luís paulo reis http://lpreis [email protected]
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IntellWheels: Intelligent Wheelchair with Flexible Multimodal Interface. Luís Paulo Reis Http://www.fe.up.pt/~lpreis [email protected] Member of the Directive Board of LIACC – Artificial Intelligence and Computer Science Lab. Of the University of Porto, Portugal - PowerPoint PPT PresentationTRANSCRIPT
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|1
Luís Paulo Reis Http://www.fe.up.pt/~lpreis
[email protected] of the Directive Board of LIACC – Artificial Intelligence and Computer
Science Lab. Of the University of Porto, PortugalAssociate Professor of the School of Engineering, University of Minho, Portugal
IntellWheels: Intelligent Wheelchair with Flexible
Multimodal Interface
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|2
• Introduction– Participant Institutions– Motivation and Objectives– Intelligent Wheelchairs
• IntellWheels Project– System Architecture– Hardware Platform– Multi-Agent System– Communication Platform– Simulation System– Multimodal Interface
• Experiments and Results– Simulated IW Experiments– Real IW Experiments
• Conclusions and Future Work
Presentation Outline
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|3
• Research Labs:– LIACC – Artificial Intelligence and Computer Science Laboratory, Univ. Porto– INESC-P – Institute for Systems Engineering and Computers, Porto– IEETA – Institute of Electronics and Telematics Engineering of Aveiro
• Universities/Faculties:– University of Porto – DEI/Faculty of Engineering and DEEC/Faculty of Engineering– University of Aveiro – DETI/University of Aveiro– University of Minho – DSI/School of Engineering
• Health Institutions:– IPP/ESTSP – Porto Polytechnic Institute/ Health Technology Superior School– APPC – Portuguese Association for Cerebral Palsy
• Funding 2010-2012 (FCT/RPID/ADA/109636/2009):– FCT – Fundação para a Ciência e a Tecnologia– COMPETE – Prog. Operacional Fac. Competitividade
Participant Institutions
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|4
• Limited mobility of certain individuals– Increment of the population aged over 60 years
• Individuals with severe physical disabilities– Cerebral palsy– Tetraplegia
• Inability to control conventional electric wheelchairs
1960 1970 1980 1990 2000 2010 20200.001.002.003.004.005.006.007.00 Worldwide elderly population (in millions) 1980-2020
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IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|5
• Definition:Robotic device provided with sensorial and actuation systems and processing capabilities:– Semi-Autonomous behavior with
obstacle avoidance– Autonomous navigation and planning
capabilities– Flexible Human-Machine interaction– Cooperation with other IW and with
other devices (e.g. automatic doors)
Intelligent Wheelchair
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|6
• More than 50 IW international projects – Obstacle avoidance– Human-machine interface– MAS very restricted use– IW built from scratch
• Inexistence– IW useful in practice:
• Very low cost• Low ergonomic impact• Useful for handicapped individuals
– Mixed reality environment– Flexible multi-modal interface– IW development platform
Related Work
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1 ACCoMo, Universidade Chiba, Chiba, Japão X X X X X X X2 Automated-Guided Wheelchair—NEC Corporation, Japão X X X*3 Autonomous Wheelchair—Arizona State University, USA X X X X4 CALL Centre, Universidade of Edinburgh, Escócia X X X X5 CCPWNS—University of Notre Dame, USA X X X*6 CHARHM—Advanced Technologies Development Center, Argélia X X7 COACH—French Atomic Energy Comission, França X X X8 CWA—National University of Singapore, Singapore X X9 CWA (Power) X X
10 Deictic Wheelchair, Northeastern University, Boston, USA X X X X X11 EASY, Universidade de Bremen, Alemanha X X X X X12 FRIEND, Universidade de Bremen, Alemanha X X X X X13 Hephaestus—TRAC Labs, USA X X X*14 INCH—Yale University, USA X X X15 INRO—FH Ravensburg-Weingarten, Alemanha X X X X X16 Intelligent Wheelchair—University of Texas at Austin, USA X X X X X17 Intelligent Wheelchair System—Osaka University, Japan (protótipo 1) X X X X X X18 Intelligent Wheelchair System (prototipo 2) X X X X19 IntellWheels, Universidade do Porto, FEUP, Portugal X X X X X X X X X X X X20 Luoson III—National Chung Cheng University, Taiwan X X X X X, X X21 MAid—RIAKP, Alemanha X X X X X X X22 Mister Ed—IBM, USA X X X X X X X23 Mr. HURI—Yonsei University, Korea X X X X X X24 NavChair—University of Michigan, USA X X X X25 NLPR Robotized Wheelchair—Chinese Academy of Sciences, China X X X X X X X26 OMNI—University at Hagen, Alemanha X X X X X X X27 Orpheus—National Technical University of Athens, Grécia X X X28 Phaeton—Northeastern University, USA X X X X X X29 RobChair—University of Coimbra, Portugal X X X X X X30 RoboChair, Universidade de Essex e CAS, UK e China X X X X X X31 Robotic Wheelchair—FORTH, Grécia X X X X32 Rolland—University of Bremen, Germany (protótipo 1) X X X X X X X33 Rolland (protótipo 2) X X X X34 Rolland (protótipo 2 com laser) X X X35 SENA, Universidade de Málaga, Espanha X X X X X X X X36 SENARIO—TIDE, Finlândia X X X X X X37 Siamo—University of Alcala, Espanha X X X X X X X X X X, X*38 SIRIUS—University of Seville, Espanha X X X39 Smart Alec—Stanford University, USA X X X X
