Mega communication and media apparatus configured to provide faster data transmission speed and to generate electrical energy
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04M-001/00
H04B-001/3827
H01Q-001/22
H01Q-001/24
H01Q-021/28
H04W-088/02
출원번호
US-0910833
(2010-10-24)
등록번호
US-9130651
(2015-09-08)
발명자
/ 주소
Tabe, Joseph Akwo
출원인 / 주소
Tabe, Joseph Akwo
대리인 / 주소
Tabe, Joseph
인용정보
피인용 횟수 :
29인용 특허 :
13
초록▼
Disclosed embodiments comprise energy harvesting device comprising a communication apparatus operatively configured with CMOS multiple antennas disposed on a chip for boosting communication signals and for enabling faster data transmission speed. The communication apparatus is configured to harvest
Disclosed embodiments comprise energy harvesting device comprising a communication apparatus operatively configured with CMOS multiple antennas disposed on a chip for boosting communication signals and for enabling faster data transmission speed. The communication apparatus is configured to harvest energy within its environment and is further disposed with interactive user interface. The communication apparatus is further configured to convert sound waves, vibrations, solar energy, wind force and pressure force into electrical energy communicable to a battery cell. 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 and provide energy harvesting platform on at least the housing for the communication apparatus and/or the communication circuit board. The communication circuit board is configured with memories, processors, and modules. Embodiments provide advanced computing and media applications, including in-vehicle interactive communications and wireless Internet applications. Embodiments further provide a gaming device, a wireless media device configured with touch pads comprising sensors being embedded in silicon substrate and etched/fused in micro fiber material having excellent electrical characteristics. Certain embodiments provide the communication apparatus being configured for voice enabled applications comprising human voice auditory operable to convert text into voice auditory and/or voice auditory into text applications.
대표청구항▼
1. An energy harvesting communication device configured with on chip signal booster apparatus; comprising: at least a communication apparatus;at least an antenna apparatus in association with an input and/or output device; at least a processor in communication with at least one of: said at least a c
1. An energy harvesting communication device configured with on chip signal booster apparatus; comprising: at least a communication apparatus;at least an antenna apparatus in association with an input and/or output device; at least a processor in communication with at least one of: said at least a communication apparatus; said at least an antenna apparatus; a charge platform in association with at least charging circuit;at least an interactive media in association with at least an interactive interface;an output device; andat least a sensor apparatus embedded in silicon substrate and etched and/or fused in nano-fiber and/or microfiber material, said at least a sensor apparatus in association with said at least a communication apparatus to provide at least one of an effective energy harvesting medium, communication clarity, communication medium, detection selectivity medium, and detection platform. 2. The energy harvesting communication device of claim 1, wherein said input and/or output device further comprises a computer apparatus configured with at least a display apparatus in association with at least one of: at least a keyboard; at least a graphic user interface. 3. The energy harvesting communication device of claim 1, wherein said at least one input and/or output device further comprises at least one of: at least a media device; at least a receiving device; at least a force responsive device; at least a character responsive device; wherein said input and/or output device operatively configured for broadcasting media content over the Internet, and wherein said receiving device further comprises a mobile device configured with at least a software application operable for communications and for downloading media content. 4. The energy harvesting communication device of claim 1, wherein said at least one communication apparatus further comprises a mobile communication device comprising at least one of: mobile electronic device; a cell phone device, a digital communication device, a camera apparatus, a mobile application management platform, social media management platform, video filtration, wherein said communication apparatus further disposed with at least one of: a LED, speaker; buzzer, vibration mechanism; a receiver in association with a transmitting device; a transmitter in association with a receiving device; a signal boosting apparatus operatively configured with said receiver and/or said transmitter. 5. The energy harvesting communication device of claim 1, wherein said communication apparatus further disposed with at least one of: a computer apparatus; a signal booster apparatus, said signal booster apparatus further comprises at least one of: a device selected from the group consisting of at least a signal booster that increases signal reception capabilities of the receiver; an amplifier device operable for amplifying signals received by the receiver; a device that improves at least one of signal strength, data transmission speed, download speed, media communications, signal clarity. 6. The energy harvesting communication device of claim 1, wherein said communication apparatus further operable to convert at least one of: sound wave, pressure force, vibration, electromagnetic energy, solar energy, and wind force, into electrical energy. 7. The energy harvesting communication device of claim 1, wherein said processor further comprises at least one of: nano-processor; microprocessor; at least a logic circuit; at least a chip operable to amplify communication signals; and wherein the processor in communication with said sensor apparatus. 