TY - CHAP
T1 - Unfolding Feasible Arithmetic and Weak Truth
T2 - Unifying the Philosophy of Truth
Y1 - 2015
A1 - Sebastian Eberhard
A1 - Thomas Strahm
ED - Theodora Achourioti
ED - Henri Galinon
ED - José Martínez Fernández
ED - Kentaro Fujimoto
AB - In this paper we continue Feferman?s unfolding program initiated in (Feferman, vol. 6 of Lecture Notes in Logic, 1996) which uses the concept of the unfolding U(S) of a schematic system S in order to describe those operations, predicates and principles concerning them, which are implicit in the acceptance of S. The program has been carried through for a schematic system of non-finitist arithmetic NFA in Feferman and Strahm (Ann Pure Appl Log, 104(1?3):75?96, 2000) and for a system FA (with and without Bar rule) in Feferman and Strahm (Rev Symb Log, 3(4):665?689, 2010). The present contribution elucidates the concept of unfolding for a basic schematic system FEA of feasible arithmetic. Apart from the operational unfolding U0(FEA) of FEA, we study two full unfolding notions, namely the predicate unfolding U(FEA) and a more general truth unfolding UT(FEA) of FEA, the latter making use of a truth predicate added to the language of the operational unfolding. The main results obtained are that the provably convergent functions on binary words for all three unfolding systems are precisely those being computable in polynomial time. The upper bound computations make essential use of a specific theory of truth TPT over combinatory logic, which has recently been introduced in Eberhard and Strahm (Bull Symb Log, 18(3):474?475, 2012) and Eberhard (A feasible theory of truth over combinatory logic, 2014) and whose involved proof-theoretic analysis is due to Eberhard (A feasible theory of truth over combinatory logic, 2014). The results of this paper were first announced in (Eberhard and Strahm, Bull Symb Log 18(3):474?475, 2012).
JF - Unifying the Philosophy of Truth
T3 - Logic, Epistemology, and the Unity of Science
PB - Springer Netherlands
CY - Dordrecht
VL - 36
UR - http://www.iam.unibe.ch/ltgpub/2015/esu15.pdf
ER -