Simulation of multipath-tolerant binary signal design for approximately synchronized CDMA mobile communication without co-channel interference nor detection sidelobe using complete complementary codes

A signal design method for the uplink in cellular mobile CDMA systems is simulated. The simulated method uses binary complete complementary code as comb-spectrum pseudo-periodic sequences. The designed signals are without co-channel interference nor influence of multipath fading, when the system is...

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Bibliographic Details
Main Authors: Imoto, T., Suehiro, N., Kuroyanagi, N., Pingzhi Fan
Format: Conference Proceeding
Language:English
Subjects:
Autocorrelation
Costs
Design engineering
Design methodology
Fading
Filters
Interchannel interference
Mobile communication
Multiaccess communication
Signal design
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Summary:A signal design method for the uplink in cellular mobile CDMA systems is simulated. The simulated method uses binary complete complementary code as comb-spectrum pseudo-periodic sequences. The designed signals are without co-channel interference nor influence of multipath fading, when the system is synchronized approximately. Any approximation of synchronization is acceptable by arranging the signal design. The results of simulation shows us the usefulness of this signal design without co-channel interference for an approximately synchronized uplink in cellular CDMA systems.
DOI:10.1109/ISCC.1999.780841