Your search keyword '"Mobile robots"' showing total 7 results

1. Interview mit Anders Billesø Beck, Vice President Universal Robotics.

Subjects

MOBILE robots, ARTIFICIAL intelligence, ROBOTICS, COMPUTER software industry, ROBOTS

Abstract

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Published

2024

2. Adaptive Clustering for Point Cloud.

Author

Lin, Zitao, Kang, Chuanli, Wu, Siyi, Li, Xuanhao, Cai, Lei, Zhang, Dan, and Wang, Shiwei

Subjects

*POINT cloud, *CLOUD storage, *MOBILE robots, *REMOTE sensing, *STANDARD deviations, *TEST methods

Abstract

The point cloud segmentation method plays an important role in practical applications, such as remote sensing, mobile robots, and 3D modeling. However, there are still some limitations to the current point cloud data segmentation method when applied to large-scale scenes. Therefore, this paper proposes an adaptive clustering segmentation method. In this method, the threshold for clustering points within the point cloud is calculated using the characteristic parameters of adjacent points. After completing the preliminary segmentation of the point cloud, the segmentation results are further refined according to the standard deviation of the cluster points. Then, the cluster points whose number does not meet the conditions are further segmented, and, finally, scene point cloud data segmentation is realized. To test the superiority of this method, this study was based on point cloud data from a park in Guilin, Guangxi, China. The experimental results showed that this method is more practical and efficient than other methods, and it can effectively segment all ground objects and ground point cloud data in a scene. Compared with other segmentation methods that are easily affected by parameters, this method has strong robustness. In order to verify the universality of the method proposed in this paper, we test a public data set provided by ISPRS. The method achieves good segmentation results for multiple sample data, and it can distinguish noise points in a scene. [ABSTRACT FROM AUTHOR]

Published

2024

3. Greenhouse Tomato Picking Robot Chassis.

Author

Su, Long, Liu, Ruijia, Liu, Kenan, Li, Kai, Liu, Li, and Shi, Yinggang

Subjects

GREENHOUSES, ROBOTS, TOMATOES, THREE-dimensional modeling, GREENHOUSE plants, MOBILE robots, INDUSTRIAL robots

Abstract

In this paper, a greenhouse tomato picking robot chassis that meets the path cruising and setpoint positioning requirements of robots engaged in greenhouse tomato picking operations in China is designed. Based on the trellis-cultivation growing environment of tomatoes, the basic parameters of the chassis and operating space are analyzed to determine the chassis requirements during picking operations. According to these requirements, a kinematic model of a robot chassis with front-wheel steering and rear-wheel driving is constructed, and the planar positioning principle of the chassis is introduced. SOLIDWORKS is used to simulate and design three-dimensional models of the chassis parts, and the ANSYS WORKBENCH plug-in is used to simulate and analyze the bearing performance of key chassis components. ADAMS is used to simulate and evaluate the motion trajectory of the chassis, and the reasonableness of parameters such as the chassis size, selected materials, and load-bearing performance are verified. Based on the simulation results, a physical system is constructed to experimentally verify the straight-line motion and steering performance of the chassis. The experimental results show that the chassis has good cruising and positioning accuracy and meets the specific requirements of path cruising and setpoint positioning in greenhouse tomato picking operations. [ABSTRACT FROM AUTHOR]

Published

2023

4. Development of a Pipeline Inspection Robot for the Standard Oil Pipeline of China National Petroleum Corporation.

Author

Li, Hui, Li, Ruiqin, Zhang, Jianwei, and Zhang, Pengyu

Subjects

PIPELINE inspection, ROBOTICS, PETROLEUM pipelines, MOBILE robots, PETROLEUM, ROBOTS, VISUAL perception

Abstract

Featured Application: This paper presents a promising solution for the use of a robotic system to remotely perform inspection tasks in the oil pipelines. The periodic inspection for oil pipelines is required due to the deterioration over time. A multitude of factors brings such a deterioration, from corrosion, leaks, to cracks, which may lead to blowbacks and cause the damages for operators and the environments. With the progress of robotics technology, various types of mobile robots and mechanisms are designed to cope with this issue. Rather than the assignment of human workers in hazardous environments, the deployment of such kinds of inspection robots can take on this duty more time-efficiently and safely, preventing the human workers from the high-risk of the inspection task in the oil pipelines. This paper presents a novel design of a mobile robot for oil pipeline inspection, which is cooperated with the China National Petroleum Corporation (CNPC). With the improvement of the previous inspection robot used in CNPC's standard oil pipelines, the newly designed robot is composed of six groups of symmetrical supporting wheels, and a more powerful motors as well as a more advanced control system. This new design endows the oil pipeline inspection robot with better performance on six aspects: traction, obstacle-adaptivity, operation endurance, gradeability, visual perception, and stability. The field testing results at multiple oil transfer stations across several months demonstrate the reliability of this mobile robot under various severe situations in China and validate its performance in the studied aspects. [ABSTRACT FROM AUTHOR]

Published

2020

5. Mechanical Design and Dynamcis of an Autonomous Climbing Robot for Elliptic Half-shell Cleaning.

Author

Houxiang Zhang, Jianwei Zhang, Rong Liu, and Guanghua Zong

Subjects

MOBILE robots, CLEANING, ROBOT control systems, ROBOT motion, ROBOTICS, CHINESE theater

Abstract

This paper presents an auto-climbing robot for cleaning the elliptic half-shell of National Grand Theatre in China. The robot consists of a climbing mechanism, a moving mechanism, two cleaning brushes and supporting mechanisms. The mechanism and unique aspects are presented in detail. A distributed control system based on CAN bus is designed to meet the requirements of controlling the robot. After that the emphasis for discussion is on the motion realization which includes climbing and cleaning movements. The robot independently climbs and descends in the vertical direction and cleans in the horizontal direction. It takes the circling tracks as supports for climbing up and down between strips and moving horizontally along one strip around the ellipsoid. For system design and control purposes, the dynamic models of the climbing and cleaning processes are given applying of the Lagrange equation. Furthermore the force distribution of the front and rear supporting mechanisms is computed in a way that ensures the safety of the climbing process. In the end, the successful on-site tests confirm the principles described above and the robot's ability. [ABSTRACT FROM AUTHOR]

Published

2007

6. oddly enough.

Subjects

*EDUCATION, *MOBILE robots, *LABOR camps, *RESTROOMS

Abstract

The article presents information related to education and students. In Seoul, South Korea, "Ofro" a German police robot, is being used in a pilot program to protect children in schoolyards. In Romania, businessman Edward Chirlacopaschi has created a forced labor camp to which parents can send unruly teenagers. British teachers touring a Beijing, China, elementary school were surprised to find that toilet facilities there do not offer privacy for teachers or students.

Published

2007

7. China's Prowess.

Subjects

MOBILE robots, ROBOTS, SPACE exploration, UNDERWATER exploration

Abstract

The article reports that the Shenyang Institute of Automation in China has developed a robot able to maneuver through a multitude of environments by using a combination of wheels, legs, and tracks. It can move five meters per minute on its tracks and ten meters per minute on its wheels. It decides by itself which locomotion is best for the terrain. It can avoid obstacles, locate objects and handle stairs. It was designed for space and sea exploration.

Published

2004