covid
Buscar en
Revista Iberoamericana de Automática e Informática Industrial RIAI
Toda la web
Inicio Revista Iberoamericana de Automática e Informática Industrial RIAI Un Banco de Pruebas Remoto para Experimentación en Robótica Ubicua
Información de la revista
Vol. 11. Núm. 1.
Páginas 68-79 (enero - marzo 2014)
Compartir
Compartir
Descargar PDF
Más opciones de artículo
Visitas
3111
Vol. 11. Núm. 1.
Páginas 68-79 (enero - marzo 2014)
Open Access
Un Banco de Pruebas Remoto para Experimentación en Robótica Ubicua
A Remote Testbed for Ubiquitous Robotics Experimentation
Visitas
3111
Adrián Jiménez-González, José Ramiro Martínez-de Dios
,1
, Alberto de San Bernabé, Gabriel Núñez, Aníbal Ollero2
Grupo de Robótica, Visión y Control, Departamento de Ingeniería de Sistemas y Automática, Escuela Técnica Superior de Ingeniería, Camino de los Descubrimientos s/n, 41092 Sevilla, España
Este artículo ha recibido

Under a Creative Commons license
Información del artículo
Resumen
Texto completo
Bibliografía
Descargar PDF
Estadísticas
Resumen

La escasez de herramientas experimentales adecuadas ha sido señalada como un factor crítico en el desarrollo de la robótica ubícua. Este artículo describe un banco de pruebas remoto para experimentación en robótica ubicua integrando robots con redes inalámbricas de sensores. El banco de pruebas está compuesto por 5 robots Pioneer 3-AT, por una red de cámaras y por una red inalámbrica de sensores, todos ellos equipados con una amplia variedad de sensores. La arquitectura del banco de pruebas permite una gran diversidad de esquemas de cooperación entre sus elementos abstrayendo sus particularidades y capacidades sensoriales, computacionales y de comunicaciones. Permite ejecutar experimentos con distintos grados de descentralización. El banco de pruebas, instalado en la Escuela Técnica Superior de Ingeniería de la Universidad de Sevilla, es abierto y hace posible el acceso de forma remota mediante una interfaz gráfica intuitiva.

Palabras clave:
Bancos de pruebas
robótica ubicua
redes inalámbricas de sensores
Abstract

The lack of adequate experimental tools has been highligh- ted as a major critical issue in the development of ubiquitous ro- botics integrating mobile robots and wireless sensor networks. This paper describes a remotely operated testbed for ubiquitous robotics experimentation. It is currently comprised of 5 Pio- neer 3-AT robots, a camera network and a wireless sensor net- work WSN, each equipped with widespread off-the-shelf sen- sors. The testbed architecture allows wide variety of coopera- tion schemes among its elements, abstracting their particula- rities and sensory, computational and communication capabi- lities. It also allows performing experiments with different de- grees of decentralization. The testbed, currently deployed in the School of Engineering at the University of Seville, is open and can be accessed remotely through a friendly graphical user in- terface.

