Energy harvesting mega communication device and media apparatus configured with apparatus for boosting signal reception
First Claim
1. An energy harvesting communication device configured with signal booster apparatus, comprising:
- at least a communication apparatus;
at least an antenna apparatus communicatively coupled to the communication apparatus and in association with at least an input output (IO) device;
at least a microprocessor configured with a software for controlling communications via the communication apparatus and for processing data associated with said IO device;
said at least an antenna apparatus in communication with said at least a microprocessor; and
at least a sensor apparatus embedded in silicon substrate and embedded in a microfiber material to provide at least one of a communication medium, communication clarity, a detection platform, detection selectivity, and detection sensitivity.
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Abstract
Disclosed embodiments comprise an energy harvesting computer device in association with a communication device comprising interactive user interface operatively configured with CMOS multiple antennas on chin for boosting signal receptions and for providing faster data transmission speed. Disclosed embodiment encompasses three modes of communications—the Cell phone, wireless Internet applications, and Global communication and media information. Embodiments provide communication apparatus operable to enhance mobile communication efficiency with touch sensitive display comprising energy harvesting platform in communication with a charging circuit board configured with memories, processors, sensors, and modules. Embodiments further provide a gaming device, a wireless media device configured with touch pads comprising sensors being embedded in silicon substrate and fused in nano-fiber/microfiber material having excellent electrical characteristics. Certain embodiments provide communication apparatus configured for voice enabled applications comprising human voice auditory platform for converting text into voice auditory and/or voice auditory into text applications.
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Citations
54 Claims
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1. An energy harvesting communication device configured with signal booster apparatus, comprising:
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at least a communication apparatus; at least an antenna apparatus communicatively coupled to the communication apparatus and in association with at least an input output (IO) device; at least a microprocessor configured with a software for controlling communications via the communication apparatus and for processing data associated with said IO device;
said at least an antenna apparatus in communication with said at least a microprocessor; andat least a sensor apparatus embedded in silicon substrate and embedded in a microfiber material to provide at least one of a communication medium, communication clarity, a detection platform, detection selectivity, and detection sensitivity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54)
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2. The energy harvesting communication device of claim 1, wherein said IO device further comprises a computer apparatus configured for providing at least one of optical data transmission, optical communication, optical data storage medium, optical communication, and character processing, each said IO device further comprising a graphic user interface configured with at least one of:
- a display apparatus;
a keyboard;
a pressure responsive apparatus, a vibration responsive apparatus;
means for converting pressure into electrical energy;
an illuminance sensor associated to a glass surface operable for reflecting sufficient light to form an image of an object placed in front of a display apparatus;
wherein said pressure apparatus and said vibration responsive apparatus are further configured for generating electrical energy.
- a display apparatus;
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3. The energy harvesting communication device of claim 1, wherein said IO device further comprises a media device comprising at least a receiving device, said media device operatively configured for broadcasting media content over the Internet, and the energy harvesting computer device further comprises a mobile device operable for at least one of:
- communications;
transmitting characters;
displaying characters;
broadcasting television content;
reflecting sufficient light to form an image of an object placed in front of it;
receiving character;
harvesting energy from an environment; and
downloading media content.
- communications;
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4. The energy harvesting communication device of claim 1, wherein said IO device is further configured with said at least a sensor apparatus being operable for enabling communications and for generating electrical energy, and further comprises a receiver and a signal boosting apparatus operatively configured with said receiver.
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5. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus configured with a chip in communication with said at least an antenna apparatus, wherein said chip further comprises signal booster apparatus, said signal booster apparatus further comprises a device selected from the group consisting of a signal booster that increases signal reception capabilities for the receiver, and an amplifier operable for amplifying frequency band signals received by the receiver.
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6. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus configured with said control logic, said control logic in communication with said detection platform, wherein said detection platform further generating detection signals responsive to movements of at least one of:
- character;
objects;
keypads;
energy;
electrical energy;
vibration energy;
force energy; and
pressure energy, and wherein said control logic operable for controlling an application is responsive to said at least one detection signal.
