Complex systems are systems with many parts that interact with each other. Something quite interesting about this kind of system is that these interactions can produce behaviours in the whole system that are not present in some of its parts, which are known as emergent properties.
A particular type of complex system are chaotic systems, those are systems that despite being deterministic are too sensitive and their exact behavior becomes unpredictable. In this area, I developed my final degree project by implementing an evolutionary algorithm that could carry out a control or stabilization in this type of system.
Natural computing is an area that involves both computer science and biology and can be focused on three different aspects.
The first is to create computational systems or algorithms inspired by nature, such as evolutionary computing, inspired by Darwin's evolutionary theory. Another example would be the artificial intelligence systems, so famous today, inspired by brain neural networks.
The second is to create mathematical and computational models that allow a better understanding of biological systems, such as models of metabolic pathways, cancer growth, or neurotransmitter release.
And the third is to use existing biological components to perform computation, such as DNA or cell membranes.
It is the area of computing that tries to give to machines or computers behaviors that are considered intelligent in biological beings such as humans and some other animals.
Examples of this could be object recognition, natural language processing, or learning new skills without explicit programming.
Considered a branch of artificial intelligence, it is a type of computing or a family of algorithms where the ideas of natural evolution are applied. It is especially useful for solving combinatorial optimization problems, where the number of possible states of the system is such that a deterministic algorithm could not find an optimal solution in a reasonable time, although these types of algorithms do not guarantee an optimum, they are really powerful tools.
It is the mathematical and computational analysis and modeling of complex biological systems. In this area, I developed my master's thesis by implementing a mathematical model of neurotransmitter release in Schaffer collateral synapses. It was something I had a lot of fun with, since it is a medical topic, referring to the functioning of the human body in particular, and biological systems in general, and also it is something that makes me very curious due to its complexity. I am convinced that complex biological components like cells are little machines, and when our understanding of them is great enough, we will be able to program them just as we now program computers.
I love to travel and discover new places and cultures. I have currently been to 16 countries and I expect that number to continue to increase each year. I invite you to visit my gallery or social networks to discover more.
It is one of my passions, I love trying to understand how the human body works. I had the opportunity to study it for a few years but I decided to continue my professional path in computer science, so for now it has only remained something I enjoy learning about.
To be honest I didn't like this, neither taking photos nor being in a photo, but when I had the opportunity to start traveling I found incredible enjoyment in it.
I realized that photography allowed me to immortalize the things I saw and that each photo was my way of seeing the world, then I realized that the world I was seeing could be shown to other people. That way others could see, even a little bit, what I could see and perhaps inspire them to get out, to move, or just see things they hadn't been able to see before.
I invite you to visit my gallery, I know I still have a lot to learn about this subject, but I hope you enjoy it.
I love being in nature, it gives me peace of mind and allows me to think and relax. And of course, it allows me to see memorable landscapes, which in the best of cases, I can photograph.
It is one of the few sports that I enjoy, not only are you doing a complete physical activity but it is also as if you were going to another world, it is feeling the water sliding down your body, the change in temperature, the water entering your ears, Listen to the movement of the water, the bubbles, the weightlessness... is quite an experience.
I love science fiction, whether in books, series, or movies. It is the possibility of entering a whole new universe, where anything can happen, with different laws, and characters that captivate you, a universe full of possibilities.
I love the stories of Isaac Asimov, J.K. Rowling, and Patrick Rothfus.
Closely related to science fiction, something similar happens here, but in addition to that we add the art of animation. I love seeing the details, colors, textures, movements, the different techniques, it's really beautiful.
Here my interest is varied, and some of my favorites are One piece, Naruto Shippuden, Code Geass, FullMetal Alchemist, Death note, Ghost in the Shell, Evangelion, and Daemon Slayer.
I think that knowing things is useless if you can't pass that knowledge to others. In addition, learning changes you as a person and as a social being, it can affect your environment and your quality of life. That is why I like to teach, because I am convinced that education can change your life.