Keywords:
testbeds
networked robots
wireless sensor networks
Referencias
[Acevedo et al., 2011]
J. Acevedo, B. Arru¿e, I. Maza, A. Ollero.
Optimal distribu- tion of multiple robots for perimeter surveillance.
In: 3rd National Confe- rence on Experimental Robotics., (november 2011), pp. 228-232
[Akyildiz et al., 2002]
I. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci.
A survey on sensor networks.
IEEE Communications Magazine, 40 (aug 2002), pp. 102-114
[Albesa et al., 2007]
J. Albesa, R. Casas, M. Penella, M. Gasulla.
Realnet: An environ- mental wsn testbed.
In: Intl. Conf. on Sensor Technologies and Applications, SensorComm2007., (oct 2007), pp. 502-507
[Atay and Bayazit, 2009]
N. Atay, B. Bayazit.
Mobile wireless sensor network connecti- vity repair with k-redundancy.
In: Algorithmic Foundation of Robotics VIII. Vol. 57 of Springer Tracts in Advanced Robotics. Springer Berlin/Heidel- berg, (january 2009), pp. 35-49
[Barbosa et al., 2009]
M. Barbosa, A. Bernardino, D. Figueira, J. Gaspar, N. Goncalves, P. Lima, P. Moreno, A. Pahliani, J. Santos-Victor, M. Spaan, J. Sequeira.
Isrobotnet: A testbed for sensor and robot network systems.
In: IEEE/RSJ Intl. Conf. on Intelligent Robots and Systems., (oct 2009), pp. 2827-2833
[Boice et al., 2006]
J. Boice, X. Lu, C. Margi, G. Stanek, G. Zhang, K. Obraczka.
Meer- kats: A power-aware, self-managing wireless camera network for wide area monitoring, (2006),
[Brundage et al., 2006]
H. Brundage, L. Cooney, E. Huo, H. Lichter, O. Oyebode, P. Sinha, M. Stan- way, T. Stefanov-Wagner, K. Stiehl, D. Walker.
Design of an rov to compete in the 5th annual mate rov competition and beyond.
In: OCEANS., (sept 2006), pp. 1-5
[Chatzigiannakis et al., 2010]
I. Chatzigiannakis, S. Fischer, C. Koninis, G. Mylonas, D. Pfisterer.
Wisebed: An open large-scale wireless sensor network testbed In: Sensor Applications, Experimentation, and Logistics.
Vol. 29 of Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecom. Engineering. Springer Berlin Heidelberg, (2010), pp. 68-87
[Corke et al., 2006]
P. Corke, S. Hrabar, R. Peterson, D. Rus, S. Saripalli, G. Sukhatme.
Deployment and connectivity repair of a sensor net with a flying robot.
In: Experimental Robotics IX. Vol. 21 of Springer Tracts in Advanced Robotics. Springer Berlin/Heidelberg, (2006), pp. 333-343
[De et al., 2006]
P. De, A. Raniwala, R. Krishnan, K. Tatavarthi, J. Modi, N.A. Syed, S. Sharma, T.C. Chiueh.
Mint-m: an autonomous mobile wireless experi- mentation platform.
In: 4th Intl. Conf. on Mobile Systems, Applications and Services. ACM, New York, NY, USA, (2006), pp. 124-137
[Deloach et al., 2003]
S.A. Deloach, E.T. Matson, Y. Li.
Exploiting agent oriented software engineering in cooperative robotics search and rescue.
Intl, Journal of Pat- tern Recognition and Artificial Intelligence, 17 (2003), pp. 817-835
[Durham and Bullo, 2008]
J. Durham, F. Bullo.
Smooth nearness-diagram navigation.
In: IEEE/RSJ Intl. Conf. on Intelligent Robots and Systems., (sept 2008), pp. 690-695
[Fox et al., 1999]
D. Fox, W. Burgard, F. Dellaert, S. Thrun.
Monte carlo localization: efficient position estimation for mobile robots.
In: AAAI 16th Conf. on Ar- tificial Intelligence and 11th Conf. on Innovative Applications of Artificial Intelligence., (1999), pp. 343-349
[Gnawali et al., 2009]
O. Gnawali, R. Fonseca, K. Jamieson, D. Moss, P. Levis.
Collection Tree Protocol.
In: 7th ACM Conference on Embedded Networ- ked Sensor Systems, (November 2009),
[Handziski et al., 2006]
V. Handziski, A. Ko¿pke, A. Willig, A. Wolisz.
Twist: a scalable and re- configurable testbed for wireless indoor experiments with sensor networks.
In: 2nd ACM Intl. Workshop on Multi-hop ad hoc Networks: from theory to reality. New York, NY, (2006), pp. 63-70
[Hoffmann et al., 2004]
G. Hoffmann, D. Rajnarayan, S. Waslander, D. Dostal, J. Jang, C. Tomlin.
The stanford testbed of autonomous rotorcraft for multiagent con- trol.
In: 23rd Digital Avionics Systems Conf., 2 (oct 2004), pp. 12E.4-121E
[How et al., 2008]
J. How, B. Bethke, A. Frank, D. Dale, J. Vian.
