PN generators for spread spectrum communications systems
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-007/216
H04B-001/69
출원번호
US-0659831
(2003-09-10)
등록번호
US-8611310
(2013-12-17)
발명자
/ 주소
Black, Peter J.
Padovani, Roberto
Weaver, Jr., Lindsay A.
출원인 / 주소
Qualcomm Incorporated
대리인 / 주소
Katbab, Abdollah
인용정보
피인용 횟수 :
1인용 특허 :
25
초록▼
Techniques to improve the acquisition process in a spread spectrum environment. The signals from different CDMA systems are spread with different sets of PN sequences, with the PN sequences in each set being uncorrelated to the PN sequences in the other sets. The mobile station can attempt to acquir
Techniques to improve the acquisition process in a spread spectrum environment. The signals from different CDMA systems are spread with different sets of PN sequences, with the PN sequences in each set being uncorrelated to the PN sequences in the other sets. The mobile station can attempt to acquire the pilot signal by processing the received signal with a first set of PN sequences corresponding to a first hypothesis of the particular signal being acquired. If acquisition of the pilot signal fails, a second set of PN sequences corresponding to a second hypothesis is selected and used to process the received signal. The PN sequences in the second set are uncorrelated to the PN sequences in the first set.
대표청구항▼
1. An apparatus, comprising: a first device to transmit at a first frequency;a first PN generator to generate a first PN sequence at a first offset, the first PN sequence comprising a first in-phase PN sequence and a first quadrature PN sequence;a first spreader to receive and spread a first pilot d
1. An apparatus, comprising: a first device to transmit at a first frequency;a first PN generator to generate a first PN sequence at a first offset, the first PN sequence comprising a first in-phase PN sequence and a first quadrature PN sequence;a first spreader to receive and spread a first pilot data with the first PN sequence;a second device to transmit at a second frequency, the second device co-sited with the first device;a second PN generator to generate a second PN sequence at a second offset, the second PN sequence comprising a second in-phase PN sequence and a second quadrature PN sequence, wherein the first PN sequence is generated from equations different from equations used to generate the second PN sequence, and wherein the first in-phase PN sequence is uncorrelated with the second in-phase PN sequence and the first quadrature PN sequence is uncorrelated with the second quadrature PN sequence; anda second spreader to receive and spread a second pilot data with the second PN sequence in an area co-sited with the spread first pilot data. 2. The apparatus of claim 1, wherein the first frequency uses a different CDMA format than the second frequency. 3. The apparatus of claim 2, wherein the first frequency is generated from a first CDMA format chosen from the group consisting of PCS, IS-95, IS-98, WCDMA, UTRA, IS-2000 and CDMA 2000, the second frequency is generated from a second CDMA format chosen from the group consisting of PCS, IS-95, IS-98, WCDMA, UTRA, IS-2000 and CDMA 2000 and wherein, the first CDMA format is different from the second CDMA format. 4. The apparatus of claim 1, wherein the first PN generator generates the first PN sequence based on characteristic polynomials comprising: PI,1=x15+x13+x9+x8+x7+x5+1, andPQ,1=x15+x12+x11+x10+x6+x5+x4+x3+1. 5. The apparatus of claim 1, wherein the second PN generator generates the second PN sequence based on characteristic polynomials comprising: PI,2=x15+x10+x8+x7+x6+x2+1, andPQ,2=x15+x12+x11+x10+x9+x5+x4+x3+1. 6. A method, comprising: generating a first PN sequence at a first offset, the first PN sequence comprising a first in-phase PN sequence and a first quadrature PN sequence;spreading a first pilot data with the first PN sequence;generating a second PN sequence at a second offset, the second PN sequence comprising a second in-phase PN sequence and a second quadrature PN sequence, wherein the first PN sequence is generated from equations different from equations used to generate the second PN sequence, and wherein the first in-phase PN sequence is uncorrelated with the second in-phase PN sequence and the first quadrature PN sequence is uncorrelated with the second quadrature PN sequence; andspreading a second pilot data with the second PN sequence in an area co-sited with the spread first pilot data. 7. The method of claim 6, wherein generating the first PN sequence is based on characteristic polynomials comprising: PI,1=x15+x13+x9+x8+x7+x5+1, andPQ,1=x15+x12+x11+x10+x6+x5+x4+x3+1. 8. The method of claim 6, wherein generating the second PN sequence is based on characteristic polynomials comprising: PI,2=x15+x10+x8+x7+x6+x2+1, andPQ,2=x15+x12+x11+x10+x9+x5+x4+x3+1. 9. An apparatus, comprising: means for generating a first PN sequence at a first offset, the first PN sequence comprising a first in-phase PN sequence and a first quadrature PN sequence;means for spreading a first pilot data with the first PN sequence;means for generating a second PN sequence at a second offset, the second PN sequence comprising a second in-phase PN sequence and a second quadrature PN sequence, wherein the first PN sequence is generated from equations different from equations used to generate the second PN sequence, and wherein the first in-phase PN sequence is uncorrelated with the second in-phase PN sequence and the first quadrature PN sequence is uncorrelated with the second quadrature PN sequence; andmeans for spreading a second pilot data with the second PN sequence in an area co-sited with the spread first pilot data. 10. The apparatus of claim 9, wherein generating the first PN sequence is based on characteristic polynomials comprising: PI,1=x15+x13+x9+x8+x7+x5+1, andPQ,1=x15+x12+x11+x10+x6+x5+x4+x3+1. 11. The apparatus of claim 9, wherein generating the second PN sequence is based on characteristic polynomials comprising: PI,2=x15+x10+x8+x7+x6+x2+1, andPQ,2=x15+x12+x11+x10+x9+x5+x4+x3+1. 12. An apparatus for wireless communication, comprising: a processing system configured to:generate a first PN sequence at a first offset, the first PN sequence comprising a first in-phase PN sequence and a first quadrature PN sequence;spread a first pilot data with the first PN sequence;generate a second PN sequence at a second offset, the second PN sequence comprising a second in-phase PN sequence and a second quadrature PN sequence, wherein the first PN sequence is generated from equations different from equations used to generate the second PN sequence, and wherein the first in-phase PN sequence is uncorrelated with the second in-phase PN sequence and the first quadrature PN sequence is uncorrelated with the second quadrature PN sequence; andspread a second pilot data with the second PN sequence in an area co-sited with the spread first pilot data. 13. The apparatus of claim 12, wherein the second PN sequence is generated based on characteristic polynomials comprising: PI,2=x15+x10+x8+x7+x6+x2+1, andPQ,2=x15+x12+x11+x10+x9+x5+x4+x3+1. 14. A computer program product, comprising: a non-transitory computer-readable medium comprising code for:generating a first PN sequence at a first offset, the first PN sequence comprising a first in-phase PN sequence and a first quadrature PN sequence;spreading a first pilot data with the first PN sequence;generating a second PN sequence at a second offset, the second PN sequence comprising a second in-phase PN sequence and a second quadrature PN sequence, wherein the first PN sequence is generated from equations different from equations used to generate the second PN sequence, and wherein the first in-phase PN sequence is uncorrelated with the second in-phase PN sequence and the first quadrature PN sequence is uncorrelated with the second quadrature PN sequence; andspreading a second pilot data with the second PN sequence in an area co-sited with the spread first pilot data. 15. The computer program product of claim 14, wherein generating the second PN sequence is based on characteristic polynomials comprising: PI,2=x15+x10+x8+x7+x6+x2+1, andPQ,2=x15+x12+x11+x10+x9+x5+x4+x3+1.
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