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.
Digital Experience
Credible, interactive virtual hardware experiences
The only scalable way to deliver meaningful, high-fidelity virtual hardware experiences to students via desktop or smart devices.
The Quanser Interactive Labs platform is a collection of virtual hardware-based laboratory activities that supplement traditional or online courses. The virtual plants are based on Quanser physical systems and offer credible, academically appropriate hardware experiences on desktops, laptops, or smart devices. Combining Quanser Interactive Labs with actual Quanser systems allows instructors to enrich their lectures and activities in traditional labs and increases engagement and students’ learning outcomes in class-based or online courses.
Rich interactive experiences for the lecture and the lab
Leverage Quanser Interactive Labs not only to offer students credible lab activities accessible off-campus but integrate them into your lectures and bring even more interaction and engagement to your course material.
A turn-key cross-platform solution
Quanser Interactive Labs’ virtual high-fidelity plants give students academically appropriate hardware experiences on Windows, macOS, iOS, and Android. Labs come with a complete student curriculum, including “check your understanding” and full assessment questions and lab reporting. Instructors have access to additional free course resources and tools to manage student access and monitor their progress.
Scalable solutions for teaching and research
Quanser Interactive Labs are stand-alone applications available as a 12-month subscription and can be licensed by institutions for their students or purchased directly by students.
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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.
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QLabs Virtual Coupled Tanks is a fully instrumented, dynamically accurate digital twin of a Quanser Coupled Tanks system. It behaves in the same way as the physical hardware and can be measured and controlled using MATLAB®/Simulink® and other development environments.
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QLabs Virtual QArm is a fully instrumented, dynamically accurate virtual twin of a Quanser QArm system.
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QLabs Virtual QBot 2e is a fully instrumented, dynamically accurate virtual twin of a classic Quanser QBot 2e system.
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The Quanser Virtual QCar is a fully instrumented, dynamically accurate digital twin of the Quanser QCar system. It behaves the same way as the physical hardware and can be measured and controlled using the Python, ROS, and MATLAB Simulink development environments.
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QLabs Virtual Quanser AERO is a fully instrumented, dynamically accurate virtual twin of a Quanser AERO system. The platform is compatible with the physical Quanser AERO engineering curriculum.
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Quanser QLabs Virtual QUBE-Servo 2 is a fully instrumented, dynamically accurate virtual twin of a classic QUBE-Servo 2 system. The platform is compatible with the physical QUBE-Servo 2 curriculum which covers over 30.
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QLabs Virtual QUBE-Servo 3 is a fully instrumented, dynamically accurate virtual twin of a classic QUBE-Servo 3 system. It behaves in the same way as the physical hardware and can be measured and controlled using MATLAB®/Simulink® and other development environments.
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Quanser's QLabs Virtual Rotary Flexible Link is a fully instrumented, dynamically accurate digital twin of the Quanser Rotary Flexible Link system. QLabs Virtual Rotary Flexible Link is available as a 12-month, multi-seat subscription. The platform is compatible with the physical Rotary Flexible Link curriculum, which covers various modeling and control topics.
