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ELIV 2019 / Titelei/Inhaltsverzeichnis
ELIV 2019 / Titelei/Inhaltsverzeichnis
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Titelei/Inhaltsverzeichnis
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1–4
Foreword
1–4
Details
5–44
ADAS
5–44
5–10
Seeing With Sound – Next-level 3D ultrasonic sensors based on echolocation
N. Knappstein
N. Knappstein
5–10
Details
11–20
Ensuring the reliability, availability and safety of fully automated and autonomous transport systems through modern system architectures
J. Heinrich, A. Braasch, F. Plinke
J. Heinrich, A. Braasch, F. Plinke
11–20
Details
21–30
ADAS/AD Systems: Efficient Testing & Validation – From data acquisition to data analytics
M. Kremer, M. Kreutz, M. Luxen, S. Christiaens
M. Kremer, M. Kreutz, M. Luxen, S. Christiaens
21–30
Details
31–44
Problems and solution spaces for driver-initiated handover from automatic to manual driving mode
J. Klesing, S. Safour
J. Klesing, S. Safour
31–44
Details
45–86
UX
45–86
45–56
User-centred development of a display concept for fully automated driving – A methodical approach
L. Gauer, I. Totzke
L. Gauer, I. Totzke
45–56
Details
57–66
UX in the Automotive Industry – How to make it comparable?
R. Ludwig
R. Ludwig
57–66
Details
67–78
Development of the Cockpit-UI/UX of the Taycan in an Agile Way – Less is More
L. Krauß, E. Kögler, M. Bayer, S. Wiechmann, M. Worch, M. Mohamad
L. Krauß, E. Kögler, M. Bayer, S. Wiechmann, M. Worch, M. Mohamad
67–78
Details
79–86
3D-Displays with Lightfield Technology for a natural look and feel – User experience between attention-guiding and brand emotion
K. Hohmann, F. Rabe, C. Menzenbach
K. Hohmann, F. Rabe, C. Menzenbach
79–86
Details
87–200
E-Vehicles
87–200
87–100
Future e-mobility and the change in system requirements – The interplay between battery and thermal management for different mobility concepts
L. Schindele, D. Schütz, F. Heber, P. Sailer, G. Le Hen, N. Müller
L. Schindele, D. Schütz, F. Heber, P. Sailer, G. Le Hen, N. Müller
87–100
Details
101–114
Modeling and identification of electrochemical energy storage for drive train development – Review and evaluation
P. Gesner, F. Kirschbaum, F. Landenberger, J. Scheiffele, L. Morawietz, B. Bäker
P. Gesner, F. Kirschbaum, F. Landenberger, J. Scheiffele, L. Morawietz, B. Bäker
101–114
Details
115–126
Condition monitoring for failure monitoring of power electronic assemblies
S. Wagner, F. Wüst, S. Trampert, F. Sehr, A. Middendorf, O. Wittler, M. Schneider-Ramelow
S. Wagner, F. Wüst, S. Trampert, F. Sehr, A. Middendorf, O. Wittler, M. Schneider-Ramelow
115–126
Details
127–138
Holistic Energy Management of 48V Mild Hybrid Vehicles
P. Griefnow, J. Andert, M. Engels, J. Richenhagen, D. Jolovic
P. Griefnow, J. Andert, M. Engels, J. Richenhagen, D. Jolovic
127–138
Details
139–152
Easy Integration of 48V Mild Hybridization by Dual Voltage Battery Management – Realizing CO2 saving potentials by low implementation efforts
B. Fähnrich, A. Körner
B. Fähnrich, A. Körner
139–152
Details
153–168
48 Volt High Power: Electric Drive for Excellent CO2 Emissions & Electric Driving Features
F. Graf, S. Baensch, T. Knorr, D. Ellmer, C. Marechal
