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Computer Science 7

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  4. GeTTeMo – Systematische Generierung von Testszenarien aus benutzungsorientierten Testmodellen

GeTTeMo – Systematische Generierung von Testszenarien aus benutzungsorientierten Testmodellen

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  • Concluded Projects
    • ACOOWEE – Activity Oriented Programming of Wireless Sensor Networks
    • ALF: Autonomous Localization Framework
    • Analysis Methods for Non-Markovian Models
    • A⁵: Development Method for Driver Assistance Systems based on a Domain-Specific Language
    • BioNeting – Bio-inspired Networking
    • CoCar – Cooperative Cars
    • Concurrency in timed usage models for system testing in the automotive domain
    • Data Quality and the Control of Automotive Manufacturing
    • Decentralized organization of future energy systems based on the combination of blockchains and the cellular concept
    • Dienstgütegarantien für Ethernet in der industriellen Kommunikation
    • e-NUE: Co-Simulation of Electrified and Connected Vehicles
    • Energy System Analysis
    • Formal verification and validation of test methods for complex vehicle safety systems in virtual environments
    • GeTTeMo – Systematische Generierung von Testszenarien aus benutzungsorientierten Testmodellen
    • HISTORY – HIgh Speed neTwork mOnitoRing and analYsis
    • Hybrid Simulation of Intelligent Energy Systems
    • Integrated Modeling Platforms for Computer Infrastructures
    • MaTeLo (Markov Test Logic)
    • Mo.S.I.S. (Modular Software Engineering for Interoperative Systems)
    • Model support in design, test, and monitoring of image system architectures
    • Modeling of External and Internal Impact Factors on the Performance of Wireless Local Area Networks
    • monk-it – Efficient distributed monitoring, attack detection, and event correlation
    • p2p4wsn – Efficient Data Management in Mobile Sensor Networks using Peer-to-Peer Technologies
    • Pal-Grid: A Comprehensive Simulation Framework for the Palestinian Power Grid
    • Privacy in Vehicular Networks
    • ProHTA: Prospective Assessment of Healthcare Technologies
    • Q.E.D. (QoS Enhanced Development Using UML2.0 and TTCN-3)
    • Quality of Service of Networked Embedded Systems
    • Requirements oriented testing with Markov chain usage models in the automotive domain
    • ROSES – Robot Assisted Sensor Networks
    • Secure intelligent Mobility – Testarea Germany
    • Security and Quality of Service and Aspects in ZigBee-based Wireless Communication
    • Self-organization of SN-MRS systems
    • Sensitivity Analysis of Queueing Networks
    • SkyNet – Communicating Paragliders
    • Smart Grid Services
    • Smart Grid Solar
    • Software-in-the-Loop Simulation and Testing of Highly Dependable Distributed Automotive Applications
    • Support for inter-domain routing and data replication in virtual coordinate based networks
    • SWARM (Storage With Amply Redundant Megawatt)
    • Telematics Services in Hybrid Networks
    • Transmission of Safety-Relevant Sensor Data in Intra-Car Communication Systems
    • Veins 1.0 – Vehicles in Network Simulation
    • Web Cluster Laboratory
    • WinPEPSY-QNS – Performance Evaluation and Prediction System for Queueing Networks

GeTTeMo – Systematische Generierung von Testszenarien aus benutzungsorientierten Testmodellen

Project Description

Das Ziel des Projekts ist die Erstellung einer integrierten Werkzeugumgebung für die Unterstützung der Testgetriebenen Agilen Simulation, sowie die Schaffung eines Visualisierungswerkzeugs für Benutzungsmodelle mit rudimentären Editiermöglichkeiten.

Die Kopplung des Testfallgenerators .getmore (sepp.med GmbH) und des Simulationsframeworks Syntony (gemeinsame Entwicklung von Informatik 7 und Fraunhofer IIS) ist dabei eines der wesentlichen Projektziele. Außerdem umfasst der Projektrahmen die Erstellung eines MCUP-Editors für die Erstellung, Modifikation und Konsistenzprüfung von Benutzungsprofilen, Visualisierung von Graphen ohne Positionsinformationen mithilfe eines neuen Layout-Algorithmus und die Ansicht der Modelle aus verschiedenen Perspektiven (z.B. Tester-Perspektive, Validierungsperspektive).

Project Period

    2010-01-01 – 2011-02-28

Project Members

  • Prof. Dr.-Ing. Reinhard German
  • Dr.-Ing. Anatoli Djanatliev
  • Dr.-Ing. Vitali Schneider
  • Florian Prester

Sponsered by

  • BMWi (Bundesministerium für Wirtschaft und Technologie)

Involved Institutions

  • sepp.med gmbh

Related Publications

  1. Anatoli Djanatliev, Winfried Dulz, Reinhard German und Vitali Schneider, “VeriTAS – A Versatile Modeling Environment for Test-driven Agile Simulation,” Proceedings of the 2011 Winter Simulation Conference, Phoenix, AZ USA, pp. 3657-3666, Dezember 2011  
Computer Science 7 (Computer Networks and Communication Systems)
Friedrich-Alexander-Universität Erlangen-Nürnberg

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