Design of Experiments aided Holistic Testing of Cyber-Physical Energy Systems

被引:0
|
作者
van der Meer, Arjen A. [1 ]
Steinbrink, Cornelius [2 ]
Heussen, Kai [3 ]
Bondy, Daniel E. Morales [3 ]
Degefa, Merkebu Z. [4 ]
Andren, Filip Proestl [5 ]
Strasser, Thomas I. [5 ]
Lehnhoff, Sebastian [2 ]
Palensky, Peter [1 ]
机构
[1] Delft Univ Technol, Delft, Netherlands
[2] OFFIS Inst Informat Technol, Oldenburg, Germany
[3] Tech Univ Denmark, Lyngby, Denmark
[4] SINTEF Energi AS, Trondheim, Norway
[5] AIT Austrian Inst Technol, Vienna, Austria
来源
2018 WORKSHOP ON MODELING AND SIMULATION OF CYBER-PHYSICAL ENERGY SYSTEMS (MSCPES) | 2018年
基金
欧盟地平线“2020”;
关键词
Design of experiments; cyber-physical energy systems; holistic testing; research infrastructure;
D O I
暂无
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
The complex and often safety-critical nature of cyber-physical energy systems makes validation a key challenge in facilitating the energy transition, especially when it comes to the testing on system level. Reliable and reproducible validation experiments can be guided by the concept of design of experiments, which is, however, so far not fully adopted by researchers. This paper suggests a structured guideline for design of experiments application within the holistic testing procedure suggested by the European ERIGrid project. In this paper, a general workflow as well as a practical example are provided with the aim to give domain experts a basic understanding of design of experiments compliant testing.
引用
收藏
页数:7
相关论文
共 50 条
  • [1] A holistic approach to energy-aware design of cyber-physical systems
    Esparza Isasa J.A.
    Larsen P.G.
    Hansen F.O.
    [J]. Larsen, Peter Gorm (pgl@eng.au.dk), 1600, Inderscience Enterprises Ltd., 29, route de Pre-Bois, Case Postale 856, CH-1215 Geneva 15, CH-1215, Switzerland (09): : 283 - 295
  • [2] Computer-aided design of cyber-physical building systems
    Chelyshkov, Pavel
    [J]. XXII INTERNATIONAL SCIENTIFIC CONFERENCE: CONSTRUCTION THE FORMATION OF LIVING ENVIRONMENT (FORM-2019), 2019, 97
  • [3] ERIGrid Holistic Test Description for Validating Cyber-Physical Energy Systems
    Heussen, Kai
    Steinbrink, Cornelius
    Abdulhadi, Ibrahim F.
    Van Hoa Nguyen
    Degefa, Merkebu Z.
    Merino, Julia
    Jensen, Tue V.
    Guo, Hao
    Gehrke, Oliver
    Bondy, Daniel Esteban Morales
    Babazadeh, Davood
    Andren, Filip Prostl
    Strasser, Thomas I.
    [J]. ENERGIES, 2019, 12 (14)
  • [4] Design and Implementation of a Fully Controllable Cyber-Physical System for Testing Energy Storage Systems
    Lezynski, Piotr
    Szczesniak, Pawel
    Waskowicz, Bartosz
    Smolenski, Robert
    Drozdz, Wojciech
    [J]. IEEE ACCESS, 2019, 7 : 47259 - 47272
  • [5] Conformance Testing for Cyber-Physical Systems
    Woehrle, Matthias
    Lampka, Kai
    Thiele, Lothar
    [J]. ACM TRANSACTIONS ON EMBEDDED COMPUTING SYSTEMS, 2012, 11 (04)
  • [6] A Model-Based Design of Cyber-Physical Energy Systems
    Al Faruque, Mohammad Abdullah
    Ahourai, Fereidoun
    [J]. 2014 19TH ASIA AND SOUTH PACIFIC DESIGN AUTOMATION CONFERENCE (ASP-DAC), 2014, : 97 - 104
  • [7] Computer-Aided Design of Multi-Agent Cyber-Physical Systems
    Sini, J.
    Violante, M.
    Dessi, R.
    [J]. 2018 IEEE 23RD INTERNATIONAL CONFERENCE ON EMERGING TECHNOLOGIES AND FACTORY AUTOMATION (ETFA), 2018, : 677 - 684
  • [8] Design Automation for Cyber-Physical Systems
    Zhu, Qi
    Sangiovanni-Vincentelli, Alberto
    Hu, Shiyan
    Li, Xin
    [J]. PROCEEDINGS OF THE IEEE, 2018, 106 (09) : 1479 - 1483
  • [9] Design and Analysis of Cyber-Physical Systems
    Plakhotnikov, Dmitriy P.
    Kotova, Elena E.
    [J]. PROCEEDINGS OF THE 2021 IEEE CONFERENCE OF RUSSIAN YOUNG RESEARCHERS IN ELECTRICAL AND ELECTRONIC ENGINEERING (ELCONRUS), 2021, : 589 - 593
  • [10] Rigorous Design of Cyber-physical Systems
    Sifakis, Joseph
    [J]. 2012 INTERNATIONAL CONFERENCE ON EMBEDDED COMPUTER SYSTEMS (SAMOS): ARCHITECTURES, MODELING AND SIMULATION, 2012, : 319 - 319
12345