Brains migration, the other migration

Fuga de Cerebros

Brains migration, the other migration

by Cristóbal Mena

The search for new and better opportunities seems to be an intrinsic need in human beings, they have always looked for better living conditions physically and psychologically. As Abraham Maslow said, human needs are ordered by hierarchy which pyramid, from the base of the physiological to the tip of self-realization. Always on the rise, never on the decline. This impulse, therefore, is one of the main causes of the migration phenomenon, more current than ever in recent years where more than 272 million people, as a result of dictatorships, wars, poverty or simply boredom have left their homes and nations. in search of a better future.

In developing societies, as in the case of Chile, there is a particular type of emigration that can become a serious problem to achieve development. We are talking about the brain drain, the “brain drainage” that corresponds to the emigration to other countries of advanced human capital, the highly educated population, why does this happen and why is it harmful?

Let us give the case of science in Chile. Scientists are (we are) restless people, who study long and complex careers, based on research that is a process in principle without guaranteed results, but with a very high payment potential in its applicability in industries for the development of new products and processes. . Ask the Not Company, which created the Not Mayo, if not.

Unfortunately, Chile is famous in the OECD for being the country that invests the least in research and development: 0.4% of GDP. This is very little compared to Brazil (1.15%), the US (2.7%) or Israel (4.1%). A smaller budget translates into less funds for new research, a fight for existing ones, low salaries for scientists, among others. Worse, many of the research-critical scientific inputs take months to reach laboratories or are inexplicably detained in customs. Still, with everything against it, Chile is recognized for its quality scientific research.

To promote the formation of advanced human capital, the Chile Becas Program was created in 2008. But it has not been enough, and many of those who study abroad stay there to make their lives, mainly in Europe and the United States, working in private industry in pharmaceuticals, aerospace, processed foods, and mechanical industry and other disciplines that cannot. work at such a high level in Chile.

“Although there are no official figures, it is estimated that the unemployment rate among returned doctoral students exceeds 12%.”

– Cristóbal A. Mena

But … How to blame them? Although there are no official figures, it is estimated that the unemployment rate among returned doctoral students exceeds 12%. Many times a researcher must work full time as a teacher in addition to carrying out his lines of research, and under the current controversial agreement of Becas Chile, the beneficiary must compulsorily make up the amount invested in him by working for a period in Chile, or by paying in cash. This would not be a problem if there was a large supply of jobs. The system is not attractive, and teaching, where more than half of the scholarship recipients go, only seems to repeat the problem in a cycle.

On the other hand, the local private sector also invests very little in research. According to data from the Ministry of Economy, only one in ten companies reports carrying out R&D. This despite the fact that it is proven that the most successful companies with the best chances of survival are those that carry out internal research on new products and services.

From these two edges, the public and the private, two logical solutions for the brain drain emerge.

The first comes from the creation of a better legal and ministerial framework for science and research in Chile, with greater funds for research to allow scientists the possibility of dedicating full time to their work, improvements in things as simple as a special customs protocol for scientific supplies, make Becas Chile have a local labor insertion strategy for advanced human capital. Let’s hope that the new Ministry of Science and Technology will fulfill its role better than its predecessor, Conicyt, for scientists in Chile.

Regarding the private, national companies must assume that there is always an inherent risk in innovating, and invest more in research and development for their products, and thus create a virtuous circle in which more resources mean greater incentive to study scientific careers, generating more researchers and advanced human capital available, expanding the range of possibilities for everyone.

Much remains to be done to really establish research in the national culture.

– Cristóbal A. Mena

Today, although considerable progress has been made in the national innovation environment, especially thanks to the work of incubators and organizations that create competitive instances (CORFO, If-Conecta, UC Innovation Center, among others), much remains to be done to really establish research in the national culture. We aspire for the day to come when both sectors, public and private, really put up with the necessary capital to promote research and thus stop the brain drain, and that Chile becomes a pole of scientific and technological immigration, as was once the United States at the beginning of the last century, or within South America Brazil under Don Pedro II the “scientific emperor.”

It requires some will, laws, and investment. Chile is already a popular destination for immigration in Latin America, why not also make it attractive to researchers? Development is within our reach, just take the next step.

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Astronomy and Data Science: an elementary relationship

Astronomía y Ciencia de Datos: una relación elemental

Astronomy and Data Science: an elementary relationship ( with great potential for the local economy).

Source: Forcast

Do you remember Katie Bouman? If not, we tell you that she was the scientist who at the beginning of 2019 made a photograph viral on social networks that was taken next to a stack of hard drives, which in total amounted to more than 5,000,000 gigabytes, essential to contain the total data that allowed the creation of the historic first photograph of a black hole.

