Energy harvesting computer device in association with a communication device configured with apparatus for boosting signal reception
First Claim
1. An energy harvesting communication device configured with means for boosting signal reception, the communication device comprising:
- a. at least a cell platform;
b. at least a charging circuit apparatus;
c. at least a control apparatus;
d. at least a communication apparatus communicatively coupled to said charging circuit apparatus and in association with the control apparatus; and
e. said cell platform further disposed with sensors embedded in silicon substrate to provide at least one of a communication medium, a detection platform, a communication clarity, a detection selectivity, and a 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 chip 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 operable to convert text into voice auditory and/or voice auditory into text applications.
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Citations
51 Claims
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1. An energy harvesting communication device configured with means for boosting signal reception, the communication device comprising:
- a. at least a cell platform;
b. at least a charging circuit apparatus;
c. at least a control apparatus;
d. at least a communication apparatus communicatively coupled to said charging circuit apparatus and in association with the control apparatus; and
e. said cell platform further disposed with sensors embedded in silicon substrate to provide at least one of a communication medium, a detection platform, a communication clarity, a detection selectivity, and a 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, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43)
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2. The energy harvesting communication device of claim 1, wherein said cell platform further configured for harvesting energy, wherein said cell platform further comprises at least one or:
- a solar cell;
an antenna apparatus operable for harvesting electrical energy from electromagnetic radiation;
a plasmonic platform;
a photonic platform;
a display apparatus;
a housing being affixed with a display apparatus;
a housing further disposed with antenna apparatus for harvesting energy and for boosting signal reception;
an electronic computing device;
a display device in association with a camera device;
a plasmonic chip;
a metal nanoparticle array waveguide;
a photonic chip;
a layered oxide;
an optical waveguide configured with means to absorb and emit light, a case for association with a communication device, a case being embedded with antennas, a case being embedded with sensors.
- a solar cell;
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3. The energy harvesting communication device of claim 1, wherein said cell platform further configured for harvesting energy, further comprises at least one of;
- thin film oxides;
charging apparatus;
transparent substrates;
piezoelectric elements;
MEMS;
nanotechnology applications;
nano-wires;
nano-tubes;
nano-fibers;
microfibers;
silicon;
substrates;
thick film oxides;
meta material structure cavities;
meta gold;
photovoltaic cells;
printed thin films;
illuminance sensors;
acoustic sensors;
Plasmon;
metal clusters;
silicon-substrate-nano-fiber plasmonic being embedded with miniaturized ferrous material structure;
a plasmonic high bandwidth chip;
means for reflecting plasmonic energy;
means for reflecting photonic energy;
a plasmonic metaparticles associated with optical properties of electromagnetic waves;
a plasmonic crystal chip having transparent conducting nanomaterial structures;
a photonic transparent conducting nanomaterial structure.
- thin film oxides;
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4. The energy harvesting communication device of claim 1, wherein said cell platform configured for harvesting energy, further comprises at least one of:
- a housing for said communication apparatus;
a communication circuit board for said communication apparatus;
a case for said communication apparatus;
a transparent substrate comprising at least an electro-chromic apparatus responsive to applied voltage for changing at least an element color;
a display device;
a silicon substrate nano-fiber plasmonic carrying miniaturized ferrous structure on chip;
a plasmonic crystal chip;
an electronic computing device in communication with an energy harvesting display device;
at least a LED in association with a display device disposed with an electrochromic element associated with miniaturized ferrous structures, wherein the display device further disposed with at least one of metal, glass, nano-fibers, ceramics, nano-polymer structures, at least a plastic fiber composite;
a display device having a transparent element;
a housing configured with light emitting structure.
- a housing for said communication apparatus;
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5. The energy harvesting communication device of claim 1, wherein said charging circuit apparatus further comprising at least one of:
- a communication circuit board;
means for charging a battery;
means for managing energy;
means for controlling energy to a storage medium;
means for loading energy to a storage medium; and
wherein said charging circuit apparatus in communication with at least one of said cell platform;
said control apparatus;
a cell associated with a housing member being affixed with a shapeable miniaturized ferrous structure;
a shapeable light reflective plate;
a display device configured with at least a supporting structure;
an energy harvesting case, an energy harvesting case being disposed with embedded sensors;
an energy harvesting case in association with embedded multiple antennas on chip;
an energy harvesting case configured for at least one of communication, signal booster, data content display.
