Key to biological success, the requisite variety that confronts an adaptive organism is the set of detectable, accessible, and controllable states in its environment. We analyze its role in the thermodynamic functioning of information ratchets---a form of autonomous Maxwellian Demon capable of exploiting fluctuations in an external information reservoir to harvest useful work from a thermal bath. This establishes a quantitative paradigm for understanding how adaptive agents leverage structured thermal environments for their own thermodynamic benefit. General ratchets behave as memoryful communication channels, interacting with their environment sequentially and storing results t...
Information is often considered as an abstract entity, but it is always stored and processed by a ph...
We expand the standard thermodynamic framework of a system coupled to a thermal reservoir by conside...
Almost all processes -- highly correlated, weakly correlated, or correlated not at all---ex...
Key to biological success, the requisite variety that confronts an adaptive organism is the...
Maxwellian ratchets are autonomous, finite-state thermodynamic engines that implement input-output i...
Understanding structured information and computation in thermodynamics systems is crucial to progres...
We introduce a family of Maxwellian Demons for which correlations among information bearing degrees ...
We introduce a family of Maxwellian Demons for which correlations among information bearing...
We propose a model of artificial intelligence (AI) that can reproduce, in principle, an arbitrary di...
Fully mechanized Maxwell's demons, also called information ratchets, are an important conceptual lin...
Living organisms from single cells to humans need to adapt continuously to respond to changes in the...
Information engines can use structured environments as a resource to generate work by randomizing or...
In this thesis we explore the relationship between information processing and physics. We use variou...
<div><p>Biological sensory systems react to changes in their surroundings. They are characterized by...
Information engines can use structured environments as a resource to generate work by rando...
Information is often considered as an abstract entity, but it is always stored and processed by a ph...
We expand the standard thermodynamic framework of a system coupled to a thermal reservoir by conside...
Almost all processes -- highly correlated, weakly correlated, or correlated not at all---ex...
Key to biological success, the requisite variety that confronts an adaptive organism is the...
Maxwellian ratchets are autonomous, finite-state thermodynamic engines that implement input-output i...
Understanding structured information and computation in thermodynamics systems is crucial to progres...
We introduce a family of Maxwellian Demons for which correlations among information bearing degrees ...
We introduce a family of Maxwellian Demons for which correlations among information bearing...
We propose a model of artificial intelligence (AI) that can reproduce, in principle, an arbitrary di...
Fully mechanized Maxwell's demons, also called information ratchets, are an important conceptual lin...
Living organisms from single cells to humans need to adapt continuously to respond to changes in the...
Information engines can use structured environments as a resource to generate work by randomizing or...
In this thesis we explore the relationship between information processing and physics. We use variou...
<div><p>Biological sensory systems react to changes in their surroundings. They are characterized by...
Information engines can use structured environments as a resource to generate work by rando...
Information is often considered as an abstract entity, but it is always stored and processed by a ph...
We expand the standard thermodynamic framework of a system coupled to a thermal reservoir by conside...
Almost all processes -- highly correlated, weakly correlated, or correlated not at all---ex...