Method for the broadcasting of digital data, notably for radio broadcasting at high bit rate towards mobile receivers, with time-frequency interlacing and coherent demodulation
First Claim
1. A receiver of a digital signal transmitted in a transmission channel on a plurality of orthogonal frequency carriers,said digital signal being formed of data elements grouped in symbols comprising first symbols and second symbols, at least two of said first symbols being inserted between any two of said second symbols, said first symbols consisting entirely of N of said data elements and second symbols comprising N-P of said data elements and P reference elements, said reference elements being regularly distributed among said data elements in such a way that at least two consecutive data elements are inserted between each two reference elements,each of said symbols being transmitted on N orthogonal frequency carriers for simultaneous broadcast;
- the receiver comprising;
means for recovering said reference elements and for estimating a response of the transmission channel consisting in a demodulation sample for each of said frequency carriers of said plurality of orthogonal frequency carriers, from the recovered reference elements, said means for recovering comprising;
first means for interpolation filtering of the reference elements of a second symbol to recover demodulation reference samples for each data elements of said second symbol;
second means for interpolation filtering of the recovered demodulation reference samples of said second symbols, on each of said frequency carriers for a set of successive data elements included between two successive second symbols to recover demodulation reference samples for each data elements of each of said first symbols;
means for projecting each of the frequency carriers of said plurality of orthogonal frequency carriers on the corresponding demodulation sample of the estimated response of the transmission channel, carrying out a coherent demodulation of each of said frequency carriers.
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Accused Products
Abstract
A method for the broadcasting of digital data, intended to be received notably by mobile receivers moving about in an urban environment, that is, under conditions of multiple propagation and in the presence of parasites and jamming, enabling a coherent demodulation under such conditions of reception. This method is one for the broadcasting of digital data, notably for radio broadcasting at a high bit rate towards mobile receivers, of the type providing for the distribution of the data in the form of digital elements in the frequency-time space f-t and the transmission of symbols each constituted by a multiplex of N orthogonal carrier frequencies modulated by a set of digital elements and broadcast simultaneously, certain of the digital elements being reference elements with a value and position in the frequency-time space f-t that are known to the receivers.
149 Citations
6 Claims
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1. A receiver of a digital signal transmitted in a transmission channel on a plurality of orthogonal frequency carriers,
said digital signal being formed of data elements grouped in symbols comprising first symbols and second symbols, at least two of said first symbols being inserted between any two of said second symbols, said first symbols consisting entirely of N of said data elements and second symbols comprising N-P of said data elements and P reference elements, said reference elements being regularly distributed among said data elements in such a way that at least two consecutive data elements are inserted between each two reference elements, each of said symbols being transmitted on N orthogonal frequency carriers for simultaneous broadcast; the receiver comprising; means for recovering said reference elements and for estimating a response of the transmission channel consisting in a demodulation sample for each of said frequency carriers of said plurality of orthogonal frequency carriers, from the recovered reference elements, said means for recovering comprising; first means for interpolation filtering of the reference elements of a second symbol to recover demodulation reference samples for each data elements of said second symbol; second means for interpolation filtering of the recovered demodulation reference samples of said second symbols, on each of said frequency carriers for a set of successive data elements included between two successive second symbols to recover demodulation reference samples for each data elements of each of said first symbols; means for projecting each of the frequency carriers of said plurality of orthogonal frequency carriers on the corresponding demodulation sample of the estimated response of the transmission channel, carrying out a coherent demodulation of each of said frequency carriers. - View Dependent Claims (2, 3)
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4. A method of broadcasting in a transmission channel and receiving in a mobile receiver a digital source signal, the method comprising the steps of:
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forming a series of useful data elements representative of said digital source signal; supplying reference elements to aid in coherent demodulation, said reference elements having a value known by said receiver; providing for N orthogonal frequency carriers to be simultaneously broadcast; forming first symbols consisting entirely of N of said data elements; forming second symbols comprising N-P of said data elements and P reference elements, said reference elements being regularly distributed among said data elements in such a way that at least two consecutive data elements are inserted between each two reference elements; forming a series of symbols comprising first symbols and second symbols, at least two of said first symbols being inserted between each two of said second symbols; broadcasting said series of symbols, the broadcasting of a symbol consisting of simultaneously modulating and broadcasting each of said frequency carriers with a distinct element of said symbol; receiving said series of symbols; recovering said reference elements of said second symbols; estimating a demodulation reference sample for each of said data elements of said symbols from recovered demodulation reference samples, comprising the steps of; first interpolation filtering of the reference elements of a second symbol to recover demodulation reference samples for each of the data elements of said second symbol; second interpolation filtering of the recovered demodulation reference samples of said second symbols on each of said frequency carriers for a set of successive data elements included between two successive second symbols to recover demodulation reference samples for each data elements of each of said first symbols; projecting each of said frequency carriers of each of said symbols on the corresponding demodulation reference samples to carry out a coherent demodulation of said frequency carriers, said reference elements of any one of said second symbols being separated from adjacent reference elements by a frequency Δ
F smaller than or equal to 1/(2Tm), Tm being the maximum value of the spread of the pulse response of the transmission channel, andsaid second symbols being separated from adjacent second symbols by a period Δ
T smaller than or equal to 1/(2fmax), fmax being the maximum Doppler frequency determined according to the equation;
space="preserve" listing-type="equation">f.sub.max =f.sub.0 v/cwhere; f0 is the maximum carrier frequency, v is the maximum speed of movement of said mobile receiver, c is the velocity of light. - View Dependent Claims (5, 6)
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Specification