J.R. Llata scite author profile

In this work, an analysis of the transmission of ultrasonic signals generated by piezoelectric sensors for air applications is presented. Based on this analysis, an ultrasonic response model is obtained for its application to the recognition of objects and structured environments for navigation by autonomous mobile robots. This model enables the analysis of the ultrasonic response that is generated using a pair of sensors in transmitter-receiver configuration using the pulse-echo technique. This is very interesting for recognizing surfaces that simultaneously generate a multiple echo response. This model takes into account the effect of the radiation pattern, the resonant frequency of the sensor, the number of cycles of the excitation pulse, the dynamics of the sensor and the attenuation with distance in the medium. This model has been developed, programmed and verified through a battery of experimental tests. Using this model a new procedure for obtaining accurate time of flight is proposed. This new method is compared with traditional ones, such as threshold or correlation, to highlight its advantages and drawbacks. Finally the advantages of this method are demonstrated for calculating multiple times of flight when the echo is formed by several overlapping echoes.

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Visual sensor fusion for active security in robotic industrial environments

Robla

Llata

Torre-Ferrero

et al. 2014

EURASIP J. Adv. Signal Process.

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This work presents a method of information fusion involving data captured by both a standard charge-coupled device (CCD) camera and a time-of-flight (ToF) camera to be used in the detection of the proximity between a manipulator robot and a human. Both cameras are assumed to be located above the work area of an industrial robot. The fusion of colour images and time-of-flight information makes it possible to know the 3D localization of objects with respect to a world coordinate system. At the same time, this allows to know their colour information. Considering that ToF information given by the range camera contains innacuracies including distance error, border error, and pixel saturation, some corrections over the ToF information are proposed and developed to improve the results. The proposed fusion method uses the calibration parameters of both cameras to reproject 3D ToF points, expressed in a common coordinate system for both cameras and a robot arm, in 2D colour images. In addition to this, using the 3D information, the motion detection in a robot industrial environment is achieved, and the fusion of information is applied to the foreground objects previously detected. This combination of information results in a matrix that links colour and 3D information, giving the possibility of characterising the object by its colour in addition to its 3D localisation. Further development of these methods will make it possible to identify objects and their position in the real world and to use this information to prevent possible collisions between the robot and such objects.

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Dynamic positioning of floating caissons based on the UKF filter under external perturbances induced by waves

et al. 2021

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Fuzzy c-means clustering for noise reduction, enhancement and reconstruction of 3D ultrasonic images

Gil

Sarabia²,

Llata³

et al.

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J.R. Llata

Working Together: A Review on Safe Human-Robot Collaboration in Industrial Environments

Accurate Estimation of Airborne Ultrasonic Time-of-Flight for Overlapping Echoes

Visual sensor fusion for active security in robotic industrial environments

Dynamic positioning of floating caissons based on the UKF filter under external perturbances induced by waves

Fuzzy c-means clustering for noise reduction, enhancement and reconstruction of 3D ultrasonic images

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