8. The energy harvesting communication device of claim 1, wherein said processor further comprises at least one of a CMOS processor, a CMOS memory, a CMOS sensor, each configured with at least one of: at least one antenna apparatus; at least a meta-material; at least a substrate; at least a substrate nano-fiber; said antenna apparatus being opened at least at one end and shorted at least at a second end; and wherein said antenna apparatus further comprises CMOS intra-chip antennas comprising at least one of: a radio frequency transceiver; an RF transmitter; an IR transmitter; a transducer; an IR transceiver. 9. The energy harvesting communication device of claim 1, wherein said processor further comprises at least one of: at least a video communication apparatus; at least a SIM card processor; at least a communication controller; at least a CMOS multiple antennas on chip; at least a media device; at least an entertainment device; at least a memory device; at least a search engine module; at least a storage device; at least an intra-chip device; at least an IC card processor; at least a faster data transmission device operable at speed of at least 5 GHz frequency; at least a faster data transmission device operable at speed of at least 20 GHz frequency; at least a faster data transmission device operable at speed of at least 60 GHz frequency; at least a video processing device. 10. The energy harvesting communication device of claim 1, wherein said antenna apparatus is disposed on at least one chip. 11. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of an optical computer device; an optical communication device; an electronic computer device; an electronic communication device; each configured with said antenna apparatus for enabling communications and for providing faster data transmission speed. 12. The energy harvesting communication device of claim 1, wherein said input/output device operatively configured with said at least one sensor apparatus; and wherein each sensor apparatus further comprising at least one of: nano sensors; nanotechnology application; MEMS; sensory platform; sensor network. 13. The energy harvesting communication device of claim 1, wherein said sensor apparatus is configured with said interactive interface in association with said communication apparatus for providing interactive communications. 14. The energy harvesting communication device of claim 1, wherein said sensor apparatus further operable for generating electrical energy. 15. The energy harvesting communication device of claim 1, wherein said sensor apparatus further comprises at least one of: a detection device; a router device; a signal detection device; WLAN device; WPAN device; MVPN device; MPLS device; a search engine device; a browser device; a network apparatus. 16. The energy harvesting communication device of claim 1, wherein said sensor apparatus in further association with at least one of: a display device; an input and/or output device; digital video broadcast device; an entertainment device; a digital audio broadcast device; digital multimedia broadcast device; a global positioning system; safety services; a transportation road communication systems; CMOS multiple antenna on chip device; a universal mobile telecommunications system; a touch screen input and/or output device operable for interactive communications. 17. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprising 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; an electronic computer device; an electronic communication device; a plasmonic communication network; a photonic communication network; an optical data transmission device; a digital communication device; at least sensor network; social media application management; at least a voice enabled applications associated with at least one of: human voice auditory; signal amplification; advanced data communications; and graphical data transmission device. 18. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: energy production device; energy harvesting device, sensory display and/or input device; interactive communication device; intelligence detection device; radiation prevention device; non cancerous communication device; secondary energy platform; data processing device; data acceleration device; solar energy conversion device; objects movement detection device; electronic document translation device; touch screen display device; cache engine; search engine; label switching device; hatch table platform. 19. The energy harvesting communication device of claim 18, wherein at least one object further comprises at least a near solid object including a human finger; and wherein at least one movement further comprises at least one of: vertical movement; horizontal movement; circular movement; diagonal movement. 20. The energy harvesting communication device of claim 1, wherein said communication apparatus further communicatively connected to at least a CMOS multiple antennas on chip, and wherein said CMOS multiple antenna further comprising at least one of: a wireless transmitter device; an RF transmitter; an IR transmitter; a transceiver; multiple antennas on at least a network; nano-wires network environment; nano wires energy platform; nano technology network system. 21. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprise a power source module selected from a group consisting of at least one of: a transformer, a fuel cell comprising of silicon nano-fiber and/or silicon micro fiber; a battery; a solar cell; thin film; wafer module; metal ceramic material; polymers; an RF tag module; IR tag module; at least a meta material structured surface cavity; a CMOS antenna. 22. The energy harvesting communication device of claim 1, wherein said communication apparatus further in association with a power management module configured to control power flow from at least a source to at least one of: an energy storage medium; a battery cell; a capacitor; a cell apparatus; a processor module; a CMOS antenna apparatus; a charging circuitry; a cell platform. 23. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises a case for at least an electronic device, wherein at least a power management module is further associated with the case, and wherein the case further comprises at least one of: a wearable outfit for said communication apparatus; a wearable energy harvesting device; an outfit. 24. The energy harvesting communication device of claim 22, wherein at least one source further include at least one of: carbon char; carbon black; metal sulfides; metal oxides; organic materials; textile fibers; zinc oxide (ZnO); nano-wires; piezoelectric crystals; a sensory layer; a sensor layer; sensor network; media management network; data signal processing; wet etching; dry etching; electron-silicon substrate-oxide; metal oxide semiconductor; optical properties; glass fiber; substrate micro fiber; cell platform; solar cell; nano-electromechanical system; polymer-nano-composites; nanoelectronics; meta-material; wherein said at least one source is alloyed with miniaturized ferrous material in association with silicon substrate nano-fiber and/or microfiber material. 25. The energy harvesting communication device of claim 1, wherein said sensor apparatus further comprises a power management module, the power management module further comprises a cell platform comprising at least one of: nickel-cadmium batteries (NiCd); nickel oxide hydroxide; metallic cadmium; wafer module; capacitor; complementary metal oxide semiconductor; wherein said capacitor operatively configured to withstand at least one of: higher number of charge and/or discharge cycles; faster charge and discharge rates. 26. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises a computer implemented system comprising sensory platform operable for providing data relating to at least a user activities; wherein the computer implemented system further comprises a software program configured with at least a touch screen display device. 27. The energy harvesting communication device of claim 26, wherein said communication apparatus further comprises a base station being configured with said at least an interactive media in association with said at least an interactive interface. 28. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprising a browser configured for communication with at least a content source for at least a network, said content source further comprises at least one of: a social network platform; a neural network; a cache engine; multiprotocol label switching; multicast virtual private network; search engine module; interactive interface apparatus; operating system; dedicated processing memory; at least a dedicated communication device; at least a memory comprising values being accessible to said dedicated processing memory. 29. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprising at least one of: a cellular phone; an energy harvester “E-PHONE;” a base station comprising a plurality of boosters each configured with plurality of power amplifiers, each of each amplifier further configured to receive a signal being provided by a corresponding transceiver unit coupled to said booster apparatus; an input array; an output array; a query array; a database; a hardware; a platform for writing input into at least a data memory. 30. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least a nanotechnology application; wherein the nanotechnology further comprises at least one of: an energy platform; an intra-chip multiple antenna network; a CMOS antenna configured with at least an opened end and at least a shorted end; CMOS multiple antennas on chip; sensor network; mobile network management application. 31. The energy harvesting communication device of claim 1, wherein said detection platform further comprises nano sensors embedded in silicon substrate and etched and/or fused in nano-fiber and/or microfiber material. 32. The energy harvesting communication device of claim 1, wherein said detection platform further comprises meta-material substrate in association with at least one of: energy platform; metal oxide semiconductor; nano wires; meta material structured surface cavity; thin film; glass fiber; antenna apparatus. 33. The energy harvesting communication device of claim 1, wherein said energy platform is further configured for at least one of: force responsive; thermal responsive; signal responsive; vibration responsive; wave responsive; pulse responsive; radio frequency responsive; and energy responsive. 34. The energy harvesting communication device of claim 1, wherein said display apparatus further comprises a touch screen device being disposed with at least piezoelectric elements each configured for at least one of: sensing; measuring; networking; communicating; detecting; transmitting; monitoring; force responsive, pressure responsive; generating electrical energy. 35. The energy harvesting communication device of claim 1, wherein said sensor apparatus further configured for sensing and/or for measuring object proximity to at least the display apparatus. 36. The energy harvesting communication device of claim 1, wherein said sensor apparatus further comprises at least one of: an accelerometer; a proximity sensor; a detection apparatus; a sensor network; a media detection network; video management network; image management network. 37. The energy harvesting communication device of claim 1, wherein said communication apparatus further communicatively connected to the detection platform and operable to provide at least one of: sensory platform; sensor platform; energy platform configured for generating electrical energy; communication platform; signal amplification platform; CMOS multiple antennas network platform. 38. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured with at least a signal amplifier, wherein the communication apparatus further comprising at least one of: a variable gain module; social network platform; video recognition platform; voice over text platform; text to voice enabled and/or conversion platform; TDMA platform; WCDMA platform; CDMA platform; TDMB platform; digital and/or analog and/or 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; 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; multiple paths switching antenna; Internet service connectivity operable for global roaming. 39. The energy harvesting communication device of claim 1, wherein said communication apparatus further disposed with at least a semiconductor comprising a circuit board configured with CMOS multiple antennas on chip, and wherein the chip further comprising at least one of: baseband analog digital circuit; multi-antenna receiver front-end; spatial multiplexing; spatial diversity; beam forming; orthogonal code-modulation; multi-antenna signal paths; matched filters; path-sharing of multiple RF signals; single pole switchable antenna; integrated antenna switch in CMOS SOI substrate; phased antenna array configured with a programmable phase shift; multiple RF and/or baseband chains; Code-Modulated Path-Sharing Multi-Antenna receiver; non orthogonal code-modulation receiver; shared-path blocks. 40. The energy harvesting communication device of claim 1, wherein said communication apparatus further disposed with at least a circuit board comprising electronic system's applications being configured for at least one of: a wired communications device applications; a wireless communications device applications; a cell phone applications; a handheld communication device applications; laptop computer applications; desktop computer applications; telemetry device applications; a switching device applications; MP3 player applications; a router; a repeater, a codec; a LAN; a WLAN; a Bluetooth enabled device; a digital camera; a digital audio player and/or recorder; a digital video player and/or 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; an RF transceiver; a personal digital assistant (PDA); a digital game playing device; a digital testing and/or measuring device; a digital avionics device; a media device; a medical device; a digitally-controlled medical apparatus. 41. The energy harvesting communication device of claim 1, wherein said communication apparatus further disposed with nano-sensors in association with a substrate; at least an input device is configured on the substrate; at least a force responsive sensor configured to sense a force applied to the input device. 42. The energy harvesting communication device of claim 1, wherein said communication apparatus further disposed with at least a force responsive sensor embedded in at least a substrate in association with the display and/or input device, said force responsive sensor is further coupled outside of each corners and in the middle of and within each edge of at least one of: the display device; the input device. 43. The energy harvesting communication device of claim 1, wherein said sensor apparatus further comprises force responsive sensors being affixed on at least one of: a deformable area of the communication apparatus; a substantially non-deformable area of the communication apparatus. 44. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured with the force responsive sensor and operable to perform at least one of: calculate an applied force on at least a surface based on at least a change in resistance in at least a force sensitive portion; activate at least a component configured to execute a plurality of actions in response to at least a force value; displaying data in response to said value. 45. The energy harvesting communication device of claim 44, wherein the change in resistance further comprises controlling an intensity of an action based on said force value, wherein at least an action is selected from a plurality of actions based on the force value. 46. The energy harvesting communication device of claim 45, wherein said change in resistance further includes a change in at least one of: energy level; temperature level; signal level; sound quality level; signal clarity; modulated video signal; force level; pressure level; resistance to signal flow. 47. The energy harvesting communication device of claim 1, wherein said input device and/or said output device further comprises at least one of: a button; a touch screen; a QWERTY keyboard; a liquid crystal display (LCD); a keyboard, a keypad; a scroll wheel. 48. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured to perform at least one of: determine movement of objects on the display and/or input device relative to the sensing surfaces; determine at least an application layer message that is contained in at least a data packet; implement at least a step for intercepting at least a network element; write input into at least a data memory for at least an array; disseminate searchable topics of information, manage media communications in a centralized social network. 49. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured with at least one of: an energy platform operable for recharging at least a circuit having a source connected to at least a power terminal; a CMOS multiple antenna configured with at least a drain connected to a sensing node in association with the recharging circuit, at least a gate connected to a pre-charging circuit in communication with the source, further comprising at least a signal source; at least an application layer; at least an application layer message; at least a multimedia wireless sensor communication network. 50. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured for communication with a traffic communication device operable to communicate at least one of: road hazards; traffic jam; exit proximity; traffic directions; traffic estimations; near traffic restaurant directions and/or data; near traffic gas stations directions; road constructions information; traffic accident information; and/or roadside activities. 