IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0287124
(2011-11-02)
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등록번호 |
US-8185069
(2012-05-22)
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발명자
/ 주소 |
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
20 인용 특허 :
199 |
초록
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A method for receiving and processing in a wireless mobile unit a cable connected signal and Adaptive Coding and Modulation (ACM) in a 4G or a 3G wireless system. Transmitting in a mobile cellular unit a wire connected received and processed signal in a wireless transmitter and transmitting in a cab
A method for receiving and processing in a wireless mobile unit a cable connected signal and Adaptive Coding and Modulation (ACM) in a 4G or a 3G wireless system. Transmitting in a mobile cellular unit a wire connected received and processed signal in a wireless transmitter and transmitting in a cable connection of a mobile unit a wireless received signal. Receiving and processing a RFID signal and a data signal into a ultra narrowband (UNB) and a processed ultra wideband (UWB) signal. A Multiple Input Multiple Output (MIMO) antenna system. Processing a signal into a TDMA and a CDMA, Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal. Receiving and processing a Fiber Optic Communication (FOC) network provided signal and processing a UNB processed signal into a processed spread spectrum signal in a mobile unit.
대표청구항
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1. A method for reception and transmission of multimode ultra wide band (UWB) and Time Division Multiple Access (TDMA) wireless signals comprising steps of: receiving and processing in a first receiver and a first processor a first received UWB modulated signal into a first UWB processed baseband si
1. A method for reception and transmission of multimode ultra wide band (UWB) and Time Division Multiple Access (TDMA) wireless signals comprising steps of: receiving and processing in a first receiver and a first processor a first received UWB modulated signal into a first UWB processed baseband signal, and for providing said first UWB processed baseband signal to an interface unit of a mobile wireless device, for use by a user of said wireless device;receiving in said first receiver a first received Adaptive Modulation and Coding (AMC) TDMA modulated signal and for processing said first received TDMA modulated signal in a second processor into a first TDMA processed baseband signal for providing said first TDMA processed signal to said interface unit for use by said user of said wireless device, said AMC modulated signal comprises a flexible modulation and code selectable signal;generating and processing a data signal in a third processor into a multimode baseband second UWB processed data signal and into a baseband second TDMA processed data signal, wherein said second UWB processed signal, said first TDMA processed signal, said baseband first UWB processed and said baseband second TDMA processed signal are distinct signals, said first and second UWB processed signal is the first mode, said first and second TDMA processed signal is the second mode of said multimode signals, said generating said data signal is by said user of said wireless device;providing said second UWB processed data signal and said second TDMA processed data signal to a transmit selector and a transmitter for selection and transmission of said second UWB processed data signal and of said second TDMA processed data signal, said second TDMA processed data signal comprises a AMC processed Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal, said first receiver and said transmitter comprises a Multiple Input Multiple Output (MIMO) antenna system said transmit selector and said transmitter is in said wireless device; andgenerating, processing and providing a control signal into a processed control infrared (IR) signal and providing said processed control IR signal to a IR signal transmitter for transmission of said processed control IR signal, said IR signal transmitter is in said wireless device, said control signal is generated by said user of said wireless device and said transmission of said processed control IR signal is used for control of a second receiver, said first receiver is distinct from said second receiver. 2. A method for reception and transmission of ultra wideband band (UWB) and Code Division Multiple Access (CDMA) wireless signals comprising steps of: receiving and processing in a receiver and a first processor a first received UWB modulated signal into a first UWB processed signal and for providing said first UWB processed signal to an interface unit of a mobile wireless device for use by a user of said wireless device;receiving in said receiver and processing in a second processor a second received Adaptive Modulation and Coding (AMC) CDMA modulated signal and for processing said second received signal into a CDMA processed signal and for providing said first CDMA processed signal to said interface unit for use by said user of said wireless device, said AMC modulated data signal comprises a flexible modulation and code selectable data signal;receiving and processing in said receiver and in a third processor of said wireless device a Radio Frequency Identification (RFID) modulated signal into a processed RFID signal and providing said processed RFID signal to said interface unit for use by said user of said wireless device, said RFID modulated signal is received from a RFID signal transmission device;generating, processing in a fourth processor and providing to a transmit selector and a transmitter a first data signal into a fourth processor processed first data signal, in said wireless device, into a second UWB processed signal, wherein said first and said second processed UWB signals are distinct signals;generating, processing in a fifth processor and providing to said transmit selector a second data signal in said wireless device into a fifth processor processed second data AMC multimode, second processed CDMA signal, said first and said second processed CDMA signals are distinct signals and said second processed CDMA signal comprises a processed Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal, said first and second UWB processed signal is the first mode, said first and second CDMA processed signal is the second mode of said multimode data signals, said generating said first and said second data signal is by said user of said wireless device; andproviding to said selector said second processed UWB or said second processed CDMA signal and for providing said selected signal to said transmitter for transmission of said selected signal, said receiver and said transmitter comprises a Multiple Input Multiple Output (MIMO) antenna system. 