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A variety of end-user devices involving keypoint-based mapping systems are about to hit the market e.g. as part of smartphones, cars, robotic platforms, or virtual and augmented reality applications. Thus, the generated map data requires automated evaluation procedures that do not require experienced personnel or ground truth knowledge of the underlying environment. A particularly important question...
Robot navigation has been a hot topic in the area of mobile robot. A lot of research has been undergone ranging from noble algorithms to applications. Fisheye image has wide angle View and it is easy to obtain the position of the object and keep it in vision within large scale, so it is an important research domain in robot navigation. However it has a disadvantage that the image obtained from fisheye...
In the last decades, tremendous progress has been made in the field of autonomous indoor navigation for mobile robots. However, these approaches assume the structural part of the environment to be completely static. In practice, movable parts of scenes, e.g. doors, frequently violate this assumption which leads to poor performance. Also, mobile manipulation capabilities can only be utilized, if the...
Most large-scale public environments provide direction signs to facilitate the orientation for humans and to find their way to a goal location in the environment. Thus, for a robot operating in the same environment, it would be beneficial to interpret such signs correctly for a safe and efficient navigation. In this work, we propose a novel approach to infer the meaning of direction signs and to use...
In the autonomous city explorer (ACE) project a mobile robot is developed, which is capable of finding its way to a given destination in an unknown urban environment. An exemplary mission is to find the way from our institute to the Marienplatz, a public place in the center of Munich, without any prior knowledge or GPS information. Inspired by the behavior of humans in unknown environments, ACE must...
The use of autonomous underwater vehicles (AUVs) for visual inspection tasks is a promising robotic field. The images captured by the robots can also aid in their localization/navigation. In this context, this paper proposes an approach to localization and mapping problem of underwater vehicle. Supposing the use of inspection cameras, this proposal is composed of two stages: i) the use of computer...
In robotics, vertical lines have been always very useful for autonomous robot localization and navigation in structured environments. This paper presents a robust method for matching vertical lines in omnidirectional images. Matching robustness is achieved by creating a descriptor which is very distinctive and is invariant to rotation and slight changes of illumination. We characterize the performance...
Mobile robot motion planning is one of core technologies in mobile robot navigation. According to the contradiction between the intelligence and the control precision of mobile robot as well as the behavior fusionspsila insufficiency in traditional motion planning method, a layered motion planning method is presented. Behavior is arranged in different layer according to its objectpsilas relation,...
In view of the traditional behavior fusionspsila insufficiency in behavior interaction, a layered behavior fusion method is presented. Behavior references are environmental information and robotpsilas moving direction and velocity, and behavior outputs are robotpsilas moving direction and velocity. Behavior is arranged in different layer according to its objectpsilas relation, lower behavior takes...
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