Intelligent Adaptation of Axisymmetric Solid Parts in Machining Process Planning by Case Based Reasoning

Intelligent Adaptation of Axisymmetric Solid Parts in Machining Process Planning by Case Based Reasoning. García, A., Lancho, R., Aleaga, A., Rodríguez, A., & Leyva, L. International Journal of Intelligent Engineering and Systems, 10(3):245-253, 6, 2017.
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The goal of this paper is the adaptation of plans of manufacturing processes of Axisymmetric Solid Parts under the approach of Case Based Reasoning (CBR). To this end, a data model for feature-based representation has been developed, which contains the geometric, dimensional and technological information required for the preparation of the one-piece process plan. As a result, an algorithm to generate new parts process plans from a similar plan retrieved from the case base is presented, which is based on the specific information of the Primitive Form Features (PFF) and considers the possible interaction between neighboring PFFs. The computer support of the developed algorithm was implemented in AutoLISP as programming language of the CAD system used and the interface was created in OpenDCL.

@article{
 title = {Intelligent Adaptation of Axisymmetric Solid Parts in Machining Process Planning by Case Based Reasoning},
 type = {article},
 year = {2017},
 keywords = {CAD/CAPP system,CBR,Cutting schemes,Form features,Geometric information},
 pages = {245-253},
 volume = {10},
 month = {6},
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 created = {2020-12-09T06:11:18.548Z},
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 profile_id = {f4bee9c8-c485-33cf-b9d4-7424ce07c46d},
 last_modified = {2021-02-23T05:16:47.398Z},
 read = {false},
 starred = {false},
 authored = {true},
 confirmed = {false},
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 abstract = {The goal of this paper is the adaptation of plans of manufacturing processes of Axisymmetric Solid Parts under the approach of Case Based Reasoning (CBR). To this end, a data model for feature-based representation has been developed, which contains the geometric, dimensional and technological information required for the preparation of the one-piece process plan. As a result, an algorithm to generate new parts process plans from a similar plan retrieved from the case base is presented, which is based on the specific information of the Primitive Form Features (PFF) and considers the possible interaction between neighboring PFFs. The computer support of the developed algorithm was implemented in AutoLISP as programming language of the CAD system used and the interface was created in OpenDCL.},
 bibtype = {article},
 author = {García, Alexis and Lancho, Ricardo and Aleaga, Arlys and Rodríguez, Alexis and Leyva, Leonardo},
 doi = {10.22266/ijies2017.0630.27},
 journal = {International Journal of Intelligent Engineering and Systems},
 number = {3}
}

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