Patent application number | Description | Published |
20120044919 | Wireless Transceivers with Filter Arrangement for WiFi and WiMAX Coexsistence - Embodiments provide WiFi and WiMAX tailored transceiver radio frequency (RF) filtering techniques and configurations to enable coexistence between WiFi and WiMAX transceivers operating in close proximity. In particular, embodiments provide filtering techniques to reject emissions from WiMAX into WiFi, and vice versa. The filtering techniques eliminate the need for additional isolation between WiMAX and WiFi antennas (approximately 50 dB), which is beyond what is achievable in practice. Embodiments can be tailored according to different use cases of the WiFi and WiMAX transceivers (e.g., fixed CPE, portable router, smart phone with tethering). | 02-23-2012 |
20120314650 | Quality of Service, Battery Lifetime, and Latency in Wireless Communication Devices - Embodiments for processing media over Internet Protocol (IP) packets in a wireless device are provided. Embodiments enable downlink and uplink media over IP flows within the wireless device that reduce the load on the application processor (AP) of the wireless device. In an embodiment, media over IP flows bypass the AP entirely allowing the AP to enter a power saving mode during media over IP sessions. This results in increased battery lifetime and reduced power consumption of the wireless device. In addition, the media over IP session quality is improved by the reduced latency resulting from bypassing the AP. | 12-13-2012 |
20120314693 | Method and System of Operating a Hotspot Application in a Wireless Device - Embodiments for processing client traffic in a wireless device operated in hotspot mode are provided. Embodiments enable downlink and uplink client traffic flows within the wireless device that reduce the load on the application processor (AP) of the wireless device. In an embodiment, client traffic flows bypass the AP entirely allowing the AP to enter a power saving mode during hotspot sessions. This results in increased battery lifetime and reduced power consumption of the wireless device. In addition, the hotspot session quality is improved by the reduced latency resulting from bypassing the AP. | 12-13-2012 |
20130149974 | Systems and Methods for Integrating Cellular and Location Detection Functionality Using a Single Crystal Oscillator - Embodiments of the present disclosure use shared oscillator for cellular communications and location detection in a communication device. The communications device estimates a frequency offset of one of its subsystems. The communications device determines a frequency offset that results from drifting of this shared oscillator, typically caused by aging and/or changes in temperature, voltage, humidity, pressure, and/or vibration to provide some examples, from the frequency offset this subsystem. The communications device provides various compensation parameters to its various subsystems to compensate for the frequency offset that results from drifting of the oscillator. | 06-13-2013 |
20130155931 | TIME DOMAIN COEXISTENCE OF RF SIGNALS - Various methods and systems are provided for time domain coexistence of RF signals. In one example, among others, a method includes obtaining access to a WLAN channel during a free period of a coexisting cellular connection, providing a RDG to allow another device to transmit for a duration corresponding to at least a portion of a TXOP, and receiving a transmission during the duration. In another example, a method includes obtaining access to a WLAN channel during a transmission period of a coexisting cellular connection and providing a protection frame to defer transmissions from another device for a duration corresponding to at least a portion of a TXOP. In another example, a method includes determining a shift of a BT transaction based at least in part upon a schedule of cellular communications and shifting at least a portion of the BT transaction based upon the determined shift. | 06-20-2013 |
20130196643 | DYNAMIC SPACE, FREQUENCY AND TIME DOMAIN COEXISTENCE - Various methods and systems are provided for space, frequency and time domain coexistence of RF signals. In one example, among others, a communication device includes a coexistence manager capable of monitoring operating conditions of a cellular modem and a coexistence assistant capable of monitoring operating conditions of a wireless connectivity unit. The coexistence manager is capable of modifying operation of the modem and/or unit based on an operating condition change. In another example, a method includes detecting a change in antenna isolation and/or operating temperature of a FE filter, determining filtering characteristics of the FE filter based at least in part upon the change, and modifying communications of coexisting communication protocols based at least in part upon the filtering characteristics. In another example, a TX/RX configuration for coexisting communication protocols is determined and communications in a protocol is modified based at least in part upon the TX/RX configuration. | 08-01-2013 |
20140120969 | MULTI-RADIO COEXISTENCE - A method and apparatus relate to coexistence of multiple RF subsystems on a communication device. An apparatus may include a plurality of radio frequency (RF) subsystems configured to receive or transmit communication signals; and an interference table indicative of zones of interference among the multiple RF subsystems, the zones of interference being based on RF measurements. At least one of the RF subsystems comprises a coexistence module configured to communicate coexistence-related messages with of the other RF subsystems, the coexistence-related messages being based on the zones of interference. | 05-01-2014 |
