Fusing Range Measurements from Ultrasonic Beacons and a Laser Range Finder for Localization of a Mobile Robot

Ko, Nak Yong; Kuc, Tae-Yong

doi:10.3390/s150511050

Cited by 39 publications

(21 citation statements)

References 29 publications

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“…Their computational cost is low, but they cannot manage multi-hypotheses problems. Kalman filters are optimum solutions for tracking once the robot is correctly localized [ 18 ]. Another idea is to execute a stochastic search to find the best solution.…”

Section: Related Workmentioning

confidence: 99%

Kullback-Leibler Divergence-Based Differential Evolution Markov Chain Filter for Global Localization of Mobile Robots

Alonso-Martín

Moreno

Garrido

et al. 2015

Sensors

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One of the most important skills desired for a mobile robot is the ability to obtain its own location even in challenging environments. The information provided by the sensing system is used here to solve the global localization problem. In our previous work, we designed different algorithms founded on evolutionary strategies in order to solve the aforementioned task. The latest developments are presented in this paper. The engine of the localization module is a combination of the Markov chain Monte Carlo sampling technique and the Differential Evolution method, which results in a particle filter based on the minimization of a fitness function. The robot’s pose is estimated from a set of possible locations weighted by a cost value. The measurements of the perceptive sensors are used together with the predicted ones in a known map to define a cost function to optimize. Although most localization methods rely on quadratic fitness functions, the sensed information is processed asymmetrically in this filter. The Kullback-Leibler divergence is the basis of a cost function that makes it possible to deal with different types of occlusions. The algorithm performance has been checked in a real map. The results are excellent in environments with dynamic and unmodeled obstacles, a fact that causes occlusions in the sensing area.

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Section: Related Workmentioning

confidence: 99%

Kullback-Leibler Divergence-Based Differential Evolution Markov Chain Filter for Global Localization of Mobile Robots

Alonso-Martín

Moreno

Garrido

et al. 2015

Sensors

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“…Local navigation of mobile robot is always in associate with the sensors to give signal about object detection on the outer environment in order to locate itself in that environment and to generate a map of the corresponding environment. A common mobile robot utilizes infrared, laser, or ultrasonic sensors for collecting data for its path planning [7][8][9]. However, this type of sensors only gives data in an imperceptible way.…”

Section: Introductionmentioning

confidence: 99%

Intelligent vision-based navigation system for mobile robot: A technological review

Fauadi

Akmal

Ali

et al. 2018

PEN

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Vision system is gradually becoming more important. As computing technology advances, it has been widely utilized in many industrial and service sectors. One of the critical applications for vision system is to navigate mobile robot safely. In order to do so, several technological elements are required. This article focuses on reviewing recent researches conducted on the intelligent vision-based navigation system for the mobile robot. These include the utilization of mobile robot in various sectors such as manufacturing, warehouse, agriculture, outdoor navigation and other service sectors. Multiple intelligent algorithms used in developing robot vision system were also reviewed.

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“…Ultrasonic transceivers [22,23,24], although an economical and robust choice for obstacle detection, cannot be used for spherical robots due to the plastic shell that completely encloses the drive cart unit. As a result, the ultrasound signal cannot penetrate the shell.…”

Section: Introductionmentioning

confidence: 99%

A Compact Magnetic Field-Based Obstacle Detection and Avoidance System for Miniature Spherical Robots

Fang

Vibhute

Soh

et al. 2017

Sensors

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Due to their efficient locomotion and natural tolerance to hazardous environments, spherical robots have wide applications in security surveillance, exploration of unknown territory and emergency response. Numerous studies have been conducted on the driving mechanism, motion planning and trajectory tracking methods of spherical robots, yet very limited studies have been conducted regarding the obstacle avoidance capability of spherical robots. Most of the existing spherical robots rely on the “hit and run” technique, which has been argued to be a reasonable strategy because spherical robots have an inherent ability to recover from collisions. Without protruding components, they will not become stuck and can simply roll back after running into bstacles. However, for small scale spherical robots that contain sensitive surveillance sensors and cannot afford to utilize heavy protective shells, the absence of obstacle avoidance solutions would leave the robot at the mercy of potentially dangerous obstacles. In this paper, a compact magnetic field-based obstacle detection and avoidance system has been developed for miniature spherical robots. It utilizes a passive magnetic field so that the system is both compact and power efficient. The proposed system can detect not only the presence, but also the approaching direction of a ferromagnetic obstacle, therefore, an intelligent avoidance behavior can be generated by adapting the trajectory tracking method with the detection information. Design optimization is conducted to enhance the obstacle detection performance and detailed avoidance strategies are devised. Experimental results are also presented for validation purposes.

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Fusing Range Measurements from Ultrasonic Beacons and a Laser Range Finder for Localization of a Mobile Robot

Cited by 39 publications

References 29 publications

Kullback-Leibler Divergence-Based Differential Evolution Markov Chain Filter for Global Localization of Mobile Robots

Kullback-Leibler Divergence-Based Differential Evolution Markov Chain Filter for Global Localization of Mobile Robots

Intelligent vision-based navigation system for mobile robot: A technological review

A Compact Magnetic Field-Based Obstacle Detection and Avoidance System for Miniature Spherical Robots

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