Your search keyword '"Cerro, Jaime"' showing total 213 results

201. Modelling the Soft RobotKymaBased on Real‐Time Finite Element Method

Author

Andrés Martín-Barrio, M. Diaz-Carrasco, Antonio Barrientos, J. del Cerro, Silvia Terrile, Comunidad de Madrid, Universidad Politécnica de Madrid, Martín-Barrio, Andrés, Terrile, Silvia, Cerro, Jaime del, Barrientos, Antonio, Martín-Barrio, Andrés [0000-0002-2051-9155], Terrile, Silvia [0000-0003-3900-4108], Cerro, Jaime del [0000-0003-4893-2571], and Barrientos, Antonio [0000-0003-1691-3907]

Subjects

Engineering drawing, Interaction, Computer science, business.industry, Finite-Element Method, Modeling, 020207 software engineering, Robotics, 02 engineering and technology, Soft robots, Computer Graphics and Computer-Aided Design, Finite element method, 0202 electrical engineering, electronic engineering, information engineering, Robot, 020201 artificial intelligence & image processing, Artificial intelligence, business

Abstract

Modelling soft robots is a non-trivial task since their behaviours rely on their morphology, materials and surrounding elements.These robots are very useful to safely interact with their environment and because of their inherent exibility and adaptability skills. However, they are usually very hard to model because of their intrinsic non-linearities. This fact presents a unique challenge in the computer graphics and simulation scopes. Current trends in these elds tend to narrow the gap between virtual and real environments. This work will explain a challenging modelling process for a cable-driven soft robot called Kyma. For this purpose, the real-time Finite Element Method (FEM) is applied using the Simulation Open Framework Architecture. And two methods are implemented and compared to optimize the model efciency: a heuristic one and the Model Order Reduction. Both models are also validated with the real robot using a precise motion tracking system. Moreover, an analysis of robot–object interactions is proposed to test the compliance of the presented soft manipulator. As a result, the real-time FEM emerges as a good solution to accurately and efciently model the presented robot while also allowing to study the interactions with its environment, This research has been supported by RoboCity2030-DIH-CM, Madrid Robotics Digital Innovation Hub, S2018/NMT-4331, funded by “Programas de Actividades I+D en la Comunidad de Madrid” and co-funded by Structural Funds of the EU. And also by the Program project VJIDOCUPM18JCG from Universidad Politécnica de Madrid.

Published

2020

202. Bringing Adaptive and Immersive Interfaces to Real-World Multi-Robot Scenarios: Application to Surveillance and Intervention in Infrastructures

Author

Juan Jesús Roldán, Pablo Garcia-Aunon, Antonio Barrientos, Jaime del Cerro, Elena Peña-Tapia, Comunidad de Madrid, European Commission, Ministerio de Economía y Competitividad (España), Roldán, Juan Jesús [0000-0001-8863-4419], García-Aunon, Pablo [0000-0003-0970-4074], Cerro, Jaime Del [0000-0003-4893-2571], Barrientos, Antonio [0000-0003-1691-3907], Roldán, Juan Jesús, García-Aunon, Pablo, Cerro, Jaime Del, and Barrientos, Antonio

Subjects

0209 industrial biotechnology, multi-robot systems, General Computer Science, Situation awareness, Interface (Java), Computer science, 02 engineering and technology, Virtual reality, Critical infrastructure, interfaces, Automation, 020901 industrial engineering & automation, Human–computer interaction, 0202 electrical engineering, electronic engineering, information engineering, Immersion (virtual reality), General Materials Science, Surveillance, business.industry, General Engineering, Robotics, Task analysis, Robot, 020201 artificial intelligence & image processing, lcsh:Electrical engineering. Electronics. Nuclear engineering, business, lcsh:TK1-9971

