News & Analysis
/
Article

A look at adaptive systems from biology to machine learning

JUL 28, 2023
An interdisciplinary perspective analyzes how adaptivity is studied and applied in various scientific fields.
A look at adaptive systems from biology to machine learning internal name

A look at adaptive systems from biology to machine learning lead image

Adaptivity is a key idea in biology, but it’s also found in many other fields, from neuroscience to physics to socioeconomics. Sawicki et al. delve into the various approaches to studying adaptivity, with chapters focusing on applications in machine learning, renewable power grids, music, and more.

Led by Jakub Sawicki, Rico Berner, and Sarah Loos, this article draws on a range of expertise, including from neuroscientists, mathematicians, physicists, computer scientists, and biologists, to provide a comprehensive look at adaptivity as it applies across scientific fields.

Adaptivity has different definitions in various fields; by presenting interdisciplinary summaries, the researchers showcase similarities and differences in focuses and approaches to studying adaptivity. Their goal is to encourage collaboration and improve accessibility for those unfamiliar with technical languages outside their primary fields.

“This article could be used to get an idea of the open questions related to adaptivity existing in various disciplines,” said author Sarah Loos.

“By showcasing the approaches and methods that are already established in various fields, this article can help researchers who look for new methods and possible solutions to tackle the challenges related to adaptivity in their own field,” said author Rico Berner.

For each area, a summary of adaptivity is given, along with its field-specific definitions, methods, and applications. With this breadth of perspectives, the article aims to help highlight all aspects of adaptivity and inspire future work and collaboration between fields.

“This article invites researchers to think in an interdisciplinary manner, and we hope that it will lead to cross-fertilization between the different fields and ideally even to future collaborations,” said author Jakub Sawicki.

Source: “Perspectives on adaptive dynamical systems,” by Jakub Sawicki, Rico Berner, Sarah A. M. Loos, Mehrnaz Anvari, Rolf Bader, Wolfram Barfuss, Nicola Botta, Nuria Brede, Igor Franović, Daniel J. Gauthier, Sebastian Goldt, Aida Hajizadeh, Philipp Hövel, Omer Karin, Philipp Lorenz-Spreen, Christoph Miehl, Jan Mölter, Simona Olmi, Eckehard Schöll, Alireza Seif, Peter A. Tass, Giovanni Volpe, Serhiy Yanchuk, and Jürgen Kurths, Chaos (2023). The article can be accessed at https://doi.org/10.1063/5.0147231 .

Related Topics
More Science
/
Article
Experimental results confirm design principles for resonant-tunneling diode oscillators that could help make terahertz emitters commercially viable.
/
Article
Multifractal detrended fluctuation analysis confirms the Hamiltonian chaos of Saturn’s moon Hyperion, opening doors for validation of other chaotic systems in space.
AAS
/
Article
This month’s episode highlights the bright star Spica, now prominent high in the southwest after evening twilight. It’s leading the parade of constellations, along with the brilliant planet Venus, that will grace the Northern Hemisphere’s summer skies. You’ll also get to know other brights stars in Spica’s vicinity, along with excellent tips on how to be a better stargazer. So grab curiosity and come along on this month’s Sky Tour.
AAS
/
Article
The telescope should spot billions of astronomical objects in the next 10 years.