20140140381 | MULTI-RADIO COEXISTENCE SIGNALING - A method and apparatus relate to coexistence of multiple RF subsystems on a communication device. An apparatus may include a plurality of radio frequency (RF) subsystems configured to receive or transmit communication signals; and an interface for communication between a first RF subsystem of the plurality of RF subsystems and at least a second RF subsystem of the plurality of subsystems. The first RF subsystem can be configured to generate a timing offset for a coexistence signal, the timing offset being indicative of a difference between a time of generation of a signal and the time of an event associated with the signal. The timing offset can comprise a fixed offset generated based on at least one of a reference time from a periodic interrupt or direct access of a timer; and an offset adjustment based on a distance between the apparatus and a base station associated with the first RF subsystem. | 05-22-2014 |
20140141732 | Wireless Transceivers with Filter Arrangement for WiFi and LTE Coexistence - Embodiments provide WiFi and LTE tailored transceiver radio frequency (RF) filtering techniques and configurations to enable coexistence between WiFi and LTE transceivers operating in close proximity. In particular, embodiments provide filtering techniques to reject emissions from LTE into WiFi, and vice versa. The filtering techniques eliminate the need for additional isolation between LTE and WiFi antennas (approximately 50 dB), which is beyond what is achievable in practice. Embodiments can be tailored according to different use cases of the WiFi and LTE transceivers (e.g., fixed CPE, portable router, smart phone with tethering). | 05-22-2014 |
20140146707 | System and Method for Network Coded TCP in Long Term Evolution (LTE) - Apparatuses and methods are provided for determining operating modes of a communications link for a user equipment (UE) in a communications system based on whether the UE is configured for network coded transmission control protocol (TCP-NC). The operating modes can include physical layer channel error recovery, modulation, channel selection, among others. For example, physical layer channel error recovery can be scaled-back, or disabled, when TCP-NC is available because it is a redundant error recovery scheme. Accordingly, power can be saved, higher spectral efficiency can be achieved, and the user experience can be improved while the TCP-NC protocol recovers any data loss due to channel, errors. | 05-29-2014 |
20140187287 | LTE AND WLAN/BLUETOOTH COEXISTENCE - Methods and configurations for mitigating intermodulation between a first transceiver and a co-located second transceiver are provided. A method includes determining when the transceivers are concurrently transmitting, and when they are concurrently transmitting, changing a transmission channel of the second transceiver to mitigate the intermodulation when it is determined that the intermodulation is affecting at least one of the first and second transceivers. The first method also includes sending a look-ahead signal from the first transceiver to the second transceiver indicating when the first transceiver will be transmitting, and completing all transmission activity of the second transceiver prior to a transmission by the first transceiver. A second method also includes implementing a schedule for the first transceiver, which designates regular transmission and reception opportunities, communicating the schedule to the second transceiver, and only allowing the second transceiver to transmit when a transmitter of the first transceiver is inactive. | 07-03-2014 |
20140192642 | MOBILE DEVICE WITH CELLULAR-WLAN OFFLAOD USING PASSIVE LOAD SENSING OF WLAN - Apparatus and methods are provided for switching between a wireless local area network (LAN) and a cellular network for a user equipment's (UE) data communication by passively sensing the load on the wireless LAN. A method is disclosed that includes detecting an access point associated with a wireless LAN and receiving packets that are transmitted by other devices that are using the wireless LAN. The method can further include examining the received packets to estimate a data load of the wireless LAN and selecting between the wireless LAN and a cellular network based on the estimated data load. | 07-10-2014 |
20140192643 | SYSTEMS AND METHODS FOR NETWORK DISCOVERY AND SELECTION USING CONTEXTUAL INFORMATION - A communication device and method for offloading communications from a first communication network to a second communication network. The offloading decision can be based on one or more parameters defined in a communication framework. The communication framework can be, for example, Access Network Discovery and Selection Function (ANDSF) framework. The offloading of communication can be from a Long-term Evolution (LTE) network to a Wi-Fi network, or vice-versa. The communication framework can include, for example, positional, movement, signal quality, connection duration, a data rate, and/or quality of service (QoS) parameters. | 07-10-2014 |
20140192667 | Proximity Offloading and Service Continuity Support for Mobile Communication Devices - Systems and methods are provided to facilitate direct wireless communication between mobile communication devices while avoiding the need for mobile communication devices to periodically scan for in-range devices and avoiding unwanted breaks in traffic caused by changes in the source and/or destination IP address of packets. Mobile communication devices periodically update their positions to a server, which can send a notification when a mobile communication device comes within range. Further, mobile communication devices can encapsulate packets with an IP address used for direct wireless communication to facilitate this direct wireless communication without disrupting traffic over a core network. | 07-10-2014 |
