Faculty of Manufacturing Engineering, Universiti Malaysia Pahang (UMP), Pekan 26600, Malaysia.
School of Mechanical Engineering, Faculty of Engineering, Universiti Teknologi Malaysia, UTM Johor Bahru 81310, Malaysia.
Sensors (Basel). 2020 Jul 1;20(13):3694. doi: 10.3390/s20133694.
A real-time roundabout detection and navigation system for smart vehicles and cities using laser simulator-fuzzy logic algorithms and sensor fusion in a road environment is presented in this paper. A wheeled mobile robot (WMR) is supposed to navigate autonomously on the road in real-time and reach a predefined goal while discovering and detecting the road roundabout. A complete modeling and path planning of the road's roundabout intersection was derived to enable the WMR to navigate autonomously in indoor and outdoor terrains. A new algorithm, called Laser Simulator, has been introduced to detect various entities in a road roundabout setting, which is later integrated with fuzzy logic algorithm for making the right decision about the existence of the roundabout. The sensor fusion process involving the use of a Wi-Fi camera, laser range finder, and odometry was implemented to generate the robot's path planning and localization within the road environment. The local maps were built using the extracted data from the camera and laser range finder to estimate the road parameters such as road width, side curbs, and roundabout center, all in two-dimensional space. The path generation algorithm was fully derived within the local maps and tested with a WMR platform in real-time.
本文提出了一种用于智能车辆和城市的实时环岛检测和导航系统,该系统使用激光模拟器-模糊逻辑算法和传感器融合在道路环境中。假设轮式移动机器人(WMR)能够在实时道路上自主导航,并在发现和检测到道路环岛时到达预设目标。对道路环岛交叉口进行了完整的建模和路径规划,以使 WMR 能够在室内和室外地形中自主导航。引入了一种称为激光模拟器的新算法,用于检测道路环岛环境中的各种实体,然后将其与模糊逻辑算法集成,以做出关于环岛存在的正确决策。涉及使用 Wi-Fi 摄像机、激光测距仪和里程计的传感器融合过程用于生成机器人在道路环境中的路径规划和定位。使用摄像机和激光测距仪提取的数据构建局部地图,以估计道路参数,例如道路宽度、路边和环岛中心,所有这些都在二维空间中。在局部地图中推导出了路径生成算法,并在实时环境中使用 WMR 平台进行了测试。
