NAO: Advanced Intelligent Humanoid Robot
PishRobot is distributor of SoftBank Robotics Products in Iran
After years of research, Aldebaran Robotics has developed Nao® a 58 cm (23’’) tall biped robot. It’s a unique combination of hardware and software in a great design.
Nao stands tall in all points amongst its robotic brethren. The hardware has been built from the ground up with the latest technologies providing great fluidity in its movements and offering a wide range of sensors. Platform agnostic, it can be programmed and controlled using Linux, Windows or Mac OS and comes with complete software and documentation.
MOVEMENT
Nao comes with 25 degrees of freedom for great mobility. The inertial sensor provides great stability while moving and enables positioning within space. Sonars and FSRs allow Nao to detect its environment and to navigate seamlessly. His state-of-the-art onboard actuators give Nao extreme precision in its movements.
INTERACTION
Nao features embedded software modules allowing text to speech, sound localization, visual pattern and coloured shape detection, obstacle detection (based on the two channel sonar system) and visual effects or communication through the many LEDs.
PROGRAMMING
Nao contains an open framework which allows distributed software modules to interact together seamlessly. Depending on the user’s expertise, Nao can be controlled via Choregraphe®, our user friendly behavior editor, by programming C++ modules, or by interacting with a rich API from scripting languages. In addition to the high level API which allows users to make Nao walk and balance, advanced users can take advantage of low level access to sensors and actuators and can, if they wish, replace our code with custom adaptations. In order to allow users to validate motion sequences, simulators are available for Microsoft Robotics Studio and Webots.
BODY AND MULTIMEDIA
Nao can be personalized with different colors (red, blue or customized colors...). His integrated multimedia components (Hi-Fi speakers system, microphones system, 2 digital cameras) allow many different capabilities like speech, playing music, localizing sound sources or face detection programs.
Nao stands tall in all points amongst its robotic brethren. The hardware has been built from the ground up with the latest technologies providing great fluidity in its movements and offering a wide range of sensors. Platform agnostic, it can be programmed and controlled using Linux, Windows or Mac OS and comes with complete software and documentation.
MOVEMENT
Nao comes with 25 degrees of freedom for great mobility. The inertial sensor provides great stability while moving and enables positioning within space. Sonars and FSRs allow Nao to detect its environment and to navigate seamlessly. His state-of-the-art onboard actuators give Nao extreme precision in its movements.
INTERACTION
Nao features embedded software modules allowing text to speech, sound localization, visual pattern and coloured shape detection, obstacle detection (based on the two channel sonar system) and visual effects or communication through the many LEDs.
PROGRAMMING
Nao contains an open framework which allows distributed software modules to interact together seamlessly. Depending on the user’s expertise, Nao can be controlled via Choregraphe®, our user friendly behavior editor, by programming C++ modules, or by interacting with a rich API from scripting languages. In addition to the high level API which allows users to make Nao walk and balance, advanced users can take advantage of low level access to sensors and actuators and can, if they wish, replace our code with custom adaptations. In order to allow users to validate motion sequences, simulators are available for Microsoft Robotics Studio and Webots.
BODY AND MULTIMEDIA
Nao can be personalized with different colors (red, blue or customized colors...). His integrated multimedia components (Hi-Fi speakers system, microphones system, 2 digital cameras) allow many different capabilities like speech, playing music, localizing sound sources or face detection programs.
NAO Evolution
NAO Evolution, the new generation of NAO humanoid robot has been distributed with NAOqi 2.0 ™ OS. More than 5000 NAO robot are being used in 70 countries for reaserches, education and robocup competitions. NAOqi 2.0 which is used in other production of ALDEBARAN, like pepper, is able to communicate with human by natural voice. Conversation motor, emotion motor and automotic life, identifing and recognition the faces and shapes, finding the voice source location and estimate the distance, poweful battery, poweful body, low movement noise and using fingers professionaly are the improved abilities of this generation.