- a communication circuit board;
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6. The energy harvesting communication device of claim 1, wherein said control apparatus further comprises a microprocessor configured for communications with at least one of:
- said cell platform;
said charging circuit apparatus;
said communication apparatus;
said sensor;
wherein said control apparatus further responsive to at least a request to perform at least one of;
charging a battery;
harvesting energy from an external environment;
harvesting energy from an internal environment;
harvesting energy from the communication circuit board environment;
harvesting energy from a pressure sensitive environment;
harvesting energy from a light exposure environment;
changing at least a color of a substrate by responding to at least an applied voltage;
controlling energy transport to at least a remote electronic device;
controlling energy transport from at least an external device;
controlling energy transport from a case to a communication device.
- said cell platform;
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7. The energy harvesting communication device of claim 1, wherein said cell platform further comprises a structured layer comprising at least one of:
- a thin film, a coated film;
a piezoelectric element;
an acoustic sensor;
an illuminance sensor;
an electro-chromic apparatus comprising at least an element;
a transparent substrate;
a substrate;
an insulating layer;
a woven fabric layer;
a film layer;
an oxide layer;
a thin film layer;
a reflective layer;
a conductive layer;
wherein said cell platform in communication with said control apparatus, and wherein said control apparatus further responsive to a request for providing at least one of;
a transparent surface color;
charging a battery;
controlling signal reception;
applying voltage to at least the electro-chromic element;
inputting energy to the charging circuit apparatus;
controlling light energy to at least a cell means;
controlling a display operation to generate electrical energy.
- a thin film, a coated film;
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8. The energy harvesting communication device of claim 1, wherein said cell platform further comprises means for inputting energy into at least one of:
- said charging circuit apparatus;
at least a primary storage medium;
at least a secondary storage medium;
at least a remote electronic device;
at least a cell means; and
wherein said primary and said secondary storage medium further comprising at least one of;
a battery means;
a capacitive means;
at least a communication means.
- said charging circuit apparatus;
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9. The energy harvesting communication device of claim 1, wherein said cell platform configured for energy harvesting further comprises at least one of a case disposed with at least a signal booster apparatus, a charging circuitry apparatus in association with said communication apparatus, an optical waveguide in association with a cell apparatus, means for facilitating network communications, a communication network, sensor network, antennas network, means for boosting signal reception, a metamaterial structured substrate fiber optic waveguide, a metamaterial structured substrate layered network, a metamaterial substrate fiber optic layered structure, a metamaterial substrate associated with flexible polymer, a transmission platform, a cell platform having photonic conduction properties, a cell platform having plasmonic conduction properties, a light scattering solar energy harvester, a plasmonic nanostructured cell configured with miniaturized metal structures, means for boosting communication signals.
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10. The energy harvesting communication device of claim 1, wherein said cell platform further responsive to at least one of environmental illuminance, thermal energy from sunlight, plasmonic energy, electromagnetic energy, and photonic energy for generating electrical energy.
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11. The energy harvesting communication device of claim 1, wherein said cell platform further responsive to electromagnetic radiation for generating electrical energy.
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12. The energy harvesting communication device of claim 1, wherein said charging circuit apparatus further responsive to at least one of:
- energy from said cell platform;
energy level for at least a storage medium;
energy level for said communication apparatus.
- energy from said cell platform;
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13. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of:
- an input/output module;
a computer apparatus;
apparatus for providing data processing;
apparatus for providing character processing, each said input/output module further comprising graphic user interface configured with at least one of;
a display apparatus;
at least a keyboard;
at least a force/pressure responsive apparatus, at least a vibration responsive apparatus;
wherein said force/vibration responsive apparatus further comprising means for generating electrical energy; and
wherein said at least one input/output module further comprises a media device comprising at least one of a receiving device;
a transmitting device, wherein said media device operatively configured for broadcasting media content over the Internet, and said computer apparatus further comprises at least one of a network device;
a mobile device, and wherein the (a) mobile device further operable for at least one of;
communications;
receiving character;
transmitting data;
harvesting energy from an environment, and downloading media content, at least an electronic device, at least a wearable electronic;
a smart phone;
an E-PHONE;
apparatus configured for connecting wirelessly to multi-networks;
means for processing information with speed of light.
- an input/output module;
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14. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured with a chip in communication with 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, said communication apparatus further comprises at least one of a peer-to-peer wireless network management;
- means to obtain and/or abstract data from a media device;
means for transmitting data via at least a light emitting source;
a software sensory network;
a peer-to-peer network device operating software;
an energy harvesting cover attachment comprising a flexible display;
an energy harvesting cover attachment, and an amplifier operable for amplifying signals received by the receiver an amplifier for amplifying signals received by at least one of a case, a cover, a housing.