Real-time indoor autonomous vehicle test environment.
IEEE Control Systems, 28 (april 2008), pp. 51-64
[Jin et al., 2004]
Z. Jin, S. Waydo, E. Wildanger, M. Lammers, H. Scholze, P. Foley, D. Held, R. Murray.
Mvwt-ii: the second generation caltech multi-vehicle wireless testbed.
In: American Control Conf., 6 (Jul 2004), pp. 5321-5326
[Johnson et al., 2006]
D. Johnson, T. Stack, R. Fish, D.M. Flickinger, L. Stoller, R. Ricci, J. Lepreau.
Mobile emulab: A robotic wireless and sensor network testbed.
In: 25th IEEE Intl. Conf. on Computer Communications., (april 2006), pp. 1-12
[Kulkarni et al., 2005]
Kulkarni, P., Ganesan, D., Shenoy, P., Lu, Q., 2005. Senseye: a multi-tier came- ra sensor network. In: 13th annual ACM international conference on Multimedia. MULTIMEDIA’ 05. ACM, New York, NY, USA, pp. 229-238.DOI: 10.1145/1101149.1101191.
[Li and Parker, 2008]
Y.Y. Li, L. Parker.
Intruder detection using a wireless sensor net- work with an intelligent mobile robot response.
In: IEEE Southeastcon., (april 2008), pp. 37-42
[Martinez-deDios et al., 2012]
J. Martinez-deDios, K. Lferd, A. de San Bernabé, G. Núñez, A. Torres González, A. Ollero.
Cooperation between uas and wireless sen- sor networks for efficient data collection in large environments.
Journal of Intelligent and Robotic Systems, (2012), pp. 1-18
[Maza et al., 2011]
I. Maza, F. Caballero, J. Capitán, J. Martínez-de Dios, A. Ollero.
Ex- perimental results in multiuav coordination for disaster management and ci- vil security applications.
Journal of Intelligent & Robotic Systems, 61 (2011), pp. 563-585
[Michael et al., 2008]
N. Michael, J. Fink, V. Kumar.
Experimental testbed for large multirobot teams.
IEEE Robotics Automation Magazine, 15 (march 2008), pp. 53-61
[Miller et al., 2000]
D. Miller, A. Seanz-Otero, J. Wertz, A. Chen, G. Berkowski, C. Brodel, Carlson, S. Carpenter, D.S. Chen.
Spheres-a testbed for long duration satellite formation flying in micro-gravity conditions.
In: AAS/AIAA Space Flight Mechanics Meeting., (january 2000), pp. 167-179
[Popa and Lewis, 2008]
D.O. Popa, F.L. Lewis.
Algorithms for robotic deployment of wsn in adaptive sampling applications.
In: Wireless Sensor Networks and Applica- tions. Signals and Communication Technology. Springer US, (2008), pp. 35-64
[Rensfelt et al., 2011]
O. Rensfelt, F. Hermans, P. Gunningberg, L.-Å. Larzon, E. Björnemo.
Repeatable experiments with mobile nodes in a relocatable wsn testbed.
The Computer Journal, 54 (2011), pp. 1973-1986
[Riggs et al., 2010]
T. Riggs, T. Inanc, W. Zhang.
An autonomous mobile robotics test- bed:construction, validation, and experiments.
IEEE Transactions on Con- trol Systems Technology, 18 (may 2010), pp. 757-766
[Saffiotti and Broxvall, 2005]
A. Saffiotti, M. Broxvall.
Peis ecologies: ambient intelligence meets autonomous robotics.
In: Joint Conf. on Smart Objects and Ambient Inte- lligence: innovative context-aware services: usages and technologies. ACM, New York, NY, USA, (2005), pp. 277-281
[Shah et al., 2003]
R.C. Shah, S. Roy, S. Jain, W. Brunette.
Data mules: modeling and analysis of a three-tier architecture for sparse sensor networks.
Ad Hoc Net- works, 1 (2003), pp. 215-233
[Sichitiu and Ramadurai, 2004]
M. Sichitiu, V. Ramadurai.
Localization of wireless sensor networks with a mobile beacon.
In: IEEE Intl. Conf. on Mobile Ad-hoc and Sensor Systems., (oct 2004), pp. 174-183
[Stubbs et al., 2006]
A. Stubbs, V. Vladimerou, A. Fulford, D. King, J. Strick, G. Dullerud.
Multivehicle systems control over networks: a hovercraft testbed for networked and decentralized control.
IEEE Control Systems, 26 (june 2006), pp. 56-69
[Tseng et al., 2007]
Y.C. Tseng, Y.C. Wang, K.Y. Cheng, Y.Y. Hsieh.
imouse: An integrated mobile surveillance and wireless sensor system.
Computer, 40 (june 2007), pp. 60-66
[Ulrich and Borenstein, 1998]
I. Ulrich, J. Borenstein.
Vfh+: reliable obstacle avoidance for fast mobile robots.
In: IEEE Intl. Conf. on Robotics and Automation., 2 (may 1998), pp. 1572-1577

http://www.esi.us.es/∼jdedios/.

http://grvc.us.es/aollero/.

Copyright © 2012. EA
Descargar PDF
Opciones de artículo