR FIXED WIRELESS CUSTOMER PREMISES EQUIPMENT - A combined gateway, for a fixed wireless network, includes a structure mounted to a customer premises, and a satellite antenna mechanically coupled to the structure. The combined gateway also includes an outdoor broadband unit mechanically coupled to the structure via an adjustable extension arm. The outdoor broadband unit connects to the satellite antenna via a first communication link, and connects to customer premises equipment via a second communication link. Adjustment of the extension arm permits movement of the outdoor broadband unit relative to a position of the satellite antenna. | 09-27-2012 |
20120243517 | WIDE AREA NETWORK (WAN) AND LOCAL AREA NETWORK (LAN) COMMUNICATIONS FOR A FIXED WIRELESS CPE - An outdoor broadband unit includes a wide area network (WAN) side device, and a local area network (LAN) side device. The LAN side device provides a first stay alive communication to the WAN side device, and the WAN side device performs a soft reset based on the stay alive communication. The LAN side device also receives, based on the stay alive communication, a soft reset result from the WAN side device, and determines, based on the soft reset result, whether the soft reset of the WAN side device is successful or unsuccessful. The LAN side device further provides a second stay alive communication to the WAN side device when the soft reset of the WAN side device is successful. | 09-27-2012 |
20120260299 | VIDEO ON DEMAND DELIVERY OPTIMIZATION OVER COMBINED SATELLITE AND WIRELESS BROADBAND NETWORKS - Video content may be delivered in a wireless network based on network load information relating to radio interfaces for the wireless network. A method may include receiving a request, from a set-top box, for video content from the set-top box to the wireless network and determining, based on the load information, whether a portion of the wireless network corresponding to the set-top box is in a first state or a second state. The network may further include transmitting the video content when the portion of the network corresponding to the set-top box is in the first state and delaying transmission of the video content when the portion of the network corresponding to the set-top box is in the second state, until the portion of the network corresponding to the set-top box enters the first state. | 10-11-2012 |
20120264367 | COMMAND INTERFACE FOR OUTDOOR BROADBAND UNIT - An outdoor broadband unit implements a library of commands to communicate between a wide area network (WAN)-side Long-Term Evolution (LTE) module and a local area network (LAN)-side broadband home router within the outdoor broadband unit. The commands are used for control plane operations to facilitate LTE network sessions for individual devices within a customer premises LAN. In some cases, the commands are also used for communicating with a remote device manager. | 10-18-2012 |
20120281685 | HANDLING MULTIPLE VOICE OVER INTERNET PROTOCOL (VOIP) CALLS VIA A SINGLE BEARER - A device receives a first request to establish a bearer with a first UE associated with a LTE device, where the first request includes first parameters associated with the first UE. The device also determines that the LTE device does not have the bearer established, and provides a new bearer request, with the first parameters, to a wireless network in order to establish the bearer with the LTE device at a first data rate. The device further receives a second request to establish another bearer with a second UE associated with the LTE device, where the second request includes second parameters associated with the second UE. The device determines that the LTE device has the bearer established, and provides a modify bearer request, with the second parameters, to the wireless network in order to modify the bearer with the LTE device to a second data rate. | 11-08-2012 |
20120309443 | PROVISIONING ANTENNA BEAM AND SERVING CELL SELECTION PARAMETERS TO FIXED WIRELESS CUSTOMER PREMISES EQUIPMENT - An outdoor broadband unit receives a current time and maintenance mode parameters from a network device. The outdoor broadband unit also determines a mode associated with selection of an antenna beam, provided on an antenna of the outdoor broadband unit, based on at least one of the current time and the maintenance mode parameters. The outdoor broadband unit further selects an antenna beam or a serving cell to use based on the determined mode. | 12-06-2012 |
20120311643 | SCANNING AND SELECTING AN ANTENNA BEAM PROVIDED IN FIXED WIRELESS CUSTOMER PREMISES EQUIPMENT - An outdoor broadband unit receives a current time, a short term maintenance mode time period, and a long term maintenance mode time period from a remote network device. The outdoor broadband unit determines a mode associated with selection of an antenna beam, provided on an antenna of the outdoor broadband unit, based on at least one of the current time, the short term maintenance mode time period, and the long term maintenance mode time period. The outdoor broadband unit selects an antenna beam to use based on the determined mode. | 12-06-2012 |