Abstract

Multiple robot missions imply a series of challenges for single human operators, such as managing high workloads or maintaining a correct level of situational awareness. Conventional interfaces are not prepared to face these challenges; however, new concepts have arisen to cover this need, such as adaptive and immersive interfaces. This paper reports the design and development of an adaptive and immersive interface, as well as a complete set of experiments carried out to establish comparisons with a conventional one. The interface object of study has been developed using virtual reality to bring operators into scenarios and allow an intuitive commanding of robots. Additionally, it is able to recognize the mission's state and show hints to the operators. The experiments were performed in both outdoor and indoor scenarios recreating an intervention after an accident in critical infrastructure. The results show the potential of adaptive and immersive interfaces in the improvement of workload, situational awareness and performance of operators in multi-robot missions., This work was supported in part by the SAVIER (Situational Awareness VIrtual EnviRonment) project of Airbus Defence and Space; RoboCity2030-III-CM project (Robótica aplicada a la mejora de la calidad de vida de los ciudadanos. Fase III; S2013/MIT-2748), through the Programas de Actividades I+D en la Comunidad de Madrid and Structural Funds of the EU, and in part by the DPI2014-56985-R project (Protección robotizada de infraestructuras críticas) through the Ministerio de Economía y Competitividad of Gobierno de España

Published

2019

203. Single Plant Fertilization Using a Robotic Platform in an Organic Cropping Environment.

Author

Valero, Constantino, Krus, Anne, Cruz Ulloa, Christyan, Barrientos, Antonio, Ramírez-Montoro, Juan José, del Cerro, Jaime, and Guillén, Pablo

Subjects

*ORGANIC farming, *OPTICAL radar, *LIDAR, *ROBOTICS, *FERTILIZER application

Abstract

The growing demand for organically produced vegetables requires the adoption of new cropping systems such as strip-cropping. To counteract the additional labour mixed cropping entails, automation and robotics play a key role. This research focuses on the development of a proof-of-concept platform that combines optical sensors and an actuation system for targeted precision fertilization that encircles selected plants rather than a local field area. Two sensor types are used for the detection of a fertilisation need: a multispectral camera and light detection and ranging (LiDAR) devices in order to acquire information on plant health status and three-dimensional characterisation. Specific algorithms were developed to more accurately detect a change in fertilization need. An analysis of their results yields a prescription map for automatic fertilisation through a robotic arm. The relative location of the platform within the prescription map is essential for the correct application of fertilizers, and is acquired through live comparison of a LiDAR pushbroom with the known 3D world model. The geometry of each single plant is taken into account for the application of the sprayed fertiliser. This resulted in a reliable method for the detection of delayed growth and prototype localization within a changing natural environment without relying on external markers. [ABSTRACT FROM AUTHOR]

Published

2022

204. Selective Smooth Fictitious Play: An approach based on game theory for patrolling infrastructures with a multi-robot system.

Author

Hernández, Erik, Barrientos, Antonio, and Cerro, Jaime del

Subjects

*ROBOTS, *SMOOTHNESS of functions, *PROBLEM solving, *GAME theory, *GRAPH theory, *COMPUTER simulation, *MATHEMATICAL models

Abstract

Highlights: [•] The multi-robot patrolling problem is solved with a game theory model. [•] The multi-robot patrolling problem has been formulated using concepts of graph theory. [•] The approach developed has been compared with other approaches of the literature. [•] The distributed approach presented in this work improves literature approaches. [•] The approach presented in this work has been tested with a patrolling simulator. [ABSTRACT FROM AUTHOR]

Published

2014

205. Design of a hyper-redundant robot and teleoperation using mixed reality for inspection tasks

Author

Jaime del Cerro, Andrés Martín-Barrio, Antonio Barrientos, Juan Jesús Roldán-Gómez, Ivan D. Rodriguez, UAM. Departamento de Ingeniería Informática, Comunidad de Madrid, Universidad Politécnica de Madrid, Martín-Barrio, Andrés, Roldán-Gómez, Juan Jesús, Cerro, Jaime del, Barrientos, Antonio, Martín-Barrio, Andrés [0000-0002-2051-9155], Roldán-Gómez, Juan Jesús [0000-0001-8863-4419], Cerro, Jaime del [0000-0003-4893-2571], and Barrientos, Antonio [0000-0003-1691-3907]

Subjects

0209 industrial biotechnology, Design, Computer science, Hyper-redundant, Robot, 020209 energy, design, 02 engineering and technology, Kinematics, Degrees of freedom (mechanics), lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Task (project management), Remote operation, 020901 industrial engineering & automation, Teleoperation, 0202 electrical engineering, electronic engineering, information engineering, hyper-redundant, teleoperation, lcsh:TP1-1185, Electrical and Electronic Engineering, Manipulator, inspection, Instrumentation, mixed reality, Mixed reality, Informática, Inspection, Control engineering, robot, Industry 4.0, Atomic and Molecular Physics, and Optics, Immersive technology, Actuator

