RAPOSA robot: Difference between revisions
No edit summary |
|||
(27 intermediate revisions by 5 users not shown) | |||
Line 1: | Line 1: | ||
[[Image:Raposa.jpg]] | [[Image:Raposa.jpg|thumb|400px|RAPOSA]][[Image:Raposa NG.png|thumb|400px|RAPOSA-NG]] | ||
== News and events == | == News and events == | ||
* ( | '''Check the most recent research results using these platforms here: http://aurero.isr.tecnico.ulisboa.pt''' | ||
* (Jul 2013) [http://socrob.isr.tecnico.ulisboa.pt/dokuwiki/doku.php?id=socrobrescue:socrobrescue SocRob-Rescue team] participated in the Robot Rescue League of the [http://www.robocup2013.org/ RoboCup 2013] in Eindhoven, Netherlands | |||
* (Apr 2012) [http://socrob.isr.tecnico.ulisboa.pt/dokuwiki/doku.php?id=socrobrescue:socrobrescue SocRob-Rescue team] participated in the Robot Rescue League of the [http://www.robocupgermanopen.de/ RoboCup German Open 2012], being finalist for the best in class in mobility, and achieving 5th place in the main table (among 10 participating teams) | |||
* (Feb 2010) RAPOSA appeared in a news report on search and rescue robots (Falar Global) - watch the [[#RAPOSA_in_the_Falar_Global_TV_news_report|video]] below | |||
* (Jan 2010) RAPOSA participates in a search and rescue trial in Lisbon, together with Regimento de Bombeiros Sapadores de Lisboa | |||
* (Jun 2009) News report in Exame Informática ([http://exameinformatica.clix.pt/multimedia/video/1002799.html link]) | |||
* (Jun 2009) RAPOSA was present in the ISR stand at Innovation Days 2009 fair (FIL) | |||
* (November 2008) RAPOSA was present in the [http://forum.cienciaviva.pt/ Forum Ciência Viva] where autonomous stair climbing was demonstrated | * (November 2008) RAPOSA was present in the [http://forum.cienciaviva.pt/ Forum Ciência Viva] where autonomous stair climbing was demonstrated | ||
* (March 2008) RAPOSA was present in the [http://jeec.ist.utl.pt/2008/ VIII Jornadas de Engenharia Electrotécnica e Computadores]. | * (March 2008) RAPOSA was present in the [http://jeec.ist.utl.pt/2008/ VIII Jornadas de Engenharia Electrotécnica e Computadores]. | ||
Line 9: | Line 16: | ||
* (July 2007) RAPOSA was present in the Portugal Electronics and ITs (PorTI 2007) fair, collocated with the [http://www.eu2007.pt/ Portuguese Presidency of the European Union]. | * (July 2007) RAPOSA was present in the Portugal Electronics and ITs (PorTI 2007) fair, collocated with the [http://www.eu2007.pt/ Portuguese Presidency of the European Union]. | ||
== | == Description of the robots == | ||
=== RAPOSA === | |||
RAPOSA is a robot for Search and Rescue (SAR) operations, designed to operate in outdoors hazardous environments, such as debris resulting from structure collapses. At this stage, the robot is equipped for search operations only, defined as the tele-operated detection of victims, using specific sensors, whose information is transmitted to the remote operator. The robot equipment (sensors) may be adapted to the specific needs. At the moment it includes 3 conventional cameras, one thermal camera, several explosive and toxic gas sensors, temperature and humidity sensors, inclinometers, artificial lights, microphone and speakers. The robot dimensions are length: 75cm, width: 37cm, height: 17,5cm and weight: 27Kg. | RAPOSA is a robot for Search and Rescue (SAR) operations, designed to operate in outdoors hazardous environments, such as debris resulting from structure collapses. At this stage, the robot is equipped for search operations only, defined as the tele-operated detection of victims, using specific sensors, whose information is transmitted to the remote operator. The robot equipment (sensors) may be adapted to the specific needs. At the moment it includes 3 conventional cameras, one thermal camera, several explosive and toxic gas sensors, temperature and humidity sensors, inclinometers, artificial lights, microphone and speakers. The robot dimensions are length: 75cm, width: 37cm, height: 17,5cm and weight: 27Kg. | ||
Line 15: | Line 25: | ||