Cadeira de Rodas Inteligente
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41 CALL Center, UK X X X X42 Chinese University of Hong Kong, China X X X43 Kanazawa University, Japão X44 Toyohashi University, Japão X X X X X X45 University of Ancona, Italia X X X46 University of Plymouth, UK X X X X X X47 University of Portsmouth, UK X X*48 SmartChair—University of Pennsylvania, UK X X X X X X X49 SPAM—AT Sciences, USA X X X X X*50 SWCS—AT Sciences, USA X X X X51 TAO—Applied AI Systems, Inc., Canadá X X X X* X52 TAO-2 X X X X* X53 TetraNauta—University of Seville, Espanha X X X X X X*54 TinMan—KIPR, USA X X X X X X55 VAHM—Universitie de Metz, França (modified wheelchair) X X X X X56 VAHM (robot base) X X X X X X X57 Voice-cum-Auto Steer Wheelchair—CEERI, Índia X X X X X58 WAD Project—Bochum University, Alemanha X X X59 Watson—NAIST, Japão X X X X60 Wheelesely—Massachusetts Institute of Technology, UK X X X X X X X
Cadeira de Rodas Inteligente
Sensores Entradas Factor-Forma Controlo
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|7
IntellWheels modules
IntellWheels - Architecture• Goals
• Develop an intelligent wheelchair with generic platform kit: hardware/software
• To be mounted in commercial electric wheelchairs
• Modular architecture: Multi-Agent System• Easy integration with new sensors,
actuators and modules• Flexible HMI (Multimodal Interface)• High-level planning• Simulation and Mixed-Reality• Autonomous, shared and manual control• Low visual and ergonomic impact and
very low cost
Control modes and possible environments
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|8
• Off-the-shelf devices-Human-machine interface-Easy to adapt to other wheelchair models-Powered wheelchair control-Sensors and Processing/interface board
• Basic functions developed in firmware (without PC)
- Sensor reading- Pre-processing odometry- Obstacle avoidance
IntellWheels - Hardware
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|9
IntellWheels - Hardware
Left Side Right Side
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|10
IntellWheels - Hardware
Left Side Right Side
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|11
IntellWheels - Hardware
Left Side Right Side
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|12
IntellWheels - Hardware
Left Side Right Side
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|13
Multi Agent approach-Interaction, communication, redundancy-Easy to add new functionalities
Hardware module Electric wheelchair, sensors, actuators,
microprocessor, PC Simulator module
Virtual environment and mixed reality Control Agent
Low-level control algorithms Perception Agent
Sensors, mapping and localization Intelligence/Cognitive Agent
High-level decision, planning and cooperation Interface Agent
Interprets user’s inputs into high level commands
IntellWheels Software/MAS
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|14
Communication layer Messages’ reception and sending Lowest level defenses
Security layer Messages integrity
Temporal layer Filters messages with temporal window Clock sinchronization
Parser layer Highest level protections
Container layer Implements user interface and manages the platform Distributes and maintains agents’ lists LAL, GAL and FAL Time triggered state machine Role can be performed by any agent Elected by the agents
IntellWheels Communications
Follows FIPA standard: FIPA-ACL , FIPA-SL
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|15
Virtual world (2D View) Simulation - First Person View
IntellWheels Simulator• Advantages:
– Fast evaluation of new methodologies– Tool for training patients in a safe
environment– Interact with virtual objects and
virtual IW
Viewer Agent 1
Viewer Agent 2
UDP/IP communication
Collision Detection
Robot Body Modeling
Motor Modeling & Robot Position
Calculation
XML Message Parsing
Virtual Sensor Value
Calculation
Virtual World Modeling
Virtual Wheelchair
Agent 1
Virtual Wheelchair
Agent 2
Real Wheelchair Agent 1
Door Agent
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|16
IntellWheels Simulator• Real Environment
– No Connection to virtual information• Augmented Reality
– Virtual objects interfere with real world• Augmented Virtuality
– Real objects interfere with virtual world• Virtual Environment
– No connection with real world information
Real Environment
Augmented Reality
Augmented Virtuality
Virtual Environment
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|17
OR OROROR
Facial ExpressionsOSAKA IW
Voice CommandsMIT IW
Head GesturesRoboChair IW
Joystick / ButtonsStandard
...
