Quanser’s QArm is a 4 DOF serial robotic manipulator with a tendon-based two-stage gripper and an RGBD camera, designed for modern engineering education and academic research applications. Leveraging the intuitive graphical interface of Simulink® or expandability of Python™ and ROS, students get a systematic understanding of the design of robotic systems and concepts, including joint control, kinematics, path planning, statics, and dynamics. QArm comes with comprehensive studio-type course resources to motivate students and provide the basis for interactive challenges. The QArm curriculum is mapped to popular robotics textbooks by Mark Spong and John Craig.
The open architecture design of QArm allows researchers to quickly develop and deploy their applications in machine learning, assistive robotics, collaborative robotics, and more, using both custom and internal control schemes.
- Suite of sensors and control modes
- Quick development and validation of algorithms and control approaches
- Compatible with a range of software environments and interface options
- Expandable I/O for unlimited applications
- Comprehensive studio-style course resources mapped to popular robotics textbooks
Complete curriculum for QUARC users
- Introduction to QArm sensors and components
- Joint control
- Forward kinematics
- Inverse kinematics
- Path planning
- Differential kinematics
- Statics
- Visual servoing
The following additional components are required to complete your workstation, and are sold separately:
For USB QFLEX Panel
- QUARC® add-on for MATLAB®/Simulink®
For Embedded QFLEX Panel
- Microprocessor (e.g. Raspberry Pi)
Manipulator weight | 8.25 kg |
Payload | 250-750 g |
Reach | 750 mm |
Repeatability | ± 0.05 mm |
Camera | Intel® RealSense™ D415 |
Interface | USB/SPI (QFLEX 2) |
Interface control modes | Position mode, Current mode |
External control rate | 500 Hz |
Expandable I/O | PWM/Analog/I²C/SPO/UART |
Minimum and maximum joint range | Base: ±170° |
Maximum joint speed | ± 90°/s |