The robot is semi-autonomous, i.e., it is tele-operated via a wireless link from a remote console using a conventional GUI and a gamepad, but can simultaneously display the capacity to carry out short tasks autonomously. The robot can execute commands sent by a team of SAR experts, located in a safe place. During task execution, the robot is able to process the information from different sensors to the remote command station, so as to provide the human team with relevant information on its surrounding environment (terrain conditions, temperature, dangerous gases, water or heat sources, either from human victims or not). The robot has small dimensions and weight. It is tolerant to impact, dust and humidity and its all terrain capable, namely it can climb stairs. Moreover, it can be lifted by a cable, to facilitate deployment from a height (e.g., into a pipeline). | The robot is semi-autonomous, i.e., it is tele-operated via a wireless link from a remote console using a conventional GUI and a gamepad, but can simultaneously display the capacity to carry out short tasks autonomously. The robot can execute commands sent by a team of SAR experts, located in a safe place. During task execution, the robot is able to process the information from different sensors to the remote command station, so as to provide the human team with relevant information on its surrounding environment (terrain conditions, temperature, dangerous gases, water or heat sources, either from human victims or not). The robot has small dimensions and weight. It is tolerant to impact, dust and humidity and its all terrain capable, namely it can climb stairs. Moreover, it can be lifted by a cable, to facilitate deployment from a height (e.g., into a pipeline). | ||
Research is currently being carried out with the aim of endowing RAPOSA with a higher degree of autonomy, meaning that certain operations requiring manual operation can be done autonomously by the robot. These include: autonomous stair climbing, autonomous docking, and preventive stop after hole detection. Moreover, human-robot interaction issues are also being tackled by improving the operator interface, namely exploring augmented reality techniques. | Research is currently being carried out with the aim of endowing RAPOSA with a higher degree of autonomy, meaning that certain operations requiring manual operation can be done autonomously by the robot. These include: autonomous stair climbing, autonomous docking, and preventive stop after hole detection. Moreover, human-robot interaction issues are also being tackled by improving the operator interface, namely exploring augmented reality techniques. | ||
=== RAPOSA NG === | |||
Main page: [[RAPOSA-NG]] | |||
IdMind designed a new version of RAPOSA for commercial purposes, named RAPOSA NG (Next Generation). This new RAPOSA | |||
integrates most functionalities from its predecessor and serves the same purposes. It has sensor detection of explosive gases, toxic gases, temperature and humidity, as well as vision sensors (two conventional cameras at the frontal body, one backyard conventional camera and thermal camera forward) and inclinometers. | |||
The robot dimensions are length: 84cm, width: 47cm, height: 18cm and weight: 17Kg (without batteries). | |||
ISR has in its possession one RAPOSA NG without most onboard equipment from origin, besides its body and thacked wheels. When acquired, it came with: | |||
* 2 Maxon 150W DC motors for differential drive (one for each track); | |||
* Firgelli Automation DC motor to tilt the front body; | |||
* 2 electronic boards: | |||
** Motors encoding; | |||
** Relay board to control and redirect power supplies; | |||
The following components are currently installed: | |||
* Commell LV-679: A Mini-ITX Motherboard with | |||
** Intel Core 2 Duo 1.6Ghz 4Mo 800Mhz Processor; | |||
** 2 Kingston 1GB 667Mhz DDR2 RAM; | |||
** Intel PRO/Wireless LAN 2100 3B Mini PCI adapter; | |||
** Kingston SSDNow V Series 64GB. | |||
* Point Grey Bumblebee2: A firewire stereo camera system; | |||
* MicroStrain 3DM-GX2: An IMU with triaxial accelerometer, triaxial gyro, triaxial magnetometer, temperature sensors, and an on-board processor; | |||
=== | == Videos == | ||
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/videoseries?list=PLsqyNWcoPcL804X-3jQ-v8o583vN7pV7c" frameborder="0" allowfullscreen></iframe></html> | |||
<html>< | |||
More videos on the [[RAPOSA video gallery]]. | |||
== Research team == | == Research team == | ||
Line 37: | Line 66: | ||
* [http://www.isr.ist.utl.pt/people/yoda Rodrigo Ventura] (Assistant Professor) | * [http://www.isr.ist.utl.pt/people/yoda Rodrigo Ventura] (Assistant Professor) | ||
* [http://users.isr.ist.utl.pt/~pal Pedro Lima] (Associate Professor) | * [http://users.isr.ist.utl.pt/~pal Pedro Lima] (Associate Professor) | ||