20120314585 | MANAGEMENT OF FIXED WIRELESS DEVICES THROUGH AN IP NETWORK - A device may manage fixed wireless installations. The device may receive data relating to the fixed wireless installations, where the data is received from a number of sources, including the fixed wireless installations and network devices used to implement a long term evolution (LTE) cellular network to which the fixed wireless installations connect. The device may analyze the data to determine optimizations to improve the operation of one or more of the fixed wireless installations or the LTE cellular network. The device may change, in response to the analysis, a configuration of at least one of the fixed wireless installations and at least one of the network devices. | 12-13-2012 |
20130003719 | ENHANCED EMERGENCY SERVICES FOR FIXED WIRELESS CUSTOMER PREMISES EQUIPMENT - A gateway device, provided in a customer premises, receives a call from a user device, and detects dialed information associated with the call. The gateway device identifies the call as an emergency call based on the dialed information, and terminates all other calls communicated by the gateway device except for the emergency call. The gateway device notifies an outdoor broadband unit, associated with the customer premises, about the emergency call. | 01-03-2013 |
20130250795 | PACKET BASED LOCATION PROVISIONING IN WIRELESS NETWORKS - A system may include a plurality of wireless devices, each wireless device including a time source and configured to selectively communicate with at least one other of the plurality of wireless devices by way of a packet-based time precision protocol. The plurality of wireless devices may include a first wireless device and a second wireless device, the first wireless device being configured to determine whether the first wireless device and the second wireless device are in selective communication over a single-hop wireless link; determine a one-way delay over the single-hop wireless link by way of at least one packed-based time precision protocol message; and calculate a distance measurement between the first wireless device and the second wireless device based at least in part on the one-way delay | 09-26-2013 |
20140066050 | FREQUENCY BAND ADMISSION - A device is configured to receive a request, from a user device, to connect to a network using a first frequency band. The device is configured to determine that the first frequency band cannot accommodate the user device. The device is configured to determine that the user device can connect to the network using a second frequency band, and connect the user device to the network using the second frequency band rather than the first frequency band. | 03-06-2014 |
20140112160 | DYNAMIC BAND SELECTION AND AGGREGATION - A user device may receive a selection of an application associated with the user device; generate a query based on receiving the selection of the application; provide the query to a first server; and receive, from the first server, a response to the query based on providing the query. The response may include information regarding a resource demand of the application and information regarding a performance of one or more wireless bands. The user device may also determine one or more first wireless bands, of the one or more wireless bands, that satisfy the resource demand; connect with a network via the one or more first wireless bands of the one or more wireless bands; and communicate with a second server using the network to operate the application in accordance with the resource demand. | 04-24-2014 |
20140128052 | COMMAND INTERFACE FOR OUTDOOR BROADBAND UNIT - A method implemented by an outdoor broadband unit includes receiving, by a broadband home router within the outdoor broadband unit, a request for services associated with a wide area network (WAN), the request originating from a device within a local area network (LAN) associated with the broadband home router; generating, by the broadband home router and based on the request, an attention (AT) command to a Long-Term Evolution (LTE) module, within the outdoor broadband unit, the LTE module providing an air interface for the WAN; executing, by the LTE module, the AT command; receiving, by the broadband home router and from the LTE module, a return value based on the executed AT command; and sending, by the broadband home router and to the device within the LAN, a response to the request based on the return value. | 05-08-2014 |
20140219177 | COAXIAL CABLE INTERFACE TO OUTDOOR BROADBAND UNIT - A network device within an outdoor broadband unit receives, via Ethernet over coaxial cable signals, Internet Protocol (IP) data traffic originating from a device within a local area network (LAN). The IP data traffic is buffered in a memory within the outdoor broadband unit. A forwarding plane module of the network device sends the IP data traffic toward a destination via an air interface for a wide area network (WAN). The network device receives, via different Ethernet over coaxial cable signals, IP control traffic originating from the device within the LAN. A control plane module of the network device implements the instructions in the IP control traffic to initiate a test function for the network device. | 08-07-2014 |