• Which interaction is best adapted to wheelchair patients ?Several patient-wheelchair interfaces were proposed in the literature
Inputs for patient-wheelchair interaction
IntellWheels Multimodal Interface
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|18
Facial Expressions Voice Commands Head GesturesJoystick / Buttons
...
• There is no single input well adapted for all physical limitationsIntellWheels combines user inputs (e.g. speech, pen, touch, manual gestures) in a coordinated manner with multimedia system output
Integrated inputs for the IntellWheels patient-wheelchair Multimodal Interface
IntellWheels Multimodal Interface
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|19
Action:Wheelchair goes to Room
Blink Left Eye Say “Go”
IntellWheels Multimodal Interface• Advantages:
• Natural and transparent interaction style• Flexibility depending
on the user and context• Adaptable to each user: User defined
input sequences• Freely associated to wheelchair output
actions and interface actions• Friendly Graphical User Interface
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|20
• Simulator and Intellwheels prototype were used for testing the IW usability– 46 individuals performing the experiment with a simulated IW– 12 individuals performing the experiment with a real IW
• Application of a questionnaire with the System Usability Scale (SUS)• UbiSense System for IW tracking (40 Hz)
Experiments and Results
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|21
Experiments and Results
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|22
• Usability of the Intelligent Wheelchair in real environment is higher than in the simulated environment– SUS Mean Score
• 63 in Simulated Experiment• 77 in Real Experiment
• No statistical evidences to affirm that are differences between real and simulated environment in terms of safety and control of the IW
• Most of the users considered the multimodal way of driving the
wheelchair very practical and satisfactory
Experiments and Results
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Experiments and Results
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|24
Experiments and Results
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|25
Experiments and Results
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|26
IntellWheels in the Media
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|27
• FCT Funding (FCT/RPID/ADA/109636/2009)– INTELLWHEELS - Intelligent Wheelchair with Flexible Multimodal Interface was
awarded with RIPD/ADA/109636/2009 FCT funding, €94,360 (July 2010)• FreeBots – Festival Nacional de Robótica 2011
– INTELLWHEELS got 2nd Place at FreeBots 2011 competition (held at Festival Nacional de Robótica 2011), IST, Lisbon, April 2011
• Galardão da Inclusão – Investigação Aplicada– INTELLWHEELS - Intelligent Wheelchair with Flexible Multimodal Interface was
awarded with Galardão da Inclusão, Investigação Aplicada, at Gala da Inclusão, I.P.Leiria, Leiria, December 2011
• Prémio da Associação Salvador– INTELLWHEELS was awarded with 2nd Place (1st Menção Honrosa) at Prémios
da Associação Salvador “Ser Capaz”, (3500 Eur – 35% of the total awarded money), January 2012
Awards
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|28
• Platform to Develop Intelligent Wheelchairs– Transformation of electric Wheelchairs into an Intelligent Wheelchair– Low cost, low ergonomic impact– Simulation with mixed reality support
• Multimodal Interface– Flexible Multimodal Interface – combination of multiple inputs– User may define his own communication/command language
• Collaboration with Health Institutions (FCT/RPID/ADA/109636/2009)– Project started July 2010– ESTSP/IPP – School of Allied Health Science of Porto– APPC – Portuguese Association for Cerebral Palsy
• Scientific Project Ends August 2012– Spinoff - Commercial Product?– European Project to further develop the concept?
