| AIRHOP COMMUNICATIONS, INC. Patent applications |
| Patent application number | Title | Published |
|---|
| 20120088517 | AUTONOMOUS FRACTIONAL TIME REUSE - Autonomous fractional time reuse is provided. In some embodiments, autonomous fractional time reuse includes determining a number of neighboring base stations of a base station in a heterogeneous network; and pseudo randomly selecting one or more Fractional Time Reuse (FTR) slots for transmission by the base station. In some embodiments, the one or more FTR slots are autonomously selected by the base station without coordinating the selection of the one or more FTR slots with one or more of the neighboring base stations. | 04-12-2012 |
| 20120083261 | METHOD AND APPARATUS FOR BASE STATIONS AND THEIR PROVISIONING, MANAGEMENT, AND NETWORKING - In wireless system, a group of Base station (BTSs) with smaller footprints have the capability to communicate with each other as well as with the BTSs with relatively larger footprints via wireless air-interfaces. One of such example is coordinated cell systems. A coordinated cell system comprises a group of coordinated cell base stations that have the capability to communicate with each other as well as with relevant macro cell or Pico cell base stations via wireless air-interfaces. Each coordinated cell BTS consists of an over the air control unit in addition to the conventional coordinated cell BTS system. A set of protocols in the form of messages and database are also defined to enable the networking capability. This enables enhancement in performing a variety of tasks by coordinated cell systems, including interference management and coordination, registration and authentication, quality of service coordination, installation and maintenance, location services, etc. | 04-05-2012 |
| 20100054196 | SYSTEM AND METHOD OF BASE STATION PERFORMANCE ENHANCEMENT USING COORDINATED ANTENNA ARRAY - In wireless system, a group of Basestations (BTSs) can be managed by a centralized network management identity or can be self-organized by communicating with each other via wireless air-interfaces or wired interfaces. One such example are Femtocell systems. When the BTSs are using the same frequency for transmitting and receiving with relatively large transmitting power and when they are closer to each other, performance of such a system and user throughput or QoS (Quality of Service) gets degraded due to the interference between the BTSs and among the users. Smart antenna technique can be used in a coordinated way among a group of BTSs, such as Femtocells, to avoid or reduce interference or manage how interference happens to achieve performance enhancement such as higher system throughput or better QoS to individual applications. | 03-04-2010 |
| 20090296635 | METHOD AND APPARATUS FOR BASE STATIONS AND THEIR PROVISIONING, MANAGEMENT, AND NETWORKING - In wireless system, a group of Base station (BTSs) with smaller footprints have the capability to communicate with each other as well as with the BTSs with relatively larger footprints via wireless air-interfaces. One of such example is coordinated cell systems. A coordinated cell system comprises a group of coordinated cell base stations that have the capability to communicate with each other as well as with relevant macro cell or Pico cell base stations via wireless air-interfaces. Each coordinated cell BTS consists of an over the air control unit in addition to the conventional coordinated cell BTS system. A set of protocols in the form of messages and database are also defined to enable the networking capability. This enables enhancement in performing a variety of tasks by coordinated cell systems, including interference management and coordination, registration and authentication, quality of service coordination, installation and maintenance, location services, etc. | 12-03-2009 |
| 20090262753 | SYSTEM AND METHOD OF COMMUNICATION PROTOCOLS IN COMMUNICATION SYSTEMS - Systems and methods for implementing and designing protocols in such communications systems which can be wireless or wired. The systems and methods can include fundamental changes in the traditional protocol design approaches with their constraints of one-to-one mapping in protocols. By doing so, embodiments of the present invention enable an efficient way to design and implement a system to support single or multiple protocols. | 10-22-2009 |