That milestone, which captivated the press around the world, was just one part of the immense display resulting from the coordination of eight telescopes located in cities around the globe; in addition, it produced large volumes of data that had to be processed through a special algorithm.

This is how dealing with a large amount of information is a task that for astronomers is natural since “astronomy is a science based on data”, as stated by Mauricio Araya, PhD in Computer Science and Academic at the Federico Santa María University, who in turn points out that this analysis cannot be done separately.

“The data must be worked together. Part of that responsibility is handed over to the computer and it is precisely there where the concept of data science comes in, since various systems are developed to automate the obtaining of results ”, she concludes.

Astronomical data as a tool to contribute to development

As a result of its geography and great diversity of biomes, Chile is home to a series of natural laboratories that, according to the book «Natural Laboratories for Chile: Science and Innovation with Advantage» by Clapes UC, are strategic spaces that have a series of characteristics and conditions that allow to attract the attention of world science to do research.

When natural laboratories are located in emerging countries, they provide comparative advantages that cannot be replicated to other places or contexts given their nature. They allow the study, for example, of geophysical phenomena in the field of volcanology, natural disasters or the investigation of local species collaborating with biochemistry.

In the case of Chile, it is common to hear about the unique characteristics at the planetary level of the northern skies, which have managed to attract large astronomical consortia and several of the world’s leading universities such as the Las Campanas Observatory, operated by the Carnegie Institute of the United States, or the Observatory of the University of Tokyo in the city of Atacama (TAO).

In the words of Felipe Larraín, current Minister of Finance, with the comparative advantages of the skies of northern Chile “investments were made in infrastructure for research previously unthinkable in the country (about US $ 5 billion by 2020)”

“In contact with the frontier of knowledge”

Why is it relevant to continue developing this sector? Doctor Mauricio Araya indicates that although this is a very small area, from an economic perspective, “here in Chile we have the best astronomy in the world in terms of observatories, infrastructure and the amount of publications that are made.”

If we compare astronomy with mining, the most developed sector and the one that attracts the most dividends for Chile, Araya argues that even so the latter is not the most advanced compared to mining in other countries. However, Chile has a high level in engineering, instruments and astronomical science.

“Through astronomy we are permanently in contact with the frontier of knowledge, a window to the future to know what the problems will be,” he concludes.

All these elements help us to compose a great puzzle that shows us the importance of this area of ​​knowledge. But there seems to be a missing piece, the one that allows us to understand how valuable astronomy is when considering the other sectors of the local economy. More precisely, what will be the destination of all the knowledge acquired in data management in astronomy considering the other needs of the country?

Using the universe to solve problems on Earth.


Demian Arancibia is an Industrial Civil Engineer and Master in Systems Engineering from Cornell University, United States. His vast experience in the field of national and international astronomy led him to lead the Astroinformatics Initiative of the Ministry of Economy created in 2013.

The program, through various stages and with the support of previous initiatives, helped to determine a series of opportunities for the Chilean State from an economic dimension. The team was voluntarily integrated by prominent experts from national and international universities; Among them, Massimo Tarenghi (Italian physicist and astronomer), María Teresa Ruiz (National Prize for Exact Sciences), Juan Rada (economist), who considered local capacities, the development of a market, among other factors.

Astronomía Icon1

Thanks to the infrastructure it is possible to produce a large amount of high quality information. What Arancibia defines as “data acquisition”.

Astronomía Icon2

These data are a great value since they are knowledge about the universe.

Astronomía Icon4

There is a high level of sophistication to distribute data and the content that is generated to make it accessible.

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This enables new opportunities in the field of data exploration and visualization.

Arancibia indicates that these opportunities (see table) are linked to existing needs in other industries such as banks, mining, or those companies that need to enhance their marketing areas. All, as in astronomy, must process large volumes of information that must be analyzed and visualized.

The above is also shared by Doctor Mauricio Araya. He says that astronomers estimate that the observable universe has more than 100 billion galaxies, so increasingly sophisticated intelligent systems will be needed to deal with the processing of all that information. This ability may well be useful in other areas such as those already mentioned. As an anecdote, Araya says that many high-level professionals, after going through astronomical centers of great relevance, come to work for famous companies such as Spotify, Amazon, among others.

Data management for the economy of the future.

