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Albert-László Barabási (Barabási Albert László) was born on 30 March, 1967 in Cârța, Harghita County, Romania, is a model. Discover Albert-László Barabási's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is He in this year and how He spends money? Also learn how He earned most of networth at the age of 56 years old?

Popular As Barabási Albert László
Occupation N/A
Age 57 years old
Zodiac Sign Aries
Born 30 March, 1967
Birthday 30 March
Birthplace Cârța, Harghita County, Romania
Nationality Romania

We recommend you to check the complete list of Famous People born on 30 March. He is a member of famous model with the age 57 years old group.

Albert-László Barabási Height, Weight & Measurements

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Physical Status
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Dating & Relationship status

He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.

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Albert-László Barabási Net Worth

His net worth has been growing significantly in 2022-2023. So, how much is Albert-László Barabási worth at the age of 57 years old? Albert-László Barabási’s income source is mostly from being a successful model. He is from Romania. We have estimated Albert-László Barabási's net worth , money, salary, income, and assets.

Net Worth in 2023 $1 Million - $5 Million
Salary in 2023 Under Review
Net Worth in 2022 Pending
Salary in 2022 Under Review
House Not Available
Cars Not Available
Source of Income model

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Timeline

2023

Barabási was the recipient of the 2023 Julius Edgar Lilienfeld Prize, one of the top prizes of the American Physical Society, "for pioneering work on the statistical physics of networks that transformed the study of complex systems, and for lasting contributions in communicating the significance of this rapidly developing field to a broad range of audiences."

2021

In 2021 Barabási received the EPS Statistical and Nonlinear Physics Prize, for "his pioneering contributions to the development of complex network science, in particular for his seminal work on scale-free networks, the preferential attachment model, error and attack tolerance in complex networks, controllability of complex networks, the physics of social ties, communities, and human mobility patterns, genetic, metabolic, and biochemical networks, as well as applications in network biology and network medicine."

In 2021 Barabási was ranked 2nd in the world in the field of Engineering and Technology.

2019

In 2019 he received The Bolyai Prize from the Hungarian Academy of Sciences.

2017

In 2017 he received the Senior scientific award of the Complex Systems Society for "setting the basis of what is now modern Network Science".

2011

In 2011 he received the Lagrange Prize-Crt Foundation Prize.

In 2011 he was awarded Honorary degree Doctor Honoris Causa by Technical University of Madrid, in 2018 received an honorary doctorate from Utrecht University and from the University of West Timisoara.

2008

As of 2008, Barabási holds Hungarian, Romanian and U.S. citizenship.

In 2008 he received the 2008 C&C Prize, Japan "for stimulating innovative research on networks and discovering that the scale-free property is a common feature of various real-world complex networks" and the Cozzarelli Prize, National Academies of Sciences (USA)

2007

Barabási is one of the founders of network medicine, a term he coined in a scientific article entitled "Network Medicine – From Obesity to the "Diseasome", published in The New England Journal of Medicine, in 2007. His work introduced the concept of diseasome, or disease network, showing how diseases are connected through shared genes, capturing their common genetic roots. He subsequently pioneered the use of large patient data, linking the roots of disease comorbidity to molecular networks. A key concept of network medicine is his discovery that genes associated with the same disease are located in the same network neighborhood. This discovery lead to the concept of disease module, currently used to aid drug discovery, drug design, and the development of biomarkers, as he outlined in 2012 in a TEDMED talk. Barabási's work inspired the founding of the Channing Division of Network Medicine at Harvard Medical School and the Network Medicine Institute and Global Alliance, representing 33 universities and institutions around the world committed to advancing the field. Barabási's work in network medicine has led to multiple experimentally falsifiable predictions, helping identify experimentally validated novel pathways in asthma, predicting novel mechanism of action for rosmarinic acid, and novel therapeutic functions of existing drugs (drug repurposing). The products of network medicine are in the clinic, helping doctors decide if rheumatoid arthritis patients respond to anti-TNF therapy. During COVID  Barabási led a major collaboration involving researchers from Harvard University, Boston University and The Broad Institute, to predict and experimentally test the efficacy for COVID patients of 6,000 approved drugs.

