Forward and reverse mapping for milling process using artificial neural networks

Rashmi L. Malghan; Karthik Rao M C; Arun Kumar Shettigar; Shrikantha S. Rao; R. J. D'Souza

doi:10.1016/j.dib.2017.10.069

Forward and reverse mapping for milling process using artificial neural networks

Rashmi L. Malghan, Karthik Rao M C, Arun Kumar Shettigar, Shrikantha S. Rao, R. J. D'Souza

Department of Mechatronics Engineering, Manipal Institute of Technology, Manipal

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

The data set presented is related to the milling process of AA6061-4.5%Cu-5%SiCp composite. The data primarily concentrates on predicting values of some machining responses, such as cutting force, surface finish and power utilization utilizing using forward back propagation neural network based approach, i.e. ANN based on three process parameters, such as spindle speed, feed rate and depth of cut.The comparing reverse model is likewise created to prescribe the ideal settings of processing parameters for accomplishing the desired responses as indicated by the necessities of the end clients. These modelling approaches are very proficient to foresee the benefits of machining responses and also process parameter settings in light of the experimental technique.

Original language	English
Pages (from-to)	114-121
Number of pages	8
Journal	Data in Brief
Volume	16
DOIs	https://doi.org/10.1016/j.dib.2017.10.069
Publication status	Published - 01-02-2018

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title = "Forward and reverse mapping for milling process using artificial neural networks",

abstract = "The data set presented is related to the milling process of AA6061-4.5%Cu-5%SiCp composite. The data primarily concentrates on predicting values of some machining responses, such as cutting force, surface finish and power utilization utilizing using forward back propagation neural network based approach, i.e. ANN based on three process parameters, such as spindle speed, feed rate and depth of cut.The comparing reverse model is likewise created to prescribe the ideal settings of processing parameters for accomplishing the desired responses as indicated by the necessities of the end clients. These modelling approaches are very proficient to foresee the benefits of machining responses and also process parameter settings in light of the experimental technique.",

author = "Malghan, {Rashmi L.} and {M C}, {Karthik Rao} and Shettigar, {Arun Kumar} and Rao, {Shrikantha S.} and D'Souza, {R. J.}",

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AU - Malghan, Rashmi L.

AU - M C, Karthik Rao

AU - Shettigar, Arun Kumar

AU - Rao, Shrikantha S.

AU - D'Souza, R. J.

PY - 2018/2/1

Y1 - 2018/2/1

N2 - The data set presented is related to the milling process of AA6061-4.5%Cu-5%SiCp composite. The data primarily concentrates on predicting values of some machining responses, such as cutting force, surface finish and power utilization utilizing using forward back propagation neural network based approach, i.e. ANN based on three process parameters, such as spindle speed, feed rate and depth of cut.The comparing reverse model is likewise created to prescribe the ideal settings of processing parameters for accomplishing the desired responses as indicated by the necessities of the end clients. These modelling approaches are very proficient to foresee the benefits of machining responses and also process parameter settings in light of the experimental technique.

AB - The data set presented is related to the milling process of AA6061-4.5%Cu-5%SiCp composite. The data primarily concentrates on predicting values of some machining responses, such as cutting force, surface finish and power utilization utilizing using forward back propagation neural network based approach, i.e. ANN based on three process parameters, such as spindle speed, feed rate and depth of cut.The comparing reverse model is likewise created to prescribe the ideal settings of processing parameters for accomplishing the desired responses as indicated by the necessities of the end clients. These modelling approaches are very proficient to foresee the benefits of machining responses and also process parameter settings in light of the experimental technique.

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JO - Data in Brief

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Forward and reverse mapping for milling process using artificial neural networks

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