Abstract

Hyper-redundant robots are highly articulated devices that present numerous technical challenges such as their design, control or remote operation. However, they offer superior kinematic skills than traditional robots for multiple applications. This work proposes an original and custom-made design for a discrete and hyper-redundant manipulator. It is comprised of 7 sections actuated by cables and 14 degrees of freedom. It has been optimized to be very robust, accurate and capable of moving payloads with high dexterity. Furthermore, it has been efficiently controlled from the actuators to high-level strategies based on the management of its shape. However, these highly articulated systems often exhibit complex shapes that frustrate their spatial understanding. Immersive technologies emerge as a good solution to remotely and safely teleoperate the presented robot for an inspection task in a hazardous environment. Experimental results validate the proposed robot design and control strategies. As a result, it is concluded that hyper-redundant robots and immersive technologies should play an important role in the near future of automated and remote applications., This research was funded by RoboCity2030-DIH-CM, Madrid Robotics Digital Innovation Hub, S2018/NMT-4331, and by the project VJIDOCUPM18JCG from Universidad Politécnica de Madrid.

Published

2020

206. Monitoring plant status and fertilization strategy through multispectral images

Author

Juan Jesús Roldán-Gómez, Anne Krus, Constantino Valero, Jaime del Cerro, Matheus Cardim Ferreira Lima, Antonio Barrientos, UAM. Departamento de Ingeniería Informática, European Commission, Ferreira Lima, Matheus Cardim, Krus, Anne, Valero, Constantino, Barrientos, Antonio, Cerro, Jaime del, Roldán-Gómez, Juan Jesús, Ferreira Lima, Matheus Cardim [0000-0001-5342-1026], Krus, Anne [0000-0003-3606-4826], Valero, Constantino [0000-0003-4473-3209], Barrientos, Antonio [0000-0003-1691-3907], Cerro, Jaime del [0000-0003-4893-2571], and Roldán-Gómez, Juan Jesús [0000-0001-8863-4419]

Subjects

Buildings and machinery, 0106 biological sciences, Multispectral image, Robótica e Informática Industrial, Red edge, Image processing, engineering.material, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, computer vision, Analytical Chemistry, Solanum lycopersicum, Image Processing, Computer-Assisted, lcsh:TP1-1185, Electrical and Electronic Engineering, Fertilizers, Instrumentation, Remote sensing, Mathematics, Probability, 2. Zero hunger, Informática, precision agriculture, Agricultura, Spectrum Analysis, 04 agricultural and veterinary sciences, Vegetation, Robotics, Atomic and Molecular Physics, and Optics, multispectral image, morphological features, vegetation indices, 040103 agronomy & agriculture, engineering, Linear Models, 0401 agriculture, forestry, and fisheries, Electrónica, Fertilizer, Precision agriculture, Vermicompost, Organic fertilizer, Algorithms, 010606 plant biology & botany

Abstract

A crop monitoring system was developed for the supervision of organic fertilization status on tomato plants at early stages. An automatic and nondestructive approach was used to analyze tomato plants with di erent levels of water-soluble organic fertilizer (3 + 5 NK) and vermicompost. The evaluation system was composed by a multispectral camera with five lenses: green (550 nm), red (660 nm), red edge (735 nm), near infrared (790 nm), RGB, and a computational image processing system. The water-soluble fertilizer was applied weekly in four di erent treatments: (T0: 0 mL, T1: 6.25 mL, T2: 12.5 mL and T3: 25 mL) and the vermicomposting was added inWeeks 1 and 5. The trial was conducted in a greenhouse and 192 images were taken with each lens. A plant segmentation algorithm was developed and several vegetation indices were calculated. On top of calculating indices, multiple morphological features were obtained through image processing techniques. The morphological features were revealed to be more feasible to distinguish between the control and the organic fertilized plants than the vegetation indices. The system was developed in order to be assembled in a precision organic fertilization robotic platform., This article has been developed as a result of a mobility stay funded by the Erasmus+—KA1 Erasmus Mundus Joint Master Degrees Programme of the European Commission under the PLANT HEALTH Project. The authors acknowledge the financial support for this project provided by transnational funding bodies, being partners of the H2020 ERA-net project, CORE Organic Cofund, and the cofund from the European Commission.