F. Graf, S. Baensch, T. Knorr, D. Ellmer, C. Marechal
153–168
Details
169–176
Efficiency Advantages of SiC in Electric Drive Train Applications
T. Grasshoff, O. Tamm
T. Grasshoff, O. Tamm
169–176
Details
177–188
The Transition of EV Applications from Silicon to Silicon Carbide – Helping the power electronics design community overcome reliability challenges for EV applications that use silicon carbide
A. Kashyap, A. Gendron-Hansen, D. Sdrulla, B. Odekirk
A. Kashyap, A. Gendron-Hansen, D. Sdrulla, B. Odekirk
177–188
Details
189–200
Modular DC-DC converter for high-performance fuel-cell systems in trucks and buses
T. Bürger, Kunal Goray, F. Berg, W. Resende
T. Bürger, Kunal Goray, F. Berg, W. Resende
189–200
Details
201–274
End-2-End
201–274
201–212
Future electric/electronic architecture – Sustainable design of a digital in-vehicle backend infrastructure
M. Traub, H.-U. Michel
M. Traub, H.-U. Michel
201–212
Details
213–226
Function- and Service-Orientation – a Game Changer for the E/E-Architecture of Tomorrow
R. Roppel, M. Görber
R. Roppel, M. Görber
213–226
Details
227–238
Vehicular RF Architectures – Managing integration of next generation automotive wireless systems
T. Zipper, R. Gee
T. Zipper, R. Gee
227–238
Details
239–254
Going from an Electronic Unit Centric Development to Application Software Centric Requires a Different Architecture Mindset in Automotive
A. Magnuson
A. Magnuson
239–254
Details
255–268
Using Cloud-Based Electronic Horizons to Enable Distributed Driving Functions
P. Engel, A. Geraldy, J. Wolter
P. Engel, A. Geraldy, J. Wolter
255–268
Details
269–274
Use of open source software in automotive safety projects – A decision tree for the usage of open source software components in safety projects
R. Grave
R. Grave
269–274
Details
275–306
Mission D
275–306
275–282
Trucks as the drivers of connectivity-based innovation – What the passenger car sector can learn from the experience already gained in trucks today
G. Mabire
G. Mabire
275–282
Details
283–292
Functions on demand – Enabler for digital business with car functions – Challenges of implementation of a high complex security mechanism
J.-K. Landgraf, A. Fabri
J.-K. Landgraf, A. Fabri
283–292
Details
293–306
System of systems structured data for mobility services
Y. Chazal, A. M. Hein, S. Boutin
Y. Chazal, A. M. Hein, S. Boutin
293–306
Details
307–346
Data Management
307–346
307–318
Building a Standardized Data Pipeline from the Cloud to All In-Vehicle ECUs and Sensors – A New Opportunity for the Connected Car
S. Acharya, M. Gardner, S. Herz, C. Hosner, F. Lesbroussart
S. Acharya, M. Gardner, S. Herz, C. Hosner, F. Lesbroussart
307–318
Details
319–332
Data Structures and Interfaces for High-resolution Maps in Rapid Prototyping Applications of Highly Automated Driving
M. Giertzsch
M. Giertzsch
319–332
Details
333–346
Multilateralism at its best: A blockchain-based platform enabling data sharing, monetization and service differentiation in the automotive industry
K. Bader, V. Knaup, S. Schneider
K. Bader, V. Knaup, S. Schneider
333–346
Details
347–364
Mission D
347–364
347–352
AI and the Evolution of Model-Based Design
J. Tung
J. Tung
347–352
Details
353–358
On modern automotive software development – Forever stuck in the middle?