- means to obtain and/or abstract data from a media device;
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15. The energy harvesting communication device of claim 1, wherein said control apparatus further comprises a logic circuit in communication with at least a detection platform, wherein said detection platform generating detection signals responsive to movements of at least one of:
- character;
objects;
keypads;
energy;
electrical signals;
vibration energy;
force energy;
pressure energy, and wherein said logic circuit operable for controlling an application responsive to said at least one detection signal for generating electrical energy.
- character;
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16. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of:
- a switchable network channels for at least one of video, television, voice and text data transmission/communications;
platform for multimedia communication;
platform for multimedia services;
a cell switching virtual circuit network;
distributed multimedia application network;
a platform comprising multimedia data communication network;
a mobile phone case;
a mobile phone housing;
a mobile phone circuitry;
at least a housing for an electronic device;
at least a case for an electronic device;
at least a housing for said communication apparatus;
at least a circuit board for said communication apparatus;
an optical data transmission apparatus;
an electronic data transmission apparatus;
a network for transmission of data at optical frequencies;
platform for providing voice, data, and multimedia services over wireless networks;
a synchronized multimedia streaming platform;
layered platform for providing end-to-end networking and communications;
communication network for multimedia traffic;
a multimedia platform configured for time and event driven synchronization;
a multi-antenna on a display device;
a multi-antenna on chip;
an LED camera;
each further operable for generating electrical energy.
- a switchable network channels for at least one of video, television, voice and text data transmission/communications;
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17. The energy harvesting communication device of claim 1, wherein said cell platform further comprises a power source, comprising at least one of:
- insulating layer, conducting layer, a woven fabric, a film layer, 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, FPGA meta material structure, solar cell, nickel-cadmium batteries (NiCd), nickel oxide hydroxide, metallic cadmium, wafer module, a capacitor module operatively configured to withstand higher number of charge/discharge cycles and faster charge and discharge rates, and wherein said communication apparatus further comprises sensor network comprising sensors embedded in silicon substrate and etched/fused in nano-fiber/microfiber material to provide at least one of;
energy harvester apparatus;
energy conversion device, sensory display/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, metal cluster, Plasmon solar cell, means for converting activities into electrical energy.
- insulating layer, conducting layer, a woven fabric, a film layer, 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, FPGA meta material structure, solar cell, nickel-cadmium batteries (NiCd), nickel oxide hydroxide, metallic cadmium, wafer module, a capacitor module operatively configured to withstand higher number of charge/discharge cycles and faster charge and discharge rates, and wherein said communication apparatus further comprises sensor network comprising sensors embedded in silicon substrate and etched/fused in nano-fiber/microfiber material to provide at least one of;
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18. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of:
- a network;
a wireless multimedia network;
a multimedia network for mobile web services;
a multimedia sensor network;
distributed multimedia network;
platform for interactive collaboration;
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;
TDMA platform;
WCDMA platform;
CDMA platform;
TDMB platform;
digital/analog/GSM platform;
GPS platform;
GPRS platform;
TIHW platform;
MFSCD platform;
frequency authentication platform;
multiple input/output platform;
EDGSM platform;
EDMA platform;
OFDM platform;
OFDMA platform;
Wi-Fi platform;
a mobile network;
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
/or Internet service connectivity operable for global roaming;
apparatus for converting light photons into a photo generating electrical energy, optical elements;
a light shield film;
a UV curing resin;
at least a transparent support substrate;
at least a plate;
at least an electric power generating system;
at least energy management apparatus;
a heating and/or cooling module;
photovoltaic array;
solar module;
solar cell;
mono-crystalline silicon wafer;
fuel cell, metal-ceramic membranes, film composite metal-ceramic materials, thin film;
polymer;
amplified signal transmitter/receiver;
power generator engine;
nanotechnology;
photovoltaic module;
at least an energy harvester;
at least a nano-rectifier;
a light scattering apparatus;
a light absorbing apparatus;
a resonator;
apparatus for guiding electromagnetic/sound wave;
an optical fiber;
a display device affixed with a backlight comprising a reflective layer;
a touch sensor in association a at least a display device.
