Subashkaran R | Anna University (original) (raw)
Subashkaran R is a Assistant Professor in Department of Mechanical Engineering at Arunai Engineering College, Tiruvannamalai, Tamilnadu, India. From 2015-2020 Worked as Asst Professor during this period handled various papers for both Undergraduate and Postgraduate students. Achieved best teacher Award for two times in academic carrier. During that period published two papers in International journals and participated in various seminars, conferences, FDP's and webinars. I received my undergraduate degree in Mechanical Engineering from Bharathidasan Engineering College, Vellore in 2013. I completed my Master's degree in CAD/CAM Engineering in Arunai Engineering College, Tiruvannamalai in 2015. In 2018 -19 completed my Master's in Business Administration as Human Resources Management in Periyar University, Salem.
Phone: 9047128755
Address: chennai,tamilnadu, India
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ENIM : National Engineering School of Monastir - TUNISIE
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Papers by Subashkaran R
Now days, simulation plays a major role on product development section in industries. In recent t... more Now days, simulation plays a major role on product development section in industries. In recent the simulation is currently used in design, dimensioning and analysing of the mechanical parts. We focusing on the dynamics of the microscopic world and on realizing simulations that capture maximum complicity using minimum computation time and cost. FEM becomes the most useful approach in simulation of mechanical behaviour. For that it requires initial CAD model. It is not easy to analyse complex models. So, it is necessary to simplify the models before simulation. In this paper presents an automatic CAD model suppression approaches. First part of this paper deals with a Rule based approach to simplify the features for that the rules are generated with help of expert's knowledge and suppression has obtained in Knowledge ware a special tool available in CATIA V5. Second part presents a Hybrid method approach to simplify CAD model. The implementation of algorithm on Open Cascade Platform is also presented. Finally estimate the effect of using this approach on CAD model. It shows that computational time is reduced with minimal changing the exactitude of results.
At present, simulation is at the heart of product development cycle. The simulation is currently ... more At present, simulation is at the heart of product development cycle. The simulation is currently
used indesign and dimensioning of the mechanical parts. We focusing on the dynamics of the
microscopic world and on realizing simulations that capture maximum complicity using minimum
computation time and cost. FEM becomes the most useful approach in simulation of mechanical
behaviour. For that it requires initial CAD model. It is not easy to analyse complex models. So, it
is necessary to simplify the models before simulation. In this paper presents an automatic CAD
model simplification approaches. First part of this paper deals with a Rule based approach to
simplify the features for that the rules are generated with help of expert’s knowledge and
simplification has obtained in Knowledgeware a special tool available in CATIA V5. Second part
presents a Hybrid method approach to simplify CAD model. The implementation of algorithm on
Open Cascade Platform is also presented. Finally estimate the effect of using this approach on
CAD model. It shows that computational time is reduced with minimal changing the exactitude
of results.
Keywords: Simulation,
Now days, simulation plays a major role on product development section in industries. In recent t... more Now days, simulation plays a major role on product development section in industries. In recent the simulation is currently used in design, dimensioning and analysing of the mechanical parts. We focusing on the dynamics of the microscopic world and on realizing simulations that capture maximum complicity using minimum computation time and cost. FEM becomes the most useful approach in simulation of mechanical behaviour. For that it requires initial CAD model. It is not easy to analyse complex models. So, it is necessary to simplify the models before simulation. In this paper presents an automatic CAD model suppression approaches. First part of this paper deals with a Rule based approach to simplify the features for that the rules are generated with help of expert's knowledge and suppression has obtained in Knowledge ware a special tool available in CATIA V5. Second part presents a Hybrid method approach to simplify CAD model. The implementation of algorithm on Open Cascade Platform is also presented. Finally estimate the effect of using this approach on CAD model. It shows that computational time is reduced with minimal changing the exactitude of results.
At present, simulation is at the heart of product development cycle. The simulation is currently ... more At present, simulation is at the heart of product development cycle. The simulation is currently
used indesign and dimensioning of the mechanical parts. We focusing on the dynamics of the
microscopic world and on realizing simulations that capture maximum complicity using minimum
computation time and cost. FEM becomes the most useful approach in simulation of mechanical
behaviour. For that it requires initial CAD model. It is not easy to analyse complex models. So, it
is necessary to simplify the models before simulation. In this paper presents an automatic CAD
model simplification approaches. First part of this paper deals with a Rule based approach to
simplify the features for that the rules are generated with help of expert’s knowledge and
simplification has obtained in Knowledgeware a special tool available in CATIA V5. Second part
presents a Hybrid method approach to simplify CAD model. The implementation of algorithm on
Open Cascade Platform is also presented. Finally estimate the effect of using this approach on
CAD model. It shows that computational time is reduced with minimal changing the exactitude
of results.
Keywords: Simulation,