2006

In 2006 he was awarded the John von Neumann Medal by the John von Neumann Computer Society from Hungary, for outstanding achievements in computer-related science and technology.

2005

In 2005–06 he was a Visiting Professor at Harvard University. In Fall, 2007, Barabási left Notre Dame to become the Distinguished Professor and Director of the Center for Network Science at Northeastern University and to take up an appointment in the Department of Medicine at Harvard Medical School.

In 2005, he was awarded the FEBS Anniversary Prize for Systems Biology.

2004

In 2004, he was elected as an external member of the Hungarian Academy of Sciences, in 2007, he was inducted into the Academia Europaea, in 2013 he was elected as fellow of the Massachusetts Academy of Sciences, in 2018 he was elected into the European Academy of Arts and Sciences, and in 2018 was elected member of the Romanian Academy of Sciences.

2003

He was elected Fellow of the American Physical Society in 2003, fellow of AAAS in 2011, Fellow of the Network Science Society in 2021.

2001

In a 2001 paper with Réka Albert and Hawoong Jeong he demonstrated the Achilles' heel property of scale-free networks, showing that such networks are robust to random failures but fragile to attacks. Specifically, they showed that networks can easily survive the random failure of a very large number of nodes. At the same time, networks collapse under attack, achieved by removing the biggest hubs. The threshold characterizing the breakdown of a network under random failures was linked it to the second moment of the degree distribution, finding that the threshold converges to zero for large networks, indicating that networks can survive the failure of a large fraction of their nodes. The calculations also showed that robustness to random failures is not limited to scale-free networks, but it is a general property of most real networks with a wide range of node degrees.

1999

He discovered in 1999 the concept of scale-free networks and proposed the Barabási–Albert model to explain their widespread emergence in natural, technological and social systems, from the cellular telephone to the World Wide Web or online communities. He is the Founding President of the Network Science Society, which sponsors the flagship NetSci conference held yearly since 2006.

His biggest role has been the discovery of the scale-free networks. He reported the scale-free nature of the WWW in 1999 and the same year, in a Science paper with Réka Albert, he proposed the Barabási–Albert model, predicting that growth and preferential attachment are jointly responsible for the emergence of the scale-free property in real networks. According to the review of one of Barabási's books, preferential attachment can be described as follows:

He subsequently showed that the scale-free property emerges in biological systems, namely in metabolic networks and protein–protein interaction networks. Science celebrated the ten-year anniversary of Barabási’s 1999 discovery by devoting a special issue to Complex Systems and Networks in 2009.

1995

After a one-year postdoc at the IBM Thomas J. Watson Research Center, Barabási joined the faculty at the University of Notre Dame in 1995. In 2000, at the age of 32, he was named the Emil T. Hofman Professor of Physics, becoming the youngest endowed professor. In 2004 he founded the Center for Complex Network Research.

1989

In 1989, Barabási emigrated to Hungary, together with his father. In 1991, he received a master's degree at Eötvös Loránd University in Budapest, under Tamás Vicsek, before enrolling in the Physics program at Boston University, where he earned a PhD in 1994. His thesis, written under the direction of H. Eugene Stanley, was published by Cambridge University Press under the title Fractal Concepts in Surface Growth.

1986

Barabási was born to an ethnic Hungarian family in Cârța, Harghita County, Romania. His father, László Barabási, was a historian, museum director and writer, while his mother, Katalin Keresztes, taught literature, and later became director of a children's theater. He attended a high school specializing in science and mathematics; in the tenth grade, he won a local physics olympiad. Between 1986 and 1989, he studied physics and engineering at the University of Bucharest; during that time, he began doing research on chaos theory, publishing three papers.

1967

Albert-László Barabási (born March 30, 1967) is a Romanian-born Hungarian-American physicist, best known for his discoveries in network science and network medicine.