The 2 DOF Robot module is ideal to introduce students to the fundamental and intermediate principles of robotics. You can use it to demonstrate real-world control challenges, such as pick-and-place robots used in manufacturing lines.
Robotics
Whether you are researching advanced algorithms or require state of the art technology to teach tomorrow's robotics engineers, Quanser's engineering lab solutions has the perfect option for your needs.
Mobile Robotics
Many consider mobile robotics the most dynamic engineering specialization. Quanser’s ground and aerial solutions offer a combination of advanced hardware with a powerful software framework powered by Quanser’s renowned QUARC® and built on the MATLAB®/Simulink® platform. Quanser solutions feature the latest processors and flexible support of sensors. They may be combined to create a UVS Lab that offers full localization and a comprehensive platform for multi-agent applications.
Manipulator Robotics
The study and exploration of serial link robots has been a core component of robotics education and research. Originally, the study of manipulator robots was driven by applications in manufacturing, but later became an important subsystem in more complex robotic applications in both space robotics and mobile robotics.
Open Architecture Research Robots
Quanser's research solutions allow you to deploy your own advanced control algorithms by providing students and researchers direct access to the robot’s sensors and actuators. With the capabilities of the communication block sets of Quanser’s QUARC software validating your robotic control algorithms is easier than ever.
Telerobotics and Haptics
This solution is the platform of choice for advanced telerobotic applications with haptic feedback. It consists of an advanced robot manipulator equipped with a force/torque sensor mated a high DOF haptic manipulator and Quanser’s QUARC real-time control software. This turn-key solution can be deployed quickly and is readily adaptable for a wide range of force-feedback research applications. Combined with visualization, it is the ideal platform for medical simulations, remote vehicle operations, and more.
-
-
The HD² High-Definition Haptic Device is a high-fidelity haptic interface for advanced research in haptics as well as robotics. Combined with Quanser’s powerful control design environment, it provides a flexible development testbed for various emerging applications such as virtual medical simulators and teleoperation.
-
The Omni™Bundle is a cost-effective and safe way to introduce intermediate and advanced control concepts and theories related to robotics and haptics. Combining Geomagic Touch™ (formerly SensAble Phantom Omni) haptic device with QUARC® control software and comprehensive Quanser-developed curriculum allows students to easily translate course theory into a hands-on experience.
-
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.
-
The Quanser QBot 3 is an innovative open-architecture autonomous ground robot, built on a 2-wheel mobile platform. Equipped with built-in sensors, a vision system, and accompanied by extensive courseware, the QBot 3 is ideally suited for teaching undergraduate and advanced robotics and mechatronics courses.
-
The Quanser QDrone 2 autonomous air vehicle is a midsized quadrotor equipped with a powerful onboard NVIDIA Jetson Xavier NX system-on-module (SOM), multiple high-resolution cameras, and built-in WiFi.
-
Item Number:SDCS
The Quanser Self-Driving Car Studio is the ideal platform to investigate various research topics for teaching and academic research in an accessible and relevant way. Use it to jump-start your research or give students authentic hands-on experiences learning about the essentials of self-driving.
-
Item Number:qcar
QCar, 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.
-
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.
-
Item Number:AVRS2
Quanser’s new Autonomous Vehicles Research Studio is the ideal solution for academics looking to build an indoor multi-vehicle research lab in a short amount of time. Consisting of QDrone quadrotors and QBot 2e ground vehicles, ground control station, vision, and safety equipment, the Autonomous Vehicles Research Studio is the only option for research groups looking to jumpstart autonomous robotics research programs and be productive in a very short amount of time.