* João Mendes (MSc) | |||
* | * Pedro Roque (MSc student) | ||
* | |||
=== Past === | === Past === | ||
* Filipe Jesus (MSc student) | |||
* Pedro Vieira (MSc student) | |||
* João Reis (MSc student) | |||
* Henrique Martins (MSc student, 2009) | * Henrique Martins (MSc student, 2009) | ||
* Jorge Ferraz (MSc student, 2009) | * Jorge Ferraz (MSc student, 2009) | ||
* Fausto Ferreira (MSc degree, 2008) | * Fausto Ferreira (MSc degree, 2008) | ||
* Manuel Jansen (IAESTE internship, 2009) | * Manuel Jansen (IAESTE internship, 2009) | ||
* Nuno Marques (MSc student) | |||
* João Viana (BII scholarship) | |||
* Nuno Santos (BII scholarship) | |||
== Project background == | == Project background == | ||
The RAPOSA robot was developed by a consortium lead by the company [http://www.idmind.pt IDMind], together with [http://www.isr.ist.utl.pt ISR/IST], the Lisbon firefighters brigade, and the [http://www. | The RAPOSA robot was developed by a consortium lead by the company [http://www.idmind.pt IDMind], together with [http://www.isr.ist.utl.pt ISR/IST], the Lisbon firefighters brigade, and the [http://www.usf.edu/ University of South Florida]. It was funded by [http://www.adi.pt AdI] and POSI. | ||
[[Media:FINAL REPORT 2005.pdf|Project final report (PDF)]] | [[Media:FINAL REPORT 2005.pdf|Project final report (PDF)]] |
Latest revision as of 12:03, 19 September 2015
News and events
Check the most recent research results using these platforms here: http://aurero.isr.tecnico.ulisboa.pt
- (Jul 2013) SocRob-Rescue team participated in the Robot Rescue League of the RoboCup 2013 in Eindhoven, Netherlands
- (Apr 2012) SocRob-Rescue team participated in the Robot Rescue League of the RoboCup German Open 2012, being finalist for the best in class in mobility, and achieving 5th place in the main table (among 10 participating teams)
- (Feb 2010) RAPOSA appeared in a news report on search and rescue robots (Falar Global) - watch the video below
- (Jan 2010) RAPOSA participates in a search and rescue trial in Lisbon, together with Regimento de Bombeiros Sapadores de Lisboa
- (Jun 2009) News report in Exame Informática (link)
- (Jun 2009) RAPOSA was present in the ISR stand at Innovation Days 2009 fair (FIL)
- (November 2008) RAPOSA was present in the Forum Ciência Viva where autonomous stair climbing was demonstrated
- (March 2008) RAPOSA was present in the VIII Jornadas de Engenharia Electrotécnica e Computadores.
- (August 2007) A joint team of ISR/IST and IDMind members participated in Civilian European Land-Robot Trial (C-ELROB 2007) event, having achieved the 6th place (in 12 teams) of the Urban Trial.
- (July 2007) RAPOSA was present in the Portugal Electronics and ITs (PorTI 2007) fair, collocated with the Portuguese Presidency of the European Union.
Description of the robots
RAPOSA
RAPOSA is a robot for Search and Rescue (SAR) operations, designed to operate in outdoors hazardous environments, such as debris resulting from structure collapses. At this stage, the robot is equipped for search operations only, defined as the tele-operated detection of victims, using specific sensors, whose information is transmitted to the remote operator. The robot equipment (sensors) may be adapted to the specific needs. At the moment it includes 3 conventional cameras, one thermal camera, several explosive and toxic gas sensors, temperature and humidity sensors, inclinometers, artificial lights, microphone and speakers. The robot dimensions are length: 75cm, width: 37cm, height: 17,5cm and weight: 27Kg.
The robot is semi-autonomous, i.e., it is tele-operated via a wireless link from a remote console using a conventional GUI and a gamepad, but can simultaneously display the capacity to carry out short tasks autonomously. The robot can execute commands sent by a team of SAR experts, located in a safe place. During task execution, the robot is able to process the information from different sensors to the remote command station, so as to provide the human team with relevant information on its surrounding environment (terrain conditions, temperature, dangerous gases, water or heat sources, either from human victims or not). The robot has small dimensions and weight. It is tolerant to impact, dust and humidity and its all terrain capable, namely it can climb stairs. Moreover, it can be lifted by a cable, to facilitate deployment from a height (e.g., into a pipeline).
