TY - GEN
T1 - Control agents for autonomous vehicles in urban and highways scenarios
AU - Pérez, Joshué
AU - Milanés, Vicente
AU - Peñas, Matilde Santos
PY - 2013
Y1 - 2013
N2 - In the last years, several intelligent systems have been deployed in mass-produced vehicles. The Advanced Driver Assistance Systems (ADAS), intelligent infrastructures and au- tonomous driving maneuvers have significantly contributed to the implementation of intelligent systems both on the roads and in urban areas. Thanks to the research done by many groups and projects it is possible to find safer and more comfortable vehicles. Some examples are: Antilock Brake System (ABS), Cruise control (CC), Automatic parking and Electronic Stability Control (ESC), among others. At this time, it is not a utopia to think that, in a close future, autonomous vehicle will coexist with other conventional vehicles, interacting with them. In this work, a control architecture for autonomous vehicles have been tested, both for individual and cooperative maneuvers in urban and highway scenarios. Using previous contributions in the lateral and longitudinal control, different experiments have proved the modular control architecture, independently of the vehicle and the scenario used. To carry the validation, different platforms have been used: electric and gasoline-propelled vehicles. Straight and curve segments, blocked roads, commucations between infrastructure and vehicles and high speed experiments have been tested. Furthermore, the intelligent control system, based on fuzzy logic, that includes human knowledge, is easy to design and tune, and can be extended to different maneuvers.
AB - In the last years, several intelligent systems have been deployed in mass-produced vehicles. The Advanced Driver Assistance Systems (ADAS), intelligent infrastructures and au- tonomous driving maneuvers have significantly contributed to the implementation of intelligent systems both on the roads and in urban areas. Thanks to the research done by many groups and projects it is possible to find safer and more comfortable vehicles. Some examples are: Antilock Brake System (ABS), Cruise control (CC), Automatic parking and Electronic Stability Control (ESC), among others. At this time, it is not a utopia to think that, in a close future, autonomous vehicle will coexist with other conventional vehicles, interacting with them. In this work, a control architecture for autonomous vehicles have been tested, both for individual and cooperative maneuvers in urban and highway scenarios. Using previous contributions in the lateral and longitudinal control, different experiments have proved the modular control architecture, independently of the vehicle and the scenario used. To carry the validation, different platforms have been used: electric and gasoline-propelled vehicles. Straight and curve segments, blocked roads, commucations between infrastructure and vehicles and high speed experiments have been tested. Furthermore, the intelligent control system, based on fuzzy logic, that includes human knowledge, is easy to design and tune, and can be extended to different maneuvers.
KW - Autonomous vehicles
KW - Fuzzy logic
KW - Lateral and longitudinal control
KW - Urban and highways environments
UR - https://www.scopus.com/pages/publications/84885603256
U2 - 10.3182/20130626-3-AU-2035.00023
DO - 10.3182/20130626-3-AU-2035.00023
M3 - Conference contribution
AN - SCOPUS:84885603256
SN - 9783902823366
T3 - IFAC Proceedings Volumes (IFAC-PapersOnline)
SP - 120
EP - 125
BT - 7th IFAC Symposium on Intelligent Autonomous Vehicles, IAV 2013 - Proceedings
PB - IFAC Secretariat
T2 - 8th IFAC Symposium on Intelligent Autonomous Vehicles, IAV 2013
Y2 - 26 June 2013 through 28 June 2013
ER -