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ROC-SIANI's Web
by Antonio C. Domínguez Brito published Oct 29, 2012
ROC-SIANI's Web
Secondary school IES José Arencibia Gil's visit - January 2013
by Antonio C. Domínguez Brito published Jan 29, 2013 last modified Jan 29, 2013 01:17 PM
Located in News
Article Reference SMACC: A System for Microplastics Automatic Counting and Classification
by Antonio C. Domínguez Brito published Feb 17, 2020
The management of plastic debris is a serious issue due to its durability. Unfortunately, million tons of plastic end up in the sea becoming one of the biggest current environmental problems. One way to monitor the amount of plastic in beaches is to collect samples and visually count and sort the plastic particles present in them. This is a very time-consuming task. In this work, we present a Computer Vision-based system which is able to automatically count and classify microplastic particles (1-5 mm) into five different visual classes. After cleaning a collected sample in the lab, the proposed system makes use of a pair of its images with different characteristics. The procedure includes a segmentation step, which is based on the Sauvola thresholding method, followed by a feature extraction and classification step. Different features and classifiers are evaluated as well as a deep learning approach. The system is tested on 12 different beach samples with a total of 2507 microplastic particles. The particles of each sample were manually counted and sorted by an expert. This data represents the ground truth, which is compared later with the results of the automatic processing proposals to evaluate their accuracy. The difference in the number of particles is 34 (1.4%) and the error in their classification is less than 4% for all types except for the line shapes particles. These results are obtained in less than half of the time needed by the human expert doing the same task manually. This implies that it is possible to process more than twice as many samples using the same time, allowing the biologists to monitor wider areas and more frequently than doing the process manually.
Located in Publicaciones / Publications
South Atlantic crossing mission completed!
by Antonio C. Domínguez Brito published May 23, 2014 last modified May 23, 2014 10:59 AM
Located in News
Inproceedings Reference Stripe based Clothes Segmentation
by Antonio C. Domínguez Brito published May 21, 2015 last modified Sep 17, 2015 03:45 PM
Located in Publicaciones / Publications
Article Reference Success history applied to expert system for underwater glider path planning using differential evolution
by Antonio C. Domínguez Brito published Dec 20, 2019
This paper presents an application of a recently well performing evolutionary algorithm for continuous numerical optimization, Success-History Based Adaptive Differential Evolution Algorithm (SHADE) including Linear population size reduction (L-SHADE), to an expert system for underwater glider path planning (UGPP). The proposed algorithm is compared to other similar algorithms and also to results from literature. The motivation of this work is to provide an alternative to the current glider mission control systems, that are based mostly on multidisciplinary human-expert teams from robotic and oceanographic areas. Initially configured as a decision-support expert system, the natural evolution of the tool is targeting higher autonomy levels. To assess the performance of the applied optimizers, the test functions for UGPP are utilized as defined in literature, which simulate real-life oceanic mission scenarios. Based on these test functions, in this paper, the performance of the proposed application of L-SHADE to UGPP is aggregated using statistical analyis. The depicted fitness convergence graphs, final obtained fitness plots, trajectories drawn, and per-scenario analysis show that the new proposed algorithm yields stable and competitive output trajectories. Over the set of benchmark missions, the newly obtained results with a configured L-SHADE outperforms existing literature results in UGPP and ranks best over the compared algorithms. Moreover, some additional previously applied algorithms have been reconfigured to yield improved performance. Thereby, this new application of evolutionary algorithms to UGPP contributes significantly to the capacity of the decision-makers, when they use the improved UGPP expert system yielding better trajectories.
Located in Publicaciones / Publications
Success in the World Robotic Sailing Championship 2013
by Antonio C. Domínguez Brito published Sep 11, 2013 last modified Sep 30, 2013 09:47 AM
Located in News
The CoolBOT Project
by Antonio C. Domínguez Brito published Nov 29, 2012
Located in Projects / 1 / 2
Mastersthesis Reference TouCAN: Mejora y Ampliación de Funcionalidades
by Antonio C. Domínguez Brito published Apr 15, 2015 last modified Feb 20, 2016 12:49 PM
Located in Publicaciones / Publications
Conference Reference Using Data Mining to Improve the Public Transport in Gran Canaria Island
by Antonio C. Domínguez Brito published May 21, 2015
Located in Publicaciones / Publications
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