Conclusions
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|29
• Prototypes / Hardware– New prototype under development– ASUS Xtion for mapping and obstacle avoidance
• Simulation– New simulator based on Usarsim
• Multimodal Interface– Eye Gaze Tracking– Facial Expression recognition– Brain Computer interface
• Automatic Wheelchair configuration– Patient Modelling– Machine Learning
• Experiments with real patients (FCT/RPID/ADA/109636/2009)– ESTSP/IPP –School of Allied Health Science of Porto– APPC – Portuguese Association for Cerebral Palsy
Future/Ongoing Work
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|30
Main Publications• Journals and Book Chapters1. Braga, Rodrigo. A.M., Petry, M.R., Moreira, A.P., Reis, L.P. (2011) IntellWheels: A Modular Development Platform for Intelligent Wheelchair. JRRD -
Journal of Rehabilitation Research and Development, IF: 1.36 (accepted Dec 2010)2. Silva, Daniel Castro; Braga, Rodrigo A. M.; Reis, Luís Paulo; Oliveira, Eugénio (2011): Designing a Meta-Model for a Generic Robotic Agent System using
GAIA Methodology . Information Sciences, Elsevier, IF: 3.29 (accepted Dec 2010)3. Braga, Rodrigo A. M.; Petry, Marcelo; Moreira, Antonio Paulo; Reis, Luís Paulo (2009): Concept and Design of the Intellwheels Platform for Developing
Intelligent Wheelchairs. Informatics in Control, Automation and Robotics, Lecture Notes in Electrical Engineering, 2009, Volume 37, Part 3, pp. 191-203
• Conference Proceedings (Indexed at ISI Web of Knowledge)4. Petry, Marcelo R.; Moreira, Antonio Paulo; Braga, Rodrigo A. M.; Reis, Luis Paulo (2010): Shared control for obstacle avoidance in intelligent wheelchairs,
IEEE Conference on Robotics, Automation and Mechatronics, RAM 2010, pp. 182-187, 2015. Silva, Daniel Castro; Braga, Rodrigo A. M.; Reis, Luís Paulo; Oliveira, Eugénio (2010): A generic model for a robotic agent system using GAIA
methodology: Two distinct implementations, IEEE Conference on Robotics, Automation and Mechatronics, RAM 2010, pp. 280-285, 20106. Frederico M. Cunha, Rodrigo A. M. Braga, Luís Paulo Reis (2010): Evaluation of a Communication Platform for Safety Critical Robotics. Artifical
Intelligence and Soft Computing, 10th Int. Conf. ICAISC 2010, Poland, June 13-17, 2010, LNCS 6114, Springer , pp.239-246 7. Cunha, Frederico M.; Braga, Rodrigo A. M.; Reis, Luís Paulo (2010): A Cooperative Communications Platform for Safety Critical Robotics: An Experimental
Evaluation. PAAMS 2010, Advances in Soft Computing, Springer, Vol.70, pp.151-156 8. Reis, Luís Paulo; Braga, Rodrigo A. M.; Sousa, Márcio; Moreira, António Paulo (2009): IntellWheels MMI: A Flexible Interface for an Intelligent
Wheelchair. RoboCup 2009: 13th annual RoboCup Int. Symposium, Graz, Austria, June 29 - July 5, LNCS 5949, Springer, pp. 296-3079. Braga, Rodrigo A. M.; Malheiro, P. Reis, L.P. (2009): Development of a Realistic Simulator for Robotic Intelligent Wheelchairs in a Hospital Environment.
RoboCup 2009: 13th RoboCup Int. Symposium, Graz, Austria, June 29 - July 5, LNCS 5949, Springer, pp. 23-34 10. Braga,R. A.M., Petry, M.R., Moreira, A.P., Reis, L.P. (2008).“ ntellwheels: A Development PlatForm for intelligent wheelchairs for disabled people. 5th
ICINCO 2008 – Int. Conference on Informatics in Control, Automation and Robotics.Vol I. pp.115-121. Funchal, Madeira, Portugal. May 11-15, 2008.11. Braga, R. A.M., Petry, M.R., Reis, L.P, Oliveira, E. (2008). Multi-Level Control of an Intelligent Wheelchair in a Hospital Environment using a Cyber-Mouse
Simulation System. ICINCO 2008 - Int. Conf. Informatics in Control, Aut. and Robotics. Vol II. pp.179-182,Funchal,Madeira, Portugal. May 11–15, 2008.12. Faria, P. M. ; Braga, R. A. M.; Valgôde E. ; Reis L. P.(2007). Interface Framework to Drive an Intelligent Wheelchair Using Facial Expressions. In: Proc. IEEE
International Symposium on Industrial Electronics, 2007, Vigo. IEEE International Symposium on Industrial Electronics, 2007. pp. 1791-1796.13. Faria, P. M. ; Braga, R. A. M.; Valgôde E. ; Reis L. P.(2007). Platform to Drive an Intelligent Wheelchair Using Facial Expressions. Proc. 9th International
Conference on Enterprise Information Systems - Human-Computer Interaction (ICEIS 2007) 2007: pp.164-169
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|31
Other Publications• Other Publications14. Martins, Bruno; Valgode, Eduardo; Faria, Pedro; Reis, Luís Paulo (2006). Multimedia Interface with an Intelligent Wheelchair. In João M. Tavares and
Renato N. Jorge (eds.) Proc. of CompImage 2006 – Computational Modelling of Objects Represented in Images: Fundamentals Methods and Applications, Coimbra, Portugal, 20-21 October, 2006, Taylor & Francis Group, London, UK, pp. 267-274, 2007, ISBN: 978-0-415-43349-5
15. Faria, Pedro Miguel; Reis, Luís Paulo (2007). An Approach to a Wheelchair Driving System using Facial Expressions. Proceedings da 2ª Conferência em Metodologias de Investigação Científica (Comic07). pp. 33-43. Porto, Portugal, February 1-2, 2007
16. Sousa, Márcio; Braga, Rodrigo A. M; Reis, Luís Paulo (2008). Multimodal Interface for an Intelligent Wheelchair. Proc. 3rd International Workshop on Intelligent Robotics, IROBOT 2008, October 14th. pp. 95-116 .Lisbon University Institute – ISCTE, Lisbon, Portugal, 2008.
