Victor Manuel Montaño-Serrano scite author profile

During the last decade, students of mechanical engineering, electrical engineering, and mechatronics have been interested in studying robotics. It is a challenge for robotics course professors to get students to clearly understand the basic theoretical concepts for its correct application to solve problems, and to motivate them to achieve the best performance. Previous works proposed the use of 3D models to perform the simulation of industrial robots in class and consequently to reinforce the students’ theoretical and practical concepts. However, it has not yet been clearly demonstrated how the use of robots and simulations helps improve students’ academic performance. In this paper, the main contribution consists of a formal evaluation in which the comparison between the use of two teaching methods was carried out. In the first teaching method (traditional method), the professor used PowerPoint presentations and oral explanations to teach theoretical concepts and solve exercises (Group A). In the second teaching method, the professor added the use of 3D simulations together with the traditional method to teach theoretical concepts and solve exercises (Group B). Students of both groups performed the same written exam about forward kinematics in order to study and analyse the differences between the methodology used with Group A and the methodology used with Group B. This exam consisted of solving three exercises with different robot complexity levels. The results demonstrate that the performance of the students in group B is significantly better than that of the students in group A. In other words, the use of 3D simulations improves student’s academic performance, and provides a teaching tool to enhance the way the professors teach.

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Teaching forward kinematics in a robotics course using simulations: transfer to a real-world context using LEGO mindstorms™

González-García

Rodríguez-Arce

Loreto

et al. 2020

Int J Interact Des Manuf

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Artificial Vision Algorithms for Socially Assistive Robot Applications: A Review of the Literature

Montaño-Serrano

Jacinto‐Villegas

Vilchis-González

et al. 2021

Sensors

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Today, computer vision algorithms are very important for different fields and applications, such as closed-circuit television security, health status monitoring, and recognizing a specific person or object and robotics. Regarding this topic, the present paper deals with a recent review of the literature on computer vision algorithms (recognition and tracking of faces, bodies, and objects) oriented towards socially assistive robot applications. The performance, frames per second (FPS) processing speed, and hardware implemented to run the algorithms are highlighted by comparing the available solutions. Moreover, this paper provides general information for researchers interested in knowing which vision algorithms are available, enabling them to select the one that is most suitable to include in their robotic system applications.

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Designing a teaching guide for the use of simulations in undergraduate robotics courses: a pilot study

González-García

Rodríguez-Arce

Loreto

et al. 2019

Int J Interact Des Manuf

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