SS-FH signals used for very low interference in vehicular cruising control systems

Author

Sanmartin-Jara, J. ; Burgos-García, M. ; Retamose-Sanchez, J.

Author_Institution

ETSI Telecomunicacion, Univ. Politecnica de Madrid, Spain

Volume

2

fYear

1999

fDate

1999

Firstpage

819

Abstract

A new signal modulation format together with a new car radar sensor used for vehicular cruising control systems and automatic braking for collision avoidance showing very high resistance against any kind of interference, including the most important from other similar vehicular systems, is proposed. The radar sensor working principle is based on the application of spread spectrum-frequency hopping technique. The surveillance is done radiating a very low power microwave signals during very short pulses spreaded randomly over a large bandwidth dramatically reducing interference to similar systems in other vehicles. A simulation SW has been developed to study system performance under different conditions. A system demonstrator has been built using low cost component technology for its application to mass production in cars

Keywords

automotive electronics; braking; collision avoidance; electromagnetic interference; interference suppression; road vehicle radar; spread spectrum radar; SS-FH signals; automatic braking; car radar sensor; collision avoidance; interference reduction; large bandwidth; low cost component technology; signal modulation format; simulation; spread spectrum-frequency hopping; surveillance; vehicular cruising control systems; very low interference; very low power microwave signals; very short pulses; Automatic control; Bandwidth; Collision avoidance; Control systems; Interference; Modulation; Radar applications; Sensor systems; Surveillance; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Vehicular Technology Conference, 1999. VTC 1999 - Fall. IEEE VTS 50th

Conference_Location

Amsterdam

ISSN

1090-3038

Print_ISBN

0-7803-5435-4

Type

conf

DOI

10.1109/VETECF.1999.798443

Filename

798443