As the research and development activities of automated vehicles have been active in recent years, developing test scenarios and methods has become necessary to evaluate and ensure their safety. Based on the current context, this study developed an automated vehicle test scenario derivation methodology using traffic accident data and a natural language processing technique. The natural language processing technique-based test scenario mining methodology generated 16 functional test scenarios for urban arterials and 38 scenarios for intersections in urban areas. The proposed methodology was validated by determining the number of traffic accident records that can be explained by the resulting test scenarios. That is, the resulting test scenar...
The overall purpose of the ASSESS project is to develop a relevant and standardised set of test and ...
A highly automated vehicle (HAV) is a safety-critical system. Therefore, a verification and validati...
Test scenario generation for testing automated and autonomous driving systems requires knowledge abo...
Scenario-based testing emerges as the main approach to validate automated driving systems (ADS) and ...
Scenario-based testing is a promising approach to solving the challenge of proving the safe behavior...
Scenario-based methods for the assessment of Automated Vehicles (AVs) are widely supported by many p...
Scenario-based methods for the assessment of Automated Vehicles (AVs) are widely supported by many p...
There is a need to improve the test procedure of Active Safety Systems through the automation of sce...
Testing and validation of the functionalities and safety of automated vehicles shifted from a distan...
Automated driving is a promising tool for reducing traffic accidents. While some companies claim tha...
Comprehensive safety evaluation methodologies for automated driving systems that account for the lar...
To assess the safety of automated driving systems (ADS), all potentially critical situations have t...
Objective: In order to introduce automated vehicles on public roads, it is necessary to ensure that ...
To assess the safety of automated driving systems (ADS), all potentially critical situations have to...
Automated Vehicles (AVs) have a great potential to change transport fundamentally by making it safer...
The overall purpose of the ASSESS project is to develop a relevant and standardised set of test and ...
A highly automated vehicle (HAV) is a safety-critical system. Therefore, a verification and validati...
Test scenario generation for testing automated and autonomous driving systems requires knowledge abo...
Scenario-based testing emerges as the main approach to validate automated driving systems (ADS) and ...
Scenario-based testing is a promising approach to solving the challenge of proving the safe behavior...
Scenario-based methods for the assessment of Automated Vehicles (AVs) are widely supported by many p...
Scenario-based methods for the assessment of Automated Vehicles (AVs) are widely supported by many p...
There is a need to improve the test procedure of Active Safety Systems through the automation of sce...
Testing and validation of the functionalities and safety of automated vehicles shifted from a distan...
Automated driving is a promising tool for reducing traffic accidents. While some companies claim tha...
Comprehensive safety evaluation methodologies for automated driving systems that account for the lar...
To assess the safety of automated driving systems (ADS), all potentially critical situations have t...
Objective: In order to introduce automated vehicles on public roads, it is necessary to ensure that ...
To assess the safety of automated driving systems (ADS), all potentially critical situations have to...
Automated Vehicles (AVs) have a great potential to change transport fundamentally by making it safer...
The overall purpose of the ASSESS project is to develop a relevant and standardised set of test and ...
A highly automated vehicle (HAV) is a safety-critical system. Therefore, a verification and validati...
Test scenario generation for testing automated and autonomous driving systems requires knowledge abo...