n this paper, a set based approach is presented for safety verification and performance analysis of automated driving systems. As an example, reachability analysis technique is used to study the minimum required safe inter-vehicle distance for two given adaptive cruise controllers, a state feedback and a state feedback/feedforward controller designed based on mixed d H2/3 control. Not surprisingly, the results indicate that a shorter inter-vehicle distance can be achieved when a feedforward term used in the controller. In addition, we show how backward reachability analysis and invariant set theory can be used to find the Maximal Admissible Safe Set. This is defined as the set of position error, relative speeds and acceleration, which a giv...
Abstract — A common requirement for autonomous cars is a safe locomotion which is evaluated by the m...
In this paper, we consider the problem of assessing when the control of a vehicle can be safely tran...
This paper details the design of an autonomous vehicle CAD toolchain, which captures formal descript...
n this paper, a set based approach is presented for safety verification and performance analysis of ...
In this paper, a set based approach to safety analysis of Adaptive Cruise Control (ACC) and Cooperat...
This paper presents a method for formal verification of automotive collision avoidance systems. Usin...
Abstract — We compute the set of all possible behaviors of an autonomous vehicle using reachability ...
Safe motion planning for automated vehicles requires that a collision-free trajectory can be guarant...
Abstract—An approach for formally verifying the safety of automated vehicles is proposed. Due to the...
Stability and string stability of platoons equipped with Cooperative Adaptive Cruise Control (CACC) ...
Over the last few decades, congested traffic network have become a serious problem in many countries...
The capability to follow a lead-vehicle and avoid rear-end collisions is one of the most important f...
Ensuring the safety of autonomous vehicles is paramount for their successful deployment. Howe...
Abstract. Avoidance trajectories for driver assistance systems is an important and active field of r...
Abstract — We present an approach to verify the planned maneuvers of an automated car. The main idea...
Abstract — A common requirement for autonomous cars is a safe locomotion which is evaluated by the m...
In this paper, we consider the problem of assessing when the control of a vehicle can be safely tran...
This paper details the design of an autonomous vehicle CAD toolchain, which captures formal descript...
n this paper, a set based approach is presented for safety verification and performance analysis of ...
In this paper, a set based approach to safety analysis of Adaptive Cruise Control (ACC) and Cooperat...
This paper presents a method for formal verification of automotive collision avoidance systems. Usin...
Abstract — We compute the set of all possible behaviors of an autonomous vehicle using reachability ...
Safe motion planning for automated vehicles requires that a collision-free trajectory can be guarant...
Abstract—An approach for formally verifying the safety of automated vehicles is proposed. Due to the...
Stability and string stability of platoons equipped with Cooperative Adaptive Cruise Control (CACC) ...
Over the last few decades, congested traffic network have become a serious problem in many countries...
The capability to follow a lead-vehicle and avoid rear-end collisions is one of the most important f...
Ensuring the safety of autonomous vehicles is paramount for their successful deployment. Howe...
Abstract. Avoidance trajectories for driver assistance systems is an important and active field of r...
Abstract — We present an approach to verify the planned maneuvers of an automated car. The main idea...
Abstract — A common requirement for autonomous cars is a safe locomotion which is evaluated by the m...
In this paper, we consider the problem of assessing when the control of a vehicle can be safely tran...
This paper details the design of an autonomous vehicle CAD toolchain, which captures formal descript...