The Seesaw module is ideal to introduce intermediate control concepts, involving dynamics and control similar to the inverted pendulum experiment. You can use it to demonstrate real-world control challenges related, for example, to the roll control in aircraft.
Quanser
The global standard in transformational engineering labs for Controls, Robotics, and Mechatronics, optimized for the academic setting.
Academic institutions trust Quanser to strengthen their reputation through transformative teaching and research labs that accurately replicate theories and bring engineering mathematics and concepts to life.
“We are in a golden age of engineering education. There’s a lot to be excited about and a lot to be challenged by. The education we offer students must capture this momentum and help them realize their potential.”
– Paul Gilbert, CEO, Quanser
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Item Number:qcarQCar, the feature vehicle of the Self-Driving Car Research Studio, is an open-architecture, scaled model vehicle designed for academic research. Working individually or in a fleet, QCar is the ideal vehicle for validating dataset generation, mapping, navigation, machine learning, artificial intelligence, and other advanced self-driving concepts.
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The Quanser Shake Table I-40, an open architecture bench-scale single-axis earthquake simulator, is ideal for teaching structural dynamics and control, earthquake engineering, and other control topics related to civil engineering. With pre-loaded acceleration profiles of real earthquakes, such as Northridge and El-Centro, students can study the effects on buildings, bridges, and various materials.
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The Quanser Shake Table II is a mid-size open-architecture single-axis earthquake simulator ideal for teaching structural dynamics, vibration isolation, feedback control, and other control topics related to earthquake, aerospace and mechanical engineering.
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The Shake Table II XY consists of two single-axis Shake Table II units mounted perpendicularly on top of each other. Each stage can travel ±7.6 cm. Driven by powerful motors, the Shake Table II XY can achieve an acceleration of 2.5 g when loaded with a 7.5 kg mass.
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Quanser’s telepresence solution consists of a Quanser QArm manipulator along with a Quanser HD² High Definition Haptic Device. The open architecture design of the solution allows researchers to quickly develop and deploy emerging applications in telerobotics, telepresence, machine learning, assistive robotics, collaborative robotics, and more using MATLAB/Simulink.
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Quanser’s ground-breaking data acquisition technology delivers reliable real-time Hardware-in-the-Loop (HIL) performance.
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The VoltPAQ family of amplifiers are designed to achieve high performance with Hardware-In-The-Loop (HIL) implementations. The VoltPAQ linear voltage-controlled power amplifiers can drive Quanser experiments or other actuators through easy-connect terminal boards and cables.
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The VoltPAQ-X2 is a linear voltage-controlled amplifier ideal for all complex controls configurations related to educational or research needs. It is designed to achieve high performance with Hardware-In-The-Loop (HIL) implementations.
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The VoltPAQ-X4 is a linear voltage-controlled amplifier ideal for all complex controls configurations related to educational or research needs. It is designed to achieve high performance with Hardware-In-The-Loop (HIL) implementations.
