Many robotics and computer vision projects have been developed using the JDErobot software suite. Here you can see the final year projects from undergrad, grad and master students of Computer Science and Telecommunication Engineering at the Rey Juan Carlos University in the last years.
- Iñaki San Román , (master): without title yet
- Eloy Montero , (master): TrafficMonitor
- Borja Menéndez , (master): visualHFSM for Nao
- Alejandro Hernández, (master): Without title yet
- Juan Camilo Gómez , (master): robot RTT
- Julio Guillén, (master): Vision-based AUV
- Francisco Rivas, (master): ElderCare-5
- Guillermo Cortizo, (master): Without title yet
- Óscar García, (master): Without title yet
- Luis Menendez, (master): Without title yet
- Humberto Urrutia, (master): LEGO NXT programming
- Mikel Díez, (master): monoSLAM in mobile devices
- Pablo Mayor, (master): Without title yet
- Karla Rubio, (grad): TrafficMonitor
- Javier Fernandez, (grad): home automation
- Alberto Martín, (grad): drone
- Daniel Castellano, (grad): home automation system
- Juanjo García, (grad): the topic is not clear yet.
- Estela López, (grad): the topic is not clear yet.
- José Ruíz, (grad): the topic is not clear yet.
- Juan Navarro, (grad): the topic is not clear yet.
- Luis Roberto Morales, (grad): the topic is not clear yet
- Evelin Fuster, (grad): the topic is not clear yet.
- Jaime Rodríguez Gandía, (undergrad): Without project yet
- Jesús Checa, (undergrad): 2 kinect registration
- Livio Calvo, (undergrad): Unmanned Aerial Vehicle
- Agustín Gallardo, (undergrad): Visual Calibrator
- Gonzalo Gil, (undergrad): Control system of home automation devices
- Álvaro Aranda, (undergrad): Without project yet
- Daniel Gómez, (undergrad): Advances in TrafficMonitor
- Maikel Gonzalez, (undergrad): jderobot-5.1 release
- Alejandro Hernández, (grad): Local Memory of a mobile robot based on depth sensors
- Rubén Salamanqués, (undergrad): Visual tool for robot programming with Hierarchical Finite State Machines
- Pablo Miangolarra, (grad): Security system for the management of heterogeneous sensors in critical infraestructures
- David Yunta, (undergrad): Tool for visual programming of robot behaviors with Finite State Machines.
- Rubén González, (master): Three-dimensional Reconstruction of Indoor Environments for Visual Navigation in Robots
- Francisco Rivas, (undergrad): Learning walking gaits for Nao humanoid
- Darío Rodríguez, (undergrad): Multimodal evolutive algorithm for self localization using vision and laser
- Javier Vázquez, (master): Teaching robotics with jderobot-5.
- Roberto Calvo, (master): Enabling Technologies: Libre Software and small computers.
- David Lobato, (master): jderobot 5: Component-based framework for robot aplications.
- Redouane Kachach, (master): Car Classifier.
- Eduardo Perdices, (master): Visual Self-Localization in the RoboCup with sampling-based algorithms.
- Sara Marugán, (master): Autonomous fall detection system that sends alarms to a cell phone.
- Jorge Bermejo, (undergrad): Nao humanoid support in Gazebo 3D robot simulator.
- Carlos Iván Martín, (undergrad): Visual Editor for Finite State Machines in jderobot.
- Luis Miguel López, (grad): Location & Environment reconstruction from one moving camera.
- Sara Marugán, (grad): People 3D tracking using volumetric primitives.
- Pablo Miangolarra, (undergrad): Visual memory 3D for mobile robot with stereo couple.
- José Manuel Domínguez, (grad): Localization world 3D.
- Eduardo Perdices, (grad): Visual Self-Localization in the RoboCup based in 3D goals detection.
- Gonzalo Abella, (undergrad): Visual attention.
- David Muelas, (undergrad): 3D Skeleton Visualizer.
- Roberto Calvo, (grad): 3D Reconstruction by means of visual attention system.
- Julio Vega, (grad): Guide Robot.
- Víctor Hidalgo, (grad): Car Speed.
- Redouane Kachach, (grad): Automatic camera calibration using DLT.
- Javier Martín, (undergrad): Face detection and tracking on jdec platform.
