Mobile Networks using Orthogonal Frequency Division Multiplex (OFDM) and or spread spectrum modulation and demodulation techniques process in mobile devices spread spectrum signals into OFDM signals. A first mobile device receives and demodulates a spread spectrum modulated signal into a baseband sp
Mobile Networks using Orthogonal Frequency Division Multiplex (OFDM) and or spread spectrum modulation and demodulation techniques process in mobile devices spread spectrum signals into OFDM signals. A first mobile device receives and demodulates a spread spectrum modulated signal into a baseband spread spectrum signal and processes the baseband spread spectrum signal into a first OFDM signal. The first OFDM signal is transmitted to a second mobile device. In the second mobile device the received first OFDM signal is demodulated and processed into a second OFDM signal. The second OFDM signal is transmitted in the mobile network. Alternatively, the first mobile device receives, instead of a spread spectrum signal a modulated OFDM signal. The mobile device has a motion detector which generates a motion detector signal for control of the mobile device. The mobile device has a heart rate sensor and measures the heart rate.
대표청구항▼
1. A method comprising steps of: receiving and demodulating in a mobile device a first Orthogonal Frequency Division Multiplexed (OFDM) modulated signal into a first OFDM baseband signal;providing said first OFDM baseband signal to a modulator for modulation of said OFDM baseband signal into a secon
1. A method comprising steps of: receiving and demodulating in a mobile device a first Orthogonal Frequency Division Multiplexed (OFDM) modulated signal into a first OFDM baseband signal;providing said first OFDM baseband signal to a modulator for modulation of said OFDM baseband signal into a second OFDM modulated signal;providing said second OFDM modulated signal to a transmitter for transmission of said second OFDM modulated signal said first OFDM modulated signal and said second OFDM modulated signal are in different radio frequency bands;receiving and processing a signal into a baseband position finding signal;generating in said mobile device a video signal, processing and filtering said video signal into a processed filtered video signal, said processed filtered video signal comprises in-phase and quadrature-phase Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals;providing said processed and filtered video signal to a quadrature modulator for modulation of said processed and filtered video signal into a video modulated signal;processing a photo camera generated signal into a processed photo camera signal, said photo camera generated signal is generated in said mobile device;processing and filtering said processed photo camera signal with said baseband position finding signal into a processed photo camera signal with baseband position finding signal, said processed photo camera signal with baseband position finding signal comprises in-phase and quadrature phase processed baseband signals;providing said in-phase and quadrature phase processed baseband signals to a quadrature modulator for modulation of said in-phase and quadrature phase processed baseband signals into a quadrature modulator modulated signal; andreceiving a touch screen generated signal for providing from said touch screen generated signal a touch screen control signal, wherein said control signal is used for control of said mobile device. 2. The method of claim 1, wherein said first OFDM modulated signal is received from a cellular base station system transmitter and said second OFDM modulated signal is transmitted in a WiFi network and further comprising a method for processing a second video signal in said mobile device into a second processed video signal;incorporating said location finding baseband signal into said second processed video signal to provide a location based second video baseband signal;processing said location based second video baseband signal in a cross-correlator into cross-correlated in-phase and quadrature-phase location based second video baseband signals;modulating said cross-correlated signals in a modulator into a cross-correlated modulated signal and transmitting in said mobile device said cross-correlated modulated signal. 3. The method of claim 1, further comprising steps of generating in said mobile device a voice signal or a video signal and transmitting said voice signal in a Voice Over Internet Protocol (VoIP) Wi-Fi network or transmitting said video signal in a Video Internet Protocol (ViIP) network and further comprising steps of controlling said mobile device by voice control signals. 4. The method of claim 1, further comprising a method for receiving and demodulating in said mobile device one or more modulated signals into a location finding baseband signal;processing a second video signal in said mobile device into a processed second video signal;incorporating said location finding baseband signal into said processed second video signal to provide a location based second video signal;processing said location based second video signal in a first cross-correlator into cross-correlated in-phase and quadrature-phase location based second video baseband signals;modulating said cross-correlated signals in a modulator into a cross-correlated modulated signal and transmitting in said mobile device said cross-correlated modulated signal. 5. The method of claim 1, further comprising a method wherein a motion detector generates a motion detector signal for control of said mobile device, or further comprising method for a heart rate sensor for detecting and measuring heart rate. 6. The method of claim 1, further comprising a method for fingerprint authentication of said mobile device or further comprising method for generating and transmitting an infrared (IR) signal. 7. The method of claim 1, further comprising steps of : providing said video signal to a processor for processing said video signal with said baseband position finding signal into a processed video signal with baseband position finding signal, for modulation in said modulator said processed video signal with baseband position finding signal into a modulated processed video signal with baseband position finding signal; andtransmitting in said transmitter said modulated processed video signal with baseband position finding signal. 8. The method of claim 1, further comprising a method for a heart rate sensor for detecting and measuring heart rate, said heart rate sensor is in said mobile device and further comprising a motion detector, said motion detector generates a motion detector signal for control of said first mobile device, said motion detector is in said mobile device. 