51. The energy harvesting communication device of claim 1, wherein said detection platform further comprises at least one of: solar panel for converting light photons into a photo generated 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 electrical power generating system; at least an energy management apparatus; a heating and/or cooling module; an electronic wafer module; photovoltaic array; solar module; solar cell; mono-crystalline silicon wafer; fuel cell, metal-ceramic membranes, film composite metal-ceramic materials, thin film; CMOS antenna with meta material structured surface cavity; polymer; amplified signal transmitter/receiver; power generator engine; nanotechnology applications; photovoltaic module; intra-chip antenna network; multiple paths antenna network. 52. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: web based application; a photovoltaic device; a support system; a content index; a computer apparatus; a game device, a television device; an entertainment device; a protocol platform for delivering structured data; an advertisement platform; cache memory for caching structured functions; a mapping circuit configured to be indexed by at least a pattern ID value; a social network platform; Internet protocol television communication system; a video platform; a chat platform; virtual private network. 53. The energy harvesting communication device of claim 1, said communication apparatus further comprises at least one of: a thermoelectric generator comprising at least a transparent conductive material configured with even resistance distribution characteristics; multiprotocol label switching environment; multicast state sharing environment; a computer instruction in communication with at least a media channel application tool; a social media platform; wireless sensor communication network; a media management application network. 54. The energy harvesting communication device of claim 1, wherein said display apparatus further configured for at least one of: to inhabit plastic shrinkage cracking; to reduce explosive spalling in high temperature; to reduce water migration; to reduce permeability; to reduce settlement cracking; to improve cohesion; to resist fatigue; to resist shatter; to resist impact; to provide residual strength; to enable network connections with at least one remote electronic device. 55. The energy harvesting communication device of claim 1, wherein said communications apparatus further comprising at least a video communication apparatus in association with said interactive media, wherein said communication apparatus further disposed with at least a SIM card processor. 56. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises a platform comprising at least one of: audio device; computer device; electronic communication device; digital communication device; energy harvesting device; gaming device; media device; entertainment device. 57. The energy harvesting communication device of claim 1, wherein said communications apparatus further comprising at least one of: a transmitter; a receiver; each configured with at least one CMOS antenna apparatus on a chip, the CMOS antenna operatively configured to separate signals normal to at least one of: an audio device; a cell phone device; an electronic data transmission device; energy harvesting. 58. The energy harvesting communication device of claim 1, wherein said antenna apparatus further comprises multiple antennas on chip operable to perform at least one of: transmitting signal communications to at least mobile communication network; receiving signal communications from at least a mobile communication network; sending information for identifying the wireless LAN that the wireless device is requesting to be added to; sending information for identifying the type of wireless device requesting to be added to the wireless LAN. 59. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprising at least one of: a server computer; a client computer; a wireless sensor network; a computer readable medium; social media management application; a mobile application platform; each communication apparatus responsive to at least a television application. 60. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises an audio device being configured for at least audio and/or visual application operable for at least one of: inputting communications; outputting communications; wherein said at least one audio and/or visual application further comprises at least an audio and/or visual device comprising at least one of: a touch screen input and/or output device; at least a speaker device; at least a microphone device; at least a voice enabled communications device, a device for multimedia communication including Voice Over Internet Protocol “VOIP. 61. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured with at least one of: a pointer apparatus; a cursor apparatus; a voice activation apparatus; a voice enabled action apparatus; an input apparatus; an output apparatus; further comprising at least a location for the pointer apparatus and the cursor apparatus to be positioned for at least an action to be directly invoked over the area of the display device. 62. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises a GPS operable for navigation, and wherein the current location of the navigation is determined by at least one of: a GPS receiver; an antenna apparatus; wherein said at least a processor is operatively configured for communications with at least a network. 63. