QArm
With Quanser's QArm, students get a systematic understanding of the design of robotic systems and concepts. Comprehensive studio-type course resources to motivate students and provide the basis for interactive challenges is included.
QLabs Virtual QArm
Same as the physical QArm, the virtual system is a 4 DOF serial robotic manipulator with a tendon-based two-stage gripper and an RGBD camera.
QLabs Virtual QArm is a fully instrumented, dynamically accurate virtual twin of a Quanser QArm system. It behaves in the same way as the physical hardware and can be measured and controlled using MATLAB®/Simulink® and other development environments. QLabs Virtual QArm can enrich your lectures and activities in traditional labs, or bring credible, authentic model-based lab experiences into your distance and online robotics course.
QLabs Virtual QArm is available as a 12-month, multi-seat subscription. The platform is compatible with the physical QArm curriculum which covers concepts including joint control, kinematics, path planning, statics, and dynamics.
Features
- High-fidelity, credible lab experiences equivalent to use of physical lab equipment
- 12-month, multi-seat subscription
- Full access to system parameters through MATLAB®/Simulink®
- Comprehensive curriculum mapped to popular robotics textbooks
More Information
To access and manage your QLabs Controls subscription, log in to your Quanser Academic Portal account.
Related Products:
QLabs Controls
QLabs Controls is based on Quanser physical plants and is accompanied by a comprehensive curriculum covering topics such as modeling, speed and position control, aerospace control, instructor resources, and tools to manage student access and monitor their progress.
QLabs Virtual Ball and Beam
QLabs Virtual Ball and Beam is a fully instrumented, dynamically accurate digital twin of the Quanser Ball and Beam system. It behaves in the same way as the physical hardware and can be measured and controlled using MATLAB®/Simulink® and other development environments.
