• Title/Summary/Keyword: indoor mobile robots

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Intelligent Motion and Autonomous Maneuvering of Mobile Robots using Hybrid System (하이브리드 시스템을 이용한 이동로봇의 지능적 동작과 자율주행)

  • 이용미;임준홍
    • 제어로봇시스템학회:학술대회논문집
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    • 2000.10a
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    • pp.152-152
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    • 2000
  • In this paper, we propose a new approach to intelligent motion and autonomous maneuvering of mobile robots using hybrid system. In high Level, the discrete states are defined by using the sensor-based search windows and the reference motions of a mobile robot as a low vevel are specified in the abstracted motions, The mobile robots can perform both the motion planning and autonomous maneuvering with obstacle avoidance in indoor navigation problem. Simulation and experimental results show that hybrid system approach is an effective method for the autonomous maneuvering in indoor environments.

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Algorithm for Autonomous Wall-Following of Wheeled Mobile Robots Using Reference Motion Synthesis and Generation of Hybrid System (하이브리드 시스템의 기준동작 구성과 생성에 의한 차륜형 이동로봇의 자율 벽면-주행 알고리즘)

  • Lim, Mee-Seub;Im, Jun-Hong
    • Journal of Institute of Control, Robotics and Systems
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    • v.6 no.7
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    • pp.586-593
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    • 2000
  • In this paper we propose a new approach to the autonomous wall-following of wheeled mobile robots using hybrid system reference motion synthesis and generation. The hybrid system approach is in-troduced to the motion control of nonholonomic mobile robots for the indoor navigation problems. In the dis-crete event system the discrete states are defined by the user-defined constraints and the reference mo-tion commands are specified in the abstracted motions. The hybrid control system applied for the non-holonomic mobile robots can combine the motion planning and autonomous navigation with obstacle avoid-ance for the indoor navigation problem. Simulation results show that hybrid system approach is an effective method for the autonomous navigation in indoor environments.

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Fuzzy Logic Based Navigation for Multiple Mobile Robots in Indoor Environments

  • Zhao, Ran;Lee, Dong Hwan;Lee, Hong Kyu
    • International Journal of Fuzzy Logic and Intelligent Systems
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    • v.15 no.4
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    • pp.305-314
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    • 2015
  • The work presented in this paper deals with a navigation problem for multiple mobile robot system in unknown indoor environments. The environment is completely unknown for all the robots and the surrounding information should be detected by the proximity sensors installed on the robots' bodies. In order to guide all the robots to move along collision-free paths and reach the goal positions, a navigation method based on the combination of a set of primary strategies has been developed. The indoor environments usually contain convex and concave obstacles. In this work, a danger judgment strategy in accordance with the sensors' data is used for avoiding small convex obstacles or moving objects which include both dynamic obstacles and other robots. For big convex obstacles or concave ones, a wall following strategy is designed for dealing with these special situations. In this paper, a state memorizing strategy is also proposed for the "infinite repetition" or "dead cycle" situations. Finally, when there is no collision risk, the robots will be guided towards the targets according to a target positioning strategy. Most of these strategies are achieved by the means of fuzzy logic controllers and uniformly applied for every robot. The simulation experiments verified that the proposed method has a positive effectiveness for the navigation problem.

Initialization Problem of Indoor Mobile Robots with Artificial Stars (인공 별을 이용한 실내주행로봇의 초기화 문제)

  • Bang, Sung-Kee;Kim, Jin-Oh
    • Journal of Institute of Control, Robotics and Systems
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    • v.13 no.8
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    • pp.804-809
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    • 2007
  • Initialization problem is defined for indoor mobile robot as a whole process from arrival to normal operation in a new environment. The unstructured environment make the process much more difficult compared to industrial robot in structured environments. We propose a simple and efficient initialization process based on artificial stars on ceiling. Important task points and paths connecting task points are defined based on the corresponding artificial stars. This approach can be used for all kinds of indoor mobile robots with landmarks used for indoor localization.

A Ubiquitous Interface System for Mobile Robot Control in Indoor Environment (실내 환경에서의 이동로봇 제어를 위한 유비쿼터스 인터페이스 시스템)

  • Ahn Hyunsik;Song Jae-Sung
    • Journal of Institute of Control, Robotics and Systems
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    • v.12 no.1
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    • pp.66-71
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    • 2006
  • Recently, there are lots of concerning on ubiquitous environment of robots and URC (Ubiquitous Robotic Companion). In this paper, a practical ubiquitous interface system far controlling mobile robots in indoor environments was proposed. The interface system was designed as a manager-agent model including a PC manager, a mobile manager, and robot agents for being able to be accessed by any network. In the system, the PC manager has a 3D virtual environment and shows real images for a human-friendly interface, and share the computation load of the robot such as path planning and managing geographical information. It also contains Hybrid Format Manager(HFM) working for transforming the image, position, and control data and interchanging them between the robots and the managers. Mobile manager working in the minimized computing condition of handsets has a mobile interface environment displaying the real images and the position of the robot and being able to control the robots by pressing keys. Experimental results showed the proposed system was able to control robots rising wired and wireless LAN and mobile Internet.