- a network;
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19. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least a wireless communication spectrum operable for at least one of:
- multi-stream data channels;
an integrated network;
at least a display device having at least a light guide layer in association with at least a laminated layer;
at least an LED backlight;
for receiving one or more wireless signals associated with at least a frequency within the wireless communication spectrum;
for determining at least a signal strength for the received wireless signals;
for determining at least a signal strength for at least a cell within the frequency;
for allocating the at least one cell for enabling wireless transmission based on at least a predetermined threshold value;
means for exchanging control 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;
et least means for converting a form of energy into electrical energy;
at least an AC to DC converter operable to convert an AC voltage from an AC power source to a DC voltage;
at least means for providing a notification in response to the energy storage device full charge;
at least a wearable case for said communication apparatus for harvesting energy.
- multi-stream data channels;
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20. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of:
- a packet management network;
a network packet support system;
an integrated radio frequency device;
a nano-electronic system;
means for eliminating drop calls;
means for extending battery life;
at least an RF-MEMS device;
an energy harvesting smart phone comprising an E-PHONE;
at least an array of digitized capacitors disposed on a die;
means for capturing stray radiations;
means for radiating communication signals;
at least a software defined radio device;
at least a turn-able RF device;
at least a turn-able RF-MEMS front end;
at least a software defined radio on chip device;
at least a turn-able capacitor array;
at least an antenna apparatus comprising or a signal booster;
at least a dual band signal booster antenna on nip;
a communication circuit board comprising solar cell platform;
a CMOS multiple antenna on chip in communication with means for converting electromagnetic radiation into electrical power;
at least an antenna comprising nano-wire antenna In association with the means for converting electromagnetic radiation;
at least a nano-wire comprising a material for exhibiting good electrical properties 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 for energy harvesting;
at least a touch screen comprising a sensory platform configured with at least one of;
piezoelectric elements, MEMS, load cell, strain gauge, acoustic sensor, for converting pressure force and/or sound waves into electrical energy;
at least a case comprising solar cell platform in association with means 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 and fused/etched in nano-fiber/microfiber material to exhibit a sensory platform for converting at least a form of energy within an environment Into electrical energy;
apparatus for converting light into electrical energy;
means for collecting electrons to provide electrical energy.
- a packet management network;
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21. The energy harvesting communication device of claim 1, wherein said charging circuit further comprises at least one of:
- at least an energy storage and management circuit;
an integrated circuit chip in association with said antenna apparatus;
an energy harvesting apparatus;
a CMOS multiple antenna on chip comprising a network circuitry;
an energy supply apparatus;
a substrate means in association with an integrated circuit;
a housing comprising a light guide plate;
a housing disposed with means for emitting light into a light guide plate;
apparatus for processing electrical speed signal;
a housing having electrical components.
- at least an energy storage and management circuit;
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22. The energy harvesting communication device of claim 1, wherein said charging circuit in communication with said cell platform for managing electrical energy, further comprising at least one of:
- a router;
a repeater;
a transmitter;
a transceiver;
a receiver;
a modem;
an antenna apparatus.
- a router;
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23. The energy harvesting communication device of claim 1, wherein said charging circuit further configured with sensors responsive to energy storage and energy management.
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24. The energy harvesting communication device of claim 1, wherein said cell platform further comprises energy harvesting apparatus responsive to natural energy and wherein said cell apparatus is further configured for converting at least a form of energy into electrical energy.
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25. The energy harvesting communication device of claim 1, wherein said cell platform further comprises an energy harvesting device comprising at least one of:
- a Plasmon solar cell, an electro-chromic apparatus, an oxide material, a metal cluster, a thin film, a glass substrate, nano-particles, miniaturized steels, Plasmon resonance, light scattering device, light absorbing device, apparatus for guiding electromagnetic wave, apparatus for guiding sound, an optical fiber, a nano-fiber, a microfiber, apparatus for transmitting and absorbing power between at least one of;
radio;
radar;
optical electronics, a printed waveguide, a housing for an electronic device comprising photovoltaic apparatus, a thin conductive metal cluster, means for collecting electrons to generate electrical energy;
a chip comprising carbon nanotubes In association with photonic crystals for converting thermal energy Into electrical energy.
