学术文献库

Currently, robotics is one of the fastest growing areas not only in the industrial sector but also in the consumer and service sectors. Several areas benefit from the technological advancement of robotics, especially the industrial area those benefits from gains in productivity and quality. However, to supply this growing demand it is necessary for the newly graduated professionals to have a deeper understanding of how to design and control a robotic manipulator. It is logical that in order to obtain this more in-depth knowledge of robotics, it is necessary to have an experience with a real robotic manipulator, since the practice is a much more efficient way of learning than theory. However, it is known that a robotic arm is not a cheap investment, and its maintenance is not cheap either. Therefore, many educational institutions are not able to provide this type of experience to their students. With this in mind, and through the use of Unity 3D, which is a game development software, a robotic arm simulator has been developed to correlate classroom theory with what actually happens in practice. The robotic manipulators implemented on this simulator can be controlled by both inverse kinematics (which is the industry standard) and direct kinematics.