Martin Rindarøy scite author profile

Martin Rindarøy

5Publications

34Citation Statements Received

101Citation Statements Given

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Affiliations

SINTEF, SINTEF Ocean

Publications

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Virtual prototyping of maritime systems and operations: applications of distributed co-simulations

et al. 2017

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Abstract-In this work we demonstrate the use of co-simulation technology in the maritime industry through four relevant examples of applications based on the outcome of the knowledgebuilding project Virtual Prototyping of Maritime Systems and Operations (ViProMa). Increasing computational capabilities opens for extended use of simulators in the design processes. Even complex systems can now be analyzed at an early stage of the design process and even in real time using distributed simulation technology. We conduct an assessment of the need for co-simulation technology in the industry, present a short background in co-simulation technology, and provide a short summary of the major findings and deliverables in the ViProMa project (http://viproma.no). The four case studies presented in this work pinpoint different advantages of using co-simulations in the industry, such as combining different modeling and simulation tools, improving collaboration without revealing sensitive information by using black-box models, testing conceptual designs in a fast and consistent manner before initiating building processes, and verifying the interplay between hardware and software in the simulation environment in hardware in the loop (HIL) tests. All the case studies are simulated using the open source co-simulation software Coral developed in the project, using the Functional Mock-up Interface (FMI) standard, and the co-simulation software can be downloaded from the project's web site.

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Distributed Co-simulation of Maritime Systems and Operations

Sadjina

Kyllingstad

Rindarøy

et al. 2018

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Here, we present the concept of an open virtual prototyping framework for maritime systems and operations that enables its users to develop re-usable component or subsystem models, and combine them in full-system simulations for prototyping, verification, training, and performance studies. This framework consists of a set of guidelines for model coupling, high-level and low-level coupling interfaces to guarantee interoperability, a full-system simulation software, and example models and demonstrators. We discuss the requirements for such a framework, address the challenges and the possibilities in fulfilling them, and aim to give a list of best practices for modular and efficient virtual prototyping and full-system simulation. The context of our work is within maritime systems and operations, but the issues and solutions we present here are general enough to be of interest to a much broader audience, both industrial and scientific.

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Virtual Prototyping of Maritime Systems and Operations

Hassani

Rindarøy

Kyllingstad

et al. 2016

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In this work we demonstrate the use of co-simulation technology in the maritime industry through four relevant examples of applications based on the outcome of the knowledge-building project Virtual Prototyping of Maritime Systems and Operations (ViProMa). Increasing computational capabilities opens for extended use of simulators in the design processes. Even complex systems can now be analyzed at an early stage of the design process and even in real time using distributed simulation technology. We conduct an assessment of the need for co-simulation technology in the industry, present a short background in co-simulation technology, and provide a short summary of the major findings and deliverables in the ViProMa project (http://viproma.no). The four case studies presented in this work pinpoint different advantages of using co-simulations in the industry, such as combining different modeling and simulation tools, improving collaboration without revealing sensitive information by using black-box models, testing conceptual designs in a fast and consistent manner before initiating building processes, and verifying the interplay between hardware and software in the simulation environment in hardware in the loop (HIL) tests. All the case studies are simulated using the open source co-simulation software Coral developed in the project, using the Functional Mock-up Interface (FMI) standard, and the co-simulation software can be downloaded from the project's web site.

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An Ontology-Based Approach for Simplified Fmu Variable Connections With Automatic Verification of Semantically Correct Configuration

Nordahl¹,

Rindarøy²,

Skjong³

et al. 2021

Preprint

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Evolution of Safety in Marine Systems: From System-Theoretic Process Analysis to Automated Test Scenario Generation

Pedersen

Neverlien

Glomsrud

et al. 2022

J. Phys.: Conf. Ser.

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The technological development ongoing in the maritime industry is making the ground for remotely and even autonomously operated vessels in the future. This is a result of increased data collection, processing and inter-connectivity capabilities. The industry is working towards increased safety, improved efficiency of the ship’s operation, improved environmental performance and a more cost-effective shipping. New technologies are developed in order to reach these goals, and DNV as a Class society is developing frameworks for assurance of such systems. The certification of ships and vessels with a high degree of automation or autonomy needs an increased focus on software, an understanding of the human-to-machine interaction and the resulting ability to solve complex operations in a secure way. In this paper, a method for high-level risk analysis of the safety aspects of autonomous vessels combined with automatic simulation-based testing of a control system, is proposed.

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