Pedro Javier Navarro Lorente
Orcid: 0000-0001-8367-2934
According to our database1,
Pedro Javier Navarro Lorente
authored at least 26 papers
between 2002 and 2024.
Collaborative distances:
Collaborative distances:
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Bibliography
2024
Signal Image Video Process., August, 2024
On-tree fruit image segmentation comparing Mask R-CNN and Vision Transformer models. Application in a novel algorithm for pixel-based fruit size estimation.
Comput. Electron. Agric., 2024
2023
Sensors, February, 2023
2021
3DeepM: An Ad Hoc Architecture Based on Deep Learning Methods for Multispectral Image Classification.
Remote. Sens., 2021
2019
A Systematic Review of Perception System and Simulators for Autonomous Vehicles Research.
Sensors, 2019
Remote. Sens., 2019
Time of Flight Camera Calibration and Obstacle Detection Application for an Autonomous Vehicle.
Proceedings of the Information Systems Architecture and Technology: Proceedings of 40th Anniversary International Conference on Information Systems Architecture and Technology - ISAT 2019, 2019
The Implementation of a Convolutional Neural Network for the Detection of the Transmission Towers Using Satellite Imagery.
Proceedings of the Information Systems Architecture and Technology: Proceedings of 40th Anniversary International Conference on Information Systems Architecture and Technology - ISAT 2019, 2019
2018
Proceedings of the 2018 IEEE International Conference on Vehicular Electronics and Safety, 2018
2017
A Machine Learning Approach to Pedestrian Detection for Autonomous Vehicles Using High-Definition 3D Range Data.
Sensors, 2017
2016
Machine Learning and Computer Vision System for Phenotype Data Acquisition and Analysis in Plants.
Sensors, 2016
Defect Detection in Textures through the Use of Entropy as a Means for Automatically Selecting the Wavelet Decomposition Level.
Sensors, 2016
2014
A piecewise affine warping algorithm for image rectification in an industrial application for ship hull repair.
J. Frankl. Inst., 2014
An educational tool for implementing reactive systems following a goal-driven approach.
Comput. Appl. Eng. Educ., 2014
2013
IEEE Trans. Educ., 2013
Sensors, 2013
2012
Development of a Configurable Growth Chamber with a Computer Vision System to Study Circadian Rhythm in Plants.
Sensors, 2012
From Teleo-Reactive specifications to architectural components: A model-driven approach.
J. Syst. Softw., 2012
2011
A Novel Method to Increase LinLog CMOS Sensors' Performance in High Dynamic Range Scenarios.
Sensors, 2011
2010
2009
Adaptación de la docencia de una asignatura de criptografía a las recomendaciones del Espacio Europeo de Educación Superior.
Rev. Iberoam. de Tecnol. del Aprendiz., 2009
2005
Experiences on developing computer vision hardware algorithms using Xilinx system generator.
Microprocess. Microsystems, 2005
High-speed and Cost Effective Machine Vision System within the Industry of Preserved Vegetables.
Proceedings of the IAPR Conference on Machine Vision Applications (IAPR MVA 2005), 2005
2004
Proceedings of the Reliable Software Technologies, 2004
2002
Evaluación del rendimiento de arquitecturas mediante UML-MAST.
Proceedings of the VII Jornadas de Ingeniería del Software y Bases de Datos (JISBD 2002), 2002