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Robotics and advanced manufacturing

Robotics and advanced manufacturing are two fields of technology that are constantly evolving and have a major impact on industry and society in general. Robotics refers to the use of robots to perform tasks in an automated manner, while advanced manufacturing, on the other hand, enables the rapid and precise production of parts and components through the use of technologies such as 3D printing and numerical control machining. This has revolutionized the way products are produced and designed, as it allows for greater flexibility and customization.


Discipline that focuses on the development and production of robots and automation systems.

Robotics design involves the development of control systems and the integration of the different components that make up a robot, such as software, motors, sensors and mechanical structure.

Also included is the planning and scheduling of the tasks to be performed by the robot, and the evaluation of its performance and efficiency.


A technique that consists of programming a series of instructions for a computer or machine to automatically perform a task that would otherwise require human intervention.

This can be achieved through the use of specialized software, programming languages or simply by setting up a sequence of steps in an application.

Task automation is very useful in many fields, as it saves time and effort when performing repetitive tasks or tasks that require precision.

In addition, by eliminating the need for human intervention, the possibility of errors is reduced and overall efficiency is improved.


A class of robots designed to work together with humans in a shared environment.

These robots are able to detect and avoid obstacles and unexpected movements, allowing them to work alongside humans without compromising their safety.


Branch of engineering that deals with the design, development and application of robots in the industrial field.

They are mainly used in the manufacturing industry to improve efficiency and accuracy in production.

Industrial robots are programmatically controlled and can be configured to perform a wide variety of tasks.

In addition, they are designed to work in hazardous or unhealthy environments, protecting human workers from potentially dangerous situations.


A branch of robotics used in the field of medical care and health.

Robots in healthcare can perform a wide variety of tasks, including performing medical examinations and procedures, transporting medications and medical supplies, and performing repetitive and dangerous tasks.

One of the main benefits of robotics in healthcare is the improvement of precision and efficiency in the treatment of patients.

Robots can perform tasks quickly and accurately, eliminating the possibility of human error and reducing the time required to complete certain tasks.


A production process that uses 3D printing technologies to create three-dimensional objects by successively adding layers of material.

This technique is opposed to subtractive manufacturing, which involves the removal of material to shape an object.

One of the main advantages of additive manufacturing is that it allows the production of customized parts and objects without the need for molds or special tooling, which reduces production time and cost.


A branch of engineering that focuses on the development and application of advanced electronic technologies in industry, science and technology.

These technologies include electronic components and more complex systems, such as signal processing devices, integrated circuits and control systems.

Advances in advanced electronics have enabled the creation of smaller, faster and more accurate devices and systems, driving the development of new technologies and applications.