RU2002131453A - Device and method for transmit diversity using more than two antennas - Google Patents

Claims (20)

1. The transmitter of the terrestrial radio access network UMTS (universal mobile telecommunications system) (NSDS), having at least four antennas in a mobile communication system containing a first adder connected to the first antenna, to summarize the first expanded signal created by the extension the first symbol pattern with the first orthogonal code, and the second extended signal generated by extending the first symbol pattern with a second orthogonal code orthogonal to the first orthogonal code, the second a second adder connected to the second antenna to add the first spread signal and a third spread signal created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern by the second orthogonal code, a third adder connected to the third antenna to add the fourth an extended signal generated by expanding a second symbol pattern orthogonal to the first symbol pattern, the first orthogonal code, and a fifth spread signal generated by expanding the second symbol pattern with a second orthogonal code, and a fourth adder connected to the fourth antenna to add the fourth spread signal and the sixth spread signal created by expanding the second inverted symbol pattern obtained by inverting the phase of the second character pattern with the second orthogonal code. 2. The transmitter according to claim 1, characterized in that the symbol patterns are symbol pilot patterns or symbol data patterns. 3. The terrestrial radio access network transmitter UMTS (Universal Mobile Telecommunications System) (NSDS) in a mobile communication system, comprising a first adder connected to a first antenna, for summing the first expanded signal created by multiplying the first symbol pattern by the amplification constant and expanding the product by the first an orthogonal code, and a second extended signal generated by extending the first symbol pattern with a second orthogonal code orthogonal to the first orthogonal to yes, a second adder connected to the second antenna to add the first spread signal and the third spread signal created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern by the second orthogonal code, the third adder connected to the third antenna, for summing the fourth expanded signal created by multiplying the second symbol pattern by a constant gain and expanding the product by the first orthogonal code, and the fifth spread signal generated by expanding the second symbol pattern with a second orthogonal code, and a fourth adder connected to the fourth antenna to add the fourth spread signal and the sixth spread signal created by expanding the second inverted symbol pattern resulting from inverting the phase of the second symbol pattern with the second orthogonal code. 4. The transmitter according to claim 3, characterized in that the symbol patterns are symbol pilot patterns or symbol data patterns. 5. The transmitter according to claim 3, characterized in that the gain constant is set so as to guarantee the functioning of the reception of a mobile station compatible with the transmitter NSDS, having less than four antennas. 6. The transmitter according to claim 3, characterized in that the gain constant is set so as to guarantee the functioning of the reception of a mobile station compatible with the transmitter NSDS, having two antennas. 7. A method of transmitting a signal in a terrestrial radio access network of a UMTS (universal mobile telecommunication system), (NSDS), having at least four antennas, in a mobile communication system, which consists in summing up the first extended signal created by expanding the first a symbol pattern with a first orthogonal code, and a second spread signal generated by extending the first symbol pattern with a second orthogonal code orthogonal to the first orthogonal code, and the sum is transmitted via the first antenna, summarizing the first spread signal and the third spread signal created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern by the second orthogonal code, and transmitting the sum through the second antenna, summarizing the fourth extended signal created by expanding the second symbol pattern, orthogonal to the first symbol pattern, the first orthogonal code, and the fifth extended signal generated by the extension of the second symbol bar womb second orthogonal code, and transmitting the sum through a third antenna and summing the fourth spread signal and a sixth spread signal created by expansion of the second inverted symbol pattern resulting from inverting the phase of the second symbol pattern the second orthogonal code, and transmitting the sum through a fourth antenna. 8. The transmitter according to claim 7, characterized in that the symbol patterns are symbol pilot patterns or symbol data patterns. 9. The method of transmitting a signal in the antennas of the terrestrial radio access network UMTS (universal mobile telecommunication system (NSDS) in a mobile communication system, which consists in summing up the first extended signal created by multiplying the first symbol pattern by a constant gain and expanding the product with the first orthogonal code and the second extended signal created by expanding the first symbol pattern with a second orthogonal code orthogonal to the first orthogonal code, and the sum is transmitted via the first antenna, the first spread signal and the third spread signal created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern by the second orthogonal code are added, and the sum is transmitted through the second antenna, the fourth spread signal created by multiplying the second symbol pattern for constant amplification and expansion of the product by the first orthogonal code, and the fifth extended signal created by the expansion of the second -th symbol pattern by the second orthogonal code, and the sum is transmitted through the third antenna, and the fourth spread signal and the sixth spread signal created by expanding the second inverted symbol pattern obtained by inverting the phase of the second symbol pattern by the second orthogonal code are added, and the sum is transmitted through the fourth the antenna. 10. The method according to claim 9, characterized in that the gain constant is set so as to guarantee the functioning of the reception of a mobile station compatible with the transmitter of the NSDS, having less than four antennas. 11. The method according to claim 9, characterized in that the gain constant is set so as to guarantee the functioning of the reception of a mobile station that is compatible with the transmitter NSDS, having two antennas. 12. The method according to claim 9, characterized in that the symbolic patterns are symbolic pilot patterns or symbolic data patterns, wherein the symbolic data patterns are code blocks generated by the use of transmit diversity based on space-time block coding (RPCV) . 