Wireless communications device with artificial intelligence-based distributive call routing
First Claim
1. A method of operating a wireless communication system for voice and data signals, the system comprising one or more macrocells and each macrocell comprising a plurality of microcells, the method comprising:
- establishing a local communication path for remotely transmitting and receiving signals between a local external data communications module and a local communication docking bay within a same microcell via a signal extender;
establishing an extended communication path for remotely transmitting and receiving signals between an external data communications module and an extended communication docking bay located within different microcells positioned within a same macrocell via signal extenders and a network extender;
establishing a distant communication path for remotely transmitting and receiving signals between a distant external data communications module and a distant communication docking bay located within different microcells positioned within different macrocells via signal extenders and network extenders;
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 Artificial Intelligence-based Distributive Routing System; and
re-directing the communication paths to ensure call loads of the signal extenders and network extenders in the system do not exceed a predetermined limit for each signal extender or network extender, to optimize call loads of the signal extenders and network extenders in the system, or to bypass any failed signal extenders or network extenders in the system.
1 Assignment
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Accused Products
Abstract
A decentralized asynchronous wireless communication system is disclosed for providing the remote location retrieval of voice and data communication and allowing for flexibility of communication paths for local communication or for communication to external networks. The system makes use of external data communications modules that may communicate in a local mode, an extended mode, or a distant mode. The external data communications modules may also provide a communication path to a Public Switch Telephone Network and other communication medium. The entire system is monitored by a network of personal computers comprising an Artificial Intelligence (AI) Network to manage any catastrophic system failure. The entire system is suitable for operation in rural areas having a low population density and urban areas where hours of peak call loading could otherwise be detrimental to call completions.
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Citations
134 Claims
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1. A method of operating a wireless communication system for voice and data signals, the system comprising one or more macrocells and each macrocell comprising a plurality of microcells, the method comprising:
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establishing a local communication path for remotely transmitting and receiving signals between a local external data communications module and a local communication docking bay within a same microcell via a signal extender;
establishing an extended communication path for remotely transmitting and receiving signals between an external data communications module and an extended communication docking bay located within different microcells positioned within a same macrocell via signal extenders and a network extender;
establishing a distant communication path for remotely transmitting and receiving signals between a distant external data communications module and a distant communication docking bay located within different microcells positioned within different macrocells via signal extenders and network extenders;
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 Artificial Intelligence-based Distributive Routing System; and
re-directing the communication paths to ensure call loads of the signal extenders and network extenders in the system do not exceed a predetermined limit for each signal extender or network extender, to optimize call loads of the signal extenders and network extenders in the system, or to bypass any failed signal extenders or network extenders in the system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A method of operating a wireless communication system for voice and data signals, the system comprising one or more macrocells and each macrocells comprising a plurality of microcells, the method comprising:
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establishing a local communication path for transmitting and receiving signals between a local external data communications module and a local communication docking bay within a same microcell comprising;
receiving and transmitting signals between the local external data communications module and a signal extender;
receiving and transmitting signals between the signal extender, the external data communications module and the local communication docking bay; and
receiving and transmitting signals between the local communication docking bay and the signal extender;
establishing an extended communication path for transmitting and receiving signals between an extended handset and an extended communication docking bay within different microcells positioned within a same macrocell comprising;
transmitting and receiving signals between the extended external data communications module and a first signal extender;
transmitting and receiving signals between the first signal extender and a network extender;
transmitting and receiving signals between the network extender and a second signal extender;
transmitting and receiving signals between the second signal extender and the extended communication docking bay; and
transmitting and receiving signals between the extended communication docking bay and the second signal extender;
establishing a distant communication path for transmitting and receiving signals between a distant external data communications module and a distant communication docking bay within different microcells positioned within different macrocells comprising;
transmitting and receiving signals between the distant external data communications module and a first signal extender;
transmitting and receiving signals between the first signal extender and a first network extender;
transmitting and receiving signals between the first network extender and a second network extender;
transmitting and receiving signals between the second network extender and a second signal extenders;
transmitting and receiving signals between the second signal extender and the distant communication docking bay; and
transmitting and receiving signals between the distant communication docking bay and the second signal extender; and
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 Artificial Intelligence-based Distributive Routing System; and
re-directing the communication paths to ensure call loads of the signal extenders and network extenders in the system do not exceed a predetermined limit for each signal extender or network extender, to optimize call loads of the signal extenders and network extenders in the system, or to bypass any failed signal extenders or network extenders in the system. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46)
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47. A wireless communication system for voice and data signals comprising:
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one or more macrocells, each macrocell comprising a plurality of microcells;
a wireless set comprising one or more wireless devices selected from handsets, external data communications modules or communication docking bays;
a signal extender located in the microcell;
a network extender located in the macrocell;
means for establishing a local communication path for transmitting and receiving signals between a local external data communications module and a local communication docking bay within a same microcell via a signal extender;
means for establishing an extended communication path for transmitting and receiving signals between an extended external data communications module and an extended communication docking bay located within different microcells positioned within a same macrocell via signal extenders and a network extender;
