Miyamoto Musashi
Marcelo Velásquez's project, "Industrial Product Computer Aided Design (CAD)," emerged as the winner in its proposed category and was further recognized as the top project in the UNIVA GOAL 2023 program at the Guadalajara Campus at the undergraduate level. As a result, it will be showcased at the UNIVA General Congress, where the best projects from all campuses will be presented.
Marcelo Velásquez Enríquez is a dedicated member of the Board of the Student Scientific Society of Mechatronic Engineering 2024 at the Bolivian Catholic University. His involvement includes leadership in projects such as the award-winning "Industrial Product Computer Aided Design (CAD)" project, showcasing his commitment to advancing tech
Marcelo Velásquez Enríquez is a dedicated member of the Board of the Student Scientific Society of Mechatronic Engineering 2024 at the Bolivian Catholic University. His involvement includes leadership in projects such as the award-winning "Industrial Product Computer Aided Design (CAD)" project, showcasing his commitment to advancing technology and knowledge in mechatronics. Marcelo's contributions inspire peers and enrich the academic community.
"3D Wave Art" is an entrepreneurship focused on innovation and the development of engineering pieces through 3D printing. They specialize in analyzing parts, creating complex mechanisms, and more.
BolianBot participated in the Drone Racing category of a Robotics Competition, showcasing their expertise in drone technology and racing.
Marcelo Velásquez Enríquez is the recipient of the Academic Excellence Scholarship from the Hanns Seidel Foundation, recognizing his outstanding academic achievements and commitment to excellence.
Marcelo Velásquez stood out significantly as a representative in the robotics competition, showcasing a high level of technical skill, creativity, and problem-solving prowess. His participation was notable not only for his performance in the challenges but also for his ability to work in a team, his leadership, and his dedication to the p
Marcelo Velásquez stood out significantly as a representative in the robotics competition, showcasing a high level of technical skill, creativity, and problem-solving prowess. His participation was notable not only for his performance in the challenges but also for his ability to work in a team, his leadership, and his dedication to the project. His contribution was instrumental to the team's success in the competition, and his performance left a lasting impression on the organizers and fellow competitors.
Marcelo Velásquez stood out significantly as a representative in the robotics competition, showcasing a high level of technical skill, creativity, and problem-solving prowess. His participation was notable not only for his performance in the challenges but also for his ability to work in a team, his leadership, and his dedication to the p
Marcelo Velásquez stood out significantly as a representative in the robotics competition, showcasing a high level of technical skill, creativity, and problem-solving prowess. His participation was notable not only for his performance in the challenges but also for his ability to work in a team, his leadership, and his dedication to the project. His contribution was instrumental to the team's success in the competition, and his performance left a lasting impression on the organizers and fellow competitors.
Marcelo Velásquez stood out significantly as a representative in the robotics competition, showcasing a high level of technical skill, creativity, and problem-solving prowess. His participation was notable not only for his performance in the challenges but also for his ability to work in a team, his leadership, and his dedication to the p
Marcelo Velásquez stood out significantly as a representative in the robotics competition, showcasing a high level of technical skill, creativity, and problem-solving prowess. His participation was notable not only for his performance in the challenges but also for his ability to work in a team, his leadership, and his dedication to the project. His contribution was instrumental to the team's success in the competition, and his performance left a lasting impression on the organizers and fellow competitors.
I love traveling by road, from the streets of my country to highways around the world. I've driven through several states in the United States, enjoying both personal and work trips. Driving gives me a sense of freedom and allows me to discover new landscapes and cultures with every mile. Whether I'm passing through picturesque local town
I love traveling by road, from the streets of my country to highways around the world. I've driven through several states in the United States, enjoying both personal and work trips. Driving gives me a sense of freedom and allows me to discover new landscapes and cultures with every mile. Whether I'm passing through picturesque local towns or vast international highways, each journey is a unique adventure filled with enriching experiences.
I am deeply passionate about Solidworks, and my dedication to mastering this software is reflected in my achievement of the Solidworks Associate Certification. Throughout my academic and professional endeavors, I have completed numerous projects using Solidworks, leveraging its powerful features to design and simulate complex engineering
I am deeply passionate about Solidworks, and my dedication to mastering this software is reflected in my achievement of the Solidworks Associate Certification. Throughout my academic and professional endeavors, I have completed numerous projects using Solidworks, leveraging its powerful features to design and simulate complex engineering solutions. Solidworks has become an integral part of my workflow, enabling me to bring innovative ideas to life and effectively communicate design concepts. My proficiency in Solidworks has not only enhanced my technical skills but also fueled my passion for engineering and design.
01/17
In the field of robotics, designing a robot arm capable of lifting heavy loads is a challenging yet rewarding task. The mechanics of such a robot arm must be carefully planned to ensure both strength and precision in operation.
To achieve this, the robot arm will be equipped with robust actuators and joints capable of withstanding the weight of up to 20 kilograms. The design will also incorporate sensors to provide feedback on the position and orientation of the arm, allowing for precise control and manipulation.
In addition to its mechanical components, the robot arm will be integrated with an Internet of Things (IoT) interface. This interface will allow users to control the arm remotely, monitor its performance, and even program automated tasks.
Overall, this project aims to demonstrate the integration of mechanical and IoT technologies in the development of a powerful and versatile robot arm for industrial or research purposes.
The development of a vehicle designed to explore terrains that mimic the conditions of a space environment requires careful planning and innovative engineering. This vehicle must be capable of navigating and conducting exploration in challenging and diverse terrains, simulating the harsh and unpredictable conditions found in space.
To achieve this, the vehicle will be mechanically powered, utilizing a combination of advanced mechanical components to ensure reliable and efficient propulsion. The design will incorporate robust wheels and suspension systems capable of handling rough and uneven surfaces, ensuring stability and maneuverability.
NASA HERC BOLIVIA
The paper "Promotion of Bolivian Higher Education in Science and Engineering by STEM Engagement Activities through Participation in NASA HERC" discusses the positive impact of integrating STEM education into Bolivia's educational system. It highlights the efforts of the Universidad Católica Boliviana’s Mechatronics Engineering Department in engaging students through international competitions like the NASA Human Exploration Rover Challenge (HERC). These activities not only stimulate students' interest in science and engineering but also contribute to the country's development and research capabilities. The paper shows how participation in HERC, which involves designing and testing human-powered rovers, enhances educational outcomes and promotes new careers such as Mechatronics Engineering. The study concludes that such initiatives can significantly improve educational results and foster a thirst for knowledge among young people in Bolivia.
These are the hours when I am most attentive to messages:
lun | 09:00 a. m. – 05:00 p. m. | |
mar | 09:00 a. m. – 05:00 p. m. | |
mié | 09:00 a. m. – 05:00 p. m. | |
jue | 09:00 a. m. – 05:00 p. m. | |
vie | 09:00 a. m. – 05:00 p. m. | |
sáb | Cerrado | |
dom | Cerrado |
Copyright © 2024 Marcelo Velasquez - Todos los derechos reservados.
Mechatronics Engineer
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