Since 2017, the Ministry of the Economy, through its “Economy of the Future” area and with the preliminary support of the European Southern Observatory (ESO), ALMA and Amazon Web Services, has promoted the creation of the Data Observatory or Data Observatory Foundation, that in the words of the ministers Andrés Couve and José Ramón Valente will have as mission “to receive, process and store the data sets generated in the country, and that, due to their volume, nature and complexity, require curation, exploration, visualization and analysis that facilitates its availability for the development of knowledge, technology and innovation, and its applications for the economy and society ”. [read column] 

This opportunity for Arancibia will help advance towards a new stage that allows undertaking specific projects and initiatives: training of talents, generation of technologies, solving problems.

“A company in collaboration with this initiative and that effectively generates solutions, that addresses the problems of astronomy, has an asset that allows it to sit at the table to carry out projects on a global scale. For example, a company that currently works with the Latam company in its marketing area in Chile could collaborate with the Data Observatory to scale its solutions and be able to work with American Airline, Emirates; in other words, working with an airline that has a greater number of customers ”, he concludes.

The foregoing also impacts the job opportunities of professionals who have specialized in the field of data. Today, many of them work in academia, observatories or public initiatives, but local technology companies are emerging increasingly that are awakening the interest of various industries to solve problems using the most advanced in information technology, and with the support of talents capable of meeting those needs.

Cristián Irribarra is an astronomer from the Universidad Católica de Chile and currently works as a data scientist at Forcast, a company specialized in generating solutions based on data science, artificial intelligence, machine learning, among other technologies.

Cristián’s mission within Forcast is to receive any type of numerical data from companies and from there create a statistical model with computational tools that allow interpreting the behavior of these numbers to infer their future and what things can be obtained.

“If you are given the sales history of a store, in principle you could know how much you sell daily, the amount of profit you will have at the end of the month; However, if you intrude deeper into the data and use special systems you can optimize the product offer, know what prices to raise or lower, how people respond to price changes, how much the consumption of an object will change you in specific in the future, ”says Cristián.

To carry out this work, the expert points out that a database is essential, “that is almost an axiom of the data scientist and artificial intelligence. The more data you have about something, the better the model you use will perform; in addition, you will assign it greater versatility ”.

“Very recently we were making a prototype to detect anomalies in street light poles with cameras; that is, if they are crooked, damaged or otherwise. One of the things that most caught my attention is that we used a system that was pre-made but to interpret other images. He did not know what a post was, but with no more than a thousand images of posts taken with my cell phone, in about 30 minutes the system was able to recognize them ”.

Cristián indicates that this example demonstrates the scope of a correct interpretation of data since systems are becoming more and more powerful, “the story is knowing how to take advantage of it and use it for various industries. If we think only in detection models, there are countless possible applications that we have not yet tested. “

However, in some cases companies have effective information gathering systems, which makes the task easier and faster; in other cases, there are problems in recording the data. For the latter, Cristian indicates that it is Forcast’s task to know how to deal with those gaps and inconsistencies on the part of customers.

“Many times the registry is filled out by hand, or they started doing it recently and they don’t have a correct structure, but regardless of that we use it the same. Whether it’s dirty or not, we get to the final product, this is an essential part of what Forcast does ”, he concludes.

The great contribution of astronomy to solving problems shows us the enormous potential of this area of ​​knowledge in the country. Chile will concentrate 70% of astronomical observations by 2024, so a strategy and the support of various productive sectors are required to take advantage of it. 

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The new revolution of Artificial Intelligence in Digital Marketing​

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The new revolution of Artificial Intelligence in Digital Marketing

One of the most developed areas within Smart Marketing is the analysis of BigData from machine learning algorithms (Machine Learning). Making use of the immense data repository in the cloud, it is possible to segment and characterize users to make personalized recommendations at the right place and time.

Another area of application of AI in Marketing is advertising testing, with the purpose of measuring the level of impact or effectiveness that it has on the user. A widely used technology here is Biometric Marketing, which basically consists of monitoring the signals of the human body when faced with a certain stimulus. For example, it is possible to follow the path of the human eye and identify the residence time in a particular image.

Customer Service and Retention is another area where Artificial Intelligence will play an important role in the not too distant future. There are already companies that are implementing bots with Artificial Intelligence in order to establish direct communication with the user and offer them personalized options. Digital employees will allow people in the future to focus on what really matters, such as establishing strong and lasting relationships with customers.

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Digital transformation index in Chile: How well are we doing?

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Digital transformation index in Chile: How well are we doing?

Source: CORFO

According to a study led by CORFO, Chile obtained 43 points on a scale from 0 to 100, known as the Digital Transformation Index, going from “Beginner to Digital Intermediate”. The study considered 8 sectors, eight sectors (commerce, food industry, productive industry, construction, communications, services, health, public administration and basic services) and a total of 465 companies.

