Ultimate Intelligence Part I: Physical Completeness and Objectivity
... The computable pdf model is a good abstraction of the observations in quantum mechanics (QM). In QM, the wave function itself has finite description (finite entropy), with unitary (deterministic) evolution, while the observations (measurements) are stochastic. Solomonoff induction is complete with r ...
... The computable pdf model is a good abstraction of the observations in quantum mechanics (QM). In QM, the wave function itself has finite description (finite entropy), with unitary (deterministic) evolution, while the observations (measurements) are stochastic. Solomonoff induction is complete with r ...
Heuristics - Integrating Hierarchical Structures
... It can be discovered that division classes can be combined, associated to each other, one can be a “subset” of another, and so on. With respect to the rules of the various division classes, however, this regular behavior between and among division classes can only be regarded as mere patterns of hap ...
... It can be discovered that division classes can be combined, associated to each other, one can be a “subset” of another, and so on. With respect to the rules of the various division classes, however, this regular behavior between and among division classes can only be regarded as mere patterns of hap ...
Experimental nonlocal and surreal Bohmian trajectories
... to the theory (as in other interpretations of quantum mechanics) but is rather due to the evolution of the global wave function, describing the interaction of the particle of interest with a measurement device that has its own Bohmian degrees of freedom. Although a single particle’s trajectory canno ...
... to the theory (as in other interpretations of quantum mechanics) but is rather due to the evolution of the global wave function, describing the interaction of the particle of interest with a measurement device that has its own Bohmian degrees of freedom. Although a single particle’s trajectory canno ...
Chapter 7 Probability Amplitudes
... 7.1 The State of a System The notion of the state of a system is a central one in both classical and quantum physics, though it is often possible to live with only an intuitive idea of what it means. However, it proves to be important here to have the concept of the state of a system clearly defined ...
... 7.1 The State of a System The notion of the state of a system is a central one in both classical and quantum physics, though it is often possible to live with only an intuitive idea of what it means. However, it proves to be important here to have the concept of the state of a system clearly defined ...
Towards ~ Lorentz Invariant Quantum Theory of Measurement
... While Zurek's work is primarly concerned with eliciting quantum effects at a macroscopic level by performing measurements on macroscopic systems his work is relevant to the general quantum theory of measurement by virtue of providing a general characterization of macroscopic systems. For Zurek it is ...
... While Zurek's work is primarly concerned with eliciting quantum effects at a macroscopic level by performing measurements on macroscopic systems his work is relevant to the general quantum theory of measurement by virtue of providing a general characterization of macroscopic systems. For Zurek it is ...
On Quantum Versions of Record
... First statement. Without loss of generality, we can assume that the time is measured in number of steps. Then TQ = t0 + t1 + . . . + ts , where t0 denotes the number of non-quantum steps in AQ , s denotes the number of Grover’s searches, and ti denotes the time required for i-th quantum search. To s ...
... First statement. Without loss of generality, we can assume that the time is measured in number of steps. Then TQ = t0 + t1 + . . . + ts , where t0 denotes the number of non-quantum steps in AQ , s denotes the number of Grover’s searches, and ti denotes the time required for i-th quantum search. To s ...
