Preferred high edu-tech solution providers to the Nordic region
DevinSense We Kickstart our customers ability to create value in EDUCATION, RESEARCH and DEVELOPMENT
Login / Register
Wishlist
0 Compare
0 items / €0,00
Menu
DevinSense We Kickstart our customers ability to create value in EDUCATION, RESEARCH and DEVELOPMENT
0 items / €0,00
  • Home
  • Products
    • Engineering Experiments TecQuipment
    • Quanser Prod Category
    • Quanser Lab Solutions
    • Quanser Digital Experiences
    • Motion Capture
    • MANUS
    • Kinova Robot
    • Haptics
    • Geomagic Software (CAD)
    • Medical Simulators
  • Quote requests
    • Medical Simulators
    • Quanser
    • OptiTrack
    • TecQuipment
    • Haptics
  • NEWS
  • Job Offers
  • ABOUT US
    • Our Company
    • Customer installations
    • Our Partners
    • Questions & Answers
    • DevinSense Legals
  • Events&Webinars
Call us: +46 76 2099221
Email: info@DevinSense.com
New
Click to enlarge
HomeQuanser Digital ExperiencesQuanser Interactive Labs QLabs Virtual QBot 2e
Previous product
QLabs Controls
Back to products
Next product
Quanser Mechatronic Sensors Board
Quanser

QLabs Virtual QBot 2e

Same as the physical QBot 2e, the virtual system is an autonomous ground robot featuring built-in sensors and vision system.

Brand

Quanser

Compare
Add to wishlist
  • Description
Description

QLabs Virtual QBot 2e is a fully instrumented, dynamically accurate virtual twin of a classic Quanser QBot 2e 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 QBot 2e 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 QBot 2e is available as a 12-month, multi-seat subscription. The platform is compatible with the physical QBot 2e curriculum which covers concepts including differential drive, forward, and inverse kinematics, dead reckoning, odometric localization, path planning, obstacle avoidance, image acquisition, processing, and reasoning, localization and mapping, and vision-guided vehicle control.

Categories: Control Systems, Quanser Interactive Labs
Share

Related products

Compare
Close

Quanser AERO myRIO

The experiment is reconfigurable for various aerospace systems, from 1 DOF and 2 DOF helicopter to half-quadrotor. Integrating Quanser-developed QFLEX 2 computing interface technology, the Quanser AERO also offers flexibility in lab configurations, using a PC, or microcontrollers, such as NI myRIO, Arduino and Raspberry Pi. With the comprehensive course materials included, you can build a state-of-the-art teaching lab for your mechatronics or control courses, engage students in various design and capstone projects, and validate your research concepts on a high-quality, robust, and precise platform.
Add to wishlist
Read more
Quote
Quick view
Compare
Close

2 DOF Inverted Pendulum

The 2 DOF Inverted Pendulum module consists of an instrumented 2 DOF joint to which a 12-inch rod is mounted. The rod is free to swing about two orthogonal axes. The module is attached to two Rotary Servo Base Units. Their servomotors’ output shafts are coupled through a four-bar linkage, i.e., 2 DOF Robot module, resulting in a planar manipulator robot. The 2 DOF Joint is attached to the end effector of the robot arms. The goal of the 2 DOF Inverted Pendulum experiment is to command the position of the 2 DOF Robot end effector to balance the pendulum. By measuring the deviations of the vertical pendulum, a controller can be used to rotate the servos, so that the position of the end effector balances the pendulum.
Add to wishlist
Read more
Quote
Quick view
Compare
Close

Quanser Controls Board

As automation and connected devices move from industry to commercial products and the home, an understanding of the design and implementation of control systems on hardware is essential. The courseware progression that accompanies the Quanser Controls Board begins with a grounding in the basics of modeling and control. Topics then transition into more complex strategies including optimal control, hybrid control, and digital control.
Add to wishlist
Read more
Quote
Quick view
New
Compare
Close

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.
Add to wishlist
Read more
Quote
Quick view
Compare
Close

Linear Double Inverted Pendulum

The double inverted pendulum represents a complex challenge with real-world applications that include stabilizing the takeoff of a multi-stage rocket and modeling the human posture system.
Add to wishlist
Read more
Quote
Quick view
Hot
Compare
Close

Coupled Tanks

Designed in association with Prof. Karl Åström and Prof. Karl Henrik Johansson, the Coupled Tanks system consists of a single pump with two tanks. Each tank is instrumented with a pressure sensor to measure the water level. The pump drives the water from the bottom basin up to the top of the system. Depending on how the outflow valves are configured, the water then flows to the top tank, bottom tank, or both. The rate of flow can also be changed using outflow orifices with different diameters. The ability to direct water flow, together with variable outflow orifices allows for several interesting Single Input Single Output (SISO) configurations. Further, two or more Coupled Tanks can be combined together for Multiple Input Multiple Output (MIMO) experiments.
Add to wishlist
Read more
Quote
Quick view
Compare
Close

Linear Flexible Joint

The Linear Flexible Joint experiment will help your students learn how to model and control real-world dynamic systems such as flexible couplings and gearboxes.
Add to wishlist
Read more
Quote
Quick view
New
Compare
Close

QLabs Virtual Ball and Beam

Same as the physical Ball and Beam, the virtual system features a track on which a ball is free to roll. The track is effectively a potentiometer, outputting a voltage proportional to the position of the ball. The tilt angle of the track is controlled by the Rotary Servo’s DC motor.
Add to wishlist
Read more
Quote
Quick view
TecQuipment
Quanser
OptiTrack
MANUS
IntelligentUltraSound
3DSystems
DevinSense_logga

The preferred EduTech, solution provider to technical universities and hospitals in the Nordic.

Fagerstagatan 18A, Spånga, Sweden
Phone: (+46) 762099221
info@devinsense.com

PARTNERS

  • QUANSER
  • TECQUIPMENT
  • OPTITRACK
  • HAPTICS

HI, HOW CAN WE HELP?

Call me:
+46 (0)76 2099221

wood-gallery-placeholder-5

Join Our Newsletter Now

Be the First to Know. Sign up to newsletter today

DevinSense AB Created by DevinSense AB
  • Home
  • Products
    • Engineering Experiments TecQuipment
    • Quanser Prod Category
    • Quanser Lab Solutions
    • Quanser Digital Experiences
    • Motion Capture
    • MANUS
    • Kinova Robot
    • Haptics
    • Geomagic Software (CAD)
    • Medical Simulators
  • Quote requests
    • Medical Simulators
    • Quanser
    • OptiTrack
    • TecQuipment
    • Haptics
  • NEWS
  • Job Offers
  • ABOUT US
    • Our Company
    • Customer installations
    • Our Partners
    • Questions & Answers
    • DevinSense Legals
  • Events&Webinars
  • Wishlist
  • Compare
  • Login / Register
Shopping cart
close

Sign in

close

Lost your password?

No account yet?

Create an Account
We use cookies to improve your experience on our website. By browsing this website, you agree to our use of cookies.
Accept