9. A method comprising steps of: receiving and demodulating in a mobile device a first Orthogonal Frequency Division Multiplexed (OFDM) modulated signal into a first OFDM baseband signal;providing said first OFDM baseband signal to a modulator for modulation of said OFDM baseband signal into a second OFDM modulated signal;providing said second OFDM modulated signal to a transmitter for transmission of said second OFDM modulated signal said first OFDM modulated signal and said second OFDM modulated signal are in different radio frequency bands;receiving and processing a signal into a baseband position finding signal;providing a photo camera generated signal to a processor for processing said photo camera generated signal with said baseband position finding signal into a processed photo camera signal with said baseband position finding signal, for modulation in said modulator said processed photo camera signal with said baseband position finding signal into a modulated processed photo camera signal with baseband position finding signal;transmitting in said transmitter said modulated processed photo camera signal with baseband position finding signal; andreceiving a touch screen generated signal for providing from said touch screen generated signal a touch screen control signal, wherein said control signal is used for control of said mobile device. 10. The method of claim 9, further comprising a method for modulation of a first Gaussian Minimum Shift Keying (GMSK) transmit filter filtered baseband signal into a first filtered modulated GMSK signal, said first filtered modulated GMSK signal comprises cross-correlated in-phase and quadrature phase Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals, and demodulating a second GMSK modulated signal into a second GMSK receive filter filtered baseband signal, said transmit filter and said receive filter is mis-matched, or further comprising a motion detector, said motion detector generates a motion detector signal for control of said mobile device. 11. The method of claim 9, further comprising steps of: generating in said mobile device a video signal, processing said video signal into a processed video spread spectrum signal, said spread spectrum signal comprises in-phase and quadrature phase cross-correlated Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals;providing said processed and filtered video spread spectrum signal to a quadrature modulator for modulation of said processed and filtered video spread spectrum signal into a spread spectrum modulated signal; andproviding said spread spectrum modulated signal to a transmitter for transmission of said spread spectrum modulated signal. 12. The method of claim 9, further comprising steps of: generating in said mobile device a video signal; providing said video signal to a processor for processing said video signal with said baseband position finding signal into a processed video signal with baseband position finding signal, for modulation in said modulator said processed video signal with baseband position finding signal into a modulated processed video signal with baseband position finding signal; andtransmitting in said transmitter said modulated processed video signal with baseband position finding signal. 13. The method of claim 9, further comprising method for a heart rate sensor for detecting and measuring heart rate, said heart rate sensor is in said mobile device. 14. The method claim 9, further comprising method for receiving a fingerprint generated signal, for processing said fingerprint generated signal into a fingerprint authentication signal, said fingerprint authentication signal is for authentication of said mobile device. 15. A method comprising steps of: receiving and demodulating in a mobile device an Orthogonal Frequency Division Multiplexed (OFDM) modulated signal into an OFDM baseband signal;processing said OFDM baseband signal into a processed spread spectrum baseband signal, said processed spread spectrum baseband signal comprises in-phase and quadrature-phase cross-correlated Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals;providing said spread spectrum cross-correlated baseband signals to a modulator for modulation of said spread spectrum cross-correlated baseband signals into a spread spectrum modulated signal;providing said spread spectrum modulated signal to a transmitter for transmission of said spread spectrum modulated signal;receiving and processing a signal into a baseband position finding signal;providing a photo camera generated signal to a processor for processing said photo camera generated signal with said baseband position finding signal into a processed photo camera signal with baseband position finding signal, for modulation in said modulator said processed photo camera signal with baseband position finding signal into a modulated processed photo camera signal with baseband position finding signal;transmitting in said transmitter said modulated processed photo camera signal with baseband position finding signal; andreceiving a fingerprint generated signal, for processing said fingerprint generated signal into a fingerprint authentication signal, said fingerprint authentication signal is for authentication of said mobile device. 16. The method claim 15, further comprising method for a heart rate sensor for detecting and measuring heart rate, said heart rate sensor is in said mobile device. 17. The method claim 15, further comprising method for generating and transmitting an infrared (IR) signal. 18. The method claim 15, further comprising method for receiving a touch screen generated signal for providing from said touch screen generated signal a touch screen control signal, wherein said control signal is used for control of said mobile device. 19. The method claim 15, further comprising a method for modulation of a first Gaussian Minimum Shift Keying (GMSK) transmit filter filtered baseband signal into a first filtered modulated GMSK signal, said first filtered modulated GMSK signal comprises cross-correlated in-phase and quadrature phase Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals, and demodulating a second GMSK modulated signal into a second GMSK receive filter filtered baseband signal, said transmit filter and said receive filter is mis-matched or further comprising a motion detector, said motion detector generates a motion detector signal for control of said mobile device. 20. The method claim 15, further comprising method for generating a control signal, in said mobile device, said control signal is for remote control of an airborne device.
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