R. Schmidt-Clausen, U. Reder, R. Lange
R. Schmidt-Clausen, U. Reder, R. Lange
353–358
Details
359–364
The Future of Digital Car Access – Service Potentials and Ecosystem Challenges
K. L. Barbehön, O. Müller, D. Knobloch
K. L. Barbehön, O. Müller, D. Knobloch
359–364
Details
365–382
ADAS KI
365–382
365–374
Potential of Training Neural Networks Using Virtual Environments
R. Pfeffer, N. Ahn
R. Pfeffer, N. Ahn
365–374
Details
375–382
Mission AI in Automotive – Collaboration Models and Functional Safety
U. Bodenhausen
U. Bodenhausen
375–382
Details
383–418
ADAS
383–418
383–394
Engineering and Hardening of Functional Fail-Operational Architectures for Highly Automated Driving – Identifying and shaping the operational design domain
R. Adler, D. Schneider, T. Fukuda
R. Adler, D. Schneider, T. Fukuda
383–394
Details
395–406
Safety for Automated Driving with High Performance ECUs
M. Oertel, J. Wolf
M. Oertel, J. Wolf
395–406
Details
407–418
Impact of Cybersecurity and Safety Standards on ADAS Software Development Practices
O. Ur-Rehman, G. Wallraf, B. Holderbaum, M. Jentges
O. Ur-Rehman, G. Wallraf, B. Holderbaum, M. Jentges
407–418
Details
419–492
Security
419–492
419–422
Are you Security Compliant? – Current Automotive Security Legislations, Potential Impacts to Automotive OEMs & Suppliers, and First Action Proposals
M. Minzlaff, Marko Wolf
M. Minzlaff, Marko Wolf
419–422
Details
423–430
Integration of Cybersecurity into Development Processes – A Case Study
F. Stahl
F. Stahl
423–430
Details
431–442
The transition to HPC-based vehicle architectures – Cyber Security Implications
A. Shomer
A. Shomer
431–442
Details
443–454
Enhancing In-Vehicle Communication by Authentication and Security – An incremental approach with an example for CAN message authentication
A. Hahn
A. Hahn
443–454
Details
455–468
Hardware matters: how one chip can impact the security of a connected vehicle
M. Brunner, H. Adlkofer
M. Brunner, H. Adlkofer
455–468
Details
469–478
Embedded Intrusion Detection based on AI – A Data-Driven Approach
A. Weichslgartner
A. Weichslgartner
469–478
Details
479–492
Continuous Security Testing for the Automotive Domain
S. Greiner, H. Löhr, P. Duplys
S. Greiner, H. Löhr, P. Duplys
479–492
Details
493–528
Architectures + Software
493–528
493–502
AUTOSAR Adaptive Platform – A standardized SW platform for intelligent vehicles with functional safety and data integrity
G. Reichart, M. Niklas
G. Reichart, M. Niklas
493–502
Details
503–518
Service-Oriented HPC Communication Standard for Vehicle Lifecycle Management
A. Schleicher
A. Schleicher
503–518
Details
519–528
How to Improve Automotive Testing in an Agile Development Process – A Review of Popular Testing Methods and Overview of Advanced Automated User Interface Testing
D. Robinson
D. Robinson
519–528
Details
529–536
Mission D – Charging
529–536
800V Fast Charging is Reality – From the Vision in 2015 to Reality in 2019
O. Bitsche
O. Bitsche
Details
537–580
On-Board 2.0
537–580
537–537
Addressing the challenges in designing fail-operational architectures for autonomous
537–537
Details
537–550
driving platforms – Tailoring fail-operational systems based on production experience in the aerospace industry for the automotive use cases
S. Poledna
S. Poledna
537–550
Details
551–566
Boost Safety & Styling for vehicle lighting – Individualization and new Functionalities
M. Kleinkes, W. Pohlmann, C. Wilks
M. Kleinkes, W. Pohlmann, C. Wilks
551–566
Details
567–580
CAN FD Light – A novel communication bus supporting digitalization and customization of automotive lighting for the broad market
F. Rennig, J. Barthel, M. Sanza, D. Tagliavia
F. Rennig, J. Barthel, M. Sanza, D. Tagliavia
567–580
Details
Digital Light – Function & Design on Demand utilized for Car2X Communication
M. Kruppa, W. Thomas
M. Kruppa, W. Thomas
Details
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ELIV 2019
Titelei/Inhaltsverzeichnis
Autoren
VDI Wissensforum GmbH (Ed.)
DOI
doi.org/10.51202/9783181023570-I
ISBN print: 978-3-18-092357-4
ISBN online: 978-3-18-102357-0
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doi.org/10.51202/9783181023570-I
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