6533b833fe1ef96bd129c9a5
RESEARCH PRODUCT
Using an Adaptive Network-based Fuzzy Inference System to Estimate the Vertical Force in Single Point Incremental Forming
Valentin OleksikOctavian BologaSever-gabriel RaczRadu-eugen BreazMelania Terasubject
Computer Networks and CommunicationsComputer scienceWork (physics)Empirical modellingProcess (computing)Experimental dataValue (computer science)computer.software_genreComputer Science ApplicationsSet (abstract data type)Computational Theory and MathematicsFuzzy inference systemData miningcomputerDrawbackdescription
Manufacturing processes are usually complex ones, involving a significant number of parameters. Unconventional manufacturing processes, such as incremental forming is even more complex, and the establishment of some analytical relationships between parameters is difficult, largely due to the nonlinearities in the process. To overcome this drawback, artificial intelligence techniques were used to build empirical models from experimental data sets acquired from the manufacturing processes. The approach proposed in this work used an adaptive network-based fuzzy inference system to extract the value of technological force on Z-axis, which appears during incremental forming, considering a set of technological parameters (diameter of the tool, feed and incremental step) as inputs. Sets of experimental data were generated and processed by means of the proposed system, to make use of the learning ability of it to extract the empirical values of the technological force from rough data.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-02-14 | International Journal of Computers Communications & Control |