Patent application number | Description | Published |
20090129307 | Data Over Signaling (Dos) Optimization Over Wireless Access Networks - The present invention supports a communication protocol on a wireless communication network to transmit application data on the control channel to an access terminal. Base transceiver stations are grouped and configured into paging zones. The radio network controller transmits a page message and application data to the base transceiver stations in the paging zone where the access terminal is located. Each of the base transceiver stations transmits a page and buffers the application data. The buffered application data is only transmitted by the base transceiver station receiving a response to the page. | 05-21-2009 |
20120147806 | Data over signaling (DOS) optimization over wireless access networks - The present invention supports a communication protocol on a wireless communication network to transmit application data on the control channel to an access terminal. Base transceiver stations are grouped and configured into paging zones. The radio network controller transmits a page message and application data to the base transceiver stations in the paging zone where the access terminal is located. Each of the base transceiver stations transmits a page and buffers the application data. The buffered application data is only transmitted by the base transceiver station receiving a response to the page. | 06-14-2012 |
20130059618 | METHOD AND ARCHITECTURE FOR VERY HIGH CAPACITY WIRELESS ACCESS USING ACTIVE ELECTRONIC SCANNED ARRAY (AESA) - A base station in a network includes an Active Electronic Scanned Array (AESA) to enhance and increase transmission and reception in a wireless telecommunications network. The AESA comprises a plurality of transmitter and receiver modules for sending and receiving signals from a User Equipment (UE) with increased signal strength and higher gain. The AESA comprises a central controller; and subcontrollers that cause signals to be directed to specific transmission modules (TxMs) and receiver modules (RxMs) in the AESA to send to the UE. By increasing the number of TxMs used, the signal strength to the UE can be increased significantly. Subcontrollers for handling different radio frequencies can be utilized in the same AESA so that multiple telecommunication systems can be accommodated on a single base station. | 03-07-2013 |
20130190027 | METHOD AND MECHANISM FOR CONSERVING POWER CONSUMPTION OF SIGNLE-CARRIER WIRELESS TRANSMISSION SYSTEMS - A method and mechanism to reduce the energy consumption of a single-carrier wireless transmission system such as a base station or a subnet of multiple base stations in relation to the loading of the system. Energy savings may be achieved by withholding the transmission of the system over some time slots, decreasing the available frequencies for user traffic transmission, dynamically adjusting the system to a lower bandwidth, or a combination of these techniques in proportion to the system transmission load at a given time. The lower the system load, the more transmission resources may be withheld or reduced, and, hence, the more savings in energy consumption. Energy savings may be most prominent during periods of low traffic loading of the single carrier-based wireless transmission system. | 07-25-2013 |
20130208671 | APPARATUS, SYSTEMS, METHODS, AND COMPUTER PRODUCTS SUITABLE FOR USE IN AN ADVANCED DIGITAL BASEBAND PROCESSOR - The present disclosure relates to an advanced digital baseband processor for a base station in a cellular communications network. In general, the advanced digital baseband processor integrates multiple Radio Access Technologies (RATs). As used herein, a RAT is a radio access technology as defined by a corresponding standard. For example, in one embodiment, RATs integrated by the advanced digital baseband processor include a Code Division Multiple Access (CDMA) voice RAT (e.g., 3GPP2 CDMA 1xRTT or 3GPP2 CDMA 1xAdvanced) as well as a CDMA Data Only, or Data Optimized, (DO) RAT (e.g., 3GPP2 CDMA EV-DO or 3GPP2 CDMA EV-DO Rev B). In another embodiment, the RATs integrated by the advanced digital baseband processor also include 3GPP Long Term Evolution (LTE). The RATs given above are only examples. The advanced digital baseband processor may integrate additional or alternative RATs. | 08-15-2013 |
20140031056 | Method and Node for Intelligent Paging Based on User Location Intelligence - A node of a wireless telecommunications network having a UE includes a network interface unit which receives and records each instance of a wireless protocol message, from the UE, to form a connection in the network or to update the network of its location, including time, date, and one or more sectors of the UE when the UE attempt is made: The node includes a Location Intelligence Database (LIDB), in which the recorded UE location information for the message from the UE over time is stored. The node includes a Location Intelligence Processor or LIP, which aggregates the information stored in the LIDB to form a pattern of UE location information by time, date, and sector within the wireless network. | 01-30-2014 |
20140044095 | INTER-RADIO ACCESS TECHNOLOGY INTERFERENCE COORDINATION FOR MULTI-STANDARD RADIO ACCESS NETWORKS - A method and system for coordinated interference suppression in a communication system. The communication system implements at least a first radio access technology via a first base station and a second radio access technology via a second base station. The first and second radio access technologies differ from one another. Information relating to an interference signal received at the first base station via the first radio access technology is received at the second base station from a first device associated with the first base station. At a second device associated with the second base station, an interfering user equipment accessing the second base station via the second radio access technology is identified. The identification is based on the information received from the first device associated with the first base station. Interference caused by the identified interfering user equipment is suppressed by the second base station. | 02-13-2014 |