MANFRED

MANFRED (MAN FRiEnDly mobile manipulator) is an autonomous mobile manipulator designed to operate efficiently in environments where human manipulation capabilities are required.

Due to the presence of obstacles, fixed or mobile, narrow places, locations with a high number of obstacles, doors, safety valves and other elements in typical human environments, mobile manipulators require a high level of autonomy in movements and manipulation. To cope with autonomy requirements a combination of displacement, manipulation and sensorial capabilites are nedeed. Other important aspect in many kind of environments is the presence of persons. Safety considerations has been taken into consideration in the design, in those aspects relatives to the manipulator (light wheight and moderate speeds, and also in the functional architecture of the robot. MANFRED has a coordinated control of all degree of freedom in the system (the mobile base has 2 DOF and the manipulator has 6 DOF) to achieve smooth movement. This mobile manipulator use a sensorial system based in vision and 3-D laser telemetry to perceive and model 3-D environments. The mobile manipulator will include all the capabilities needed to navigate, localize and avoid obstacles safely through the environment.

Journal Publication

Entries:

Two different tools for three-dimensional mapping: DE-based scan matching and feature-based loop detection
Robotica. num. 1 , vol. 32 , pages: 19 – 41 , 2014
F. Martín L. Moreno R. Triebel R. Siegwart

General Path Planning Methodology for Leader-Followers based Robot Formations
International Journal of Advanced Robotic Systems. num. 64 , vol. 10 , pages: 1 – 10 , 2013
S. Garrido L. Moreno J.V. Gomez P. Lima

Planning Robot Formations with Fast Marching Square Including Uncertainty Conditions
Robotics and Autonomous Systems. num. 2 , vol. 61 , pages: 137 – 152 , 2013
J.V. Gomez A. Lumbier S. Garrido L. Moreno

Adaptive evolving strategy for dextrous robotic manipulation.
Evolving Systems, http://dx.doi.org/10.1007/s12530-013-9085-6.. , pages: 1 – 8 , 2013
D. Alvarez C. A. Arismendi S. Garrido L. Moreno

High-Accuracy Global Localization Filter for Three-Dimensional Environments
Robotica, http://dx.doi.org/10.1017/S0263574711000701. num. 3 , vol. 30 , pages: 363 – 378 , 2012
F. Martín S. Garrido D. Blanco L. Moreno

Robotic Motion using Harmonic Functions and Finite Elements
Journal of Intelligent and Robotic Systems. http://dx.doi.org/10.1007/s10846-009-9381-3. num. 1 , vol. 59 , pages: 57 – 74 , 2010
F. Martín S. Garrido D. Blanco L. Moreno

Nonholonomic Motion Planning Using the Fast Marching Square Method
International Journal of Advanced Robotic Systems. num. 56 , vol. 12 , 2015
C. A. Arismendi D. Alvarez S. Garrido L. Moreno

Fast Marching-based globally stable motion learning
Soft Computing . , pages: 1 – 14 , 2015
J.V. Gomez D. Alvarez S. Garrido L. Moreno

Conference Publications

Entries:

Improving Sampling-based Path Planning Methods with Fast Marching
ROBOT2013, 2013, Madrid, Spain
J.V. Gomez D. Alvarez S. Garrido L. Moreno

Learning-based Floor Segmentation and Reconstruction
ROBOT2013, 2013, Madrid, Spain
J.V. Gomez L. Moreno D. Alvarez

Teletesting: Path Planning Experimentation and Benchmarking in the Teleworkbench
European Conference on Mobile Robots, 2013, Barcelona, Spain
J.V. Gomez S. Garrido

Precision Grasp Planning Based on Fast Marching Square.
IEEE/RSJ 21st Mediterranean Conference on Control and Automation (MED) 2013., Platanias-Chani, Greece
J.V. Gomez D. Alvarez A. Lumbier S. Garrido L. Moreno

Fast Marching in motion planning for rhombic like vehicles operating in ITER
IEEE International Conference on Robotics and Automation (ICRA 2013), 2013, Karlsruhe, Germany
J.V. Gomez S. Garrido L. Moreno

Estimación de Suelos Navegables para Interiores
11th Workshop Robocity 2030: Robots personales y asistenciales, 2013, Madrid, Spain
J.V. Gomez D. Alvarez L. Moreno

Kinesthetic Teaching via Fast Marching Square
IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2012), 2012, Vila Moura, Portugal
J.V. Gomez D. Alvarez S. Garrido L. Moreno

On Path Planning: Adaptation to the Environment using Fast Marching
EAIS12, Madrid, Spain
J.V. Gomez C. A. Arismendi S. Garrido L. Moreno

Robot Formations Motion Planning using Fast Marching
Robot 2011, 2011, Sevilla, Spain
P. Lima J.V. Gomez S. Garrido L. Moreno

Textureless Object Recognition and Arm Planningfor a Mobile Manipulator
53rd International Symposium ELMAR-2011, Zadar, Croatia
N. Burrus P. Jurewicz J.G. Bueno L. Moreno

Adaptive Robot Formations Using Fast Marching Square Working Under Uncertainty Conditions
IEEE Workshop on Advanced Robotics and its Social Impacts (ARSO 2011), 2011, San Francisco , CA – EEUU
J.V. Gomez S. Garrido L. Moreno

Accelerated Localization in Noisy 3D Environments usingDifferential Evolution
The 2010 International Conference on Genetic and Evolutionary Methods, Las Vegas, USA
C. G.Uzcategui F. Martín D. Blanco L. Moreno

Localization in 3D Environments Using DifferentialEvolution
2009 IEEE International Symposium on Intelligent Signal Processing (WISP'2009), Budapest, Hungary
F. Martín S. Garrido D. Blanco L. Moreno

L1-norm global localization based on a Differential Evolution Filter
2009 IEEE International Symposium on Intelligent Signal Processing (WISP'2009), Budapest, Hungary
M.L. Muñoz F. Martín S. Garrido D. Blanco L. Moreno

Patents

Books

Entries:

Ph.D. Thesis: Evolutionary-based Global Localization and Mapping of three-dimensional environments. Directors: Luis Moreno Lorente, Santiago Garrido Bullón. February, 2012.
– , ISBN: -, 2000
F. Martín

Doctoral Thesis

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