- a Plasmon solar cell, an electro-chromic apparatus, an oxide material, a metal cluster, a thin film, a glass substrate, nano-particles, miniaturized steels, Plasmon resonance, light scattering device, light absorbing device, apparatus for guiding electromagnetic wave, apparatus for guiding sound, an optical fiber, a nano-fiber, a microfiber, apparatus for transmitting and absorbing power between at least one of;
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29. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of:
- a network management system;
a signal booster apparatus;
means for accelerating signal reception;
means for increasing data transmission speed;
signal multiplexer;
digital signal network;
multiplex communications;
optical communications;
wireless signal distribution network;
a client management service provided by the network;
a system for supporting network clients mobility between network devices;
a cache management system;
a cache lookup support system;
a cache update service system;
a data processing system operable on at least a social platform operatively configured for multicast virtual private network;
at least a computer apparatus comprising a computer recordable medium operable on a computer readable program being recorded to cause at least a computer device to receive at least a reference document;
at least an interactive interface apparatus operatively configured with at least a multi-protocol label switching operable on at least a support system operatively configured for mapping desired communications;
a support system communicatively connected to at least a carrier based dedicated processing element in communication with the multicasting virtual private networks;
means for categorizing desired communications referenced by initial search results; and
at least an interactive interface apparatus in communication with at least a link to at least a profile for at least a reference document.
- a network management system;
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30. The energy harvesting communication device of claim 1, wherein said cell platform further comprises at least one of:
- a printed film;
an electro-chromic apparatus;
a photovoltaic cell;
an optical fiber;
a nano-fiber metal substrate;
a nano-fiber silicon substrate;
a nano-fiber film substrate;
a router, a LED;
a diode;
a rectifier;
a repeater;
a circuit apparatus configured for communications with at least a wireless communication apparatus;
at least a nano-rectifier;
an antenna apparatus.
- a printed film;
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31. The energy harvesting communication device of claim 1, wherein said communication apparatus In communication with at least one of;
- said cell platform;
a capacitive apparatus;
a battery apparatus;
a router;
a repeater;
an integrated circuit;
a switch means in communication with said cell platform;
an energy management circuit;
an energy storage circuit;
at least a LED;
at least a diode;
at least a rectifier;
at least a nano-rectifier;
an antenna apparatus;
a circuit chip;
at least an antenna in association with a chip.
- said cell platform;
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32. The energy harvesting communication device of claim 1, wherein said cell platform further comprises at least one of means for controlling wireless feeder network, means for indexing at least a communication spectrum, means for controlling wireless network, means for establishing communication between networks, a spectrum for supporting communications, means for routing data, a distributed computing network, a broadband service network, a data collection network.
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33. The energy harvesting communication device of claim 1, wherein said cell platform further comprises means for transferring data to at least a communication means, and wherein said communication apparatus further comprises at least one of a cell, a communication device, a wireless network, a telecommunication network, a processor, a broadband network, a distributed network, a data collection network, a memory, a chip, a mobile communication network, a layer device, a gateway device, a transportable communication network, means for forwarding data packets along networks, means for joining multiple networks together, means for creating an overlay internetwork, an electronic device, a television network, a distributed multimedia network, a multimedia system, a cache management system, a cloud network.
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34. The energy harvesting communication device of claim 1, wherein said cell platform further comprises at least one of means for transmitting signaling information from a central communication network to a subscriber terminal of a communication system, means for controlling at least a network for connecting users to at least the communication network, at least a wireless network controller, at least a transportable wireless network controller, an energy harvesting IC, an energy harvesting CMOS.
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35. The energy harvesting communication device of claim 1, wherein said cell platform further comprises a communication network comprising means for scavenging energy to power at least one of electronic devices, wearable electronics, mobile electronic devices, wireless electronic devices, automotive vehicles, electrical power stations, grids associated with at least a city, grid associated with at least a state, grid associated with at least a county, grid associated with at least a remote community, energy storage medium, communication network devices, a chip comprising nano-tubes In association with photonic crystals for converting thermal energy Into electrical energy.
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36. The energy harvesting communication device of claim 1, wherein said cell platform further comprises means for harvesting energy from at least one of a communication network, an entertainment network, a television network, a multimedia network, a broadcasting network, a remote community network, a sensor network, environmental activities, communication activities, environmental means, mechanical means, radio wave, microwave, electromagnetic waves, Giga wave activities, thermal activities, sporting activities, optoelectronic activities, infrared activities, nature occurring activities, mechanical waves, visible light, infrared radiation, ultraviolet radiation, light wave, millimeter wave.
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37. The energy harvesting communication device of claim 1, wherein said cell platform further comprises at least one of means for maximizing power for a D.C power source, means for managing power devices applications, a conductive circuitry in association with a capacitive circuitry, a capacitive circuitry in association with a DC power source, an energy switching circuitry, a radio frequency energy harvester, an energy charging device, an energy storage device, an energy conversion device, a power harvester configured to transfer power associated with DC voltage to at least a power regulator circuitry, a power harvester configured to transfer power associated with the DC voltage to a power storage device, a power harvester configured to transfer power associated with the DC voltage to an integrated circuit.
