Diversity transmission in a mobile radio system

US 6,636,495 B1
Filed: 07/15/1999
Issued: 10/21/2003
Est. Priority Date: 06/24/1999
Status: Expired due to Term

First Claim

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1. A diversity transmission method that creates, from a transmission signal, a first signal with a first identification and a second signal with a second identification which are transmitted via a plurality of spaced antennas, wherein the method further comprises:

dividing the plurality of antennas into a first antenna group and a second antenna group, transmitting the first signal via the first antenna group and the second signal via the second antenna group, redividing the plurality of antennas into a new first antenna group and a new second antenna group, and retransmitting the first signal via the new first antenna group and the second signal via the new second antenna group, wherein the redivision of the plurality of antennas into new groups and the retransmission of the first and second signals via the new antenna groups is repeated until the total number of antenna groups equals a predetermined number.

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Abstract

In a known diversity transmission method, two signals with different identifications are transmitted via two spaced antennas. To be able to apply the diversity principle to more than two antennas, a novel method and a novel base station are proposed. The novel base station comprises two transmitting apparatuses and an assignment apparatus connected thereto which establish connections between each of the two transmitting apparatuses and each of the antennas. The base station further comprises a computing and control apparatus that is connected to the assignment apparatus, which divides the antennas into a first antenna group and a second antenna group, and controls the switching of the connections in such a way that the first antenna group is connected to the first transmitting apparatus, and the second antenna group to the second transmitting apparatus. By several different divisions of the antennas into a first antenna group and a second antenna group, the amplitude and phase differences (phi) existing between the signals at the receiver can be compensated for even if more than two antennas are used. It is also possible to determine that grouping of the antennas with which the highest diversity gain is achieved.

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18 Claims

1. A diversity transmission method that creates, from a transmission signal, a first signal with a first identification and a second signal with a second identification which are transmitted via a plurality of spaced antennas, wherein the method further comprises:
- dividing the plurality of antennas into a first antenna group and a second antenna group, transmitting the first signal via the first antenna group and the second signal via the second antenna group, redividing the plurality of antennas into a new first antenna group and a new second antenna group, and retransmitting the first signal via the new first antenna group and the second signal via the new second antenna group, wherein the redivision of the plurality of antennas into new groups and the retransmission of the first and second signals via the new antenna groups is repeated until the total number of antenna groups equals a predetermined number.
- View Dependent Claims (2)
- - 2. The diversity transmission method as claimed in claim 1, wherein the predetermined number of antenna groups is the maximum number of possible antenna groups.

3. A diversity transmission method that creates, from a transmission signal, a first signal with a first identification and a second signal with a second identification which are transmitted via a plurality of spaced antennas, wherein the method further comprises:
- dividing the plurality of antennas into a first antenna group and a second antenna group, transmitting the first signal via the first antenna group and the second signal via the second antenna group, redividing the plurality of antennas into a new first antenna group and a new second antenna group, and retransmitting the first signal via the new first antenna group and the second signal via the new second antenna group, receiving the first and second signals and determining an amplitude difference and/or a phase difference existing between the two signals, and communicating the amplitude difference and/or phase difference to the transmitting location, where the amplitude and/or the phase position for one of the two antenna groups are changed.
- View Dependent Claims (4)
- - 4. The diversity transmission method as claimed in claim 3, wherein the amplitude and/or the phase position for one of the two antenna groups are changed by complex weighting.

5. A diversity transmission method that creates, from a transmission signal, a first signal with a first identification and a second signal with a second identification which are transmitted via a plurality of spaced antennas, wherein the method further comprises:
- dividing the plurality of antennas into a first antenna group and a second antenna group, transmitting the first signal via the first antenna group and the second signal via the second antenna group, redividing the plurality of antennas into a new first antenna group and a new second antenna group, and retransmitting the first signal via the new first antenna group and the second signal via the new second antenna group, wherein the number of antennas is equal to M, where the number M is a power of two, and for the division of the M antennas into two antenna groups, a Walsh-Hadamard matrix comprising M×
  
  M elements is formed having M columns assigned to a respective one of the M antennas, and having M rows, those M−
  
  1 rows which follow the first row each indicate an assignment of the antennas to one of the two antenna groups, so that M−
  
  1 different groupings are possible, and that the predetermined value for the number of antenna groups formed is equal to 2 times M−
  
  1.

