Patent application number | Description | Published |
20080242307 | METHOD AND APPARATUS FOR ALLOCATING A BEACON SIGNAL IN A WIRELESS COMMUNICATIONS NETWORK - A method and apparatus for transmitting beacon signals in a wireless communications network. For a given cell site, a single frequency may be used for the beacon signal by assigning different beacon signal time slots to different sectors of the cell site. During one time slot, the beacon signal is transmitted to one of the sectors, and during another one of the time slots, the beacon signal is transmitted to a different one of the sectors. Because a single frequency can be used for all of the sectors of a cell site, more frequencies are available for other purposes, such as for user traffic, for example. The invention improves spectral efficiency, reduces adjacent channel interference and co-channel interference and allows power consumption to be controlled. | 10-02-2008 |
20100091718 | METHOD FOR THE REDUCTION OF PILOT POWER TRANSMISSION IN MOBILE COMMUNICATION SYSTEMS - The innovation relates to a system and/or methodology for the reduction of pilot power transmission in mobile communication systems. More specifically, the innovation relates to varying the transmit power of a pilot signal to increase the power available to other services, such as customer voice and data communication. In addition, reducing the transmit power of the pilot signal can reduce or militate against interference with the pilot signals of neighboring or nearby cells. | 04-15-2010 |
20100112996 | REMOTE ELECTRICAL TILTING ANTENNA SYSTEM MEASUREMENT VIA DOWNLINK ANTENNA - A technique for operating an antenna system includes using a downlink antenna to provide radio frequency information to a central antenna controller and adjusting operating parameters of the antenna system based thereon. In at least one embodiment of the invention, an apparatus includes a central antenna control facility configured to communicate at least one operation parameter to a first antenna facility associated with a first antenna in a first cell coverage area. The at least one operation parameter is determined at least partially based on information associated with a signal received from the first antenna by a downlink antenna in a second cell coverage area. | 05-06-2010 |
20100151907 | SHARING ANTENNAS FOR INCREASED MULTIPLE-INPUT UPLINK RECEPTION - The claimed subject matter facilitates sharing antennas among carriers co-located at a base station such to increase throughput of the individual carriers. Thus, the carriers can effectively receive multiple-input/multiple-output (MIMO) from mobile devices though the individual antennas of the carrier alone are not sufficient to receive such signals. A co-sharing interface is provided that takes signals from antennas of one carrier and forwards the signals to a second co-located carrier. In this regard, a carrier can receive signals from a related set of antennas as well as the co-sharing interface component (from a set of antennas related to a disparate carrier) and process the signals in conjunction. Thus, the signals can be disparate portions of a MIMO signal. In addition, the co-sharing interface can modify the signals as defined by the carrier receiving the signals from the interface, such as by applying gain control, alarming, bypass circuitry, and/or amplification. | 06-17-2010 |
20110009085 | E911 Services Using Distributed Nodes - Distributed node systems and methods provide emergency call services to users indoors. A distributed node can be located in a building and configured to receive call requests from users in the building. The distributed node can transmit call requests to a central node that relays the call requests to a wireless network. The distributed node can also transmit node identifying information with the call request, which may be relayed to the wireless network. The wireless network can determine that a call request is a request for an emergency call and obtain location information and emergency services provider routing information based on a node identifier. The wireless network can transmit the location information to the emergency services provider using the emergency services provider routing information and set up the requested call. | 01-13-2011 |
20120202553 | SHARING ANTENNAS FOR INCREASED MULTIPLE-INPUT UPLINK RECEPTION - The claimed subject matter facilitates sharing antennas among carriers co-located at a base station such to increase throughput of the individual carriers. Thus, the carriers can effectively receive multiple-input/multiple-output (MIMO) from mobile devices though the individual antennas of the carrier alone are not sufficient to receive such signals. A co-sharing interface is provided that takes signals from antennas of one carrier and forwards the signals to a second co-located carrier. In this regard, a carrier can receive signals from a related set of antennas as well as the co-sharing interface component (from a set of antennas related to a disparate carrier) and process the signals in conjunction. Thus, the signals can be disparate portions of a MIMO signal. In addition, the co-sharing interface can modify the signals as defined by the carrier receiving the signals from the interface, such as by applying gain control, alarming, bypass circuitry, and/or amplification. | 08-09-2012 |
20120269081 | Estimating Mobile Local Propagation Environment Characteristics For Wireless Communications - Characterization and enhancement of a mobile local scattering environment. The system includes a channel component and a link control component, wherein the channel component facilitates communication of a ping signal, which is used to estimate the delay spread characteristics and/or angle of arrival in order to characterize the mobile local scattering environment. This information is sent to the link control component, which enhances radio link performance based on the received information. The system can be used to assist in E-911 location applications, such as determining the location of an indoor user. | 10-25-2012 |