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprising at least a screen device being operatively configured with at least a software, further comprising instructions executable by at least one of: a processing device; a logic circuit; a digital video recorder (DVR); at least a wireless electronic device; a video communication processor; a local area network and/or satellite; said video communication processor operatively configured for at least one of: recording, transmitting; receiving; said receiving further comprises receiving at least one television program being associated with at least a supplemental profile for at least one of: a sensor network; a set-top box device, further comprising automatically instructing the DVR to record at least a television program associated with at least a default profile, wherein said default profile further includes at least one of: the number of at least a caller; the image of at least a caller; the number of at least a receiver; the image of at least a receiver. 64. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured with said least an interactive media and communicatively connected to said interactive interface for communications and for converting at least one of: solar energy; wind; sound wave; electromagnetic energy; vibration; motion; force and/or pressure; into electrical energy to power itself. 65. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a base station; at least a communication backhaul; at least a millimeter wave backhaul apparatus; at least a backhaul link; at least a mobile broadband service station; at least an optimized packet switched network operable to improve at least a higher broadband performance; at least FPGA network. 66. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a millimeter wave network being configured with at least an interactive media, said interactive media further comprises interactive television apparatus in association with at least an interactive interface; at least a distributed network in association with at least a distributed network antenna apparatus; at least a support system for LTE and/or 4G services; at least a single shared end-to-end packet transport network; at least a radio access for voice and data transmissions, means for converting voice auditory into text communication; means for converting text into voice auditory communication. 67. The energy harvesting communication device of claim 1, wherein said antenna apparatus further comprises at least one of: at least a transceiver station; at least a signal routing apparatus; at least an apparatus operable to support higher data rates; at least an apparatus operable to improve spectral efficiency; at least an apparatus operable to reduce network latency; at least an apparatus operable to provide flexible channel bandwidth; at least an apparatus operable to support flexible channel bandwidth; means for simplifying communication architecture; means for flattening at least a communication architecture. 68. The energy harvesting communication device of claim 1, wherein said antenna apparatus further configured for at least one of: generating at least downlink signals; generating at least overlapping frequencies; receiving at least uplink signals; receiving at least communication content; providing at least a distributed network. 69. The energy harvesting communication device of claim 68, wherein said distributed network further comprises at least one of: at least a non-overlapping area; at least a partially overlapping area; at least a fully overlapping area; means for routing downlink signals to said antenna apparatus for transmission; means for enabling end-to-end packet transport for at least a harmonized and/or shared transport network. 70. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprising at least one of: at least an input and/or output device configured with at least an output port; means for generating downlink signals; means for transmitting downlink signals; means for transmitting at least a downlink signals with overlapping frequencies; means for generating downlink signals of different communication contents; at least a transceiver having at least an uplink receive port to receive at least an uplink signal; said at least one antenna apparatus further configured with said communication apparatus for providing at least a non-overlapping coverage area. 71. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a determination device for determining at least a source-side wireless communication device; at least an authentication memory device; at least a sink-side wireless communication device; at least a multi-level shielding apparatus operable for attenuation of unwanted signals; at least an operational bandwidth comprising millimeter wave frequencies; at least a cellular radio transceiver; at least a graphic user interface in association with at least a speech interface; at least a global positioning satellite receiver; means for routing at least an uplink signal from at least an unit device to at least a receiving port. 72. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: means for maximizing at least a boundary coverage area; means for minimizing at least a boundary coverage area; means for accepting at least user input; at least a reconfiguration switch apparatus; at least a hard-wired-signal splitter means; at least a time division duplexed at said at least one antenna apparatus; at least a frequency division duplexed at said at least one antenna apparatus; means for minimizing boundaries between coverage areas; at least a duplexes apparatus; means for dividing communication signals into plurality communication channels; means for increasing cell coverage; means for lowering output power; at least a multiple input-multiple output apparatus. 73. The energy harvesting communication device of claim 1, wherein said communication apparatus further configured with at least one of: at least a CMOS multiple antenna on chip; at least a CMOS multiple antenna on chip comprising at least a distributed multiple antenna system; at least a radio access network; at least a distributed unit in communication with at least a packet control function; means for providing internal signaling and/or packet delivery; a voice auditory packet delivery network; a voice auditory packet delivery channel; means for receiving request messages from at least a call control apparatus; at least a call control interface in association with at least a radio source; means for receiving traffic channel assignment messages; at least a channel element control apparatus. 74. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a communication backhaul based on optimized packet switched infrastructure; at least a scalable throughout for allowing diversed deployment options that matches specific operators network and/or traffic requirements; at least an asymmetric bandwidth comprising downstream and/or upstream; means for managing at least a micro site; at least a rural base-station; at least a multiband base station with higher bandwidth; at least a software configuration key; at least a transport layer optimization apparatus; at least a header/payload compression apparatus operable to reduce end-to-end delay; at least a point-to-point microwave/millimeter wave network system configured with at least a header compression apparatus. 75. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a telecommunication network; at least a telecommunication network operable for providing backhaul communication between at least a communication switching center and at least a base station; at least a network node at spaced apart sites; means for transporting information to other nodes in at least a communication network; means for providing information exchange between a communication network and at least a network of users; at least a base station access point; at least a wireless communication access point; at least a wireless communication path comprising at least a millimeter wave link. 76. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a beam link having at least an angular spread; at least a wired communication switching network access point; at least a wireless means comprising at least a millimeter wave radio; at least a wireless means comprising of microwave radio; at least a wireless means comprising of at least a millimeter wave radio and at least a microwave radio; at least a wired information exchange station; at least a wireless information exchange station; at least an information exchange station consisting of at least a wired means and at least a wireless means. 77. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a cellular base station; at least a WiMax base station; at least an LTE base station; at least a mobile telephone switching center; at least a telecommunication service provider; at least a wide area network hub; at least an Internet service provider; at least a public telecommunication network; at least a metropolitan network; at least a rural area network; at least a transportable communication network; at least a vehicular systems communication network; at least a computer system communication network; at least a network for providing at least a communication path from at least a base station to at least a communication switching center; at least a millimeter wave link communication path; at least a radio communication apparatus comprising at least a millimeter wave system; at least a millimeter wave antenna for producing at least millimeter wave beam. 78. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises an electro-optic apparatus comprising at least one of: at least a legacy communication system; at least a backhaul information system for transmitting at least one of: downloadable content, readable content, writeable content, video content, voice content, television content; at least a millimeter wave antenna network for providing millimeter wave radio with at least a millimeter wave system; at least a network access point; at least a power distribution apparatus; at least a high speed communication switch in association with at least an input port and at least an output port; at least an Ethernet switch, at least a microwave transceiver for point-to-multipoint communication with at least a network; at least a plurality of Gigabit Ethernet service delivery switches. 79. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: at least a tablet computer; at least a word processing device; at least a web browsing device; at least a video conferencing device; at least an interactive social media network platform; at least a science media network platform; at least a transportation media network platform; at least a gaming media network platform; at least an entertainment media network platform; at least a sporting media network platform; at least a centralized communication network platform; at least a centralized communication device; at least a decentralized communication network platform; at least a decentralized communication device; a gaming device; a communication device. 80. The energy harvesting communication device of claim 1, wherein said antenna apparatus further comprises at least one of: at least nano-antennas; at least nanorectennas; means for enabling rectification at least at high frequencies; etching at least a portion of at least a silicon substrate to form at least an antenna comprising CMOS multiple antenna on chip, wherein the antenna apparatus being disposed with at least an opened end and at least a shorted end; applying a photoresist material to the etched portion; embedding sensors in association with the photoresist material; exposing the photoresist material to ultraviolet energy; resonating at least in the GHz range; forming said antenna in at least a millimeter measurement; forming said antenna in at least um thickness range; providing means for radiating RF fields; providing means for at least a deferential feed in association with said means for radiating RF fields; providing means for feeding at least electromagnetic signals; at least an apparatus operable substantially without band gap limitations. 