虛實整合框架可以利用高精地圖建置的虛擬場域與混合實境車輛迴路測試提昇情境式測試的精確性。我們的技術可以有效驗證自駕車的安全性,不受時間和空間的限制。整合開源軟體也可降低開發成本。
採軟體模組設計之自主駕駛系統,已成功導入多款車種,包含電動、柴油和混合動力汽車,並於工研院、新竹市區南寮、台中水湳與日本等場域驗證,應用服務包含接駁與物流配送。
採軟體模組設計之自主駕駛系統,已成功導入多款車種,包含電動、柴油和混合動力汽車,並於工研院、新竹市區南寮、台中水湳與日本等場域驗證,應用服務包含接駁與物流配送。
The cyber-physical framework can improve the fidelity of the scenario-based testing by utilizing the virtual environment based on the HD-map and mixed-reality vehicle-in-the-loop testing. Our technology can efficiently verify the safety of self-driving vehicles without time and space limitations. The integration of open-source software can lower the cost of development.
This self-driving system that adopted a modular software design has been practically applied to various types of vehicles, including electric, diesel, and hybrid ones, and deployed in many fields, such as the Chung Hsing Campus of ITRI, Hsinchu city, Nanliao, Taichung Shuinan, and Japan. The application includes logistics and shuttle services.
This self-driving system that adopted a modular software design has been practically applied to various types of vehicles, including electric, diesel, and hybrid ones, and deployed in many fields, such as the Chung Hsing Campus of ITRI, Hsinchu city, Nanliao, Taichung Shuinan, and Japan. The application includes logistics and shuttle services.