Intercax is always excited to work with organizations new to Digital Engineering. One such organization (whose identity we are not permitted to share) faced a challenge modernizing a workflow originally designed to build wooden toy trains to the production of modern video games. They wished to apply Digital Engineering to the integrated and concurrent development
The last of the demo videos about using the Syndeia Web Dashboard Generic RESTful API capability uses Vitech GENESYS as an example of dynamic token authentication. Part 5 references the video Demo 29.6 – Integrating RESTful Repositories using Dynamic Token (OAuth) – GENESYS. This work comes from an ongoing collaboration with Zuken Vitech, creators of
Syndeia’s Generic RESTful API interface provides a powerful tool for adding new model repositories to a digital thread without customized coding by the vendor. With this post, we continue reviewing the RESTful API demo videos organized around each of five methods authenticating access to an external RESTful API-based repository: no authentication required, basic authentication and
Syndeia’s Generic RESTful API interface provides a powerful tool for adding new model repositories to a digital thread without customized coding by the vendor. With this post, we continue reviewing the RESTful API demo videos organized around each of five methods authenticating access to an external RESTful API-based repository: no authentication required, basic authentication, and
The current blog series reviewing the RESTful API demo videos is organized around each of five methods authenticating access to an external RESTful API-based repository: no authentication required, basic authentication, and bearer, API key, and dynamic token-based authentication. It also provides an opportunity to show the ways in which five different RESTful repositories can be
The previous four sections of this blog series have dealt with the characteristics of the digital thread itself and the modeling process. Verification deals with characteristics of the real system that the digital thread models, primarily its performance against requirements. Assuming the results of physical testing, simulation, and analysis are captured within the digital thread,
The digital thread is dynamic. Many of the federated data repositories are configuration-managed, and it is critical for the inter-model connections to be version-sensitive. Consistency of a digital thread implies that the version of a connected data element is the same now as when the connections to it were created or most recently updated. If
The ultimate objective of this activity is Completion, the extent to which all desired characteristics of the digital thread have been realized. As a metric, Completion is strongly correlated with project Schedule, but it is also an indicator of project Risk. Completed segments of the digital thread represent a reduced technical risk of unexpected problems
While Complexity may be a confusing concept, Activity has clearer correlations with cost and schedule. In this post, I will illustrate some of the ways in which systems engineering activity can be calculated and displayed using Syndeia to query the digital thread for our UGV02 project. Figure 1 displays the number of inter-model relations created
While this blog series focuses on the general concept of critical metrics for digital threads, we will illustrate these with actual examples. Commercial and open-source tools are available now to put these ideas into practice. For our example, we need a set of Data Sources, a Data Consumer to calculate and display the critical metrics,