17. Malheiro, Pedro; Braga Rodrigo A. M.; Reis, Luís Paulo (2008). Intellwheels Simulator: A Simulation Environment for Intelligent Wheelchairs. Proc. 3rd International Workshop on Intelligent Robotics , IROBOT 2008, October 14th. pp. 117-128. Lisbon University Institute – ISCTE, Lisbon, Portugal, 2008.
18. Braga, R.A.M., Petry, M.R., Moreira, A.P., Reis, L.P. (2008). Platform for Intelligent Wheelchairs Uusing Multi-level Control and Probabilistic Motion Model. 8th Portuguese Conference on Automatic Control, Controlo 2008, pp.833-838, Vila Real, Portugal. July 21–23,2008.
19. Braga, R.A.M., Rossetti, R.J.F. Reis, L.P., Oliveira, E. (2008). Applying multi-agent systems to simulate dynamic control in flexible manufacturing scenarios, in Agent-Based Modeling and Simulation Symposium, 19th European Meeting on Cybernetics and Systems Research. Vienna, March 25-28, 2008. Trappl, R. (Ed.) Cybernetics and Systems. Vienna: Austrian Society for Cybernetic Studies. v.2, pp.488-493
20. Petry, Marcelo; Braga, Rodrigo; Reis, Luís Paulo; Moreira, António Paulo (2010). Real-Time Obstacle Avoidance for Intelligent Wheelchairs . Proceedings of the 5th Doctoral Symposium on Informatics Engineering 2010 (DSEI’10), Porto, Portugal, 28-29 January, pp. 67-78
21. Faria, Brígida Mónica; Lau, Nuno; Reis, Luís Paulo (2010). An Approach for Classification of Patients and Users of an Intelligent Wheelchair using Data Mining, ICH - I International Health Congress Gaia-Porto, Vila Nova de Gaia, Portugal, September 23-25, 2010
• PhD and MSc Thesis 1. Rodrigo A.M. Braga, Plataforma de Desenvolvimento de Cadeiras de Rodas Inteligentes, PhD Thesis, PRODEI, FEUP, November 2010 2. Marcelo Roberto Petry, Desenvolvimento do Protótipo e Controlo de uma Cadeira de Rodas Inteligente, MSc Thesis - MIEEC, February 20083. Pedro Miguel Castro Malheiro, Intelligent Wheelchair Simulation, MSc Thesis - MIEEC, July 20084. Márcio Miguel Couto de Sousa, Multimodal Interface for an Intelligent Wheelchair, , MSc Thesis - MIEEC, July 20085. José Carlos Pinto Miranda, Sistema de Visão para Controlo de Cadeira de Rodas Inteligente, MSc Artificial Intelligence and Intelligent Systems (FEUP
and FEP), December 20096. Sérgio Miguel Fontes Vasconcelos, Multimodal Interface for an Intelligent Wheelchair, MSc Thesis - MIEIC, February 2011
IntellWheels: Intelligent Wheelchair | Luis Paulo Reis | RPID/ADA/109636/2009 |Jan 2012|32
Principal Investigator: Luís Paulo Reis, PhD([email protected])
Main Researchers: António Paulo Moreira (PhD), Rodrigo Braga (PhD), Marcelo Petry (MSc), Brígida Mónica Faria (MSc), Sérgio Vasconcelos (MSc)
IntellWheels: Intelligent Wheelchair with Flexible
Multimodal Interface