3. A communication method, comprising steps of: receiving and connecting in a first receiver of a wireless mobile unit a received signal connected to said mobile unit by a cable or by a wire connection, for processing said received signal into a processed data signal, said received signal is received from a transmitter of a wired system;processing and filtering said processed data signal into Time Constrained Signal (TCS) processor processed and Long Response (LR) filter filtered signal;providing said TCS processor processed and LR filter filtered signal to a Time Division Multiple Access (TDMA) and to a Code Division Multiple Access (CDMA)processor for Adaptive Coding and Modulation (ACM) of said TCS processor processed and LR filter filtered signal into a first processed and modulated TDMA and a first processed and modulated CDMA signal for transmitting in said mobile unit by a wireless transmitter said modulated TDMA and said modulated CDMA signal, said ACM processed signal comprises a code and modulation format selectable signal;generating, processing in a processor, and providing a control signal into a processed control infrared (IR) signal and providing said processed control IR signal to a IR signal transmitter for transmission of said processed control IR signal, said IR signal transmitter is in said mobile unit, said control signal is generated by a user of said mobile unit and said transmission of said processed control IR signal is used for control of a second receiver; andreceiving, demodulating and processing in a third receiver, demodulator and processor of said mobile unit a second modulated TDMA and a second modulated CDMA signal and providing a received, demodulated and processed second TDMA and a second demodulated and processed CDMA signal to an interface unit of said mobile unit for use by said user of said mobile unit, said third receiver and said wireless transmitter comprises a Multiple Input Multiple Output (MIMO) antenna system, said first and second TDMA and said first and second CDMA signals are distinct signals, said first and said third receivers are in said mobile unit, said first, second and third receivers are distinct receivers. 4. A communication method, comprising steps of: receiving, demodulating and processing in a first receiver, a demodulator and a processor of a cellular mobile unit a wireless first Time Division Multiple Access (TDMA) and a first Code Division Multiple Access (CDMA) modulated signal into a first TDMA and first CDMA processed baseband signal;providing said first TDMA and said first CDMA processed baseband signal to a first transmitter of said cellular mobile unit for transmission of said first TDMA and said first CDMA processed baseband signal, said transmission is by wired or by cabled connection in a wire or in a cable connected system;generating, processing, filtering, modulating and transmitting in a second transmitter of said cellular mobile unit a Bit Rate Agile (BRA) coded Time Constrained Signal (TCS) processor processed and Long Response (LR) filter filtered second TDMA and a second CDMA modulated signal, for wireless transmission by said second transmitter of said cellular mobile unit, said first receiver and said second transmitter comprise a Multiple Input Multiple Output (MIMO) antenna system, and said first and second TDMA and CDMA modulated signal are distinct signals; andgenerating and processing in a processor a control signal into a processed control infrared (IR) signal and providing said processed control IR signal to a IR signal transmitter for transmission of said processed control IR signal, said IR signal transmitter is in said mobile unit, said control signal is generated by a user of said cellular mobile unit and said transmission of said processed control IR signal is used for control of a second receiver, said first and second receivers are distinct receivers and said IR signal transmitter, said first and said second transmitters are distinct transmitters. 5. The method of claim 1, further comprising steps of receiving and processing in a receiver and a processor a Adaptive Coding and Modulation (ACM) received signal specified in a fourth generation (4G) or a third generation (3G) wireless system and steps of receiving and processing a Radio Frequency Identification (RFID) modulated signal into a processed RFID signal, providing said processed RFID signal to said interface unit for use by said user of said wireless device, signal, and further comprising an Ultra-Wideband (UWB) and a distinct Ultra-Narrowband (UNB) signal processor for processing and transmitting a mobile user generated signal in said mobile unit, said processed UWB and said processed UNB signal comprises a clock shaped processed UWB and UNB signal, and said processed UNB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising steps of receiving and processing a Fiber Optic Communication (FOC) network provided signal, received in said mobile unit and further comprising steps of processing said UNB processed signal into a processed spread spectrum signal. 6. The method of claim 1, further comprising steps of processing and modulating a signal into a processed Ultra-Narrowband (UNB) signal processed missing cycle (MCY) processed and modulated signal, wherein said MCY processed signal is a clock shaped signal and processing and modulating said processed UNB signal into a phase reversal keying (PRK) modulated signal. 7. The method of claim of claim 1, further comprising steps of processing and modulating a signal into two distinct Ultra-Wideband (UWB) signals and of two distinct Ultra-Narrowband (UNB) signals, wherein said UNB signal is a missing cycle (MCY) Clock Shaped (CS) signal and one of said processed UWB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising step of receiving and processing in said mobile unit a Global Positioning System (GPS) generated signal into a GPS processed signal and for providing said GPS processed signal to an interface unit of said mobile unit for use by a user of said mobile. 