An Adequate While-Language for Stochastic Hybrid Computation
By: Renato Neves, José Proença, Juliana Souza
Potential Business Impact:
Helps computers understand how things move and change.
We introduce a language for formally reasoning about programs that combine differential constructs with probabilistic ones. The language harbours, for example, such systems as adaptive cruise controllers, continuous-time random walks, and physical processes involving multiple collisions, like in Einstein's Brownian motion. We furnish the language with an operational semantics and use it to implement a corresponding interpreter. We also present a complementary, denotational semantics and establish an adequacy theorem between both cases.
Similar Papers
A Quantum Programming Language for Coherent Control
Logic in Computer Science
Controls quantum computers more easily.
A Foundational Theory of Quantitative Abstraction: Adjunctions, Duality, and Logic for Probabilistic Systems
Logic in Computer Science
Makes complex computer predictions more accurate.
An Adequacy Theorem Between Mixed Powerdomains and Probabilistic Concurrency
Logic in Computer Science
Helps check if computer programs work right.