Extract-Translate-Load (ETL)ĮTL is a classic integration pattern used around the world. In this article, I’ll discuss the first four in detail and touch on Standards-based ETL and the CDE pattern briefly, leaving these for future articles. The Standards-based Common Data Environment (CDE).Extract-Load-Translate (ELT) – Seamless reuse.The basic patterns that we see can be summed up as follows: The complexity of the business need coupled with drastic continuous change in technology has meant that there has not been one data integration pattern or technique that clearly overcomes all others forever. All integration patterns have value and none of them are perfect. Patterns of data interchange between the GIS and BIM worlds have evolved over time, yet retain fundamental characteristics driven more by business process and need, rather than by technology. Situational awareness within projects or systems of assets to achieve common understanding and communication of status at any point in design, construction, or operation.Use of design and construction data in geospatial workflows for more accurate and more efficient planning, operation, performance evaluation, maintenance, and emergency response.Provisioning of design and construction teams with geospatial information for context that provides an understanding of initial conditions to help achieve reliable outcomes more efficiently and quickly.
#SMART BIM OFFICE LOCATION DRIVERS#
In these projects, the essential drivers for combining BIM and GIS data have nearly always been the same:
#SMART BIM OFFICE LOCATION SOFTWARE#
Since my early career as a software developer and now as a product manager, I have been deeply involved in efforts focused on the exchange of information between the design and construction world and the back office.
Meeting our societal needs will only happen by applying real-world context from GIS with BIM design and construction data to new processes for assessing impact and predicting outcomes. Our users and the data that they create will provide essential information and analysis about the impact and expected outcomes of all this new construction. We are seeing increasing legislative demand to enforce the use of environmental and existing asset context in design and construction projects. Most of this construction to support urbanization, human habitation requirements, transportation, and climate change mitigation will be driven by Building Information Modeling (BIM) processes.
The massive amount of global construction anticipated to happen in the next 50 years is driving nearly every country to ask how we can positively change the world efficiently and sustainably while meeting societal requirements. Our development effort and business activities such as our partnership with Autodesk are in direct response to user need, customer interest, market trends, and even legislative demand around the world. After all, the experts in BIM and CAD integration with GIS are our users and partners.
Given the high caliber of speakers and presentations that I knew we’d be seeing from teams from GHD, HNTB, and many more, this was a tall challenge. Meeting our societal needs will only happen by applying real-world context from GIS with BIM design and construction data to new processes for assessing impact and predicting outcomes.įor the Engineering Summit at the 2019 Esri International User Conference, I was asked to give a plenary talk. Summary: The massive amount of global construction anticipated to happen in the next 50 years is driving nearly every country to ask how we can positively change the world efficiently and sustainably while meeting societal requirements.