Research is currently being carried out with the aim of endowing RAPOSA with a higher degree of autonomy, meaning that certain operations requiring manual operation can be done autonomously by the robot. These include: autonomous stair climbing, autonomous docking, and preventive stop after hole detection. Moreover, human-robot interaction issues are also being tackled by improving the operator interface, namely exploring augmented reality techniques.
RAPOSA NG
Main page: RAPOSA-NG
IdMind designed a new version of RAPOSA for commercial purposes, named RAPOSA NG (Next Generation). This new RAPOSA integrates most functionalities from its predecessor and serves the same purposes. It has sensor detection of explosive gases, toxic gases, temperature and humidity, as well as vision sensors (two conventional cameras at the frontal body, one backyard conventional camera and thermal camera forward) and inclinometers.
The robot dimensions are length: 84cm, width: 47cm, height: 18cm and weight: 17Kg (without batteries).
ISR has in its possession one RAPOSA NG without most onboard equipment from origin, besides its body and thacked wheels. When acquired, it came with:
- 2 Maxon 150W DC motors for differential drive (one for each track);
- Firgelli Automation DC motor to tilt the front body;
- 2 electronic boards:
- Motors encoding;
- Relay board to control and redirect power supplies;
The following components are currently installed:
- Commell LV-679: A Mini-ITX Motherboard with
- Intel Core 2 Duo 1.6Ghz 4Mo 800Mhz Processor;
- 2 Kingston 1GB 667Mhz DDR2 RAM;
- Intel PRO/Wireless LAN 2100 3B Mini PCI adapter;
- Kingston SSDNow V Series 64GB.
- Point Grey Bumblebee2: A firewire stereo camera system;
- MicroStrain 3DM-GX2: An IMU with triaxial accelerometer, triaxial gyro, triaxial magnetometer, temperature sensors, and an on-board processor;
Videos
More videos on the RAPOSA video gallery.
Research team
Current
- Rodrigo Ventura (Assistant Professor)
- Pedro Lima (Associate Professor)
- João Mendes (MSc)
- Pedro Roque (MSc student)
Past
- Filipe Jesus (MSc student)
- Pedro Vieira (MSc student)
- João Reis (MSc student)
- Henrique Martins (MSc student, 2009)
- Jorge Ferraz (MSc student, 2009)
- Fausto Ferreira (MSc degree, 2008)
- Manuel Jansen (IAESTE internship, 2009)
- Nuno Marques (MSc student)
- João Viana (BII scholarship)
- Nuno Santos (BII scholarship)
Project background
The RAPOSA robot was developed by a consortium lead by the company IDMind, together with ISR/IST, the Lisbon firefighters brigade, and the University of South Florida. It was funded by AdI and POSI.
Please check the IDMInd's RAPOSA webpage for further information.
Publications
- Immersive 3-D Teleoperation of a Search and Rescue Robot Using a Head-Mounted Display, Henrique Martins, Rodrigo Ventura, IEEE International Conference on Emerging Techonologies and Factory Automation (ETFA-09), Mallorca, Spain, 2009. — PDF
- Robust Autonomous Stair Climbing by a Tracked Robot Using Accelerometer Sensors, Jorge Ferraz, Rodrigo Ventura, International Conference on Climbing and Walking Robots (CLAWAR-09), Istanbul, Turkey, 2009. — PDF
- Autonomous docking of a tracked wheels robot to its tether cable using a vision-based algorithm, Fausto Ferreira, Rodrigo Ventura, Workshop on Robotics for Disaster Response, ICRA 2009 - IEEE International Conference on Robotics and Automation, Kobe, Japan, 2009. — PDF
- A Search and Rescue Robot with Tele-Operated Tether Docking System, C. Marques, J. Cristovão, P. Alvito, Pedro Lima, João Frazão, M. Isabel Ribeiro, Rodrigo Ventura, Industrial Robot, Emerald Group Publishing Limited, Vol. 34, No.4, pp. 332-338, 2007 , 2007. &mdash PDF
- RAPOSA: Semi-Autonomous Robot for Rescue Operations , C. Marques, J. Cristovão, Pedro Lima, João Frazão, M. Isabel Ribeiro, Rodrigo Ventura, Proc. of IROS2006 - IEEE/RSJ International Conference on Intelligent Robots and Systems, Beijing, China, 2006. — PDF