Ceiling-Based Localization of Indoor Robots Using Ceiling-Looking 2D-LiDAR Rotation Module (천장지향 2D-LiDAR 회전 모듈을 이용한 실내 주행 로봇의 천장 기반 위치 추정)

  • An, Jae Won;Ko, Yun-Ho
    • Journal of Korea Multimedia Society
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    • v.22 no.7
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    • pp.780-789
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    • 2019
  • In this paper, we propose a new indoor localization method for indoor mobile robots using LiDAR. The indoor mobile robots operating in limited areas usually require high-precision localization to provide high level services. The performance of the widely used localization methods based on radio waves or computer vision are highly dependent on their usage environment. Therefore, the reproducibility of the localization is insufficient to provide high level services. To overcome this problem, we propose a new localization method based on the comparison between ceiling shape information obtained from LiDAR measurement and the blueprint. Specifically, the method includes a reliable segmentation method to classify point clouds into connected planes, an effective comparison method to estimate position by matching 3D point clouds and 2D blueprint information. Since the ceiling shape information is rarely changed, the proposed localization method is robust to its usage environment. Simulation results prove that the position error of the proposed localization method is less than 10 cm.

Autonomous Wall-Following of Wheeled Mobile Robots using Hybrid Control Approach (차륜형 이동로봇의 자율 벽면-주행을 위한 하이브리드 제어)

  • Lim, Mee-Seub;Lim, Joon-Hong;Oh, Sang-Rok
    • Proceedings of the KIEE Conference
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    • 1999.07g
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    • pp.3105-3107
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    • 1999
  • In this paper, we propose a new approach to autonomous wall-following of wheeled mobile robots using hybrid control system. The hybrid control approach IS introduced to the motion control of nonholonomic mobile robots in the Indoor navigation problems. In hybrid control architecture, the discrete states are defined by the user-defined constraints, and the reference motion commands are specified In the abstracted motions. The hybrid control system applied to motion planning and autonomous navigation with obstacle avoidance In indoor navigation problem. Simulation results show that it is an effective method for the autonomous navigation in indoor environments.

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TWR based Cooperative Localization of Multiple Mobile Robots for Search and Rescue Application (재난 구조용 다중 로봇을 위한 GNSS 음영지역에서의 TWR 기반 협업 측위 기술)

  • Lee, Chang-Eun;Sung, Tae-Kyung
    • The Journal of Korea Robotics Society
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    • v.11 no.3
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    • pp.127-132
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    • 2016
  • For a practical mobile robot team such as carrying out a search and rescue mission in a disaster area, the localization have to be guaranteed even in an environment where the network infrastructure is destroyed or a global positioning system (GPS) is unavailable. The proposed architecture supports localizing robots seamlessly by finding their relative locations while moving from a global outdoor environment to a local indoor position. The proposed schemes use a cooperative positioning system (CPS) based on the two-way ranging (TWR) technique. In the proposed TWR-based CPS, each non-localized mobile robot act as tag, and finds its position using bilateral range measurements of all localized mobile robots. The localized mobile robots act as anchors, and support the localization of mobile robots in the GPS-shadow region such as an indoor environment. As a tag localizes its position with anchors, the position error of the anchor propagates to the tag, and the position error of the tag accumulates the position errors of the anchor. To minimize the effect of error propagation, this paper suggests the new scheme of full-mesh based CPS for improving the position accuracy. The proposed schemes assuring localization were validated through experiment results.

Complementary Filtering for the Self-Localization of Indoor Autonomous Mobile Robots (실내 자율형 주행로봇의 자기위치 추정을 위한 보상필터 설계)

  • Han, Jae-Won;Hwang, Jong-Hyon;Hong, Sung-Kyoung;Ryuh, Young-Sun
    • Journal of Institute of Control, Robotics and Systems
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    • v.16 no.11
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    • pp.1110-1116
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    • 2010
  • This paper present an effective complementary filtering method using encoder and gyro sensors for the self-localization(including heading and velocity) of indoor mobile robot. The main idea of the proposed approach is to find the pros and cons of each sensor through a various maneuvering tests and to design of an adaptive complementary filter that works for the entire maneuvering phases. The proposed method is applied to an indoor mobile robot and the performances are verified through extensive experiments.

An Indoor Positioning System for Mobile Robots Using Visible Light Communication and Fuzzy Logic (가시광 통신과 퍼지 논리를 이용한 모바일 로봇의 실내 위치 인식 시스템)

  • Kim, Jun-Young;Kim, Ji-Su;Kang, Geun-Taek;Lee, Won-Chang
    • Journal of Institute of Control, Robotics and Systems
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    • v.22 no.2
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    • pp.75-82
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    • 2016
  • Visible light communication (VLC) using LED lamps is suitable for implementing an indoor positioning system in an indoor environment where the global positioning system (GPS) signal does not reach. In this paper, we present an indoor positioning system for mobile robots using a VLC beacon and fuzzy rules. This system consists of an autonomous mobile robot, VLC modules, and device application software. Fuzzy rules are applied to plan the global and local paths along which the mobile robot navigates indoors. The VLC transmitter modules are attached to the wall or the ceiling as beacons to transmit their own location information. The variable pulse position modulation (VPPM) algorithm is used to transmit data, which is a new modulation scheme for VLC providing a dimming control mechanism for flicker-free optical communication. The mobile robot has a receiver module to receive the location information while performing its mission in the environment where VLC transmitters are deployed.