6. A diversity transmission method that creates, from a transmission signal, a first signal with a first identification and a second signal with a second identification which are transmitted via a plurality of spaced antennas, wherein the method further comprises:
- dividing the plurality of antennas into a first antenna group and a second antenna group, transmitting the first signal via the first antenna group and the second signal via the second antenna group, redividing the plurality of antennas into a new first antenna group and a new second antenna group, and retransmitting the first signal via the new first antenna group and the second signal via the new second antenna group, wherein the division of the plurality of antennas and transmission of the first and second signals is repeated if the transmission quality of the first and second signals falls below a predetermined value.

7. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, the base station comprising:
- a first transmitting means and a second transmitting means that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, assignment means for assigning each of the antennas to either the first or second transmitting means, and computing and control means connected to the assignment means, wherein the computing and control means divide the plurality of antennas into a first antenna group and a second antenna group, command the first transmitting means to transmit the first signal via the first antenna group and the second transmitting means to transmit the second signal via the second antenna group, redivide the plurality of antennas into a new first antenna group and a new second antenna group, and command the first transmitting means to transmit the first signal via the new first antenna group and the second transmitting means to transmit the second signal via the new second antenna group, wherein the division of the plurality of antennas into new groups and the transmission of the first and second signals via the new antenna groups is repeated until the total number of antenna groups equals a predetermined number.
- View Dependent Claims (8, 9)
- - 8. The base station as claimed in claim 7, wherein the predetermined number of antenna groups is the maximum number of possible antenna groups.
  - 9. The base station as claimed in claim 7, wherein the plurality of antennas is a phased array.

10. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, the base station comprising:
- a first transmitting means and a second transmitting means that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, assignment means for assigning each of the antennas to either the first or second transmitting means, and computing and control means connected to the assignment means, wherein the computing and control means divide the plurality of antennas into a first antenna group and a second antenna group, command the first transmitting means to transmit the first signal via the first antenna group and the second transmitting means to transmit the second signal via the second antenna group, redivide the plurality of antennas into a new first antenna group and a new second antenna group, and command the first transmitting means to transmit the first signal via the new first antenna group and the second transmitting means to transmit the second signal via the new second antenna group, wherein the base station changes the amplitude and/or the phase position for one of the two antenna groups based on an amplitude difference and/or a phase difference information transmitted back from a receiving location.
- View Dependent Claims (11, 12)
- - 11. The base station as claimed in claim 10, the base station further comprising complex weighting stages connected to the computing and control means and which change the amplitudes and phases of the signals transmitted via one of the antenna groups in response to control signals provided by the computing and control means.
  - 12. The base station as claimed in claim 10, wherein the plurality of antennas is a phased array.

13. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, wherein the number of spaced antennas is equal to M, where the number M is a power of two, the base station comprising:
- a first transmitting means and a second transmitting means that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, assignment means for assigning each of the antennas to either the first or second transmitting means, and computing and control means connected to the assignment means, wherein the computing and control means divide the plurality of antennas into a first antenna group and a second antenna group, command the first transmitting means to transmit the first signal via the first antenna group and the second transmitting means to transmit the second signal via the second antenna group, redivide the plurality of antennas into a new first antenna group and a new second antenna group, and command the first transmitting means to transmit the first signal via the new first antenna group and the second transmitting means to transmit the second signal via the new second antenna group, wherein when the computing and control means divides the M antennas into two antenna groups, a Walsh-Hadamard matrix comprising M×
  
  M elements is formed having M columns assigned to a respective one of the M antennas, and having M rows, those M−
  
  1 rows which follow the first row each indicate an assignment of the antennas to one of the two antenna groups, so that M−
  
  1 different groupings are possible, and that the predetermined value for the number of antenna groups formed is equal to 2 times M−
  
  1.

14. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, the base station comprising:
- a first transmitting means and a second transmitting means that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, assignment means for assigning each of the antennas to either the first or second transmitting means, and computing and control means connected to the assignment means, wherein the computing and control means divide the plurality of antennas into a first antenna group and a second antenna group, command the first transmitting means to transmit the first signal via the first antenna group and the second transmitting means to transmit the second signal via the second antenna group, redivide the plurality of antennas into a new first antenna group and a new second antenna group, and command the first transmitting means to transmit the first signal via the new first antenna group and the second transmitting means to transmit the second signal via the new second antenna group, wherein the division of the plurality of antennas and transmission of the first and second signals is repeated if the transmission quality of the first and second signals falls below a predetermined value.

15. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, the base station comprising:
- a first transmitter and a second transmitter that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, a switch for assigning each of the antennas to either the first or second transmitter, and a controller connected to the switch, wherein the controller divides the plurality of antennas into a first antenna group and a second antenna group, commands the first transmitter to transmit the first signal via the first antenna group and the second transmitter to transmit the second signal via the second antenna group, redivides the plurality of antennas into a new first antenna group and a new second antenna group, and commands the first transmitter to transmit the first signal via the new first antenna group and the second transmitter to transmit the second signal via the new second antenna group, wherein the division of the plurality of antennas into new groups and the transmission of the first and second signals via the new antenna groups is repeated until the total number of antenna groups equals a predetermined number.

16. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, the base station comprising:
- a first transmitter and a second transmitter that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, a switch for assigning each of the antennas to either the first or second transmitter, and a controller connected to the switch, wherein the a controller divides the plurality of antennas into a first antenna group and a second antenna group, commands the first transmitter to transmit the first signal via the first antenna group and the second transmitter to transmit the second signal via the second antenna group, redivides the plurality of antennas into a new first antenna group and a new second antenna group, and commands the first transmitter to transmit the first signal via the new first antenna group and the second transmitter to transmit the second signal via the new second antenna group, wherein the base station changes the amplitude and/or the phase position for one of the two antenna groups based on an amplitude difference and/or a phase difference information transmitted back from a receiving location.

17. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, wherein the number of spaced antennas is equal to M, where the number M is a power of two, the base station comprising:
- a first transmitter and a second transmitter that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, a switch for assigning each of the antennas to either the first or second transmitter, and a controller connected to the switch, wherein the controller divides the plurality of antennas into a first antenna group and a second antenna group, commands the first transmitter to transmit the first signal via the first antenna group and the second transmitter to transmit the second signal via the second antenna group, redivides the plurality of antennas into a new first antenna group and a new second antenna group, and commands the first transmitter to transmit the first signal via the new first antenna group and the second transmitter to transmit the second signal via the new second antenna group, wherein when the controller divides the M antennas into two antenna groups, a Walsh-Hadamard matrix comprising M×
  
  M elements is formed having M columns assigned to a respective one of the M antennas, and having M rows, those M−
  
  1 rows which follow the first row each indicate an assignment of the antennas to one of the two antenna groups, so that M−
  
  1 different groupings are possible, and that the predetermined value for the number of antenna groups formed is equal to 2 times M−
  
  1.

18. A base station for a mobile radio system that is connected to a plurality of spaced antennas for diversity transmitting, the base station comprising:
- a first transmitter and a second transmitter that create, from a transmission signal, a first signal with a first identification and a second signal with a second identification, respectively, wherein the base station transmits the two signals via the spaced antennas, a switch for assigning each of the antennas to either the first or second transmitter, and a controller connected to the switch, wherein the controller divides the plurality of antennas into a first antenna group and a second antenna group, commands the first transmitter to transmit the first signal via the first antenna group and the second transmitter to transmit the second signal via the second antenna group, redivides the plurality of antennas into a new first antenna group and a new second antenna group, and commands the first transmitter to transmit the first signal via the new first antenna group and the second transmitter to transmit the second signal via the new second antenna group, wherein the division of the plurality of antennas and transmission of the first and second signals is repeated if the transmission quality of the first and second signals falls below a predetermined value.

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Current Assignee
RPX Corporation
Original Assignee
Alcatel SA (Nokia Corporation)
Inventors
Tangemann, Michael
Primary Examiner(s)
Trost, William
Assistant Examiner(s)
Tran, Congvan

Application Number

US09/353,354
Time in Patent Office

1,559 Days
Field of Search

455/101, 455/102, 455/103, 455/561, 455/562, 455/403, 455/418, 455/428, 455/562.1, 455/137, 375/293, 375/299, 375/312, 370/334, 370/335, 370/332
US Class Current

370/334
CPC Class Codes

H01Q 1/246   specially adapted for base ...

H01Q 3/26   varying the relative phase ...

H04B 7/0626   Channel coefficients, e.g. ...

H04B 7/10   Polarisation diversity; Dir...

Diversity transmission in a mobile radio system

First Claim

9 Assignments

0 Petitions

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Abstract

178 Citations

18 Claims

Specification

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Diversity transmission in a mobile radio system

First Claim

9 Assignments

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0 Petitions

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Accused Products

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Abstract

178 Citations

18 Claims

Specification

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Solutions

Use Cases

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