Crawler | Autonomous navigation for vineyard maintenance
The Crawler mobile robot, which the company recently included in its portfolio, has also found application in vineyards. It thus replaced the Androver II testing platform, on which RoboTech Vision had been developing autonomous navigation between vineyard rows for more than two years. The platform has a high load capacity, thanks to which it can drag a mowing tool behind it and, in addition to moving, also maintain the vineyard.
More: https://robotechvision.com/crawler-robot-moves-autonomously-in-the-vineyard-and-mows-the-grass/
Видео Crawler | Autonomous navigation for vineyard maintenance канала RoboTech Vision
More: https://robotechvision.com/crawler-robot-moves-autonomously-in-the-vineyard-and-mows-the-grass/
Видео Crawler | Autonomous navigation for vineyard maintenance канала RoboTech Vision
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
RoboTech Vision | Androver II visited power stationAndrover II | Autonomous navigation in vineyard with 3D scannerAndrover II | Autonomous navigation by visual system and obstacle avoidanceCaster | The robot recognizes faces and distributes drinksCaster | Testing of docking algorithm for autonomous robot chargingAndrover II | The test of robot for a geological projectRoboTech Vision | Androver II robot on Mars (EXPO 2020 Dubai)Press conference | Simulated NASA mission to the "Mars" (2018)Caster | Disinfection solution with AI recognitionHusky A200 | Autonomous navigation in three different environmentsAndrover I | First test of robot outdoor navigationRoboTech Vision | European Rover Challenge 2018Husky A200 | Object detection and tracking algorithmRingo | The best results at the negotiations of the V4’ armed forcesORC algorithm | Object recognition using AI and neural networksHusky A200 | Robot autonomously follows the markRoboTech Vision | About usAndrover I | Mobile robot was part of a simulated ESA space missionHusky A200 | Autonomous map navigation and obstacle avoidanceAndrover II | First test of mobile robot (2018)