The study concluded that “the Communications, Health and Services sectors lead the Digital Transformation, while those in the rear positions are the Public Administration and Construction, this last mentioned being the one that registers the lowest level of maturity”.

The components that the study considered are:

  • Leadership towards digital.
  • Vision and digitization strategy.
  • Digitization of processes and decision making.
  • Forms of work, people and digital culture.
  • Technology, data management and digital tools.

The dimension “Forms of work, people and culture” is the one with the highest level of evolution, which indicates that culture allows a transformation to an Intermediate Digital level, from then on culture can be a brake on transformation if it does not evolve along with the other dimensions.

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Artificial Intelligence in the Music Industry

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Artificial Intelligence in the Music Industry

Source: CIDIF

As in other industries, in the field of music, Artificial Intelligence (AI) has the potential to automate services, discover patterns and extract knowledge from a large amount of data.

Scott Cohen is one of the leaders in the music industry who saw the potential in using AI to promote the growth of this industry. According to him, more than 20,000 new music tracks are uploaded to Spotify every day and Artificial Intelligence would serve to make personalized recommendations. AI-generated music playlists are not just based on what you’ve listened to in the past, but what the machine considers to be “good music.”

Now, Artificial Intelligence can not only make personalized recommendations, but can also contribute directly to the creation of new music. Alan Turing, the well-known British programming scientist, was the first to record computer-generated music. Through Machine Learning, an algorithm creates music patterns considered “pleasant” to the human being or that imitate a certain genre.

Today, many are following the Turing legacy. The AIVA software is capable of generating pieces of music according to the feeling that you want to evoke in the listener.

Santiago Velarde, a 29-year-old Peruvian composer, stands out in Amper Music, recognized worldwide for allowing users to create music in a simple way thanks to the use of Artificial Intelligence. This platform allows you to compose music in just a few minutes and in a professional way.

Despite the fact that we saw it far away for a while, today we can already find Artificial Intelligence in the composition of music, live performances and in digital sound processing. This opens up a moral and philosophical debate as to whether a computer can ever replace and improve the work of a human. What do you think?.

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The birth of Smart Cities

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The birth of Smart Cities

Source: CIDIF

Increasingly, city administrations are turning to specialized technologies to attack social, ecological and economic problems. The incipient concept of SmartCity seeks to promote the inclusion of sensors and Big Data through what is known as the Internet Of Things (IoT). The ability to collect information in real time provides a better understanding of how cities evolve, adapt and respond to various conditions.

The areas where the SmartCity concept can be applied are varied. These include government, the economy, the environment, mobility, infrastructure, education and health.

An application with a lot of development within Smart Cities is that of image processing (Computer Vision), which has the purpose of identifying millions of simultaneous events within the urban sphere, such as people, cars, public workers, garbage, accidents , fires and natural disasters. This not only makes it possible to monitor the health of cities in real time, but also to help decision-making by organizations for the public administration.

Although Artificial Intelligence has been used extensively to attack problems of a technological nature, its potential to also contribute in human dimensions, such as Resilience, Security and Sustainability, cannot be set aside.

With the appearance of Covid-2019 we have been able to observe how the so-called Smart Cities have been able to combat the advance of the pandemic. In China, a series of measures have been deployed to control the spread of the virus that are based on the use of Artificial Intelligence and Big Data. The measures range from patrol robots that detect the use of masks in public places to infrared thermometers installed in strategic areas that can measure the temperature of ten people at a time. In South Korea, one of the most acclaimed countries for crisis management, an online coronavirus monitoring system was launched that monitors the behavior of infected patients through the use of surveillance cameras and transaction records based on credit cards. credit.

The use of information within the sphere of SmartCities has opened a debate regarding data privacy and security. The recent appearance of BlockChain technologies seeks to guarantee the transparency and security of the processes through the use of an open and transversal platform. On the other hand, it is also necessary for intelligent systems to work hand in hand with laws to protect privacy and human rights. What do you think?.

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Artificial Intelligence for the world of Medicine

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Artificial Intelligence for the world of Medicine

Source: CIDIF

The areas where Artificial Intelligence (AI) can be applied in medicine are wide, ranging from robotic consulting physicians to diagnostic systems using image processing or Computer Vision.

It is said that Medical Artificial Intelligence allows the development of the well-known 4Ps of medicine (Prediction, Prevention, Personalization and Participation) and therefore has the ability to grant greater autonomy to patients.

