New approaches for model-based System Engineering
Transitioning system engineering to a model-based
With the advent of time, systems are getting more complex. It ranges from autonomous vehicles to smart energy grids to the Internet of Things, and System Engineering must keep pace.
Creating and testing physical prototypes is too expensive and time-consuming in different cases. Systems must rely on digital models until the final stages of development. But this raises a new challenge for the students of B Tech Colleges in Jaipur. Like so many digital models in use, how do the systems developers keep them consistent and use them together effectively?
The requirements for a new class of digital frameworks for Model-Based System Engineering (MBSE) are becoming clear. Below given are some examples.
MBSE supports a single, digital model of the system, the Total System Model (TSM)
Model-based system engineering replaces document-based systems engineering, where communications between engineers of Top Engineering Colleges and models in different disciplines are by emails, slides or spreadsheets.
Federation, not centralization, is the most practical strategy for building the TSM
Few organizations want to replace all their existing software tools for requirements, architecture, design, and analysis and project management. In other words, they will try to centralize all system data into a single database.
Federation calls for most of the system data and engineering efforts of the students of Engineering Colleges in Jaipur to remain invested in existing tools, but an MBSE Platform connects them. No single tool is indispensable or the hub for all connections.
The MBSE platform will be an enterprise application
Systems engineering is not just for systems engineers anymore. The functionality to create, use, query and visualize the connections between model elements in different tools should reside in the cloud or an on-premises server.
It should also be available to all the members of the project team of Top 10 Engineering Colleges, through a variety of portals. It includes computers, tablets, and even smartphones. Also, it must be scalable, with rapid response times, to the largest projects with millions of elements.
The MBSE platform supports the full system lifecycle
The platform must support the entire system lifecycle, creating a digital thread from design to manufacturing to operations.
Connecting design data to manufacturing, quality, logistics and field deployment data provides traceability and better diagnostics. It also requires that the TSM be configuration-managed, just as many of the individual domain models are.
The MBSE platform must be methodology-independent
The platform should not enforce a specific workflow, so it should support multiple use cases of the students of Best Engineering Colleges. These include connections that link different elements in different tools and model transformations that share information across domain boundaries. It also implies the ability to program the platform through user-written apps and scripts to support any particular organization’s engineering processes.
Post a Comment