All Purpose Networks LLC Patent applications |
Patent application number | Title | Published |
20140185516 | WIRELESS NETWORK BASED SENSOR DATA COLLECTION, PROCESSING, STORAGE, AND DISTRIBUTION - In embodiments of the present disclosure, improved capabilities are described for a sensor platform in a wireless network, where optimization servers utilizing publish-subscribe broker services are provided within the wireless network to provide conferenced connectivity between sensor devices and communicating entities. | 07-03-2014 |
20140153402 | EFFICIENT DELIVERY OF REAL-TIME ASYNCHRONOUS SERVICES OVER A WIRELESS NETWORK - In embodiments of the present disclosure, improved capabilities are described for conserving back haul utilization in a wireless network, where optimization servers utilizing publish-subscribe broker services are provided within the wireless network to provide streaming data services required for applications streaming data to a plurality of mobile cellular devices, where the streaming data is not necessarily delivered to each of the plurality of mobile cellular devices at the same time. | 06-05-2014 |
20140056224 | EFFICIENT DELIVERY OF REAL-TIME SERVICES OVER A WIRELESS NETWORK - In embodiments of the present disclosure improved capabilities are described for providing efficient delivery of real-time services over a large area broadband LTE wireless network, where optimization servers utilizing publish-subscribe broker services are provided within the wireless network to reduce the resources required for applications streaming data to a plurality of mobile cellular devices. | 02-27-2014 |
20140010129 | EFFICIENT REDUCTION OF INTER-CELL INTERFERENCE USING RF AGILE BEAM FORMING TECHNIQUES - In embodiments of the present disclosure improved capabilities are described for reducing inter-cell interference in a large area broadband LTE wireless network utilizing RF agile beam forming antennas, where the reduced inter-cell interference is realized by arranging the sets of rotating RF beams in each cell such that adjacent RF beam sub-areas in the same or in different cells are not illuminated at the same time. The reduction in inter-cell interference results in reduced interference noise for users located near the edges of cells, thereby allowing them to be assigned higher data rates. Also, the same set of sub-carriers can be assigned by adjacent cells to users located in the RF beam sub-areas at the cell boundaries, thereby allowing the complete set of LTE sub-carriers to be assigned to any user at any time, without requiring additional cell-to-cell communications. | 01-09-2014 |
20140003394 | OPTIMIZED BROADBAND WIRELESS NETWORK PERFORMANCE THROUGH BASE STATION APPLICATION SERVER | 01-02-2014 |
20130336179 | OPERATIONAL CONSTRAINTS IN LTE FDD SYSTEMS USING RF AGILE BEAM FORMING TECHNIQUES - Methods and systems having improved capabilities are described for providing communications to a plurality of cellular mobile devices through generating m different sets of fixed position patterns of N RF beams across four contiguous one-millisecond LTE sub-frames from an agile beam forming antenna system of a cellular LTE base transceiver station. The cellular LTE base transceiver station is in RF frequency division duplexing (FDD) communication with the plurality of cellular mobile devices within a cell coverage area of the cellular LTE base transceiver station. Each RF beam illuminates a non-contiguous sub-area of the cell coverage area. A number m sets of RF beam patterns illuminate the area of the cell coverage area, wherein 1≦m≦4. | 12-19-2013 |
20130336174 | OPERATIONAL CONSTRAINTS IN LTE FDD SYSTEMS USING RF AGILE BEAM FORMING TECHNIQUES - Methods and systems having improved capabilities are described for providing communications to a plurality of cellular mobile devices through generating m different sets of fixed position patterns of N RF beams across the ten contiguous one-millisecond LTE sub-frames of each LTE time-division duplexing (TDD) frame from an agile beam forming antenna system of a cellular LTE base transceiver station. The cellular LTE base transceiver station is in RF TDD communication with the plurality of cellular mobile devices within a cell coverage area of the cellular LTE base transceiver station. Each RF beam covers a sub-area of the cell coverage area where the m times N RF beam patterns cover the area of the cell coverage area. The value of m is 1≦m≦3 and each one of the m sets of N RF beam patterns is generated in one or more of the non-S one-millisecond sub-frames of an LTE frame. The m sets of N RF beams are generated across any ten contiguous one-millisecond sub-frames. The value of m is determined at least in-part from a selected LTE TDD uplink/downlink (U/D) configuration. | 12-19-2013 |