How to efficiently introduce (Model-based) Systems Engineering that covers multi-domain model, supports variability requirements for diverse product-lines and enables for legacy subsystem integration? We provide you with an integrated Systems Engineering Artifact Model that helps you to engineer and control your future systems engineering.
What are the tasks that can be automized in order to save time and costs? Our (tailored) tools support you daily in a clean, goal-oriented and easy to use way in engineering activities to create high-quality system models. By a tight integrating into commercial tool-chains, we continuously analyze, explore and validate your system architectures.
Your team is the basis for a successful business. We coach and accompany you and your team with new approaches in Systems Engineering and best practices in a motivating way. We offer tailored online-trainings and educations according to the latest didactic findings by close corporations with Universities of Applied Science.
The adoption to (Model-based) Systems Engineering requires a good understanding of standards (e.g. necessary elements of SysML), a methodology to set up architectural models and a tool that supports both easy modeling of standards and the methodology. We offer coaching, trainings and knowledge transfer for all of these tasks according to your needs.
(AI-based) Model Analysis
We analyze and assess the current state of your system architectures. An automatic model evaluation performs quality measures based on well-defined KPIs. A corresponding systematic analysis of the current situation and a goal-oriented, measurable approach prepares for a reasonable MbSE adoption.
Automized E/E Architecture Generation
Our tools enable to automatically calculate (optimized) E/E architectures according to your design goals / objectives (e.g. cost, bandwidth, number of ECUs, etc.). Such trade-off analysis techniques enable you in early design phases to come up with a suitable design for your new product.
We offer courses for various topics in Systems Engineering. For instance, an introduction to engineering methods based on SysML. We partnership with Universities of Applied Science to provide courses up to latest didactic standards and even for larger teams.
Variability enables your company to target and structure a broad set of customer requirements. A proper engineering method enables to handle the complexity that is introduced through variant management while still maintaining re-usable artifacts.
A successful MbSE adoption requires a strong relationship between an engineering method, the standards used (e.g. SysML) and a proper tooling. Tool customization can leverage the engineering process, when supporting the engineering method, especially, when they are combined with company-specific analysis. We customize your tool to fit your engineering goals.
Whitepaper: Model-based Systems Engineering
Handling the increasing complexity of cyber-physical systems, while maintaining re-usable assets and a variant-rich product portfolio. All these things can be hard without a proper engineering method. Model-based engineering (MBSE) can be a key step towards advanced systems engineering. Read the whitepaper “Praxisnahe Einführung von Model-based Systems-Engineering” by fortiss which is co-authored by our founder Prof. Sebastian Voss.