One field where work with AI has recently started is Gastroenterology. This discipline normally presents a certain difficulty and complexity in the diagnosis, which is why it benefits from the use of Deep Learning algorithms and Neural Network Convolutions to detect abnormal structures, such as colon polyps or gastric cancer.

Another example of the application of AI is found in the diagnosis and treatment of rare diseases. The pharmaceutical company Bayer has teamed up with technology partners to determine the diagnosis of an individual through data on symptoms, causes, test results and images, and in turn, create new drugs through the use of Machine Learning techniques.

Finally, the use of Artificial Intelligence in the planning and monitoring of a surgical intervention is growing. Surgical robots may be able to analyze a large amount of data prior to the operation and guide the surgeon during the intervention in order to favor decision-making that results in a shorter patient stay.

One of the great barriers to the adoption of AI in medicine is the fear of dehumanization. This is largely due to the administrative burden imposed on doctors. However, modern technologies such as ACI and Natural Language Processing seek to solve the administrative burden issue and help doctors focus exclusively on patients.

Although there is a latent fear that AI could replace doctors in the future, the general opinion is that it is best to consider it as a tool with the potential to complement the intelligence of the specialist. What do you think?

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How Artificial Intelligence will transform the Renewable Energy Industry

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How Artificial Intelligence will transform the Renewable Energy Industry

Source: El Periódico de la Energía

The consultancy DNV GL has published its latest document “Making renewable energies smarter: benefits, risks and future of artificial intelligence in solar and wind energy”, in which it predicts a growing use of Artificial Intelligence (AI), for which it foresees a $ 3 trillion market by 2024, across the industry, in which it analyzes its current and future potential to accelerate processes in multiple areas of renewable energy development.

The report focuses on the downstream sector and notes that wind and solar plants have already benefited from the widespread development of sensor technology and data analytics. “We look forward to the installation of more sensors, the growth of easier-to-use machine learning tools, and the continued expansion of data analysis, processing and analytics capabilities to create new operational efficiencies,” said Lucy Craig, Director of Technology and Innovation at DNV GL.

The paper expects solar and wind power to further harness the benefits of artificial intelligence in the areas of inspection and troubleshooting, where “autonomous drones with real-time AI support analytics” and “crawling robots that can get close to the surface of a structure”. Ultrasonic transmission, which can be used to penetrate structures and reveal material flaws, will pay off.

Planning and due diligence is another area that DNV GL says can benefit from the increased use of AI: “planning and analysis that today can require many human hours and thousands of documents can be greatly reduced in the future and even improved” .

DNV GL even speaks of a future in which the construction of wind and solar plants will be fully automated and carried out by ‘autonomous driving robots, which in the future may build entire terrestrial or solar wind farms: parts of a wind turbine or solar panels are transported from the factory by autonomous trucks, unloaded by another set of robots, attached to the foundations that other robots have excavated and filled, and assembled by a final set of robots and drones ”.

Despite all this potential, DNV GL points out the risks of such approaches and the danger of relying too heavily on artificial intelligence rather than the deep insights needed to manage such a system. “For the majority of participants in the renewable energy industry,” states the DNV GL press release, “building stable, progressive and reliable artificial intelligence systems requires knowledge and data sets from many different projects.”

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AgroTech: Artificial Intelligence to improve agriculture

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AgroTech: Artificial Intelligence to improve agriculture

Source: CIDIF

Precision agriculture has been one of the areas that has benefited the most in recent years with the use of Artificial Intelligence. According to the Huerta Digital (https://lahuertadigital.es/agtech-tendences/), among the main trends within the world of Smart Agriculture can be named remote monitoring of crops, robotics and agricultural automation and the area of ​​research and development in genetics and biotechnology.

Within remote crop monitoring, one of AgTech’s most recent forays is the analysis and processing from satellite images. This technology has the potential to monitor droughts and predict harvests in real time over large areas.

Another topic in full development within agricultural monitoring is how to achieve effective control of pests, diseases and other risk factors for Agro. The FuturCrop company implements technologies for the automatic detection of larvae and has declared that its initiative allows a reduction of 30-50% in the use of phytosanitary products in horticultural and fruit trees.

Regarding robotics and automation in agriculture, there are different types of robots for each productive stage, ranging from drones to robotic arms specialized in the harvest of fruits and vegetables.

In short, Artificial Intelligence promises to increase productivity in the agricultural sector by allowing the business to be managed more profitably. In periods of water deficit, such as the one that has plagued a large part of Latin America in recent years, it is essential to have technologies that allow optimizing and increasing the response capacity of this industry.

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