Interference-Rejection Coding Method For An Optical Wireless Communication System And The Optical Wireless Communication System Thereof
First Claim
1. An interference-rejection coding method for being used in an optical wireless communication system having an optical wireless transmitter and an optical wireless receiver, said method comprising the steps of:
- (a) encoding a data signal for transmission using a block code encoder with a block code and generating an encoded block code;
(b) delay modulating said encoded block code into a modulated code using a delay modulation unit of delay modulation technique;
(c) converting said modulated code into an optical data signal for transmission;
(d) converting said optical data signal back to an electrical data signal;
(e) filtering out low frequency interferences in said electrical data signal to generate a filtered signal;
(f) delay demodulating said filtered signal into a demodulated data signal using a demodulator of delay modulation technique; and
(g) decoding said demodulated data signal, thereby to obtain a corresponding original data signal;
wherein said block code encoder makes the number of bits 0 and 1 passing through said delay modulation unit equal.
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Abstract
An interference-rejection coding method for an optical wireless communication system and such an optical wireless communication system are provided. The coding method uses delay modulation, block code techniques and filtering to reduce the low frequency interference from light sources. A plurality of codewords from the block codes are reserved for performing digital data recovery. The invention removes the need of analog clock data recovery circuit, and does not require complex hardware for realization. Therefore, it can be applied to a wide range of applications, such as optical WLAN, data transmission of medical facilities, wireless communication in the aircraft, encrypted data transmission network, and low-priced transmission interfaces.
63 Citations
6 Claims
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1. An interference-rejection coding method for being used in an optical wireless communication system having an optical wireless transmitter and an optical wireless receiver, said method comprising the steps of:
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(a) encoding a data signal for transmission using a block code encoder with a block code and generating an encoded block code; (b) delay modulating said encoded block code into a modulated code using a delay modulation unit of delay modulation technique; (c) converting said modulated code into an optical data signal for transmission; (d) converting said optical data signal back to an electrical data signal; (e) filtering out low frequency interferences in said electrical data signal to generate a filtered signal; (f) delay demodulating said filtered signal into a demodulated data signal using a demodulator of delay modulation technique; and (g) decoding said demodulated data signal, thereby to obtain a corresponding original data signal; wherein said block code encoder makes the number of bits 0 and 1 passing through said delay modulation unit equal. - View Dependent Claims (2, 3, 4)
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5. An optical wireless communication system, comprising an optical wireless transmitter and an optical wireless receiver, said optical wireless transmitter further comprising:
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a block code encoder for encoding a data signal for transmission with a block code and generating an encoded block code; a delay modulation unit for modulating said encoded block code into a modulated electrical data signal; and an electrical-to-optical converter for converting said modulated electrical data signal into an optical data signal for transmission through a wireless channel; and said optical wireless receiver further comprising; an optical-to-electrical converter and receiver for receiving and converting said optical data signal into an electrical data signal; a band-pass filter for filtering out low frequency interferences in said electrical signal to generate a filtered signal; a delay demodulator for demodulating said filtered signal into a demodulated data signal; and a block code decoder for decoding said demodulated data signal to thereby obtain a corresponding original data signal; wherein said block code encoder makes the number of bits 0 and 1 passing through said delay modulation unit equal. - View Dependent Claims (6)
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Specification