Abstract
Nowadays, mobile robots have become a useful tool that permits solving a wide range of applications. Their importance lies in their ability to move autonomously through unknown environments and to adapt to changing conditions. To this end, the robot must be able to build a model of the environment and to estimate its position using the information captured by the different sensors it may be equipped with. Omnidirectional vision sensors have become a robust option thanks to the richness of the data they capture. These data must be analysed to extract relevant information that permits estimating the position of the robot taking into account the number of degrees of freedom it has. In this work, several methods to estimate the relative height of a mobile robot are proposed and evaluated. The framework we present is based on the global appearance of the scenes, which has emerged as an efficient and robust alternative comparing to methods based on local features. All the algorithms have been tested with some sets of images captured under real working conditions in several indoor and outdoor spaces. The results prove that global appearance descriptors provide a feasible alternative to estimate topologically the relative altitude of the robot.
Highlights
Over the last few years, mobile robotics has become a technology that has gained presence in many kinds of environments to solve different problems, both in industries, educative centres and in households
Mobile robots may be equipped with different kinds of sensors that provide them with information that permits solving the mapping and localization problems
The methods 1 and 2 make use of the panoramic image, the method 3 employs the orthographic view, the method 4 can use any of the three projections: panoramic, orthographic or unit sphere projection and the method 5 uses the omnidirectional scene
Summary
Over the last few years, mobile robotics has become a technology that has gained presence in many kinds of environments to solve different problems, both in industries, educative centres and in households. To increase their range of applications, mobile robots must be able to solve the task they have been designed for in a truly autonomous way. Mobile robots may be equipped with different kinds of sensors that provide them with information that permits solving the mapping and localization problems. These sensors can be categorised into proprioceptive and exteroceptive. Through an odometry process they permit estimating the displacement of the robot, but the error in this estimation tends to grow indefinitely
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