A Concept for a Qualifiable (Meta)-Modeling Framework Deployable in Systems and Tools of Safety-critical and Cyber-physical Environments

TL;DR

This paper proposes a novel open-source (meta)-modeling framework designed specifically for safety-critical and cyber-physical systems, emphasizing qualification support to reduce manual effort and ensure compliance.

Contribution

It introduces six key cornerstones for a qualifiable (meta)-modeling framework, addressing gaps in current domain-specific tools for safety-critical system development.

Findings

Framework supports qualification artifact generation

Deterministic transformations ensure reliability

Holistic approach enhances safety-critical system modeling

Abstract

The development of cyber-physical systems can significantly benefit from domain-specific modeling and requires adequate (meta)-modeling frameworks. If such systems are designed for the safety-critical area, the systems must undergo qualification processes defined and monitored by a certification authority. To use the resulting artifacts of modeling tools without further qualification activities, the modeling tool must be additionally qualified. Tool qualification has to be conducted by the tool user and can be assisted by the tool developer by providing qualification artifacts. However, state-of-the-art domain-specific modeling frameworks barely support the user in the qualification process, which results in an extensive manual effort. To reduce this effort and to avoid modeling constructs that can hardly be implemented in a qualifiable way, we propose the development of an open source (meta)-modeling framework that inherently considers qualification issues. Based on the functionality of existing frameworks, we have identified components that necessarily need to be rethought or changed. This leads to the consideration of the following six cornerstones for our framework: (1) an essential meta-language, (2) a minimal runtime, (3) deterministic transformations, (4) a qualification artifact generation, (5) a sophisticated visualization, and (6) a decoupled interaction of framework components. All these cornerstones consider the aspect of a safety-critical (meta)-modeling framework in their own manner. This combination leads to a holistic framework usable in the safety-critical system development domain.