Transmission system for OFDM-signals with optimized synchronization
Abstract
The present invention relates to a transmission apparatus for transmitting OFDM-signals comprising modulation means 4 for modulating said signals onto a plurality of subcarriers using a OFDM-modulation method, transformation means 5 for transforming said modulated signals into the time domain, and transmission means for transmitting said signals, whereby in said modulation means every M-th subcarrier is modulated, wherein M is an integer and M≧ 2. The present invention also relates to a corresponding transmission method for transmitting OFDM-signals. The present invention further relates to a receiving apparatus for receiving OFDM-signals comprising M identical or respectively mirrored wave forms within one OFDM-timeburst, wherein M is an integer and ≧ 2, comprising receiving means for receiving said OFDM-signals, correlation means 22 for correlating said wave forms to obtain time synchronization, transformation means 23 for transforming said signals into the frequency domain and demodulation means 24 for demodulating said signals. The present invention also relates to a corresponding receiving method for receiving OFDM-signals. The present invention provides a much better time and frequency synchronisation performance based on correlation techniques than conventional OFDM-systems.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. Transmission method for transmitting OFDM-signals, comprising the steps of
modulating said signals onto a plurality of subcarriers using a OFDM-modulation method,
transforming said modulated signals into the time domain, and
transmitting said signals characterized in that in said modulating step every M-th subcarrier is modulated with a signal, wherein M is an integer and M≧2.
2. Transmission method according to claim 1 , characterized in, that the not modulated subcarriers are set to zero.
3. Transmission method according to claim 1 , characterized in, that M=2 and only subcarriers with even indices are modulated.
4. Transmission method according to claim 1 , characterized in, that said modulation step comprises the steps of
generating integer values form 0 to L−1, wherein L is the number of available subcarriers, and
modulating every M-th signal onto said subcarriers on the basis of said integer values.
5. Transmission method according to claim 1 , wherein:
said modulating step includes providing a switch control signal to a switch having a first input and a second input, wherein the first input receives a signal to be modulated onto a subcarrier and the second input receives a zero value signal.
6. Transmission apparatus for transmitting OFDM-signals, comprising:
modulation means ( 4 ) for modulating said signals onto a plurality of subcarriers using a OFDM-modulation method,
transformation means ( 5 ) for transforming said modulated signals into the time domain, and
transmission means for transmitting said signals characterized in that in said modulation means every M-th subcarrier is modulated, wherein M is an integer and M≧2.
7. Transmission apparatus according to claim 6 , characterized in, that in said modulation means ( 4 ) the not modulated subcarriers are set to zero.
8. Transmission apparatus according to claim 6 , characterized in, that in said modulation means ( 4 ) M=2 and only subcarriers with even indices are modulated.
9. Transmission apparatus according to claim 6 , characterized in that said modulation means ( 4 ) comprises means ( 10 ) for generating integer values from 0 to L−1, wherein L is the number of available subcarriers, whereby said modulation means (4) modulates every M-th signal onto said subcarriers on the basis of said integer values.
10. Transmission-apparatus according to claim 6 , wherein:
said modulation means includes a switch having a first input and a second input, wherein the first input receives a signal to be modulated onto a subcarrier and the second input receives a zero value signal.
11. Receiving method for receiving OFDM-signals comprising M identical or respectively mirrored wave forms within one OFDM-timeburst, wherein M is an integer and M≧2, comprising the steps of
receiving said OFDM-signals,
correlating said waveforms to obtain time synchronization using M−1 correlators,
transforming said signals into the frequency domain, and
demodulating said signals.
12. Receiving method according to claim 11 , characterized in, that in said correlation step said wave form parts are correlated on the basis of a delay value L 1 =S/M samples and averaged over L 2 ≦S/M samples, whereby S is the total number of samples in one OFDM-timeburst.
13. Receiving method according to claim 11 , characterized in, that after said correlation step a peak detection step is carried out to provide time synchronization for said transformation of said signals into the frequency domain.
14. Receiving method according to claim 11 , characterized in, that after said correlation step a frequency offset detection step is carried out to provide frequency synchronization for said transformation of said signals into the frequency domain.
15. Receiving apparatus for receiving OFDM-signals comprising M identical or respectively mirrored wave forms within one OFDM-timeburst, wherein M is an integer and M≧2, comprising:
receiving means for receiving said OFDM-signals,
correlating means ( 28 , 29 , 30 , 31 ) correlating said waveforms to obtain time synchronization, wherein said correlation means includes M−1 correlators,
synchronization, transformation means for transforming said signals into the frequency domain, and
demodulating said signals.
16. Receiving apparatus according to claim 15 , characterized in, that in said correlation means ( 28 , 29 , 30 , 31 ) said identical wave forms are correlated on the basis of a delay value L 1 =S/M and averaged over L 2 ≦S/M samples, whereby S is the total number of samples in one OFDM-timeburst.
17. Receiving apparatus according to claim 15 , characterized in, that after said correlation means ( 28 , 29 , 30 , 31 ) a peak detection means ( 46 ) is provided for providing time synchronization for said transformation of said signals into the frequency domain.
18. Receiving apparatus according to claim 15 , characterized in, that after said correlation means ( 28 , 29 , 30 , 31 ) a frequency offset detection means ( 47 ) is provided for providing frequency synchronization for said transformation of said signals into the frequency domain.
19. Transmission system for transmitting OFDM-signals, comprising:
a transmission apparatus including modulation means for modulating said signals onto a plurality of subcarriers by OFDM-modulation, transformation means for transforming said modulated signals into the time domain, and transmission means for transmitting said signals characterized in that in said modulation means every M-th subcarrier is modulated, wherein M is an integer greater than or equal to 2; and
a receiving apparatus for receiving said OFDM-signals having M identical or respectively mirrored waveforms within one OFDM-timeburst, including receiving means for receiving said OFDM-signals, correlation means for correlating said waveforms to obtain time synchronization, transformation means for transforming said signals into the frequency domain, and demodulation means for demodulating said transformed signals.
20. A method for generating synchronization signals to be transmitted to a receiver device in an wireless communication system, the method comprising:
obtaining a frequency domain sequence by modulating synchronization signals onto every 4 th subcarrier of a plurality of available subcarriers used in the wireless communication system; generating a time domain sequence by performing inverse discrete Fourier transformation on the frequency domain sequence to generate a time domain sequence, wherein the time domain sequence contains 4 identical waveforms; and generating the synchronization signals to be transmitted from the time domain sequence.
21. A transmission apparatus configured to transmit signals, the transmission apparatus comprising:
circuitry configured to
modulate the signals onto a first plurality of subcarriers using a modulation method, wherein every 4 th subcarrier of a second plurality of subcarriers corresponds to the first plurality of subcarriers;
transform the first plurality of modulated subcarriers into the time domain by performing inverse discrete Fourier transform; and
transmit the time domain transformed modulated subcarriers.Cited by (0)
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