- Manuel Mendoza (undergrad) has developed the classic matching and triangulation method to estimate a 3D scene from a stereo pair. He tested it with real cameras, not only simulated ones.
- Sara Marugán, (undergrad): has developed an application that learns the color of several people walking inside a room and tracks their 3D position in real time using the images from four cameras.
- José A. Santos (undergrad) has developed a schema that computes the optical flow in a image sequence (from a real camera or a video) and two applications that use it: a visual car counter and an EyeToy-type teleoperator for our robots.
- Angel Cortés (undergrad) has developed an evolutionary multimodal localization algorithm. It evolves several races of individuals at the same time to keep several hypothesis. It robustly localizes the robot using laser sensor in simmetric environments.
- Iván García, (undergrad): Visual 3D reconstruction with evolutive algorithms. He has developed a visual multiobject 3D tracker. It is based on genetic algorithms both with points and 3D segments as individuals.
- Jesús Ruíz-Ayúcar (undergrad) has developed jdeneoc a new software implementation of JDE cognitive architecture for robotic applications. Schemas are integrated as plugins in jdeneoc. It uses OpenGL for 3D visualization, GTK and Glib.
- José M. Esteban (undergrad) has developed a visual 3D perception algorithm which uses matching, triangulation and 3D segmentation.
- Olmo León (grad). He programmed a vision-based application which attentively builds a 3d representation of the scene and uses that for autonomous navigation.
- Ricardo Palacios (undergrad). He developed several schemas for mate, people, door and wall robust identification using ethological sensor fusion tecnhiques.
- Víctor Hidalgo (undergrad). He developed a vision-based mate detection and following for the Pioneer robot.
- Antonio Pineda (undergrad). He developed a vision-based security application using particle filter and fly filter to localize and track a relevant object in 3D.
- David Lobato, (grad): jde+: an object oriented implementation of JDE. He designed and programmed JDE+, a new object-oriented implementation of JDE architecture for robotics applications.
- Marta Martínez de la Casa (grad). She studied attention mechanisms and developed a new one for a single camera on a pantilt unit to represent the whole scene using saccadic movements, and so achieving a broader scope than the camera's field of view.
- Alberto López (undergrad). He programmed a localization algorithm for the Pioneer robot based on a visual beacons 2D-map and camera images.
- Redouane Kachach (undergrad). He programmed a localization algorithm for the Pioneer robot based on 2D-map and laser measurements.
- Pedro M. Díaz (undergrad). He developed a vision-based wander behavior for the Pioneer robot.
- Carlos Agüero and Víctor Gómez (grad). They have worked on the Speed Intelligent System, an autonomous system to detect overtaking situations for heavy trucks and buses.
- Raúl Isado (undergrad). He has worked on the gradient path planning algorithm (from Kurt Konolige), implementing it as a JDE schema.
- Alejandro López (undergrad). He has programmed a robot path planner using visibility graphs.
- Roberto Calvo (undergrad). In his bachelor thesis he has developed a follow person behavior for a Pioneer robot, using on board camera and pantilt unit.
- Ricardo Ortiz (undergrad). He has developed a follow person behavior for a Pioneer robot, using only the on board camera and sonars.
- David Lobato (undergrad). He implemented a dynamic window control method (from Sebastian Thrun) for local navigation on a Pioneer robot.
- Maria Angeles Crespo (undergrad). She programmed a MonteCarlo localization algorithm using only visual information, and built a realistic simulation environment to do the experiments (pdf).
- Juan José Martínez (undergrad). He programmed the behavior set of a soccer player in the simulated RoboCup, the forward, using the JDE architecture.
- Marta Martínez (undergrad). She programmed a follow ball behavior for the EyeBot robot using the birdeye camera.
- Alfonso Matute (undergrad). He implemented a calibration tool for color filtering: in RGB, in HSI, in Lab.
- Victor Gómez (undergrad). In his bachelor thesis he developed a reactive wall following behavior using only vision information, on the EyeBot robot.
- Félix San Martín (undergrad). He programmed a follow ball behavior for the EyeBot robot using the local camera.
- Esther García (undergrad). She implemented a teleoperator for the EyeBot robot, and wrote our first EyeBot manual.