Add to ORKGAbstract—This paper proposes a method for mobile robot exploration based on the idea of frontier exploration which suggests navigating the robot toward the boundaries between free and unknown areas in the map. A global occupancy grid map of the environment is constantly updated, based on which a global frontier map is calculated. Then, a histogram based approach is adopted to cluster frontier cells and score these clusters based on their distance from the robot as well as the number of frontier cells they contain. In each stage of the algorithm, a sub–goal is set for the robot to navigate. A combination of distance transform and A * search algorithms is utilized to generate a plausible path toward the sub-goal through the free space. This w...
For a mobile robot to engage in exploration of a-priori unknown environments it must be able to iden...
Robotic exploration, for the purposes of search and rescue or explosive device detection, can be imp...
We investigate the exploration problem of a short-sighted mobile robot moving in an unknown cellula...
We introduce a new approach for exploration based on the concept of frontiers, regions on the bounda...
Autonomously navigating a single or a multiple set of robots to map a previously unknown environment...
For an accurate and efficient exploration, a local map-based exploration strategy is proposed. Segme...
Abstract Navigation in the absence of initial environmental information is a situation in which a ro...
This paper describes a local map-based exploration strategy. Segmented frontiers and relative transf...
This article belongs to the Special Issue "Mobile Robot Navigation"Exploration of unknown environmen...
Autonomous exploration and remote sensing using robots have gained increasing attention in recent ye...
In mobile robotics, the exploration task consists of navigating through an unknown environment and b...
Mobile robot has the exploration function in order to perform its own task. Robot exploration can be...
Our research addresses how to integrate exploration and localization for mobile robots. A robot expl...
Our research addresses how to integrate exploration and localization for mobile robots. A robot expl...
Deploying robots in unknown and complex areas for inspection tasks is becoming a real need for vario...
For a mobile robot to engage in exploration of a-priori unknown environments it must be able to iden...
Robotic exploration, for the purposes of search and rescue or explosive device detection, can be imp...
We investigate the exploration problem of a short-sighted mobile robot moving in an unknown cellula...
We introduce a new approach for exploration based on the concept of frontiers, regions on the bounda...
Autonomously navigating a single or a multiple set of robots to map a previously unknown environment...
For an accurate and efficient exploration, a local map-based exploration strategy is proposed. Segme...
Abstract Navigation in the absence of initial environmental information is a situation in which a ro...
This paper describes a local map-based exploration strategy. Segmented frontiers and relative transf...
This article belongs to the Special Issue "Mobile Robot Navigation"Exploration of unknown environmen...
Autonomous exploration and remote sensing using robots have gained increasing attention in recent ye...
In mobile robotics, the exploration task consists of navigating through an unknown environment and b...
Mobile robot has the exploration function in order to perform its own task. Robot exploration can be...
Our research addresses how to integrate exploration and localization for mobile robots. A robot expl...
Our research addresses how to integrate exploration and localization for mobile robots. A robot expl...
Deploying robots in unknown and complex areas for inspection tasks is becoming a real need for vario...
For a mobile robot to engage in exploration of a-priori unknown environments it must be able to iden...
Robotic exploration, for the purposes of search and rescue or explosive device detection, can be imp...
We investigate the exploration problem of a short-sighted mobile robot moving in an unknown cellula...