13. The transmitter of the terrestrial radio access network UMTS (universal mobile telecommunications system (NSDS), having at least four antennas, in a mobile communication system containing a first adder connected to the first antenna, to summarize the first extended signal created by the extension of the first a symbol pattern with a first orthogonal code, and a second extended signal generated by extending the first symbol pattern with a second orthogonal code orthogonal to the first orthogonal code, when The first orthogonal code has chips of all zeros (0), and the second orthogonal code has zeros (0) in the first half of chips and units (1) in the second half of chips, the second adder connected to the second antenna to sum the first an extended signal and a third extended signal created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern with a second orthogonal code, a third adder, connected the third antenna, to summarize the fourth extended signal created by expanding the second symbol pattern orthogonal to the first symbol pattern, the first orthogonal code, and the fifth extended signal created by expanding the second symbol pattern by the second orthogonal code, and the fourth adder connected to a fourth antenna to add the fourth spread signal and the sixth spread signal created by spreading the second inverted symbol bar womb obtained by inverting the phase of the second symbol pattern orthogonal to the second code. 14. The transmitter according to item 13, wherein the symbol patterns are symbol pilot patterns or symbol data patterns. 15. The method of transmitting a signal in the terrestrial radio access network UMTS (universal mobile telecommunications system) (NSDS), having at least four antennas, in a mobile communication system, namely, that summarizes the first extended signal created by the extension of the first character the template with the first orthogonal code, and the second extended signal generated by extending the first symbol pattern with the second orthogonal code orthogonal to the first orthogonal code, and the sum is transmitted through the first ant well, whereby the first orthogonal code has chips of all zeros (0), and the second orthogonal code has zeros (0) in the first half of chips and units (1) in the second half of chips, summarize the first spread signal and the third spread signal, created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern by the second orthogonal code, and transmit the sum through the second antenna, the fourth extended signal is summed, with given by expanding the second symbol pattern orthogonal to the first symbol pattern, the first orthogonal code, and the fifth extension signal generated by expanding the second symbol pattern by the second orthogonal code, and transmit the sum through the third antenna, and the fourth extension signal and the sixth extended signal are summed, created by expanding the second inverted symbol pattern obtained by inverting the phase of the second symbol pattern by the second orthogonal code, and not edayut sum through a fourth antenna. 16. The method according to clause 15, wherein the symbol patterns are symbol pilot patterns or symbol data patterns. 17. A mobile station in a mobile communication system that receives first to fourth transmission signals over at least four antenna transmission channels, the first transmission signal being the sum of the first extended signal created by expanding the first symbol pattern with a first orthogonal code, and the second extended signal created by expanding the first symbol pattern with a second orthogonal code orthogonal to the first orthogonal code, the second transmission signal is the sum of the first the irrenal signal and the third extended signal created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern by the second orthogonal code, the third transmission signal is the sum of the fourth extended signal created by expanding the second symbol pattern orthogonal to the first symbol pattern, the first orthogonal code, and the fifth extended signal created by expanding the second symbol pattern with the second a tohonal code, and the fourth transmit signal is the sum of the fourth spread signal and the sixth spread signal created by expanding the second inverted symbol pattern obtained by inverting the phase of the second symbol pattern by a second orthogonal code, comprising a plurality of signal compression devices for generating the first compressed signal using a first orthogonal code and a first symbol pattern, a second compressed signal using the first orthogonally about a code and a second symbol pattern, a third compressed signal using a second orthogonal code and a first symbol pattern and a fourth compressed signal using a second orthogonal code and a second symbol pattern, and a plurality of adders for generating an estimate signal of the first channel by summing the first and third compressed signals , a second channel estimation signal by summing the second and fourth compressed signals, a third channel estimation signal by subtracting the third compressed signal from the first compressed signal and the estimation signal of the fourth channel by subtracting the fourth compressed signal from the second compressed signal. 18. The mobile station of claim 17, wherein the symbol patterns are symbol pilot patterns or symbol data patterns. 19. A method of receiving a signal in a mobile station of a mobile communication system, which consists in receiving from the first to fourth transmission signals on at least four antenna transmission channels, the first transmission signal being the sum of the first extended signal created by the extension of the first a symbol pattern with a first orthogonal code, and a second extended signal generated by extending the first symbol pattern with a second orthogonal code orthogonal to the first orthogonal code, a second signal the transmission signal is the sum of the first extended signal and the third extended signal created by expanding the first inverted symbol pattern obtained by inverting the phase of the first symbol pattern by the second orthogonal code, the third transmission signal is the sum of the fourth extended signal created by expanding the second symbol pattern the first symbol pattern, the first orthogonal code, and the fifth extended signal generated by the extension the second symbol pattern with the second orthogonal code, and the fourth transmission signal is the sum of the fourth spread signal and the sixth spread signal created by expanding the second inverted symbol pattern obtained by inverting the phase of the second symbol pattern with the second orthogonal code, the first compressed signal is generated using signal compression transmitting the first orthogonal code and the first symbol pattern, the second compressed signal using signal compression the first orthogonal code and the second symbol pattern, the third compressed signal using compression of the transmission signals of the second orthogonal code and the first symbol pattern and the fourth compressed signal using the compression of transmission signals of the second orthogonal code and the second symbol pattern, and the signal of the first channel is estimated by summing the first and a third compressed signal, a second channel signal by summing a second and fourth compressed signal, a third channel signal by subtracting a third th despread signal from the first despread signal and the fourth channel signal by subtracting the fourth despread signal from the second despread signal. 20. The method according to claim 19, characterized in that the symbol patterns are symbol pilot patterns or symbol data patterns.