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38. The energy harvesting communication device of claim 1, wherein said cell platform further comprises one of a photovoltaic cell, a cell having a band-gap energy, a substrate-nano-fiber having an emitter layer, a substrate-nano-fiber having a base layer, a substrate-nano-fiber having a semiconductor layer, a substrate-nano-fiber having a phase array, a substrate emitter layer, a substrate base layer, a substrate semiconductor layer, a substrate phase layer, a substrate-nano-fiber having a nano-plate layer, a substrate nano-fiber having a glass layer, a conductive layer, a multilayered cantilever, a multilayered piezoelectric elements, a multilayered piezoelectric crystal, at least a piezoelectric layer in communication with the multilayered cantilever, at least a transparent substrate in association with a reflective layer, at least a reflective glass substrate.
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39. The energy harvesting communication device of claim 1, wherein said cell platform further comprises energy management platform for converting at least one of kinetic energy, vibration energy, sound energy, solar energy, mechanical energy, electromagnetic energy into electrical energy, and wherein said control apparatus further comprises at least an antenna configured to generate an electromagnetic field to wirelessly transfer power to at least a receiving antenna, said control apparatus further associated with an amplifier device configured to output electric power to said antenna for generating the electromagnetic field, said communication device further comprises a detector means configured to detect the presence of a receiver device to generate at least a signal responsive to the detection of the receiver device, controlling a power output of the antenna and the amplifier via a time delay responsive system.
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40. The energy harvesting communication device of claim 1, wherein said cell platform further comprises at least one of an accelerometer in association with a software algorithm for communication with at least a piezoelectric, a MEMS device, a MEMS device in association with an accelerometer, at least a multi-thin film polymer layer, at least a substrate fiber chip being disposed with at least a thin film polymer layer, at least a transparent substrate in association with miniaturized reflective layers being embedded with software, a photovoltaic cell having at least a reflective surface, a photovoltaic cell having nano-structures, a photovoltaic cell comprising silicon substrate nano-fibers, a photovoltaic cell of nano-fiber applications, at least a photovoltaic cell of infrared polymer sensory structure, at least a photovoltaic touch screen being disposed with nano-fiber transparent substrate, at least a flexible electrode in association with a touch screen, at least a flexible substrate nano-fiber in association with piezoelectric zinc oxide in communication with conductive graphene electrodes, at least a nanotechnology application.
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41. The energy harvesting communication device of claim 1, wherein said cell platform further comprises one of a photovoltaic polarization screen comprising an energy harvesting platform, an illuminance sensor associated to at least a glass surface operable for reflecting sufficient defused/undiffused light to form an image of an object placed in front of a display apparatus, an illuminance sensory module, an electrochromic sensory module disposed with an electrochromic substrate, an RF tag module, a video transmission platform, a frequency analyzer, a photovoltaic polarization screen comprising a mirror platform, an illuminance sensory environment associated with voltage for changing a screen into a mirror environment, an electromagnetic wave resonator in association with at least a reflective element.
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42. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of:
- an energy harvesting smart network comprising an E-NETWORK;
an FPGA dedicated memory;
an FPGA dedicated multiplier;
an FPGA silicon circuitry;
an FPGA high speed input/output device;
an FPGA silicon nano-wire;
at least a non-linear switch circuitry for energy harvesting;
at least a fiber nano-generator;
at least a piezoelectric semiconducting electronic device;
means for harvesting energy locally and for transmitting information to and from the means wirelessly;
at least a piezoelectric energy harvesting device;
at least a transducer energy harvesting device;
means for creating a free charge/voltage field across at least a capacitive element;
a video compression device.
