At the transmitter side, carrier waves are modulated according to an input signal for producing relevant signal points in a signal space diagram. The input signal is divided into, two, first and second, data streams. The signal points are divided into signal point groups to which data of the first d
At the transmitter side, carrier waves are modulated according to an input signal for producing relevant signal points in a signal space diagram. The input signal is divided into, two, first and second, data streams. The signal points are divided into signal point groups to which data of the first data stream are assigned. Also, data of the second data stream are assigned to the signal points of each signal point group. A difference in the transmission error rate between first and second data streams is developed by shifting the signal points to other positions in the space diagram expressed at least in the polar coordinate system. At the receiver side, the first and/or second data streams can be reconstructed from a received signal. In TV broadcast service, a TV signal is divided by a transmitter into, low and high, frequency band components which are designated as a first and a second data streams respectively. Upon receiving the TV signal, a receiver can reproduce only the low frequency band component or both the low and high frequency band components, depending on its capability. Furthermore, a communication system based on an OFDM system is utilized for data transmission of a plurality of subchannels, wherein the subchannels are differentiated by changing the length of a guard time slot or a carrier wave interval of a symbol transmission time slot, or changing the transmission electric power of the carrier.
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What is claimed is: 1. A signal transmission apparatus comprising: a modulator operable to assign a data stream of layer A and a data stream of layer B to a respective constellation in a signal space to produce a modulated signal of layer A and a modulated signal of layer B, a converter operable t
What is claimed is: 1. A signal transmission apparatus comprising: a modulator operable to assign a data stream of layer A and a data stream of layer B to a respective constellation in a signal space to produce a modulated signal of layer A and a modulated signal of layer B, a converter operable to convert said modulated signal of layer A and said modulated signal of layer B into a converted signal in layer A and a converted signal in layer B respectively, according to orthogonal frequency division multiplexing, wherein each converted signal has an effective symbol signal and a guard interval signal, and a transmitter operable to transmit said converted signals, wherein the period of said guard interval signal in layer A is larger than the period of said guard interval signal in layer B. 2. A signal transmission apparatus according to claim 1, wherein a source divides into said data stream of layer A and said data stream of layer B. 3. A signal receiving apparatus comprising: a recieved signal in layer A, and a recieved signal in layer B, a converter operable to convert said received signal in layer A and said received signal in layer B into a converted signal in layer A and a converted signal in layer B, respectively, according to orthogonal frequency division multiplexing, wherein each recieved signal has an effective symbol signal and a guard interval signal, and a demodulator operable to demodulate said converted signal in layer A and said converted signal in layer B to produce a data stream of layer A and a data stream of layer B, wherein the period of said guard interval signal in layer A is larger than the period of said guard interval signal in layer B. 4. A signal transmission system comprising a signal transmission apparatus and a signal receiving apparatus, said signal transmission apparatus comprising; a modulator operable to assign a data stream of layer A and a data stream of layer B to a respective constellation in a signal space to produce a modulated signal of layer A and a modulated signal of layer B, a frequency-time converter operable to convert said modulated signal of layer A and said modulated signal of layer B into a frequency-time converted signal in layer A and a frequency-time converted signal in layer B respectively, according to orthogonal frequency division multiplexing, wherein each frequency-time converted signal has an effective symbol signal and a guard interval signal, and a transmitter operable to transmit said frequency-time converted signal in layer A and said frequency-time converted signal in layer B, and said signal receiving apparatus comprising; a time-frequency converter operable to convert said frequency-time converted signal in layer A and said frequency-time converted signal in layer B into a time-frequency converted signal in layer A and a time-frequency converted signal in layer B, respectively, according to orthogonal frequency division multiplexing, and a demodulator operable to demodulate said time-frequency converted signal in layer A and said time-frequency converted signal in layer B to produce said data stream of layer A and said data stream of layer B, wherein the period of said guard interval signal in layer A is larger than the period of said guard interval signal in layer B. 5. A signal transmission system according to claim 4, wherein a source divides into said data stream of layer A and said data stream of layer B. 6. A signal transmission method comprising: assigning a data stream of layer A and a data stream of layer B to a respective constellation in a signal space to produce a modulated signal of layer A and a modulated signal of layer B, converting said modulated signal of layer A and said modulated signal of layer B into a converted signal in layer A and a converted signal in layer B respectively, according to orthogonal frequency division multiplexing, wherein each converted signal comprises an effective symbol signal and a guard interval signal, and transmitting said converted signals, wherein the period of said guard interval signal in layer A is larger than the period of said guard interval signal in layer B. 7. A signal transmission method according to claim 6, wherein a source divides into said data stream of layer A and said data stream of layer B. 8. A signal receiving method comprising: a received signal in layer A, and a received signal in layer B, converting said received signal in layer A and said received signal in layer B into a converted signal in layer A and a converted signal in layer B, respectively, according to orthogonal frequency division multiplexing, wherein each converted signal has an effective symbol signal and a guard interval signal, and demodulating said converted signal in layer A and said converted signal in layer B into a data stream of layer A and a data stream of layer B, wherein the period of said guard interval signal in layer A is larger than the period of said guard interval signal in layer B. 9. A signal transmission and receiving method comprising a signal transmission method and a signal receiving method, said signal transmission method comprising; assigning a data stream of layer A and a data stream of layer B to a respective constellation in a signal space to produce a modulated signal of layer A and a modulated signal of layer B, frequency-time converting said modulated signal of layer A and said modulated signal of layer B into a frequency-time converted signal in layer A and a frequency-time converted signal in layer B respectively, according to orthogonal frequency division multiplexing, wherein each frequency-time converted signal has an effective symbol signal and a guard interval signal, and transmitting said frequency-time converted signal in layer A and said frequency-time converted signal in layer B, and said signal receiving apparatus comprising; time-frequency converting said frequency-time converted signal in layer A and said frequency-time converted signal in layer B into a time-frequency converted signal in layer A and a time-frequency converted signal in layer B, respectively, according to orthogonal frequency division multiplexing, and demodulating said time-frequency converted signal in layer A and said time-frequency converted signal in layer B to produce said data stream of layer A and said data stream of layer B, and wherein the period of said guard interval signal in layer A is larger than the period of said guard interval signal in layer B. 10. A signal transmission method according to claim 9, wherein a source divides into said data stream of layer A and said data stream of layer B. 11. A signal transmission apparatus according to claim 1, wherein the converter is an inverse Fast Fourier transformer. 12. A signal transmission apparatus according to claim 3, wherein the converter is a Fast Fourier transformer. 13. A signal transmission apparatus according to claim 4, wherein the frequency-time converter is an inverse Fast Fourier transformer, and the time-frequency converter is a Fast Fourier transformer.
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