Robotics
is a scientific discipline that deals with the development of robots. The mechanical design, the control and the electronic control play an essential role.
The @Tutorial provides transparency about the robot applications and their effects.
The mechanical modeling of a robot is mainly based on methods of multi-body systems or multi-body dynamics, while the design of the controller is for robots in the field of automation technology.
The @ Tutorial introduces a toolbox and framework for implementing robots and automation
In the meantime, alternative steering wheel techniques are being explored as means of transport in the human environment, such as walking on six, four, two or even one leg.
The @ Tutorial shows how to construct a digital robot twin.
While industrial robots usually perform manual or handling tasks in an environment adapted to them, such service robots are intended to provide services to and for people.
To do this, they must move and find their way in the human environment, which is the subject of scientific research.
The @Tutorial will show the optimal ways and identify attractive areas for the transformation of manufacturing processes
This @Tutorial will provide you with the insight into the following Module:
Module: Robotics & Automation
>Discover the new possibilities of Robotics and machine-human interfaces
Robotics & Automation
Implementing Automation
Why Automate?
Articulated Robots
Accuracy and Calibration
Gripping and advanced Manipulators
As this self-service @Tutorial is designed to address challenges and specific up-skilling needs on-demand.
Therefore, this provides a unique opportunity to come away from reviewing this @Tutorial with all the information you need.