- character;
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7. The energy harvesting communication device of claim 1, wherein said at least a sensor apparatus further comprises at least a chip in communication with said control logic, wherein said at least one chip is a signal booster being operable to amplify communication signals.
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8. The energy harvesting communication device of claim 1, wherein at least one chip is configured with said at least an antenna apparatus, said antenna apparatus further comprises at least one of:
- a communication signal booster, a frequency band amplification path, a radio frequency transceiver, an RF transmitter, a transducer, and an infrared (IR) transceiver.
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9. The energy harvesting communication device of claim 1, wherein said at least a microprocessor further comprises at least one of:
- a video communication apparatus, said video communication apparatus further comprising at least a subscriber identity module (SIM) card processor communicatively connected to said control logic;
a media device comprising an entertainment module;
a memory device;
a communication module;
energy processing module.
- a video communication apparatus, said video communication apparatus further comprising at least a subscriber identity module (SIM) card processor communicatively connected to said control logic;
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10. The energy harvesting communication device of claim 1, wherein said at least a sensor apparatus comprises at least one of:
- nano sensors, nanotechnology application, micro-electro-mechanical systems (MEMS), and a sensor module.
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11. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least one of:
- a mobile phone case;
a mobile phone housing;
a mobile phone circuitry;
a housing for an electronic device;
a case for an electronic device;
a housing for said communication apparatus;
a circuit board for said communication apparatus;
each said detection platform further operable for generating electrical energy.
- a mobile phone case;
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12. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least one of:
- a display device;
an IO device;
digital video broadcast entertainment, digital audio broadcast, digital multimedia broadcast, global positioning system, means for providing safety services, transportation road communication systems, universal mobile telecommunications system, an illuminance sensor associated to a glass surface operable for reflecting sufficient light to form an image of an object placed in front of it, touch screen IO device operable for interactive communications;
a pressure responsive energy producing device.
- a display device;
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13. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises sensors embedded in silicon substrate and embedded in microfiber material to provide at least one of:
- energy harvester apparatus;
energy conversion device, sensory display and input device, interactive communication device, intelligence detection device, radiation prevention device, non cancerous communication device, secondary energy platform, primary energy platform, accelerated data processing device, solar energy to electrical energy conversion device, objects movement detection device, electronic document translation device, touch screen display device.
- energy harvester apparatus;
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14. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further includes a power source module selected from a group consisting of at least one of:
- a transformer, a fuel cell, a battery, a solar cell, thin film, wafer module, metal ceramic material, polymers material, an illuminance sensory module, an electrochromic sensory module disposed with an electrochromic substrate, a radio frequency tag module, materials comprising at least one silicon from the silicon group, a material comprising at least one infrared tag module.
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15. The energy harvesting communication device of claim 1, wherein a power source includes at least one of:
- carbon char, carbon black, metal sulfides, metal oxides, organic materials, textile fibers, zinc oxide (ZnO), nano-wires, piezoelectric crystals, piezoelectric elements, sensory layer, wet etching, dry etching, electron-silicon substrate-oxide, metal oxide semiconductor, optical properties, glass fiber, substrate micro fiber, substrate nano-fiber, field-programmable gate array meta material structure, cell platform, solar cell, nickel-cadmium batteries (NiCd), nickel oxide hydroxide, metallic cadmium, wafer module, a capacitor module operatively configured to withstand a higher number of charge and discharge cycles and faster charge and discharge rates, at least one power source further comprises a material being alloyed with microfiber material.
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16. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of:
- an optical computer device;
an optical communication device, an electronic computer device, an electronic communication device, an optical storage medium, signal amplifier comprising at least a variable gain module, social network platform;
video recognition platform;
voice over text platform;
text to voice enabled conversion platform;
time division multiple access platform;
wideband code division multiple access platform;
code division multiple access platform;
terrestrial digital multimedia broadcast platform;
global system for mobile communications (GSM) platform;
global positioning system platform;
general packet radio service platform;
transportation information highway platform;
modulation format selectable cellular device platform;
frequency authentication platform;
multiple IO platforms;
enhanced digital GSM platform;
enhanced direct memory access platform;
orthogonal frequency division multiplex platform;
orthogonal frequency division multiple access platform;
Wi-Fi platform;
Wi-Max platform;
wireless library platform;
educational module;
touch screen sensory platform;
phone book;
electronic book;
electronic reader;
dictionary;
calendar;
calculator;
Internet service applications;
energy generating apparatus;
gaming apparatus; and
Internet service connectivity operable for global roaming.