Published

2020

207. Behavior-Based Control for an Aerial Robotic Swarm in Surveillance Missions

Author

Pablo Garcia-Aunon, Jaime del Cerro, Antonio Barrientos, Comunidad de Madrid, García-Aunon, Pablo, Cerro, Jaime del, Barrientos, Antonio, García-Aunon, Pablo [0000-0003-0970-4074], Cerro, Jaime del [0000-0003-4893-2571], and Barrientos, Antonio [0000-0003-1691-3907]

Subjects

0209 industrial biotechnology, Computer science, Behavior-based control, Control (management), Real-time computing, 02 engineering and technology, lcsh:Chemical technology, Biochemistry, Article, Multi-UAV, Analytical Chemistry, 020901 industrial engineering & automation, Robustness (computer science), 0202 electrical engineering, electronic engineering, information engineering, lcsh:TP1-1185, Experimental results, Electrical and Electronic Engineering, multi-uav, Instrumentation, Surveillance, robotic swarm, Swarm behaviour, Atomic and Molecular Physics, and Optics, Task (computing), behavior-based control, surveillance, 020201 artificial intelligence & image processing, Robotic swarm, experimental results

Abstract

Aerial robotic swarms have shown benefits for performing search and surveillance missions in open spaces in the past. Among other properties, these systems are robust, scalable and adaptable to different scenarios. In this work, we propose a behavior-based algorithm to carry out a surveillance task in a rectangular area with a flexible number of quadcopters, flying at different speeds. Once the efficiency of the algorithm is quantitatively analyzed, the robustness of the system is demonstrated with 3 different tests: loss of broadcast messages, positioning errors, and failure of half of the agents during the mission. Experiments are carried out in an indoor arena with micro quadcopters to support simulation results. Finally, a case study is proposed to show a realistic implementation in the test bed., The research leading to these results has received funding from RoboCity2030-DIH-CM, Madrid Robotics Digital Innovation Hub, S2018/NMT-4331, funded by “Programas de Actividades I + D en la Comunidad de Madrid” and cofunded by Structural Funds of the EU.

Published

2019

208. Fleets of robots for environmentally-safe pest control in agriculture.

Author

Gonzalez-de-Santos, Pablo, Ribeiro, Angela, Fernandez-Quintanilla, Cesar, Lopez-Granados, Francisca, Brandstoetter, Michael, Tomic, Slobodanka, Pedrazzi, Stefania, Peruzzi, Andrea, Pajares, Gonzalo, Kaplanis, George, Perez-Ruiz, Manuel, Valero, Constantino, Cerro, Jaime, Vieri, Marco, Rabatel, Gilles, and Debilde, Benoit

Subjects

*AUTONOMOUS robots, *PEST control, *FOOD production, *AGRICULTURAL chemicals, *PESTICIDE pollution, *AGRICULTURAL innovations

Abstract

Feeding the growing global population requires an annual increase in food production. This requirement suggests an increase in the use of pesticides, which represents an unsustainable chemical load for the environment. To reduce pesticide input and preserve the environment while maintaining the necessary level of food production, the efficiency of relevant processes must be drastically improved. Within this context, this research strived to design, develop, test and assess a new generation of automatic and robotic systems for effective weed and pest control aimed at diminishing the use of agricultural chemical inputs, increasing crop quality and improving the health and safety of production operators. To achieve this overall objective, a fleet of heterogeneous ground and aerial robots was developed and equipped with innovative sensors, enhanced end-effectors and improved decision control algorithms to cover a large variety of agricultural situations. This article describes the scientific and technical objectives, challenges and outcomes achieved in three common crops. [ABSTRACT FROM AUTHOR]

Published

2017

209. Robotic Fertilization in Strip Cropping using a CNN Vegetables Detection-Characterization Method.

Author

Cruz Ulloa, Christyan, Krus, Anne, Barrientos, Antonio, Cerro, Jaime del, and Valero, Constantino

Subjects

*CONVOLUTIONAL neural networks, *ARTIFICIAL vision, *ROBOTICS, *FERTILIZER application, *CROPS

