Patent application number | Description | Published |
20110158173 | SYSTEM FOR DISTRIBUTING BROADBAND WIRELESS SIGNALS INDOORS - system for distributing broadband wireless signals indoors includes a radio access node, connected to a telecommunication access network via an access interface, where said radio access node comprises a broadband-signal-transmitting/-receiving module configured to transmit and receive broadband wireless signals via a broadband radio interface; at least one client device comprising a broadband-signal-transmitting/-receiving module configured to transmit and receive broadband wireless signals to/from said radio access node via said broadband radio interface. It also comprises a control channel configured to exchange control signals between said radio access node and said at least one client device over a control radio interface, each of said radio access nodes and at least one client device comprising a control-signal-transmitting/receiving module configured to establish said control channel for transmitting and receiving wireless signals over said control radio interface. | 06-30-2011 |
20130188961 | HYBRID SYSTEM FOR DISTRIBUTING BROADBAND WIRELESS SIGNALS INDOORS - The invention relates to a system ( | 07-25-2013 |
20130273906 | METHOD FOR THE REDUCTION OF ENERGY COMSUMPTION AND RADIO INTERFERENCE IN A RADIO ACCESS NODE - It comprises switching on or switching off at least part of said radio access node, such as a femtonode functionality radio section and/or other radio sections, as a function of, respectively, the reception by said radio access node, of a radio signal transmitted by a wireless portable processing device, or the absence of such a reception, where said radio signal is a low-power radio signal transmitted by a low-power radio interface of said wireless portable processing device. | 10-17-2013 |
20140064726 | SYSTEM FOR SIGNALS INDOOR DISTRIBUTION ON OPTICAL FIBER - A system for simultaneous indoor distribution of baseband digital signals (e.g Ethernet signals) and radiofrequency signals, the system comprising an Hybrid Optical Node and at least an Hybrid Switch/Hub node. The present invention solves the aforementioned problems proposing a system which simultaneously distributes the baseband digital data and the analog radiofrequency signals provided by a radio access node in an indoor environment by means of a Plastic Optical Fiber (POF) network. The main advantage of this invention is that it makes it possible to share a Plastic Optical Fiber infrastructure between a Local Area Network for data digital transmission, and the distribution of wireless radiofrequency signals, in particular DVB broadcast signals and Mobile Broadband signals like UMTS or LTE. | 03-06-2014 |
20140148171 | METHOD FOR CELL RESELECTION AND CELL HANDOVER IN A WIRELESS COMMUNICATION SYSTEM - A method for cell reselection and cell handover in a wireless communication system | 05-29-2014 |
20140155075 | SYSTEM FOR CONNECTING RADIO ACCESS NODES OF A RADIO ACCESS NETWORK - The system comprises a plurality of radio access nodes, or cells, each of said cells providing a coverage area to a plurality of user equipments, characterised in that each of said radio access nodes is splitted into:
| 06-05-2014 |
20140179321 | METHOD FOR CELL RESELECTION AND CELL HANDOVER IN A WIRELESS COMMUNICATION SYSTEM - A method for cell reselection and cell handover in a wireless communication system. | 06-26-2014 |
20150029907 | METHOD TO OPTIMIZE ALMOST BLANK SUBFRAME USAGE IN A WIRELESS NETWORK - A method to optimize almost blank subframe usage in a wireless network including generating, an interfering base station, in order to minimize interference caused to a serving base station, an almost blank subframe pattern and sending the latter to the serving base station. The serving base station generating a set of preferred almost blank subframes, from said received almost blank subframe pattern, that their knows will be of use for providing a wireless connectivity to a user terminal, and sending the preferred almost blank subframes ordered by a priority of usage to said interfering base station. And the interfering base station, using, in the case of requiring the use of additional subframes for serving its own user terminals, the almost blank subframes indicated as low priority in said received set of preferred almost blank subframes from the serving base station. | 01-29-2015 |