20120320947 | METHOD AND APPARATUS FOR ALLOCATING A BEACON SIGNAL IN A WIRELESS COMMUNICATIONS NETWORK - A method and apparatus for transmitting beacon signals in a wireless communications network. For a given cell site, a single frequency may be used for the beacon signal by assigning different beacon signal time slots to different sectors of the cell site. During one time slot, the beacon signal is transmitted to one of the sectors, and during another one of the time slots, the beacon signal is transmitted to a different one of the sectors. Because a single frequency can be used for all of the sectors of a cell site, more frequencies are available for other purposes, such as for user traffic, for example. The invention improves spectral efficiency, reduces adjacent channel interference and co-channel interference and allows power consumption to be controlled. | 12-20-2012 |
20130028107 | MACRO NETWORK OPTIMIZATION WITH ASSISTANCE FROM FEMTO CELLS - The disclosed subject matter relates to employing a received signal strength indicator returned from a femto cell to optimize a multiple access wireless communication network. In particular, a method operable in a wireless communications network is disclosed. The method comprises receiving a received signal strength indicator from a femto cell situated in a geographical area within a multiple access wireless communication network, and optimizing the multiple access wireless communication network as a function of the received signal strength indicator. | 01-31-2013 |
20140066013 | SHARING OF NETWORK RESOURCES WITHIN A MANAGED NETWORK - A system that incorporates teachings of the subject disclosure may include, for example, a processor which when executing computer instructions performs the operations including receiving network operator-approved credentials associated with a first communications device. Pre-assigned network resources are accessible by the first communications device by way of the network operator-approved credentials. The processor also performs operations including replicating the network operator-approved credentials, and receiving a request from a second communications device for access to the pre-assigned network resources of the first communications device. A copy of the replicated network operator-approved credentials is forwarded to enable the second mobile device to access the pre-assigned network resources. Other embodiments are disclosed. | 03-06-2014 |
20140119229 | ESTIMATING MOBILE LOCAL PROPAGATION ENVIRONMENT CHARACTERISTICS FOR WIRELESS COMMUNICATIONS - Characterization and enhancement of a mobile local scattering environment. The system includes a channel component and a link control component, wherein the channel component facilitates communication of a ping signal, which is used to estimate the delay spread characteristics and/or angle of arrival in order to characterize the mobile local scattering environment. This information is sent to the link control component, which enhances radio link performance based on the received information. The system can be used to assist in E-911 location applications, such as determining the location of an indoor user. | 05-01-2014 |
20140155095 | Enhanced Location Based Services - Location information (e.g., GPS information) pertaining to the location of a device may be integrated into a distributed antenna system (DAS) to enhance location based services. This may be accomplished via a system that filters and combines GPS information with DAS information. Utilization of the enhanced location based services system may enhance accuracy performance of indoor location services and improve round-trip time (RTT) location responses associated with network assisted GPS (e.g., A-GPS) location requests for services from indoor calls. | 06-05-2014 |
20140160973 | MACRO NETWORK OPTIMIZATION WITH ASSISTANCE FROM FEMTO CELLS - A received signal strength indicator returned from a femto cell is employed to optimize a multiple access wireless communication network. For example, a method operable in a wireless communications network is disclosed. The method comprises receiving a received signal strength indicator from a femto cell situated in a geographical area within a multiple access wireless communication network, and optimizing the multiple access wireless communication network as a function of the received signal strength indicator. | 06-12-2014 |
20140329546 | ENHANCED LOCATION BASED SERVICES - Location information (e.g., GPS information) pertaining to the location of a device may be integrated into a distributed antenna system (DAS) to enhance location based services. This may be accomplished via a system that filters and combines GPS information with DAS information. Utilization of the enhanced location based services system may enhance accuracy performance of indoor location services and improve round-trip time (RTT) location responses associated with network assisted GPS (e.g., A-GPS) location requests for services from indoor calls. | 11-06-2014 |
20140354449 | Methods, Devices, and Computer Readable Storage Device for Providing Alerts - In determining whether to provide an alert associated with a mobile element to a mobile communication device, speeds and directions of travel of the mobile element and the mobile communication device are determined. A relative location of the mobile communication device is calculated with respect to the mobile element. Based on the relative location of the mobile communication device with respect to the mobile element, a determination is made whether the alert should be provided. | 12-04-2014 |