Three forms of physical measurement and their computability

, &
Review of Symbolic Logic 7 (4):618-646 (2014)
  Copy   BIBTEX

Abstract

We have begun a theory of measurement in which an experimenter and his or her experimental procedure are modeled by algorithms that interact with physical equipment through a simple abstract interface. The theory is based upon using models of physical equipment as oracles to Turing machines. This allows us to investigate the computability and computational complexity of measurement processes. We examine eight different experiments that make measurements and, by introducing the idea of an observable indicator, we identify three distinct forms of measurement process and three types of measurement algorithm. We give axiomatic specifications of three forms of interfaces that enable the three types of experiment to be used as oracles to Turing machines, and lemmas that help certify an experiment satisfies the axiomatic specifications. For experiments that satisfy our axiomatic specifications, we give lower bounds on the computational power of Turing machines in polynomial time using nonuniform complexity classes. These lower bounds break the barrier defined by the Church-Turing Thesis.

Categories

Keywords

Reprint years

DOI

10.1017/s1755020314000240

Other Versions

No versions found

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 107,248

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Physical Oracles: The Turing Machine and the Wheatstone Bridge.Edwin J. Beggs, José Félix Costa & John V. Tucker - 2010 - Studia Logica 95 (1-2):279-300.
Computation and hypercomputation.Mike Stannett - 2003 - Minds and Machines 13 (1):115-153.
Weaker variants of infinite time Turing machines.Matteo Bianchetti - 2020 - Archive for Mathematical Logic 59 (3-4):335-365.
Turing-, human- and physical computability: An unasked question. [REVIEW]Eli Dresner - 2008 - Minds and Machines 18 (3):349-355.
Turing oracle machines, online computing, and three displacements in computability theory.Robert I. Soare - 2009 - Annals of Pure and Applied Logic 160 (3):368-399.
Some upper and lower bounds on decision procedures in logic.Jeanne Ferrante - 1974 - Cambridge: Project MAC, Massachusetts Institute of Technology.
Effective Physical Processes and Active Information in Quantum Computing.Ignazio Licata - 2007 - Quantum Biosystems 1 (1):51-65.
Algorithmic Measurement Procedures.Aldo F. G. Solis-Labastida & Jorge G. Hirsch - 2020 - Foundations of Physics 50 (8):749-763.
Measurement and Computational Description.Chris Fields - 1996 - In Peter Millican & Andy Clark, Machines and Thought: The Legacy of Alan Turing. Oxford, England: Oxford University Press.
Effective Computation by Humans and Machines.Shagrir Oron - 2002 - Minds and Machines 12 (2):221-240.

Analytics

Added to PP
2015-09-03

Downloads
44 (#590,242)

6 months
16 (#227,574)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

No citations found.

Add more citations

References found in this work

On Computable Numbers, with an Application to the Entscheidungsproblem.Alan Turing - 1936 - Proceedings of the London Mathematical Society 42 (1):230-265.
Computability and physical theories.Robert Geroch & James B. Hartle - 1986 - Foundations of Physics 16 (6):533-550.
A set of independent axioms for extensive quantities.Patrick Suppes - 1951 - Portugaliae Mathematica 10 (4):163-172.

Add more references