- an energy harvesting smart network comprising an E-NETWORK;
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43. The energy harvesting communication device of claim 1, wherein said cell platform further comprising a sensor apparatus in association with said communication apparatus, comprising at least one of:
- an antenna apparatus;
a nano-wire antennas;
means for enabling rectification at least at high frequencies to prevent losses caused by at least quantum effects;
a high speed rectifier;
a chip;
a microprocessor;
a nano-processor;
a detection platform;
a backhaul link;
an apparatus operable substantially without band gap limitations;
a communication node;
a communication switched path;
means for converting infrared/THz electromagnetic radiation into DC power;
means for rectifying at least an induced voltage to at least terahertz frequency;
an integrated rectifier;
a communication switch;
at least an energy harvesting means;
an energy storage means;
a communication platform;
an electromagnetic path;
a photovoltaic cell;
a nano-wire antenna array;
a radio wave signal path;
a microwave signal path;
a millimeter wave signal path;
means for harnessing an infrared spectrum;
an electromagnetic wave energy converter;
communication land line signal path;
a receiving nano-antenna in association with a rectifying circuit;
a wireless communication signal path;
a media communication platform;
a nano-rectenna platform;
a broadband rectifying antennas;
an array of nano-wires comprising at least insulated electromagnetic absorber elements;
means for enabling at least a remote communication device to communicate with another remote communication device and see each user of the said remote communication device in real time and/or near real time;
a plasmonic solar cell, an electro-chromic apparatus, an oxide material;
a metal cluster, a thin film;
a glass substrate, nano-particles;
miniaturized steels;
Plasmon resonance;
light scattering device;
light absorbing device;
apparatus for guiding electromagnetic wave;
apparatus for guiding sound;
an optical fiber;
a nano-fiber;
a microfiber;
at least an electro-chromic apparatus;
apparatus for transmitting and absorbing power between at least one of;
radio, radar, optical electronics, a printed waveguide.
- an antenna apparatus;
-
2. The energy harvesting communication device of claim 1, wherein said cell platform further configured for harvesting energy, wherein said cell platform further comprises at least one or:
- a. at least a cell platform;
-
26. An energy harvesting device for generating electrical energy and for managing the energy to power a communication device;
- the device comprising;
a. at least a storage medium;
b. at least a communication apparatus communicatively coupled to a charging circuit apparatus and in association with a control apparatus; and
c. said charging circuit apparatus further comprises sensors embedded in silicon substrate and in association with the storage medium to provide at least one of a communication medium, a detection platform, a communication clarity, a detection selectivity, energy harvesting, and a detection sensitivity. - View Dependent Claims (27, 28, 44)
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27. The energy harvesting communication device of claim 26, wherein said storage apparatus further comprises at least one of:
- an IC card;
a SIM card;
a memory apparatus;
a chip;
a capacitive apparatus;
a battery apparatus;
a case;
a cover;
a housing;
a cell platform;
an integrated storage and management circuit;
an integrated energy storage and management circuit;
a chip comprising carbon nanotubes in association with photonic crystals;
means for converting thermal energy into electrical energy;
a plasmonic crystal chip;
a photonic crystal chip;
a silicon substrate nano-fiber plasmonic embedded with ferrous material structure;
a chip having a reflective layer;
a transparent conducting nanomaterial structure.
- an IC card;
-
28. The energy harvesting communication device of claim 26, wherein said storage medium further comprises a charging circuit comprising et least one of:
- a capacitive storage medium, an ultra capacitor, a ferroelectric polymer, a power density tunable polymers, polymer ceramic nano-composites, polymers with materials that have high breakdown strength, a composite material with a large energy storage capacity, at least dielectric polymers, at least multiple capacitor cells, at least a rapid power delivery apparatus, at least a material configured to exhibits higher permeability, at least a capacitor with electrochemical cells, at least a protogenous ion-conducting liquid, at least a high porosity polymer composition, at least a micro-machined single crystal nano/micro-cantilever, at least a resistor.
-
44. The energy harvesting communication device of claim 26, wherein said charging circuit apparatus further comprises an energy harvester, the energy harvester further comprises at least one of:
- a solar cell;
an antenna apparatus operable for harvesting electrical energy from electromagnetic radiation;
a plasmonic platform;
a photonic platform;
a display apparatus;
a housing being affixed with a display apparatus;
a housing further disposed with antenna apparatus for harvesting energy and for boosting signal reception;
an integrated circuit board;
an electronic computing device;
a case configured with a display device;
means for harvesting energy from vibration;
means for harvesting energy via electromechanical operation;
a display device in association with a camera device;
a plasmonic chip;
a metal nanoparticle array waveguide;
a photonic chip;
a layered oxide;
an optical waveguide configured with means to absorb and emit light;
a communication device associated with means for harvesting energy via its surroundings;
a cell switching virtual circuit network;
a multimedia synchronization platform;
a multimedia data synchronization platform;
multimedia network synchronization;
a synchronized multimedia streaming platform.
