Patent ID: 7551921

Claim:
A method of operating a parallel-configured Time-Shared Full Duplex (TSFD) wireless communication system for voice and data signals, the system comprising one or more macrocells and each macrocell having a plurality of microcells and the method comprises: establishing a local communication path for transmitting and receiving signals between a local TSFD wireless device and a remotely placed local TSFD wireless device within a same microcell via a Parallel-configured Signal Extender (PSE); operating the PSE by operating first and second signal extenders in parallel and independent of each other yet sharing information with each other and upon failure of one of the first and second signal extenders the other one of the first and second signal extenders continues operation and maintains communications; establishing an extended communication path for transmitting and receiving signals between an extended TSFD wireless device and a remotely placed extended TSFD wireless device located within different microcells positioned within a same macrocell via PSEs and a Parallel-configured Network Extender (PNE); operating the PNE by operating first and second network extenders in parallel and independent of each other yet sharing information with each other and upon failure of one of the first and second network extenders the other one of the first and second network extenders continues operation and maintains communications; establishing a distant communication path for transmitting and receiving signals between a distant TSFD wireless device and a remotely placed distant TSFD wireless device located within different microcells positioned within different macrocells via PSEs and PNEs; asynchronously transmitting and receiving half-duplex signals over the communication paths using pairs of assigned communication path frequencies stabilized by a GPS-based frequency reference source; monitoring and analyzing the communication paths by a system-resident and decentralized Parallel Computing Artificial Intelligence-based Distributive Routing System; and re-directing the communication paths to ensure call loads of the PSE and PNE in the system do not exceed a predetermined limit for each PSE or PNE, to optimize call loads of the PSE and PNE in the system, or to bypass any failed PSE or PNE in the system; wherein the TSFD wireless device is selected from the group consisting of TSFD wireless handsets, TSFD wireless Personal Computer Data Communication Cards (TSFD wireless PC-DatCom Cards), TSFD wireless Data Communication Modules (TSFD wireless DatComs), and TSFD wireless Communication Docking Bays (TSFD wireless ComDocs), and wherein the transmitting and receiving signals between a TSFD wireless device or PSE or a PNE and another TSFD) wireless device or a PSE or PNE is conducted asynchronously with a primary Time-Shared Full Duplex (TSFD) wireless protocol.