means for establishing a distant communication path for transmitting and receiving signals between a distant external data communications module and a distant communication docking bay located within different microcells positioned within different macrocells via signal extenders and network extenders;
means for 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; and
a system-resident and decentralized Artificial Intelligence-based Distributive Routing System for monitoring the transmitted and received signals over the communication paths. - View Dependent Claims (48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66)
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67. A method of operating a wireless communication system for voice and data signals, the system comprising one or more macrocells and each macrocells having a plurality of microcells, the method comprising:
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establishing a local communication path for transmitting and receiving signals between a local handset and a local external data communications modules within a same microcell via a signal extender;
establishing an extended communication path for transmitting and receiving signals between an extended handset and an extended external data communications modules located within different microcells positioned within a same macrocell via signal extenders and a network extender;
establishing a distant communication path for transmitting and receiving signals between a distant handset and a distant external data communications modules located within different microcells positioned within different macrocells via signal extenders and network extenders; and
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 Artificial Intelligence-based Distributive Routing System; and
re-directing the communication paths to ensure call loads of the signal extenders and network extenders in the system do not exceed a predetermined limit for each signal extender or network extender, to optimize call loads of the signal extenders and network extenders in the system, or to bypass any failed signal extenders or network extenders in the system. - View Dependent Claims (68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87)
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88. A method of operating a wireless communication system for voice and data signals, the system comprising one or more macrocells and each macrocells having a plurality of microcells, the method comprising:
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establishing a local communication path for transmitting and receiving signals between a local handset and a local external data communications module within a same microcell comprising;
receiving and transmitting signals between the local handset and a signal extender;
receiving and transmitting signals between the signal extender, the local handsets and the local external data communications modules; and
receiving and transmitting signals between the local external data communications module and the signal extender;
establishing an extended communication path for transmitting and receiving signals between an extended handset and an extended external data communications module within different microcells positioned within a same macrocell comprising;
transmitting and receiving signals between the extended handset and a first signal extender;
transmitting and receiving signals between the first signal extender and a network extender;
transmitting and receiving signals between the network extender and a second signal extender;
transmitting and receiving signals between the second signal extender and the extended external data communications module; and
transmitting and receiving signals between the extended external data communications module and the second signal extender;
establishing a distant communication path for transmitting and receiving signals between distant a handset and a distant external data communications module within different microcells positioned within different macrocells comprising;
transmitting and receiving signals between the distant handset and a first signal extender;
transmitting and receiving signals between the first signal extender and a first network extender;
transmitting and receiving signals between the first network extender and a second network extender;
transmitting and receiving signals between the second network extender and a second signal extenders;
transmitting and receiving signals between the second signal extender and the distant external data communications module; and
transmitting and receiving signals between the distant external data communications module and the second signal extender; and
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 Artificial Intelligence-based Distributive Routing System; and
re-directing the communication paths to ensure call loads of the signal extenders and network extenders in the system do not exceed a predetermined limit for each signal extender or network extender, to optimize call loads of the signal extenders and network extenders in the system, or to bypass any failed signal extenders or network extenders in the system. - View Dependent Claims (89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112)
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113. A wireless communication system for voice and data signals, comprising:
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one or more macrocells, each macrocell having a plurality of microcells;
a wireless set comprising wireless devices comprising one or more wireless devices selected from handsets, external data communications modules or communication docking bays;
a signal extender located in the microcell;
a network extender located in the macrocell;
means for establishing a local communication path for transmitting and receiving signals between a local handset and an external data communications module within a same microcell via a signal extender;
means for establishing an extended communication path for transmitting and receiving signals between an extended handset and an extended external data communications module located within different microcells positioned within a same macrocell via signal extenders and a network extender;
means for establishing a distant communication path for transmitting and receiving signals between a distant handset and a distant external data communications module located within different microcells positioned within different macrocells via signal extenders and network extenders;
means for 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, and a system-resident and decentralized Artificial Intelligence-based Distributive Routing System for monitoring the transmitted and received signals over the communication paths. - View Dependent Claims (114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128)
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129. A method of operating a wireless communication system for voice and data signals, the system comprising one or more macrocells and each macrocell comprising a plurality of microcells, the method comprising:
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establishing a local communication path for remotely transmitting and receiving signals between a first local wireless device and a second local wireless device within a same microcell via a signal extender;
establishing an extended communication path for remotely transmitting and receiving signals between a first external wireless device and a second extended wireless device located within different microcells positioned within a same macrocell via signal extenders and a network extender;
establishing a distant communication path for remotely transmitting and receiving signals between a first distant wireless device and a second distant wireless device located within different microcells positioned within different macrocells via signal extenders and network extenders; and
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 Artificial Intelligence-based Distributive Routing System;
re-directing the communication paths to ensure call loads of the signal extenders and network extenders in the system do not exceed a predetermined limit for each signal extender or network extender, to optimize call loads of the signal extenders and network extenders in the system, or to bypass any failed signal extenders or network extenders in the system. - View Dependent Claims (130, 131, 132, 133, 134)
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Specification