81. The energy harvesting communication device of claim 1, wherein said antenna apparatus further comprising at least one of: means for associating radiating RF fields with said means for feeding electromagnetic signals; at least an antenna having at least a grounding portion operable for radiating RF fields between the silicon substrate and the shorted end portion; providing the shorted end portion with at least a common node; shielding the means for radiating RF fields to increase conductive compensation effect; shielding the means for radiating RF fields to increase capacitive compensation effects; apparatus for radiating electromagnetic signals; providing at least a feeding portion for feeding electromagnetic signals; at least an integrated rectifier, at least means for converting infrared and/or THz electromagnetic radiation into DC power; means for rectifying at least an induced voltage to at least terahertz frequency; at least a receiving nano-antenna in association with a rectifying circuit; at least a broadband rectifying antennas; at least a CMOS active circulator; at least on-chip-inductance comprising a frequency dependent apparatus; at least a waveguide reflector comprising at least a meta-material resonant cavity; at least a silicon CMOS comprising at least one of: an FPGA layer, a chip, operable for data transmission. 82. The energy harvesting communication device of claim 1, wherein said sensor apparatus further comprises at least an energy harvester, further comprising at least one of: an energy harvesting platform; at least a linear interaction apparatus; at least an angular interaction apparatus; at least an electromechanical interaction apparatus; at least a nano electro mechanical system; at least a material for exhibiting direct piezoelectric effect; at least a material for exhibiting reversible piezoelectric effect; at least an apparatus for converting mechanical strain into at least one of: electrical current, electrical voltage; at least a parasitic energy harvesting device; at least a thin film processed means; at least a thermal-electric means; at least a ferroelectric material for energy harvesting; at least a nano-wired platform; at least a zinc oxide; at least a piezoelectric zinc oxide nano-wire; at least a nano-generator; at least an array comprising nano-wires; at least a nanotechnology application; at least a nanotechnology platform; at least a solar cell platform; at least a silicon substrate platform; at least a silicon substrate micro-fibered platform; at least a silicon substrate nano-fibered platform; at least a woven platform, at least a non composite polymers; at least a composite polymer; at least a material fabric; at least a polymer based piezoelectric apparatus; at least a textile fabric; at least a piezoelectric ceramic fiber; at least a piezoelectric ceramic-polymers fiber; at least an active piezoelectric element; at least a non composite structured non piezoelectric polymer; at least a monolithic/mono-directional piezoelectric ceramic fibers embedded in at least a fabric; at least a monolithic and/or mono-directional piezoelectric. 83. The energy harvesting communication device of claim 1, wherein said sensor apparatus in association at least one of: said communication apparatus; said antenna apparatus; at least a nano-wire antennas; means for enabling rectification at least at high frequencies to prevent losses caused by at least quantum effects; at least a high speed rectifier; at least a chip; a memory device; a microprocessor; a nano-processor; a detection platform; at least a backhaul link; at least an apparatus operable substantially without band gap limitations; at least a communication node; at least a communication switched path; at least means for converting infrared and/or THz electromagnetic radiation into DC power; means for rectifying at least an induced voltage to at least terahertz frequency; at least an integrated rectifier; at least a communication switch; at least an energy harvesting means; at least an energy storage means; at least a communication platform; at least a cell platform; at least an electromagnetic path; at least a photovoltaic cell; at least a nano-wire antenna array; at least a radio wave signal path; at least a microwave signal path; at least a millimeter wave signal path; means for harnessing at least an infrared spectrum; at least an electromagnetic wave energy converter; at least a communication land line signal path; at least a receiving nano-antenna in association with a rectifying circuit; at least a communication wireless signal path; at least a media communication platform; at least a nanorectennas platform; at least a broadband rectifying antennas; at least an array of nano-wires comprising at least insulated electromagnetic absorber elements. 84. The energy harvesting communication device of claim 1, wherein said communication apparatus further comprises at least one of: means for enabling at least a remote communication device to communicate with another remote communication device; 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; at least 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, a housing for an electronic device comprising photovoltaic apparatus, a thin conductive metal cluster, means for collecting electrons to generate electrical energy; means for converting light into electrical energy; means for separating electrons having opposite charge; at least a transparent substrate comprising an electro-chromic apparatus being responsive to applied voltage for changing at least an element color; and wherein said processor further comprises a control apparatus being 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 apparatus; inputting energy to at least a charging circuit apparatus; controlling light energy. 85. The energy harvesting communication device of claim 1, wherein said interactive media in association with at least one of said charge platform, said antenna apparatus, at least a signal booster apparatus, further comprises at least one of: an input device; an output device.
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이 특허에 인용된 특허 (13)
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