System Cost Reduction by Electric Powertrain Design Optimization

Martin Hofstetter; Dominik Lechleitner; Mario Hirz

doi:10.1007/978-3-662-61515-7

System Cost Reduction by Electric Powertrain Design Optimization

Martin Hofstetter, Dominik Lechleitner, Mario Hirz

Institute of Automotive Engineering (3310)

Research output: Contribution to conference › Paper › peer-review

Abstract

The presented optimization method supports early system design of electric axle drives (eDrives) for battery and hybrid electric vehicles. The multi-criteria design problem of finding the best suitable solutions regarding performance, efficiency, package and costs is addressed with a sophisticated multi-objective optimization method. The overall system costs are reduced by including common-part considerations for purchased parts, demonstrated on the example of bearings. Two approaches are compared: the implicit approach relies on an extended cost model that covers a quantity-dependent cost reduction effect. The explicit approach directly minimizes the number of unique parts in the system. Both approaches are compared and the effect on the optimal system solution is discussed for a case study, which shows significant cost reduction potential.

Original language	English
DOIs	https://doi.org/10.1007/978-3-662-61515-7
Publication status	Published - 10 Dec 2019
Event	International CTI Symposium Berlin: Automotive Drivetrains I Intelligent I Electrified, Berlin 2019 - Berlin, Berlin, Germany Duration: 10 Dec 2019 → 11 Dec 2019 Conference number: 18 https://drivetrain-symposium.world/de/symposium/programme/

Conference

Conference	International CTI Symposium Berlin
Abbreviated title	CTI 2019 Berlin
Country/Territory	Germany
City	Berlin
Period	10/12/19 → 11/12/19
Internet address	https://drivetrain-symposium.world/de/symposium/programme/

Keywords

system design optimization
cost optimization
electric powertrain
gearbox design
common parts
carry-over parts

ASJC Scopus subject areas

Automotive Engineering

Fields of Expertise

Mobility & Production

Access to Document

10.1007/978-3-662-61515-7

System Cost Reduction by Electric Powertrain Design Optimization
Martin Hofstetter (Speaker)
10 Dec 2019
Activity: Talk or presentation › Talk at conference or symposium › Science to science

Cite this

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title = "System Cost Reduction by Electric Powertrain Design Optimization",

abstract = "The presented optimization method supports early system design of electric axle drives (eDrives) for battery and hybrid electric vehicles. The multi-criteria design problem of finding the best suitable solutions regarding performance, efficiency, package and costs is addressed with a sophisticated multi-objective optimization method. The overall system costs are reduced by including common-part considerations for purchased parts, demonstrated on the example of bearings. Two approaches are compared: the implicit approach relies on an extended cost model that covers a quantity-dependent cost reduction effect. The explicit approach directly minimizes the number of unique parts in the system. Both approaches are compared and the effect on the optimal system solution is discussed for a case study, which shows significant cost reduction potential.",

keywords = "system design optimization, cost optimization, electric powertrain, gearbox design, common parts, carry-over parts",

author = "Martin Hofstetter and Dominik Lechleitner and Mario Hirz",

note = "Publication in Springer conference proceedings scheduled for March 2020; International CTI Symposium Berlin : Automotive Drivetrains I Intelligent I Electrified, Berlin 2019, CTI 2019 Berlin ; Conference date: 10-12-2019 Through 11-12-2019",

year = "2019",

month = dec,

day = "10",

doi = "10.1007/978-3-662-61515-7",

language = "English",

url = "https://drivetrain-symposium.world/de/symposium/programme/",

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T1 - System Cost Reduction by Electric Powertrain Design Optimization

AU - Hofstetter, Martin

AU - Lechleitner, Dominik

AU - Hirz, Mario

N1 - Conference code: 18

PY - 2019/12/10

Y1 - 2019/12/10

N2 - The presented optimization method supports early system design of electric axle drives (eDrives) for battery and hybrid electric vehicles. The multi-criteria design problem of finding the best suitable solutions regarding performance, efficiency, package and costs is addressed with a sophisticated multi-objective optimization method. The overall system costs are reduced by including common-part considerations for purchased parts, demonstrated on the example of bearings. Two approaches are compared: the implicit approach relies on an extended cost model that covers a quantity-dependent cost reduction effect. The explicit approach directly minimizes the number of unique parts in the system. Both approaches are compared and the effect on the optimal system solution is discussed for a case study, which shows significant cost reduction potential.

AB - The presented optimization method supports early system design of electric axle drives (eDrives) for battery and hybrid electric vehicles. The multi-criteria design problem of finding the best suitable solutions regarding performance, efficiency, package and costs is addressed with a sophisticated multi-objective optimization method. The overall system costs are reduced by including common-part considerations for purchased parts, demonstrated on the example of bearings. Two approaches are compared: the implicit approach relies on an extended cost model that covers a quantity-dependent cost reduction effect. The explicit approach directly minimizes the number of unique parts in the system. Both approaches are compared and the effect on the optimal system solution is discussed for a case study, which shows significant cost reduction potential.

KW - system design optimization

KW - cost optimization

KW - electric powertrain

KW - gearbox design

KW - common parts

KW - carry-over parts

U2 - 10.1007/978-3-662-61515-7

DO - 10.1007/978-3-662-61515-7

M3 - Paper

T2 - International CTI Symposium Berlin

Y2 - 10 December 2019 through 11 December 2019

ER -

System Cost Reduction by Electric Powertrain Design Optimization

Abstract

Conference

Keywords

ASJC Scopus subject areas

Fields of Expertise

Access to Document

Activities

System Cost Reduction by Electric Powertrain Design Optimization

Cite this