Abstract

• Using convolutional neural networks and images to detect plants and characterize them (extract their geometric characteristics), the method has been contrasted with a previous one based on crop row reconstruction using point clouds. • Application of fertilizer on the vegetables by means of a robotic arm based on a planning carried out with the characterization data. • The decision-making to fertilize a vegetable is made based on the NDVI indices obtained in a previous analysis of the crop rows. • The proposed method has high efficiency, fast processing time and above all uses low-cost sensors. To meet the increased demand for organic vegetables and improve their product quality, the Sureveg CORE Organic Cofund ERA-Net project focuses on the benefits and best practices of growing different crops in alternate rows. A prototype of a robotic platform was developed to address the specific needs of this field type at an individual plant level rather than per strip or field section. This work describes a novel method to develop robotic fertilization tasks in crop rows, based on automatic vegetable Detection and Characterization (D.a.C) through an algorithm based on artificial vision and Convolutional Neural Networks (CNN). This network was trained with a data-set acquired from the project's experimental fields at ETSIAAB-UPM. The data acquisition, processing, anc actuation are carried out in Robot Operating System (ROS). The CNN's precision, recall, and IoU values as well as characterization errors were evaluated in field trials. Main results show a neural network with an accuracy of 90.5% and low error percentages (<3%) during the vegetable characterization. This method's main contribution focuses on developing an alternative system for the vegetable D.A.C for individual plant treatments using CNN and low-cost RGB sensors. [ABSTRACT FROM AUTHOR]

Published

2022

210. Aerial Coverage Path Planning applied to Mapping

Author

Pereira Valente, Joao Ricardo, Barrientos Cruz, Antonio, Cerro Giner, Jaime del, Barrientos, Antonio, and Cerro, Jaime del

Subjects

Ingeniería Industrial

Abstract

Tesis Doctoral defendida para la obtención del Título de Grado de Doctor. xvi, 165 p. : il., fot., diagr. Fecha de defensa de la Tesis Doctoral: 21 de noviembre de 2014, In the last decade we have seen how small and light weight aerial platforms - aka, Mini Unmanned Aerial Vehicles (MUAV) - shipped with heterogeneous sensors have become a 'most wanted' Remote Sensing (RS) tool. Most of the o-the-shelf aerial systems found in the market provide way-point navigation. However, they do not rely on a tool that compute the aerial trajectories considering all the aspects that allow optimizing the aerial missions. One of the most demanded RS applications of MUAV is image surveying. The images acquired are typically used to build a high-resolution image, i.e., a mosaic of the workspace surface. Although, it may be applied to any other application where a sensor-based map must be computed. This thesis provides a study of this application and a set of solutions and methods to address this kind of aerial mission by using a eet of MUAVs. In particular, a set of algorithms are proposed for map-based sampling, and aerial coverage path planning (ACPP). Regarding to map-based sampling, the approaches proposed consider workspaces with dierent shapes and surface characteristics. The workspace is sampled considering the sensor characteristics and a set of mission requirements. The algorithm applies dierent computational geometry approaches, providing a unique way to deal with workspaces with dierent shape and surface characteristics in order to be surveyed by one or more MUAVs. This feature introduces a previous optimization step before path planning. After that, the ACPP problem is theorized and a set of ACPP algorithms to compute the MUAVs trajectories are proposed. The problem addressed herein is the problem to coverage a wide area by using MUAVs with limited autonomy. Therefore, the mission must be accomplished in the shortest amount of time. The aerial survey is usually subject to a set of workspace restrictions, such as the take-o and landing positions as well as a safety distance between elements of the eet. Moreover, it has to avoid forbidden zones to y. Three dierent algorithms have been studied to address this problem. The approaches studied are based on graph searching, heuristic and meta-heuristic approaches, e.g., mimic, evolutionary. Finally, an extended survey of eld experiments applying the previous methods, as well as the materials and methods adopted in outdoor missions is presented. The reported outcomes demonstrate that the ndings attained from this thesis improve ACPP mission for mapping purpose in an ecient and safe manner.

