(Private, Coming Soon)
(Private, Coming Soon)
Научно-учебная группа технологий подключенного и беспилотного транспорта
В ВШЭ создали среду для моделирования беспилотного транспорта | РБК Компании
Ученые НИУ ВШЭ создали среду для моделирования подключенного и беспилотного транспорта
Проектная команда МИЭМ объединяет беспилотный и подключенный транспорт
CAVISE aims to aid in the development of safer, sustainable, and more efficient transportation systems by providing high-detail multi-level simulation for verification and validation of intelligent transportation system technology adoption scenarios and enabling next-generation urban transportation planning.
Connected & Automated Vehicle Integrated Simulation Environment (CAVISE) is developed as a framework for these goals, focusing on high-detail simulation of connected and automated vehciles (CAVs). It is the first open-source simulation environment that considers both realistic machine perception and signal propagation models. This provides an opportunity to develop innovative and adaptive cooperative perception (CoP) and cooperative driving automation (CDA) systems and solutions. Such technologies rely on the collaboration and connection among all transportation entities to gather additional information about the surrondings and coordinate trajectory planning. Realistic consideration of machine perception and signal propagation are crucial to ensure that research accurately represents the real world. Therefore, CAVISE’s accurate virtual testing is a significant driver for the development of cooperative driving applications for safer, sustainable, and more comfortable transportation in the upcoming years.
CAVISE prototype (2023 version) demonstration (TBU)
CAVISE prototype (2023 version) demonstration (TBU)
Connected and automated vehicle (CAV) technologies and business models of sharing and Mobility-as-a-Service, combined within the concept of Intelligent Transportation Systems (ITS), aim to improve safety for road users, reduce energy consumption and harmful emissions, as well as reduce traffic congestion. It is necessary to ensure that these technologies can actually help achieve these goals, and therefore they require extensive testing (verification and validation) before being allowed on public roads. Computer simulation is often crucial to speed up the testing and development process while reducing risks and costs.