8. The method of claim of claim 2, further comprising steps of receiving and processing in a receiver and a processor a Adaptive Coding and Modulation (ACM) received signal specified in a fourth generation (4G) or a third generation (3G) wireless and further comprising step of processing in an Ultra-Wideband (UWB) and a distinct Ultra-Narrowband (UNB) signal processor for processing and transmitting a mobile user generated signal in said mobile unit, said processed UWB and said processed UNB signal comprises a clock shaped processed UWB and UNB signal, and said processed UNB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising steps of receiving and processing a Fiber Optic Communication (FOC) network provided signal, received in said mobile unit and further comprising steps of processing said UNB processed signal into a processed spread spectrum signal. 9. The method of claim of claim 2, further comprising steps of processing and modulating a signal into a processed Ultra-Narrowband (UNB) signal processed missing cycle (MCY) processed and modulated signal, wherein said MCY processed signal is a clock shaped signal and processing and modulating said processed UNB signal into a phase reversal keying (PRK) modulated signal. 10. The method of claim of claim 2, further comprising steps of processing and modulating a signal into two distinct Ultra-Wideband (UWB) signals and of two distinct Ultra-Narrowband (UNB) signals, wherein said UNB signal is a missing cycle (MCY) Clock Shaped (CS) signal and one of said processed UWB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising step of receiving and processing in said mobile unit a Global Positioning System (GPS) generated signal into a GPS processed signal and for providing said GPS processed signal to an interface unit of said mobile unit for use by a user of said mobile. 11. The method of claim of claim 3, further comprising steps of processing and modulating a signal into a processed Ultra-Narrowband (UNB) signal processed missing cycle (MCY) processed and modulated signal, wherein said MCY processed signal is a clock shaped signal and processing and modulating said processed UNB signal into a phase reversal keying (PRK) modulated signal. 12. The method of claim of claim 3, further comprising steps of processing and modulating a signal into two distinct Ultra-Wideband (UWB) signals and of two distinct Ultra-Narrowband (UNB) signals, wherein said UNB signal is a missing cycle (MCY) Clock Shaped (CS) signal and one of said processed UWB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising step of receiving and processing in said mobile unit a Global Positioning System (GPS) generated signal into a GPS processed signal and for providing said GPS processed signal to an interface unit of said mobile unit for use by a user of said mobile. 13. The method of claim of claim 3, further comprising steps of receiving and processing in a receiver and a processor a Adaptive Coding and Modulation (ACM) received signal specified in a fourth generation (4G) or a third generation (3G) wireless system and steps of receiving and processing a Radio Frequency Identification (RFID) and an infrared (IR) signal, said receiving and processing of said RF and said IR signal is in said mobile unit, and providing g said processed RFID and IR signal to said interface unit of said mobile unit and further comprising an Ultra-Wideband (UWB) and a distinct Ultra-Narrowband (UNB) signal processor for processing and transmitting a mobile user generated signal in said mobile unit, said processed UWB and said processed UNB signal comprises a clock shaped processed UWB and UNB signal, and said processed UNB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising steps of receiving and processing a Fiber Optic Communication (FOC) network provided signal, received in said mobile unit and further comprising steps of processing said UNB processed signal into a processed spread spectrum signal. 14. The method of claim of claim 4, further comprising steps of processing and modulating a signal into two distinct Ultra-Wideband (UWB) signals and of two distinct Ultra-Narrowband (UNB) signals, wherein said UNB signal is a missing cycle (MCY) Clock Shaped (CS) signal and one of said processed UWB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising step of receiving and processing in said mobile unit a Global Positioning System (GPS) generated signal into a GPS processed signal and for providing said GPS processed signal to an interface unit of said mobile unit for use by a user of said mobile. 15. The method of claim of claim 4, further comprising steps of receiving and processing in a receiver and a processor a Adaptive Coding and Modulation (ACM) received signal specified in a fourth generation (4G) or a third generation (3G) wireless system and steps of receiving and processing a Radio Frequency Identification (RFID) signal, said receiving and processing of said RFID and said IR signal is in said mobile unit, and providing said processed RFID and IR signal to said interface unit of said mobile unit and further comprising an Ultra-Wideband (UWB) and a distinct Ultra-Narrowband (UNB) signal processor for processing and transmitting a mobile user generated signal in said mobile unit, said processed UWB and said processed UNB signal comprises a clock shaped processed UWB and UNB signal, and said processed UNB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising steps of receiving and processing a Fiber Optic Communication (FOC) network provided signal, received in said mobile unit and further comprising steps of processing said UNB processed signal into a processed spread spectrum signal, further comprising steps of processing and modulating a signal into two distinct Ultra-Wideband (UWB) signals and of two distinct Ultra-Narrowband (UNB) signals, wherein said UNB signal is a missing cycle (MCY) Clock Shaped (CS) signal and one of said processed UWB signal comprises a Time Constrained Signal (TCS) waveform shaped and Long Response (LR) filtered signal and further comprising step of receiving and processing in said mobile unit a Global Positioning System (GPS) generated signal into a GPS processed signal and for providing said GPS processed signal to an interface unit of said mobile unit for use by a user of said mobile.
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