20140192737 | Proximity Detection for Mobile Communication Devices Using Geo-Fencing - Systems and methods are provided for using geo-fencing techniques to assist in detecting mobile communication devices that are close enough to support direct communication. A mobile communication device can periodically report its geo-fence area to a central server. The server can determine whether to ask the communication device to report more precise geographic information (e.g., GPS information) based on whether another communication device eligible for direct communication is within the same geo-fence area. | 07-10-2014 |
20140211648 | SYSTEM AND METHODS FOR ANONYMOUS CROWDSOURCING OF NETWORK CONDITION MEASUREMENTS - A communication device and method for crowdsourcing of information from one or more communication devices. The crowdsourced information can be defined by one or more parameters defined in an operational framework. The operational framework can be, for example, an Access Network Discovery and Selection Function (ANDSF) framework. The operational framework can include, for example, positional and/or movement information of the communication device(s), a signal quality of a communication network, a visibility duration of a communication network, data rate information of a communication network, and/or quality of service (QoS) information of a communication network. | 07-31-2014 |
20140242979 | CELLULAR NETWORK INTERWORKING INCLUDING RADIO ACCESS NETWORK EXTENSIONS - A communication device and method for offloading one or more communications from a communication network to one or more other communication networks. The offloading can be controlled by one or more service providers that instruct the communication device to perform the handoff of communications. For example, the one or more service providers can generate one or more commands that instruct the communications device to scan for one or more networks, identify one or more networks, analyze one or more of the identified networks, generate one or more reports based on the analysis, and/or provide the generated reports to the service provider(s). | 08-28-2014 |
20140369187 | Cellular In-Device Coexistence (IDC) Advanced Coexistence Algorithm - Systems and methods for enabling in-device coexistence (IDC) are provided. In an embodiment, IDC interference is detected and determination is made whether or not the IDC interference can be remedied using an internal user equipment (UE) solution that does not involve the cellular network. If not, a preferred IDC solution is determined by the UE and sent to the cellular network in an IDC indication. The cellular network responds to the IDC indication with a network-identified IDC solution, which may or may not correspond to the preferred IDC solution. The UE can apply the network-identified IDC solution to remedy the IDC interference. | 12-18-2014 |
20140369389 | Cellular-to-GNSS Fine Time Assistance and Power Amplifier (PA) Blanking - Systems and methods for providing Fine Time Assistance (FTA) and Power Amplifier (PA) Blanking to a Global Navigation Satellite System (GNSS) module are provided. In an embodiment, FTA is provided in a communications device having a GNSS module and a cellular communications module, where the cellular communications module is configured to receive a reference time, transmit a pulse to the GNSS module at a pulse generation time, and provide a compensated reference time based on the pulse generation time to the GNSS module. In another embodiment, PA blanking is provided in a communications device having a GNSS module and a cellular communications module, where the cellular communications module is configured to transmit a pulse to the GNSS module to signal a high cellular-to-GNSS interference time period. | 12-18-2014 |
20140376511 | Low Latency IMS-Based Media Handoff Between a Cellular Network and a WLAN - Methods for transporting a media call between an IMS server and a User Equipment (UE) and of handing over the media call between a cellular network and a WLAN are provided. In an embodiment, the media call data and signaling are split such that the data is transported over the WLAN and the signaling is transported over the cellular network. In another embodiment, handover latency is reduced by using a dual registration process that registers the UE with an IMS server using both a WLAN-based contact and a cellular network-based contact. The media call can then be carried over the WLAN and/or the cellular network and can be handed over seamlessly from one to the other within minimal signaling. | 12-25-2014 |
20150033300 | USER EQUIPMENT HAVING WEB REAL TIME COMMUNICATION ARCHITECTURE - A communication device configured to provide Web real-time communication (WebRTC) for interne protocol (IP) multimedia services utilizing one or more 3GPP protocols. The communication device can be configured to authenticate communication with one or more clients using one or more IP Multimedia Subsystem (IMS) credentials. The communication device can also be configured to convert communications between WebRTC and 3GPP protocols utilizing Traversal Using Relays around Network Address Translation (TURN) functionality implemented within the communication device. | 01-29-2015 |
20150085740 | Relay Architectures For Mobile Wireless Networks - A communication device configured to route communications between one or more out-of-coverage communication devices using one or more proximity services (ProSe). For example, the communication device can be configured as a mobile device-to network relay. The communication device can be configured to route communications associated with one more out-of-coverage communication devices that are serviced by the communication device. The communication device can be configured to utilize Layer 3 routing. | 03-26-2015 |