- an optical computer device;
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17. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises a circuit board comprising electronic system applications being configured for providing at least one of:
- wired communications, wireless communications, cell phone communications, handheld communication, laptop computer operations, desktop computer operations, telemetry device operations, a switching device operations, an MP3 player, a router, a repeater, a codec, a local area network (LAN), a wireless LAN, Bluetooth enabled device operations, a digital camera, a digital audio player, a digital audio recorder, a digital video player, a digital video recorder, a computer, a monitor, a television set, a satellite set top box, a cable modem, a digital automotive control system, a control module, a communication module, a digitally-controlled home appliance, a printer, a copier, a digital audio or video receiver, radio frequency transceiver, a personal digital assistant (PDA), a digital game playing device, a digital testing device, a digital measuring device, a digital avionics device, a media device, a medical device, and a digitally-controlled medical equipment.
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18. The energy harvesting communication device of claim 1, wherein said change in resistance includes at least one of:
- energy level, temperature level, signal level, sound quality level, signal clarity, modulated video signal, frequency bands analysis, and resistance to signal flow.
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19. The energy harvesting communication device of claim 1, wherein said device further comprises at least one of:
- a button, a touch screen, a QWERTY keyboard, a liquid crystal display (LCD), a keyboard, a keypad, and a scroll wheel.
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20. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least one of:
- a solar panel for converting light photons to a photo generating electrical energy, optical elements;
a light shield film;
an ultraviolet curing resin;
a transparent support substrate;
a plate;
an electric power generating system;
an energy management apparatus;
a heating module, a cooling module;
a method for manufacturing an electronic wafer module;
a photovoltaic array;
a solar module;
a solar cell;
a mono-crystalline silicon wafer;
a fuel cell, metal-ceramic membranes, film composite metal-ceramic materials, thin film;
polymer;
an amplified signal transmitter;
an amplified signal receiver;
a power generator engine;
nanotechnology;
photovoltaic module;
an energy harvester;
a nano-rectifier.
- a solar panel for converting light photons to a photo generating electrical energy, optical elements;
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21. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprising at least a wireless communication spectrum operable for at least one of:
- receiving one or more wireless signals associated with at least a frequency within the wireless communication spectrum;
determining at least a signal strength for the received wireless signals;
determining at least a signal strength for at least a cell within the frequency;
allocating the at least one cell for enabling wireless transmission based on at least a predetermined threshold value.
- receiving one or more wireless signals associated with at least a frequency within the wireless communication spectrum;
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22. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of:
- means for transmitting a wavelet carrier signal within the allocated at least one cell;
apparatus for harvesting energy from environmental conditions to charge an energy storage device at a first rate using the harvested energy; and
a sensing module operable to sense a condition and to perform at least one of;
transmitting a wireless signal indicative of said condition;
adjusting the energy harvesting means responsive to said environmental condition, directing said apparatus responsive to the direction of natural light to harvest said energy effectively.
- means for transmitting a wavelet carrier signal within the allocated at least one cell;
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23. The energy harvesting communication device of claim 22, wherein wavelet carrier signal is generated based on at least one of:
- a scaling parameter;
shifting parameter;
a parameter that dilates the wavelet signal in time;
beam scattering parameters;
electromagnetic metamaterial based parameter;
plasmonic parameters;
a parameter that reduces the wavelet signal frequency band based on said dilated wavelet signal in time;
a parameter that compresses the wavelet signal in time; and
a parameter that increases the wavelet signal frequency band based on the compression time.
