In the field of human-centered systems, personalized interactions are becoming increasingly relevant, driven by advancements in technology that utilize ...

The future isn’t just about “better bots.” It’s about humans working alongside smarter AI agents that can automate more ...

Asymmetric interactions between molecules may serve as a stabilizing factor for biological systems. A new model by researchers in the Department of Living Matter Physics at the Max Planck ...

Gompert and colleagues showed this adaptive difference in color pattern is almost completely explained by the presence versus absence of these individual complex, chromosomal rearrangements.

Abstract: Complex networks, neuroscience, and other applications have shown examples of multi-agent adaptive systems that must follow (over possibly short times) reference dynamics that are neither ...

Unlocking the genetic basis of adaptive evolution: study reveals complex chromosomal rearrangements in a stick insect. ScienceDaily . Retrieved May 4, 2025 from www.sciencedaily.com / releases ...

In the April 18, 2025, online issue of the journal Science, Gompert and colleagues report that adaptive divergence in cryptic color patterns is underlain by two distinct, complex chromosomal ...

Senior Scientist: Prof. dr. Mirjam Kretzschmar, Professor in Dynamics of Infectious diseases at Utrecht University, Chief Science Officer Mathematical Disease Modelling at RIVM ...

Abstract: This paper aims to address two complex issues in the control of a class of high-order time-delay nonlinear systems: i) the adaptive fixed-time tracking control and ii) the differential ...