Patent application number | Description | Published |
20090233614 | Channel Assignment Based on Spatial Strategies in a Wireless Network Using Adaptive Antenna Arrays - Channels are assigned based on co-spatial constraints in wireless network using spatial division multiple access. In one example, the invention includes assigning a co-spatial constraint to each of a plurality of conventional traffic communications channels of a base station, and receiving a request from a user terminal to communicate using a traffic communication channel of the base station. The invention further includes measuring a quality parameter of the request deriving a co-spatial constraint for the user terminal, assigning the user terminal co-spatial constraint to the user terminal, and assigning the user terminal to a traffic communication channels having a channel co-spatial constraint that is no less than the user terminal co-spatial constraint and that has no more assigned radios than permitted by the channel co-spatial constraint. | 09-17-2009 |
20100034131 | System and Related Methods for Beamforming in a Multi-Point Communications Environment - A system and related methods for beamforming in a multi-point communication environment is presented. According to one aspect of the invention, a method comprising identifying one or more target(s) for which a communication signal is intended, identifying one or more other target(s) which may benefit from receipt of the communication signal, and developing a multi-lobe beampattern to transmit the communication signal to the intended target(s) and the identified one or more other target(s). | 02-11-2010 |
20100118729 | CHANNEL ASSIGNMENT BASED ON SPATIAL STRATEGIES IN A WIRELESS NETWORK USING ADAPTIVE ANTENNA ARRAYS - Channels are assigned based on co-spatial constraints in wireless network using spatial division multiple access. In one example, the invention includes assigning a co-spatial constraint to each of a plurality of conventional traffic communications channels of a base station, and receiving a request from a user terminal to communicate using a traffic communication channel of the base station. The invention further includes measuring a quality parameter of the request deriving a co-spatial constraint for the user terminal, assigning the user terminal co-spatial constraint to the user terminal, and assigning the user terminal to a traffic communication channels having a channel co-spatial constraint that is no less than the user terminal co-spatial constraint and that has no more assigned radios than permitted by the channel co-spatial constraint. | 05-13-2010 |
20100202313 | REMOTE UNIT FOR PROVIDING SPATIAL PROCESSING - Methods and apparatus implementing spatial processing in a remote unit. In general, in one aspect, a remote unit in accordance with the invention includes a spatial processing unit to process signals received by a plurality of antennas. | 08-12-2010 |
20110294554 | REMOTE UNIT FOR PROVIDING MULTIPLE-MODE SPATIAL PROCESSING - Methods and apparatus implementing spatial processing in a remote unit. In general, in one aspect, a remote unit in accordance with the invention includes a spatial processing unit to process signals received by a plurality of antennas. | 12-01-2011 |
Patent application number | Description | Published |
20090274012 | MECHANISM TO AVOID RATE VARIATIONS DUE TO GRAVITATION IN A SPRUNG BALANCE REGULATING ORGAN, AND TIMEPIECE PROVIDED WITH SUCH A MECHANISM - The mechanism avoids the rate variations due to the effect of gravitation on a regulating organ of a timepiece whose regulating organ includes a sprung balance and an escape wheel mounted onto a platform. The platform includes an unbalance and is mounted so as to freely rotate about at least a first axis relative to a plate of the movement so that this platform will rotate about the first axis under the effect of terrestrial gravitation. This mechanism includes a wheelwork with a driving kinematical chain linking the escape wheel to a barrel system of the timepiece, and a corrective kinematical chain compensating the movements and speed of the platform relative to the plate, so that these movements of the platform will not perturb the chronometry of the timepiece, this wheelwork including one or several epicycloidal gear trains, each of which contains wheels with straight toothing exclusively. | 11-05-2009 |
20110026373 | MECHANISM TO AVOID RATE VARIATIONS DUE TO GRAVITATION IN A SPRUNG BALANCE REGULATING ORGAN, AND TIMEPIECE PROVIDED WITH SUCH A MECHANISM - The mechanism avoids the rate variations due to the effect of gravitation on a regulating organ of a timepiece whose regulating organ includes a sprung balance and an escape wheel mounted onto a platform. The platform includes a counterweight and is mounted so as to freely rotate about at least a first axis relative to a plate of the movement so that this platform will rotate about the first axis under the effect of terrestrial gravitation. This mechanism includes a wheelwork with a driving kinematical chain linking the escape wheel to a barrel system of the timepiece, and a corrective kinematical chain compensating the movements and speed of the platform relative to the plate, so that these movements of the platform will not perturb the chronometry of the timepiece. | 02-03-2011 |
20140098647 | MECHANISM PREVENTING RATE VARIATIONS CAUSED BY GRAVITY ON A BALANCE-SPRING REGULATING DEVICE AND TIMEPIECE INCORPORATING THIS IMPROVEMENT - The mechanism preventing rate variations caused by the effect of gravity on a regulating member of a timepiece movement includes a regulating member having a balance-spring and an escapement wheel which are mounted on a platform. This platform includes an unbalance and is mounted so as to freely rotate about at least one first axis with respect to a plate of the movement so that the platform rotates under the effect of the Earth's gravity. The mechanism includes a going train including a kinematic drive chain arranged to connect the escapement wheel to a barrel system of the timepiece and a kinematic correcting chain which compensates for the displacements and speed of the platform with respect to the plate. This mechanism further includes a regulator device including a regulator member connected to the platform and driven by the relative movements between the platform and the plate of the timepiece movement. | 04-10-2014 |
20140153372 | OSCILLATING MASS PIVOTED ON THE EXTERIOR OF A TIMEPIECE MOVEMENT, TIMEPIECE MOVEMENT FITTED WITH SUCH AN OSCILLATING MASS AND TIMEPIECE COMPRISING SUCH AN OSCILLATING MASS - The oscillating mass able to be fixed to a frame ( | 06-05-2014 |