- a scaling parameter;
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24. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of:
- means for exchanging controllable information between at least a transmitting device and at least a receiving device;
means for maintaining a charge in at least an energy cell means to sustain operation of the sensing module, wherein said energy cell means further comprises at least one of;
at least a photovoltaic panel;
at least photovoltaic cells;
at least a piezoelectric element;
at least means for converting a form of energy into electrical energy;
at least an alternating current (AC) to direct current (DC) converter operable to convert an AC voltage from an AC power source to a DC voltage;
at least a means for providing a notification in response to the energy storage device full charge;
at least an energy harvesting wearable case for said communication apparatus for harvesting electrical energy.
- means for exchanging controllable information between at least a transmitting device and at least a receiving device;
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25. The energy harvesting communication device of claim 24, wherein said controllable information further comprises at least one of:
- transmission center frequency;
harvesting energy from environmental conditions;
receiving at least an energy source into a charging input port;
charging the cell means at a controllable rate;
signal transmission time slot, and information associated with the wavelet carrier signal;
reflecting sufficient light to form an image of an object placed in front of a screen.
- transmission center frequency;
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26. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of an optical data storage medium;
- an optical communication medium;
an optical computing medium;
an optical computer device;
an optical communication device;
photonic communications;
photonic network;
an electronic computer device;
an electronic communication device;
an optical data transmission device;
a digital communication device;
a video communication apparatus, said video communication apparatus further comprising at least a subscriber identification module card processor communicatively connected to said communication control apparatus operable to selectively and simultaneously transmit and receive at least one of;
analog signals of varying frequencies;
digital signals of varying frequencies;
a shift parameter that repositions the wavelet signal to one of a plurality of cells within the frequency.
- an optical communication medium;
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27. The energy harvesting communication device of claim 1, wherein said at least an antenna apparatus in association with said at least a microprocessor for determining signal strength, further operable for determining at least one of:
- a plurality of wavelet coefficients corresponding to at least a received wireless signal;
an average energy from the determined plurality of wavelet coefficients;
energy harvesting platform;
computing platform;
gaming platform;
downloadable platform;
a social media platform;
professional media platform;
varying frequency platform;
multiple network platform;
a mirror platform;
an averaging energy comprising a squared modulus for each of the determined plurality of wavelet coefficients.
- a plurality of wavelet coefficients corresponding to at least a received wireless signal;
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28. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprising at least one of:
- plasmonic communication network;
photonic communication network;
means for providing wireless interconnectivity for at least one of;
computer device;
cell phone apparatus;
gaming device;
media device;
entertainment device;
to at least a worldwide computer network, said worldwide computer network further comprising at least;
a local internet service provider portal to said network;
a satellite network;
each operable for allocating at least one cell within at least a frequency threshold value;
a time map that is further allocated based on said threshold value, wherein said threshold value is one of above, below, and equal to the determined signal strength of the plurality of adjacent cells.
- plasmonic communication network;
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29. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises means for monitoring at least one of:
- a communication spectrum;
a frequency;
a time cell for a received wireless signal;
a wavelet coefficients corresponding to the received wireless signal;
an average energy based on at least a determined wavelet coefficients;
a threshold value exceeding at least a predetermined energy value;
a light emitting diode means;
a diode controlling at least a form of energy;
a wireless signal;
a scalable cell;
a channel within the wireless communication spectrum;
an optical data storage medium;
an optical communication medium;
an optical computing medium;
an optical computer device;
an optical communication device;
an electronic computer device;
an electronic communication device;
an optical data transmission device;
a digital communication device.
- a communication spectrum;
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30. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further configured for at least one of:
- powering a load with energy stored in the energy cell means;
powering a load with energy received from at least a secondary energy source;
powering a load with said cell means and said secondary energy source;
charging an energy cell means to power a load;
harvesting at least an energy to maintain power to said load;
utilizing at least said energy to amplify said load.
- powering a load with energy stored in the energy cell means;
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31. The energy harvesting communication device of claim 1, wherein said detection platform further comprises a cell means comprising at least one of:
- a capacitor;
a cell phone case;
a cell phone housing;
a communication circuit board;
a housing for a communication device;
a super capacitor;
a micro-electro-mechanical systems (MEMS);
a thin film metal oxide;
a piezoelectric element;
a rechargeable battery;
a rectifier;
an antenna apparatus;
a nano-wire;
a nanotechnology application;
means for harvesting energy from environmental conditions;
a sensor apparatus;
an alternating current (AC) to direct current (DC) converter, a DC to DC converter;
integrated circuit;
an integrated circuit chip electrically coupled to said antenna and an energy means.
