Plaxis 3d Foundation 2.2 Cracked: What You Need to Know About the Features and Capabilities

Workflows for ensuring utility GIS quality are fundamentally broken and have been for decades. Integrating CAD and GIS into an efficient workflow has been a challenge and it has simply not been a priority in the utility industry and in some parts of the communications sector to ensure real-time, high quality asset GIS data. Recently business drivers for high quality GIS data such as implementing a smart grid, estimating service availability and other applications have made GIS quality a top priority. And now non-traditional geospatial companies are offering geospatial-based technologies that are revolutionizing the capture and maintenance of GIS information about utility and communications assets that can provide a foundation for the real-time network digital twin that is essential in the era of the smart grid and our increasing dependence on communications and utility networks.

Plaxis 3d Foundation 2.2 Cracked --

For electric power utilities a powerful business driver that has emerged in the last few years is the smart grid. Digitalizing the grid has made the role of geospatial data and technology strategic for utilities. As a Navigant Research report stated the smart grid is all about situation awareness and effective anticipation of and response to events that might disrupt the performance of the power grid. Since spatial data underlies everything an electric utility does, GIS is the only foundational view that can potentially link every operational activity of an electric utility including design and construction, asset management, workforce management, and outage management as well as supervisory control and data acquisition (SCADA), distribution management systems (DMSs), renewables, and strategy planning. As John Simmins of EPRI has reiterated on a number of occasions a prerequisite to implementing a smart grid is cleaning up GIS data and developing business processes (feedback processes) to ensure that it remains accurate and up-to-date.

The key to ensuring that the data is high quality and up-to-date is empowering field workers to make updates at the source as the work happens and to automate the data maintenance workflow as much as possible. This approach can eliminate backlogs in field updates, encourage field staff to take responsibility for ensuring the quality of the utility GIS and enable an effective feedback loop that improves GIS data quality over time. With the promise of near real-time updates directly from the field this approach provides a key foundation for the digital twin of the grid that integrates sensors reporting in real-time with simulation and analytics that makes it possible to create a accurate real-time situation assessment and to model the electrical state of the grid and possible future states based on reported or forecast outages and planned expansions and other changes to the electric network.

Geolocation plays a key role in integrating GIS and engineering data and applications for optimizing asset management workflows. One of the reasons for the success of iForte's system is that Bentley decided many years ago to geospatially-enable all of their products including Microstation. Bentley calls this capability geocoordination. It provides a location-aware foundation which facilitates workflows that require integrated engineering and geospatial data and applications. 2ff7e9595c