- a solar cell;
-
27. The energy harvesting communication device of claim 26, wherein said storage apparatus further comprises at least one of:
- the device comprising;
-
45. A mobile network terminal for performing communications and for harvesting energy, the network terminal is further configured for vehicular electrification;
- comprising;
at least a cell platform configured for energy storage medium, the platform further associated with at least one of a cell having photonic conduction properties, a cell having plasmonic conduction properties, a light scattering solar energy harvester, a plasmonic nanostructured cell configured with miniaturized metal structures, a synchronized multimedia streaming cell, a multimedia network synchronization medium;
at least a vehicle in communication with said energy storage medium;
at least a communication apparatus configured for controlling communications, for identifying mobile subscribers, and for associating the mobile subscribers with at least a network;
at least a multiple antennas on chip apparatus in association with said cell platform and said communication apparatus for harvesting electrical energy from at least one of electromagnetic energy, mechanical enemy, environmental energy, and natural occurring energy. - View Dependent Claims (46, 47, 48, 49, 50, 51)
-
46. The mobile network terminal of claim 45, wherein said multiple antennas on chip apparatus further configured for at least one of network communication;
- faster data transmission, voice communications, and for boosting communication signals.
-
47. The mobile energy network terminal of claim 45, wherein said vehicle further includes a vehicular apparatus, further comprises at least one of;
- a mobile network;
a stationary network;
at least a backhaul link;
at least a millimeter wave network;
at least a motor apparatus;
at least a mechanical apparatus;
at least an electrical/electronic apparatus;
at least an electromechanical apparatus;
at least a communication means;
at least e transportable network;
at least a system for supporting network clients mobility between network devices;
a mobile network management system;
a client management service provided by the mobile network system, and wherein said communication apparatus further comprises at least one of a cell platform having photonic conduction properties;
a cell platform roving plasmonic conduction properties;
a light scattering solar energy harvester;
a plasmonic nanostructured cell configured with miniaturized metal structures;
means for boosting communication signals;
said multiple antennas on chip apparatus further comprises a waveguide for receiving electromagnetic wave energy for conversion Into useful energy.
- a mobile network;
-
48. The mobile network terminal of claim 45, wherein said vehicle further comprises vehicular apparatus, the vehicular apparatus further comprises at least one of a vehicle disposed with at least a wheel, a detection apparatus, a safety apparatus, means for communicating transportation occurrence of events, means for communicating events associated with driving conditions, means for communicating events associated with road conditions, means for communicating events associated with transportation communications, a GPS device, an entertainment device, a WiFi device, a broadband device, a wireless connectable device, a wireless network, a multimedia synchronization platform, a cell switching virtual circuit network, and wherein said multiple antennas on chip apparatus further comprises an electromagnetic wave carrier in thermal communication with said communication apparatus for receiving the electromagnetic wave energy and for generating electrical signals and/or electrical energy therefrom.
-
49. The mobile network terminal of claim 45, wherein said vehicle further comprises at least one of:
- a motor means;
a building structure;
network apparatus;
a network station;
a backhaul link;
a millimeter wave network;
a broadcast service apparatus;
a communication service station;
vehicular accessories, and wherein said energy storage medium further responsive to energy being generated to provide power to at least one of;
said vehicle;
the vehicular apparatus;
a grid;
a communication device;
an electronic device;
a wearable electronic device;
a hand held electronic device;
a hand held communication device.
- a motor means;
-
50. The mobile network terminal of claim 45, wherein said vehicle further disposed with vehicular apparatus, at least one vehicular apparatus further comprises an energy harvesting apparatus configured for responding to mechanical operations to generate electrical energy, wherein at least one vehicular apparatus further configured for converting mechanical energy into electrical energy, and wherein at least one energy harvesting apparatus further comprises a piezoelectric element coupled to at least one of a mechanical surface, a mechanical device, an oscillating device, a FPGA in association with a metamaterial substrate structure having a waveguide input and output for guiding electromagnetic wave energy fed into electrical energy output.
-
51. The mobile network terminal of claim 45, wherein said vehicle further comprises a mechanical apparatus in association with at least an energy harvesting apparatus for converting mechanical energy into electrical energy, and wherein at least one energy harvesting apparatus further comprises a cantilever coupled to at least one of a mechanical surface, nanostructured substrate, metamaterial substrate, thin film substrate, plasmonic substrate, photonic substrate, electrochromic substrate, a mechanical device each In association with an electrical contact surface.
-
46. The mobile network terminal of claim 45, wherein said multiple antennas on chip apparatus further configured for at least one of network communication;
- comprising;
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)Bhattacharya, Sam
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Application NumberUS13/328,383Publication NumberTime in Patent Office2,076 DaysField of Search4555501, 455566, 455571-573US Class CurrentCPC Class CodesB82Y 30/00 Nanotechnology for material...H04W 52/0245 according to signal strengthY02D 30/70 in wireless communication n...