- a capacitor;
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32. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus is further configured for at least one of:
- substantially autonomous operation;
transmitting signal communications to at least mobile communication network, receiving signal communications from at least a mobile communication network, further comprising the step of sending information for identifying the wireless local area network (LAN) that the communication apparatus is requesting to be added to, sending information for identifying the type of wireless device requesting to be added to the wireless LAN;
separating communication signals normal to wireless transmissions, loading at least a data content into at least a computer device, at least a receiving step comprising the step of receiving a network protocol software operable on the wireless device being identified and verifying compatibility with the LAN being identified;
responsive to electrical signals communicated via the antenna.
- substantially autonomous operation;
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33. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises an integrated circuit chip comprising at least one of:
- a circuitry in association with the antenna;
an energy harvesting device;
means for converting non-electrical energy to electrical energy;
an environmental sensory circuitry configured to perform at least one of;
detection, communication;
communicating at least a characteristic of energy harvesting associated with an external environment;
receiving at least an acoustical input data;
receiving at least an electrical impulse input data;
at least a wireless communications circuitry operable for transmitting at least a characteristic for harvesting energy between the environmental sensory circuitry and the wireless communications circuitry;
a wearable communication device.
- a circuitry in association with the antenna;
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34. The energy harvesting communication device of claim 1, wherein said at least an antenna apparatus further communicatively connected to an integrated circuit chip for communicating at least a characteristic is selected from the group consisting of at least one of:
- a location within an environment, a composition of an environment, a temperature of an environment, a pressure of an environment, a voltage of an electrical feature associated with the environment, a current of an electrical feature associated with the environment, a resistance of an electrical feature associated with the environment, a concentration of the environment, and a viscosity of the environment.
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35. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further configured to analyze a predetermined threshold value substantially associated with at least one of:
- a software defined radio;
a structural communication architecture;
database;
a compiler;
a router; and
an illuminance sensory environment associated with voltage for changing a screen into a mirror environment.
- a software defined radio;
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36. The energy harvesting communication device of claim 1, wherein said detection platform further comprising a cell platform, and wherein the cell platform further comprises at least one of a charging apparatus;
- and a communication device.
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37. The energy harvesting communication device of claim 1, wherein said detection platform further comprising a cell platform in communication with at least one of a mobile terminal:
- a transportable terminal;
a mobile network;
a transportable network.
- a transportable terminal;
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38. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises a mobile terminal configured to receive from said detection platform, at least one of a form of energy;
- communications.
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39. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least one of a thin film solar cell;
- a cell platform.
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40. The energy harvesting communication device of claim 1, wherein said silicon substrate further associated with said nano-fiber material:
- said nano-fiber material further comprises at least one of;
a transparent material;
an electrically conductive material;
an electrochromic element;
an electrochromic unit;
means for producing photovoltaic electric field;
a self charging platform;
a wearable charging means.
- said nano-fiber material further comprises at least one of;
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41. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least a charge platform comprising at least one of:
- a charge circuit;
means for controlling at least a charge to at least a cell means;
means for controlling at least a charge to an energy storage device;
means for outputting electrical energy;
means for converting at least energy within an environment into at least electrical power;
a transparent substrate;
a meta material substrate; and
a sensor network.
- a charge circuit;
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42. The energy harvesting communication device of claim 1, wherein said silicon substrate in association with at least one of:
- an electrochromic unit;
electrochromic element;
a meta material element comprising at least a charge plate; and
a field programmable gate array (FPGA).
- an electrochromic unit;
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43. The energy harvesting communication device of claim 1, wherein said silicon substrate microfiber further comprises at least one of:
- a coating for harvesting electrical energy;
an external surface comprising at least a case configured for harvesting electrical energy;
a solar cell;
a charging circuit apparatus;
an illuminance sensor in association with energy contained within an environment, in communication with the cell platform;
means for converting light energy into electrical energy;
a bendable piezoelectric element comprising at least a cantilever sensor;
a sensor responsive to pressure;
a piezoelectric membrane;
a material disposed with electromagnetic cavity to form a wireless bus;
wherein said material further disposed on a housing to provide a cavity resonator for signal propagation.