Nao Evolution key features:
Nao Evolution key features:
- 25 DOF
- Two prehensile hands
- ATOM Z530 1.6GHZ CPU
- 1 GB RAM
- 2 GB Flash Memory
- Ethernet and Wi-Fi 802.11b/g port
- 8 GB Micro SDHC
- 2x 30 FPS HD SOC videocam res. 1280x960
- Vision processing capacities
- Two loudspeakers and multilingual vocal synthesis
- Four microphones and multilingual speech recognition
- Supports multiple programming environments
- Comes with software and complete documentation
NAO Academic Edition
Nao Academics Edition key features:
- 25 Degrees of Freedom
- Two prehensile hands
- x86 AMD Geode 500 Mhz CPU
- 256 MB SDRAM / 2 GB Flash memory
- Wi-Fi 802.11b/g and ethernet port
- 2x 30 FPS CMOS videocam res. 640x480
- Vision processing capacities
- Two loudspeakers and multilingual vocal synthesis
- Four microphones and multilingual speech recognition
- Supports multiple programming environments
- Comes with software and complete documentation
NAO Robocup Edition
NAO Robocup Edition key features:
- 21 DOF
- x86 AMD Geode 500 Mhz CPU
- 256 MB SDRAM
- 2 GB Flash Memory
- Ethernet and Wi-Fi 802.11b/g port
- 2x 30 FPS SOC videocam res. 1280x960
- Vision processing capacities
- Two loudspeakers and multilingual vocal synthesis
- Two Microphones
- Sole Sensor (FSR)
- With SDK
General characterestics | ||||
| Body characteristics | Actuators | |||
| Height | ~ 58 cm | Aldebaran RoboticsTM original design based on: | Hall effect sensors | |
| Weight | ~ 4.3 kg | dsPICS microcontrollers | ||
| Body type | Technical plastic | Coreless MAXON DC motors | ||
| Energy | Sensors | |||
| Charger | AC 90-230 volts / DC 24 volts | Different type | 32 x Hall effect sensors | |
| Battery capacity | ~ 90 min. autonomy | 1 x gyrometer 2 axis | ||
| Degrees of freedom | 1 x accelerometer 3 axis | |||
| Head | 2 DOF | 2 x bumpers | ||
| Arm | 5 DOF in each arm | 2 channel sonar | ||
| Pelvis | 1 DOF | 2 x I/R | ||
| Leg | 5 DOF in each leg | Tactile sensor | ||
| Hand | 1 DOF in each hand | LED | ||
| Multimedia | Tactile sensor | 12 LED 16 Blue levels | ||
| Speakers | 2 Loudspeakers | Eyes | 2 x 8 LED RGB Fullcolour | |
| Microphones | 4 Microphones | Ears | 2 x 10 LED 16 Blue levels | |
| Vision | 2 CMOS digital cameras | Torso | 1 LED RGB Fullcolor | |
| Network access | Feet | 2 x 1 LED RGB Fullcolor | ||
| Connections type | Wi-fi (IEEE 802.11g) | Motherboard | ||
| Ethernet connection | x86 AMD GEODE 500MHz CPU | 256 MB SDRAM / 2 GB flash memory | ||
| Embedded Software | ||||
| OS | Embedded Linux (32 bit x86 ELF) using custom OpenEmbedded based distribution | |||
| Programming languages | C, C++, URBI, Python, .Net | |||
Motor specifications | ||||
| Motor Type 1 | Motor Type 2 | |||
| No Load Speed | 8000 RPM | No Load Speed | 11900 RPM | |
| Stall Torque | 59.5 mNm | Stall Torque | 15.1 mNm | |
| Nominal Speed | 6330 RPM | Nominal Speed | 8810 RPM | |
| Nominal Torque | 12.3 mNm | Nominal Torque | 3.84 mNm | |
| Reduction ratio type 1 | 201.3 | Reduction ratio type 1 | 150.27 | |
| No Load Speed | 238.45 °/s (4.76°/20ms) | No Load Speed | 473.72 °/s (9.47°/20ms) | |
| Stall Torque | 11.97 Nm (without the ratio efficiency) | Stall Torque | 2.27 Nm (without the ratio efficiency) | |
| Nominal Speed | 188.67 °/s (3.77°/20ms) | Nominal Speed | 351.77 °/s (7.03°/20ms) | |
| Nominal Torque | 2.47 Nm (without the ratio efficiency) | Nominal Torque | 0.57 Nm (without the ratio efficiency) | |
| Reduction ratio type 2 | 130.85 | Reduction ratio type 2 | 173.22 | |
| No Load Speed | 366.83 °/s (7.33°/20ms) | No Load Speed | 412.19 °/s (8.24°/20ms) | |
| Stall Torque | 7.78 Nm (without the ratio efficiency) | Stall Torque | 2.61 Nm (without the ratio efficiency) | |
| Nominal Speed | 290.25 °/s (5.80°/20ms) | Nominal Speed | 305.16 °/s (6.10°/20ms) | |
| Nominal Torque | 1.61 Nm (without the ratio efficiency) | Nominal Torque | 0.66 Nm (without the ratio efficiency) | |
NAO T2
Sensing
Thinking
NAO T14
Sensing
Thinking
Interacting
Controlling
Grasping
NAO H21
Sensing
Thinking
Interacting
Controlling
Travelling
NAO H25
Sensing
Thinking
Interacting
Controlling
Travelling
Being Autonomous
Grasping