One of the significant projects undertaken by our research group focused on investigating innovative devices designed to enhance interaction for individuals with visual, auditory, or motor disabilities. The primary objective of this research was to develop and refine technologies that could facilitate more intuitive and accessible interactions with various types of systems, including desktop computers, laptops, and mobile devices.

Our team explored a wide range of assistive technologies and user interface improvements aimed at overcoming the challenges faced by people with disabilities. This included the development of specialized input devices, adaptive software solutions, and advanced user interface designs that cater specifically to the needs of visually impaired, hearing-impaired, and motor-impaired users. By focusing on these areas, we aimed to create a more inclusive digital environment that empowers users to interact with technology more effectively and independently.

The research also involved extensive user testing and collaboration with individuals who have disabilities to ensure that the solutions developed were practical, user-friendly, and genuinely beneficial. By integrating feedback from actual users, our research group was able to make significant strides in creating devices and applications that not only meet accessibility standards but also enhance the overall user experience for people with disabilities.

This project exemplifies our commitment to leveraging technology to break down barriers and improve the quality of life for individuals with disabilities, making technology accessible and usable for everyone, regardless of their physical abilities.

The second project I worked on involved developing a standardized communication system for biometric devices. The goal was to enable seamless message exchange and collaboration between devices from various manufacturers. To achieve this, we embedded a system of remote procedure calls (RPC) within the devices themselves. This RPC system ensured that the communication between the devices remained transparent, regardless of the programming language or operating system being used.

The project required careful consideration of interoperability issues, as biometric devices often come with proprietary communication protocols and diverse technical specifications. By implementing a standardized RPC system, we were able to abstract the underlying differences and create a unified communication protocol. This protocol facilitated efficient data exchange and operational coordination across a wide array of biometric devices.

Moreover, the communication system was designed to be highly robust and secure, given the sensitive nature of biometric data. We incorporated encryption and authentication mechanisms to protect data integrity and prevent unauthorized access. The end result was a reliable, cross-platform solution that greatly enhanced the interoperability and functionality of biometric systems.

This project not only improved device compatibility but also paved the way for future advancements in biometric technology, enabling manufacturers to focus on innovation without worrying about communication barriers. The standardized communication system thus represented a significant leap forward in the field of biometric device integration.

The third project involved the creation and ongoing maintenance of the research group's website using the Joomla Content Management System (CMS). This project required not only the initial development of a user-friendly and visually appealing web page but also the continuous updating and enhancement of its features and content to meet the evolving needs of the research group.

The website served as a central hub for the research group's activities, providing access to publications, project updates, and upcoming events. Leveraging Joomla's robust framework, I ensured that the website was both secure and scalable, capable of handling an increasing volume of content and user interactions. The CMS allowed for easy content management, enabling the research group members to contribute and update information without requiring extensive technical knowledge.

In addition to the technical implementation, I focused on optimizing the website for performance and accessibility. This included ensuring fast load times, implementing responsive design for compatibility with various devices, and adhering to accessibility standards to make the site usable for all visitors. Regular maintenance tasks involved updating the Joomla core and extensions, monitoring site performance, and addressing any security vulnerabilities promptly.

Overall, this project demonstrated my ability to develop and manage a dynamic web presence that effectively supports the goals and activities of a specialized group, utilizing the powerful features of Joomla CMS.

Throughout my tenure with the research group, I contributed in various capacities. My support work encompassed a range of tasks aimed at facilitating the group's objectives. I also organized and conducted specialized seminars focusing on Robotics, sharing advanced knowledge and latest developments in the field with my colleagues and students.

Additionally, I served as an assistant professor, where I taught subjects such as Artificial Intelligence and Artificial Vision. In this role, I was responsible for preparing and delivering lectures, assisting with course design, and providing guidance to students on complex topics related to AI and computer vision technologies. My involvement in these subjects helped bridge the gap between theoretical concepts and practical applications for the students.

Beyond teaching and support roles, I actively participated in extracurricular activities, including the Hispabot robotic contest. I competed in the labyrinth resolution mode, where I applied my expertise in robotics and AI to design and program robots capable of navigating and solving mazes. This experience not only honed my technical skills but also demonstrated my ability to apply research in real-world competitive environments.