- a coating for harvesting electrical energy;
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44. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprising at least one of:
- a housing structure comprising a silicon substrate microfiber;
a substrate nano fiber consisting of solar cell platform configured for energy harvesting;
a communication circuit board configured with complementary metal oxide silicon (CMOS) multiple antennas on chip in association with a rectifying circuit;
means for converting electromagnetic wave into electrical energy;
a display device configured with piezoelectric elements, said display device responsive to applied force, converting said applied force into electrical energy;
a cover being fabricated from at least a material, at least one material is a solar cell configured with a flexible ribbon-like nano wires being connected to a rectifier disposed in a universal serial bus (USB) mail port;
wherein said USB mail port in communication with at least a female charge port disposed with said housing;
said housing further comprising at least one of;
cavity waveguide;
cavity resonator;
signal propagator;
a cavity assisted radio frequency pathway; and
a radiating element.
- a housing structure comprising a silicon substrate microfiber;
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45. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of:
- a communication circuit board comprising solar cell platform;
a complementary metal oxide silicon (CMOS) multiple antenna on chip in communication with a rectifier for converting electromagnetic wave into electrical power;
an antenna comprising nano-wire antenna in association with the rectifier;
a nano-wire comprising a material for exhibiting good electrical properties;
a nano wire operable for transmitting and for receiving electromagnetic signals;
further comprises at least a gold material for receiving and for transmitting electromagnetic signals at higher frequencies;
at least a touch screen comprising a sensory platform configured with at least one of;
piezoelectric elements, micro-electro-mechanical systems (MEMS), load cell, strain gauge, acoustic sensor, for converting pressure force and sound waves into electrical energy;
at least a case comprising solar cell platform in association with a rectifier device for converting solar energy into electrical power;
at least a case comprising nano sensors embedded in silicon substrate and alloyed with meta-material structure cavity;
at least a nano material substrate embedded in microfiber material to exhibit a sensory platform for converting at least a form of energy within an environment into electrical energy.
- a communication circuit board comprising solar cell platform;
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46. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises an electronic device, and said electronic device is configured to be associated with said cell platform, wherein said cell platform further comprises at least a case comprising at least one of integrated electronic circuitry for energy harvesting;
- an optical data storage medium;
an optical communication medium;
an optical computing medium;
an optical computer device;
an optical communication device;
an electronic computer device;
an electronic communication device;
an optical data transmission device;
a digital communication device; and
a wearable outfit.
- an optical data storage medium;
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47. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least a circuitry connectable to at least one of:
- a power means;
an electronic device;
a meta material structure cavity in association with nano sensors;
an electromagnetic wave transport stream;
means for electromagnetic wave absorption;
means for converting electromagnetic energy into direct current (DC) power;
an energy compensation means responsive to solar cell band gap limitation;
a silicon substrate microfiber comprising a solar cell platform;
a rectifying apparatus;
a wearable electronic; and
a wearable device.
- a power means;
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48. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least a case comprising a power source communicable to said at least a communication apparatus, and wherein said power source further comprises at least one of:
- a photovoltaic module for generating power from the occurrence of natural energy sources; and
an electromagnetic module for converting electromagnetic radiation into electrical energy.
- a photovoltaic module for generating power from the occurrence of natural energy sources; and
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49. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of:
- an integrated radio frequency device;
a nano-electronic system;
means for eliminating drop calls;
means for extending battery life;
an Internet radio communication environment;
an internet television communication environment;
a radio frequency (RF)-micro-electro-mechanical systems (MEMS) device;
an energy harvesting smart phone comprising an E-PHONE;
an array of digitized capacitors disposed on a die;
means for capturing stray radiations;
means for radiating communication signals;
a software defined radio device;
a turn-able RF device;
a turn-able RF-MEMS front end;
a software defined radio on chip device;
a turn-able capacitor array;
an antenna apparatus comprising of a signal booster; and
a dual band signal booster antenna on chip.