211. RUDE-AL: Roped UGV Deployment Algorithm of an MCDPR for Sinkhole Exploration.

Author

Orbea D, Cruz Ulloa C, Del Cerro J, and Barrientos A

Abstract

The presence of sinkholes has been widely studied due to their potential risk to infrastructure and to the lives of inhabitants and rescuers in urban disaster areas, which is generally addressed in geotechnics and geophysics. In recent years, robotics has gained importance for the inspection and assessment of areas of potential risk for sinkhole formation, as well as for environmental exploration and post-disaster assistance. From the mobile robotics approach, this paper proposes RUDE-AL (Roped UGV DEployment ALgorithm), a methodology for deploying a Mobile Cable-Driven Parallel Robot (MCDPR) composed of four mobile robots and a cable-driven parallel robot (CDPR) for sinkhole exploration tasks and assistance to potential trapped victims. The deployment of the fleet is organized with node-edge formation during the mission's first stage, positioning itself around the area of interest and acting as anchors for the subsequent release of the cable robot. One of the relevant issues considered in this work is the selection of target points for mobile robots (anchors) considering the constraints of a roped fleet, avoiding the collision of the cables with positive obstacles through a fitting function that maximizes the area covered of the zone to explore and minimizes the cost of the route distance performed by the fleet using genetic algorithms, generating feasible target routes for each mobile robot with a configurable balance between the parameters of the fitness function. The main results show a robust method whose adjustment function is affected by the number of positive obstacles near the area of interest and the shape characteristics of the sinkhole.

Published

2023

212. Deep Learning Vision System for Quadruped Robot Gait Pattern Regulation.

Author

Cruz Ulloa C, Sánchez L, Del Cerro J, and Barrientos A

Abstract

Robots with bio-inspired locomotion systems, such as quadruped robots, have recently attracted significant scientific interest, especially those designed to tackle missions in unstructured terrains, such as search-and-rescue robotics. On the other hand, artificial intelligence systems have allowed for the improvement and adaptation of the locomotion capabilities of these robots based on specific terrains, imitating the natural behavior of quadruped animals. The main contribution of this work is a method to adjust adaptive gait patterns to overcome unstructured terrains using the ARTU-R (A1 Rescue Task UPM Robot) quadruped robot based on a central pattern generator (CPG), and the automatic identification of terrain and characterization of its obstacles (number, size, position and superability analysis) through convolutional neural networks for pattern regulation. To develop this method, a study of dog gait patterns was carried out, with validation and adjustment through simulation on the robot model in ROS-Gazebo and subsequent transfer to the real robot. Outdoor tests were carried out to evaluate and validate the efficiency of the proposed method in terms of its percentage of success in overcoming stretches of unstructured terrains, as well as the kinematic and dynamic variables of the robot. The main results show that the proposed method has an efficiency of over 93% for terrain characterization (identification of terrain, segmentation and obstacle characterization) and over 91% success in overcoming unstructured terrains. This work was also compared against main developments in state-of-the-art and benchmark models.

Published

2023

213. Trend Technologies for Robotic Fertilization Process in Row Crops.

Author

Cruz Ulloa C, Krus A, Barrientos A, Del Cerro J, and Valero C

Abstract

The development of new sensory and robotic technologies in recent years and the increase in the consumption of organic vegetables have allowed the generation of specific applications around precision agriculture seeking to satisfy market demand. This article analyzes the use and advantages of specific optical sensory systems for data acquisition and processing in precision agriculture for Robotic Fertilization process. The SUREVEG project evaluates the benefits of growing vegetables in rows, using different technological tools like sensors, embedded systems, and robots, for this purpose. A robotic platform has been developed consisting of Laser Sick AG LMS100 × 3, Multispectral, RGB sensors, and a robotic arm equipped with a fertilization system. Tests have been developed with the robotic platform in cabbage and red cabbage crops, information captured with the different sensors, allowed to reconstruct rows crops and extract information for fertilization with the robotic arm. The main advantages of each sensory have been analyzed with an quantitative comparison, based on information provided by each one; such as Normalized Difference Vegetation Index index, RGB Histograms, Point Cloud Clusters). Robot Operating System processes this information to generate trajectory planning with the robotic arm and apply the individual treatment in plants. Main results show that the vegetable characterization has been carried out with an efficiency of 93.1% using Point Cloud processing, while the vegetable detection has obtained an error of 4.6% through RGB images., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Cruz Ulloa, Krus, Barrientos, del Cerro and Valero.)

Published

2022