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  • IAC-20
  • D1
  • 4B
  • session 4B

    Title

    Space Systems Engineering - Methods, Processes and Tools (2)

    type

    oral

    Description

    This session will focus on state-of-the-art systems engineering methodologies that reduce the time and cost, and improve the quality of space system design. Of special interest are multi-disciplinary methods, processes, and tools used for System Design, Product Realization, Technical Management, Operations, and Retirement of space systems to improve risk management, safety, reliability, testability, and quality of life cycle cost estimates. Specifically, presentations may include: state of organizational structures, practice methods, processes, tools, training that benefit space system design, development and operations; state of the art systems engineering methodologies for space systems, including space system(s) of systems (SoS); engineering design methods, modeling and simulation tools applied to space system design and optimization; methodologies and processes for technical planning, control, assessment and decision analysis of space system design; advancement in space system development environments, such as concurrent engineering design facilities; novel methods to improve risk management, earned value management, configuration management, data management, availability, safety, reliability, testability and quality of life cycle cost estimates.

    IPC members
    • Co-Chair: Dr. Geilson Loureiro, Instituto Nacional de Pesquisas Espaciais (INPE), Brazil;

    • Co-Chair: Dr. Norbert Frischauf, TU Graz, Austria;

    • Rapporteur: Mr. Jon Holladay, National Aeronautics and Space Administration (NASA), United States;

    papers

    Order

    Time

    Paper title

    Mode

    Presentation status

    Speaker

    Affiliation

    Country

    4

    Model-based approach for requirements management connection with verification procedures applied to space systems

    10

    confirmed

    Ms. Karolina Latserus

    Skolkovo Institute of Science and Technology

    Russian Federation

    5

    Model-Driven Engineering for Swarm-Based Space Exploration Missions

    10

    confirmed

    Dr. Roberto Nardone

    University Mediterranea of Reggio Calabria

    Italy

    6

    Comparison of Multidisciplinary Design Optimization Architectures for the design of Distributed Space Systems

    10

    confirmed

    Mr. Raja Pandi Perumal

    University of Luxembourg

    Luxembourg

    8

    ENTRY, DESCENT AND IMPACT SYSTEM DESIGN AND ANALYSIS OF A SMALL PLATFORM IN MARTIAN ENVIRONMENT

    10

    confirmed

    Mr. Daniele Calvi

    Politecnico di Torino

    Italy

    9

    Test System for Fuctional Verification of a SBCDA/ARGOS-2 Receptor - Study of Case: Environmental Data Collector

    10

    confirmed

    Mr. Thiago Messias

    Federal University of Rio Grande do Norte (UFRN)

    Brazil

    10

    An Efficient Framework for Reliability-Based Multidisciplinary Design Optimization Using System Sensitivity Analysis

    10

    confirmed

    Prof. Jafar Roshanian

    K. N. Toosi University of Technology

    Iran

    11

    A Mission Analysis Tool for Aiding Feasibility Studies in Small Satellite Mission Projects

    10

    confirmed

    Mr. Alexander Kharlan

    Skolkovo Institute of Science and Technology

    Russian Federation

    12

    towards extending risk management approaches for cubesats solution: a case study of the conasat program.

    10

    confirmed

    Mr. Nícolas França Medeiros

    Federal University of Rio Grande do Norte (UFRN)

    Brazil