- an integrated radio frequency device;
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50. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of:
- an energy harvesting smart network comprising at least one of an E-NETWORK;
field programmable gate array (FPGA) dedicated memory;
an FPGA dedicated multiplier;
an FPGA silicon circuitry;
an FPGA high speed IO device;
an FPGA silicon nano-wire;
a non-linear switch circuitry for energy harvesting;
a fiber nano-generator;
a piezoelectric semiconducting electronic device;
means for harvesting energy locally and for transmitting information to and from the means wirelessly;
a piezoelectric energy harvesting device;
a transducer energy harvesting device;
means for creating a free charge field across at least a capacitive element an optical data storage medium;
an optical communication medium;
an optical computing medium;
an optical computer device;
an optical communication device;
an electronic computer device;
an electronic communication device;
an optical data transmission device;
a digital communication device.
- an energy harvesting smart network comprising at least one of an E-NETWORK;
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51. The energy harvesting communication device of claim 1, wherein said at least a sensor apparatus further operable to electrically couple a load to at least a rechargeable battery pack.
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52. The energy harvesting communication device of claim 1, wherein said at least a sensor apparatus further comprises at least one of:
- means for generating electrical energy;
means for harvesting electrical energy;
a piezoelectric element;
an integrated energy source;
a solar collector;
a cantilever disposed with conductive elements; and
a Plasmon element.
- means for generating electrical energy;
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53. The energy harvesting communication device of claim 1, wherein said at least a sensor apparatus further comprises means for harvesting energy from at least one of:
- an exposed signal source;
an enclosed signal source;
an electromagnetic wave;
a resonator in association with at least a reflective element; and
an optical signal source.
- an exposed signal source;
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54. The energy harvesting communication device of claim 1, wherein said at least a communication apparatus further comprises at least one of an optical computer device:
- an optical communication device;
an electronic computer device;
an electronic communication device;
an optical data storage medium;
a sensor apparatus; and
an energy harvesting communication device.
- an optical communication device;
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2. The energy harvesting communication device of claim 1, wherein said IO device further comprises a computer apparatus configured for providing at least one of optical data transmission, optical communication, optical data storage medium, optical communication, and character processing, each said IO device further comprising a graphic user interface configured with at least one of:
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Specification
- Resources
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Current AssigneeJoseph Akwo Tabe
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Original AssigneeJoseph Akwo Tabe
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InventorsTabe, Joseph Akwo
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Primary Examiner(s)Sarwar, Babar
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Application NumberUS12/852,481Publication NumberTime in Patent Office1,984 DaysField of Search455/414.1, 455/420, 455/422.1, 455/423, 455/425, 455/456.4, 455/13.4, 455/41.1, 455/41.2, 455/41.3, 455/522, 455/523, 455/63.1, 455/67.11, 455/67.13, 455/550.1, 455/556.2, 455/566, 455/78, 455/85, 455/566.1, 455/571, 455/577, 455/573, 455/572, 455/574, 455/575.5, 455/575.6, 455/575.7, 455/575.8, 455/90.3, 455/13.1, 455/11.1, 455/114.1, 455/114.2, 455/115.1, 455/115.3, 340/539.1, 340/539.11, 340/539.19, 340/539.21, 340/539.22, 340/539.23, 340/539.26, 340/539.3, 340/506, 340/521, 977/762, 977/701, 977/707, 977/721, 977/722, 977/932, 370/277, 370/328, 370/338, 370/310.2US Class Current1/1CPC Class CodesH04B 1/3838 Arrangements for reducing R...H04M 1/00 Substation equipment, e.g. ...H04M 1/0202 Portable telephone sets, e....H04M 1/0214 Foldable telephones, i.e. w...H04M 1/0235 Slidable or telescopic tele...H04M 1/6083 by interfacing with the veh...H04M 1/72403 with means for local suppor...H04M 1/72418 for supporting emergency se...H04M 1/72442 for playing music filesH04M 2250/10 including a GPS signal rece...H04M 2250/12 including a sensor for meas...H04M 2250/22 including a touch pad, a to...H04W 52/04 TPCY02D 30/70 in wireless communication n...