Open AccessFuzzy Logic Design Approach for A Singly Reinforced Concrete Beam
Author(s) -
S O A Olawale,
AUTHOR_ID,
OP Akintunde,
AUTHOR_ID
Publication year - 2021
Language(s) - English
DOI - 10.47363/jcert/2021(3)111
Subject(s) - fuzzy logic , reinforced concrete , beam (structure) , matlab , structural engineering , moment (physics) , code (set theory) , computer science , engineering , programming language , artificial intelligence , physics , set (abstract data type) , classical mechanics
This paper presents the Fuzzy logics approach for a singly reinforced concrete beam. The rules are generated for the FIS for the variables. The width, and the moment constitutes the crisp data for the inputs and the steel ratio represents the crisp output. The MATLAB fuzzy tool kit is used to execute the simulation. The code prescription of the design of a singly reinforced concrete beam is a straight forward calculation. However, the overestimation of reinforcement can be enormous. This can be very impacting on the cost of the project. This work attempts to use fuzzy logic predictive power to design a singly reinforced concrete beam. The result reasonable agreement between the code provisions and the fuzzy logic predictions. It was established that fuzzy logic can be adopted as a significant technique for the optimization of the design of a singly reinforced concrete beam.