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Fire Bird VI Robotic Research Platform
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Fire Bird VI Robotic Research Platform

Product ID: NR-FBVI-STDV
Weight: 0 gms
Price: Rs.230,100.00

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FIRE BIRD VI is reliable, versatile and rugged robot for advance research in mobile robotics. The interface is designed to get a user started very quickly. The unique architecture of this robot allows it to be used in many areas of applications such as mapping, autonomous navigation, collaborative robotics, tele-presence and many more. An outstanding battery life of 6 hours provides excellent uninterrupted development time. This robot is currently being used in several R&D organizations for cutting edge research in mobile robotics.

Equipped with onboard computer for vision processing, laser range finder, vision based stereo range finders, integrated inertial correction to compensate for slippage, digital compass, GPS/ DGPS receiver, support for Manipulators and Grippers, the Fire Bird VI robot is ideal for learning undergraduate and advanced robotics courses.

Support for numerous programming languages means that you can choose from a wide variety of development environments you are most comfortable with. The supported programming environments include C, C++, Python, MATLAB, SCILAB, and Robot Operating System (ROS).
3D simulation in Gazebo (ROS) facilitates carrying out state of the art simulation based experiments.

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Applications:

  • Mapping and autonomous navigation
  • Machine learning
  • Artificial intelligence
  • Mobile sensor network
  • Warehouse automation
  • Multi agent systems
  • 2D and 3D computer vision
  • Object manipulation
  • Tele-presence
  • Vehicle navigation and control
  • Collaborative robotics, swarm robotics and other behaviors
Technical Specifications:
  • Dimensions (LxWxH): 30cm x 30cm x 42cm
  • Weight: 5.5Kg
  • Max Payload: 8Kg on flat surface (Drive configuration dependent)
  • Locomotion:
    • Closed loop accurate velocity and position control
    • Quadrature position encoders with 3840 counts per output shaft rotation (12.2 counts per mm resolution)
    • Two wheel differential drive (Suitable for lab environment)
    • Four wheel drive (Suitable for outdoors)
    • Automotive drive (Suitable for high speed, outdoor environment)
  • Velocity: 0.4-1.6m/sec (User specified top velocity available on request)
  • Ground clearance: 2cm to 5cm depending on drive configuration
  • Communication Secure: 128 bit encrypted
  • Operating Range: 500m LOS
  • Power Supply: 16.8V battery
  • Working Time: 6 hours
  • Onboard computer with WiFi connectivity and hot swap power in case of battery is getting low.
  • 32 bit multi processor architecture for precision sensing and control
  • Support for many programming languages ( C, C++, Scilab, Matlab, Python)
  • User friendly GUI for easy control on Windows 7 and 8
  • High resolution position encoder for accurate navigation
  • 9 DOF IMU

Programming:

  • C, C++ programming environment and libraries
  • Scilab toolbox and blockset
  • Matlab toolbox and simulink (Add-on accessory)
  • Python library (Add-on accessory)
  • Robot Operating System (Add-on accessory)

Sensors:

  • Laser Range Finder (Add-on module) (Highly recommended)
  • 8 x MaxBotix Ultrasonic sensors with up to 5m range (Included)
  • 8 x Sharp IR range sensors with 10-80cm range (Included)
  • 9 DOF (Degrees of Freedom) IMU consisting of 3 axis Digital Gyroscope, 3 axis accelerometer and 3 axis Magnetometer (Add-on module)
  • GPS receiver module (Add-on module)
  • Webcam with 5 Megapixel , 30 fps (Add-on module)
  • Stereo cameras
  • Battery Voltage, Current and temperature monitoring

On-board Computer:

  • Intel Core i3 processor (upgradable to Core i5 / Core i7)
  • 128GB SSD drive
  • 4GB DDR3 RAM
  • WiFi connectivity
  • Hot swappable power to change battery without shutting down the PC

Object Manipulation (optional):

  • 4 Axis arm with payload of 100gms
  • Precision control
  • Reach vertical/horizontal: 40/30cm (customizable)
  • Base rotation: 360° endless (Robot's differential drive)
  • Upper arm incline: + 90° to - 90°
  • Lower arm incline: + 90° to - 90°
  • Gripper incline: + 90° to - 90 °
  • Gripper rotation: + 90° to - 90°
  • Gripper open/close: 50mm

Presently Used By:

  • Indian Space Research Organization
  • Bharat Electronics Limited
  • Indian Institute of Technology, Bombay
  • Indian Institute of Technology, Kanpur
  • Indian Institute of Technology, Madras
  • Defense Institute of Advanced Technology
  • More than 30 research organizations across India

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Software support:

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Fire Bird VI with two wheel differential drive (Suitable for lab environment):

A25

Fire Bird VI with four wheel drive (Suitable for outdoors):

A25

Fire Bird VI with automotive drive (Suitable for high speed, outdoor environment):

A25

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ROHS Compliant : NO


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Contact Us

Tel: +91-9833553020

09.30 AM to 06.00 PM IST, Monday - Saturday

Address :
Nex Robotics Pvt Ltd.
Unit No. 13,
Building No. 2 (A3), Sector 1,
Millennium Business Park,
Mahape, Navi Mumbai 400 710,
Maharashtra, INDIA

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RESEARCH

Find out more about latest research work being done at NEX Robotics. Here you will find links/papers demonstrating research done on our latest development platforms.

NEWS

Nex robotics has added support for Microsoft Robotics Developer Studio (MRDS) on FireBird V research platform. FireBird V is one of the most widely deployed research platforms designed by Department of CSE, IIT Bombay and Nex robotics.

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NEX Robotics has designed Intelligent autonomous transport vehicle for transporting personals autonomously inside the campus and for advance research in mobile robotics.

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