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Home arrow Articles arrow Articles from Spatial Media Authors arrow LiDAR, BIM, and GIS Converge to Bring Business Efficiencies to Milwaukee Metropolitan Sewerage     

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LiDAR, BIM, and GIS Converge to Bring Business Efficiencies to Milwaukee Metropolitan Sewerage PDF Print E-mail
GISuser Feature Articles - Articles from Spatial Media Authors
Written by Karen Richardson   
19 November 2012

The following article by Karen Richardson, Esri, appeared in the November Edition of LiDAR Magazine titled A Technology Trifecta - LiDAR, BIM, and GIS Converge to Bring Business Efficiencies to Milwaukee Metropolitan Sewerage District 


Milwaukee is the 26th largest city in the United States, and its regional wastewater system is among the largest, most innovative, and well run in the country. In 1926, its Jones Island wastewater treatment plant (WWTP) became the first facility to produce fertilizer as the by-product of the water reclamation process; the district continues to push the envelope by producing an organic fertilizer known as Milorgranite®.

The Milwaukee Metropolitan Sewerage District (MMSD) provides wastewater services for 28 municipalities housing about one million people. The district's 411-square-mile planning area includes all cities and villages except the city of South Milwaukee. Serving these municipalities requires MMSD to develop spatial inventories and applications that meet internal and external needs for planning and design. Like any large facility, many of these efforts began organically within single departments to answer a specific need for one project.

To more readily facilitate the consolidation of facilities data information, MMSD called upon HNTB, a national, employee-owned infrastructure firm, to conduct a practical research project that pilots a data management approach for LiDAR and building information management (BIM) data. The project specifically studied the practical business applications of integrating 3D design and construction data from an aeration system rehabilitation project into MMSD's enterprise GIS environment.

Put the Money Where the ROI Is
As part of this research and development project, return on investment estimates were generated for distinct use cases, focusing on integrating LiDAR and BIM technology with GIS to greatly improve access and retrieval of as-built conditions for MMSD employees and consultants. The result of this effort was a list of 10 requirements that an application would have to meet in order to qualify as a sustainable integrated solution:
1. 3D model viewing capability
2. No (or minimal) loss of features in translation into a geodatabase
3. Ability to overlay aerial images
4. Ability to overlay other GIS layers
5. Unique ID of elements within the 3D model
6. Can select individual features within the 3D model
7. Ability to relate individual features to external data, such as the district's document management and asset management systems
8. Can symbolize the 3D model from attributes
9. Ability to relate individual features to documents
10. Querying of related data allowed

A number of different application development platforms and existing software solutions were considered for the project. Each software package was evaluated based on the criteria defined by MMSD. Esri's ArcGIS Engine was selected as the platform that met all 10 requirements. ArcGIS Engine is a collection of GIS components and developer resources that can be embedded into other applications, allowing dynamic mapping and GIS capabilities in many different environments.

An Expandable Enterprise System
MMSD was already a user of Esri technology, having adopted ArcGIS Desktop software in 2003 for department-specific solutions. In 2009, MMSD consulted with HNTB to facilitate its move into an enterprise environment using ArcGIS Server. This was a multiphase implementation that included the development of a business data model. The data model focused on existing data inventory and application user needs at the time, including improving mapping and organizational efficiencies as well as bringing added value to MMSD business operations. In 2011, MMSD completed the project, developing several applications that addressed specific areas to map data related to the district's infrastructure resources and service areas.

"Historically, information regarding water quality, water quality improvements, and physical features of water were located in separate departments at MMSD," said Jeff Siegel, GISP, associate vice president of HNTB. "Consolidation of this information took time, money, and executive sponsorship to change priorities. Now, all staff can access and output this information from their desktops without the help or sponsorship of other staff. The staff has the information needed to make better and faster decisions, which was another of our guiding objectives."

For this new study area project, among the many criteria MMSD had, data and document access was again selected as a high priority. "In this scenario, a 3D model was created and integrated into ArcGIS," said Siegel.

The objective was for users to again view and select features on their own. In this case, the 3D model would be displayed within an environment they are familiar with--the ArcGIS environment. Using this model, a user can access related data in external databases including documents relevant to the 3D model feature that has been selected.

Modern Technology Studies A Historic Facility
The study area included Jones Island wastewater treatment plant (WWTP), one of two wastewater treatment facilities within the district's service area. Jones Island is located on the shore of Lake Michigan in the city of Milwaukee. On average, the Jones Island WWTP collects and treats a maximum daily flow of 300 million gallons of wastewater; returning clean, clear water to Lake Michigan.

Opened in 1925, the facility, located on a 75-acre campus, was designated a National Historic Civil Engineering Landmark by the American Society of Civil Engineers in 1974 and is also on the National Register of Historic Places.

As part of the MMSD 2020 Facilities Plan, HNTB was tasked with developing design improvements for the Jones Island WWTP aeration system. The project will lead to a reduction of electrical energy usage through gains in aeration system blower and diffuser efficiencies, as well as enhancements to controlling air distribution to aeration basins and channels.

To gather accurate and precise as-built conditions of the aeration system, HNTB engineers decided to collect internal facility data to derive a BIM from static LiDAR point clouds. This approach quickly brought dependable existing condition information to the designers in an interactive 3D design environment.

"Because static LiDAR scanning is a direct line-of-sight method of data collection, the entire interior of a facility required enough scans for every single feature to be captured," said Siegel. "The estimated number of scans required increases based on the number of floors and the complexity of the building."

A typical static LiDAR scan takes about 10­15 minutes, so a crew of two must have the ability to scan anywhere from four to six locations--typically rooms and hallways--in just one hour. For this project, more than 100 scans were collected in one day to gather point clouds of the entire facility.

The decision to use BIM to manage the design process allowed many different disciplines to collaborate at different phases of the facility design project. BIM is defined as a process using a combination of technologies and resources to capture, manage, analyze, and display a digital representation of physical and functional characteristics of a facility.

Realistic 3D Models for Everyday Use
Integrating LiDAR and BIM data with MMSD's enterprise GIS offered many benefits to the agency. "In our opinion, this was the most well-organized way to package up and deliver all our 3D design and construction methods to our client," said Siegel.

By extending BIM and LiDAR into the ArcGIS environment, the district can benefit from the data and integration points between the technologies, realizing significant operational efficiencies. Asset and facilities management is one area where improvements to maintenance management and document management systems can happen. The ability to manage data and keep a record of work orders and maintenance activity is invaluable to managers.

"GIS technology allows users to view, understand, question, interpret, and visualize data in so many ways that were difficult before," said Siegel. "Using ArcGIS, we can provide a way for our stakeholders to use the LiDAR and BIM technology and see and manipulate a dynamic and intelligent 3D model of a project."

Another area where the district is expected to realize efficiencies is in plant and facilities operations. "There are a number of ways a 3D, geographically based representation of the facilities will help our customer," said Siegel. "From safety and training to creating documentation and just having an operational database, GIS makes it easy to manage and use the collected information and model the facility dynamically in so many ways."

Facility planning is another area where this approach can offer some real payback. From modeling proposed upgrades to capital improvements, the ease of sharing this information in an easily understandable format is a big win. "Since this is a historical landmark for the area, there are many complexities in maintaining the 3D model to the data management standards that MMSD expects," said Siegel. "Viewing a 3D model that is intelligent--meaning we can see more information about the facility picture we are displaying--makes it so much more efficient to answer questions, propose new scenarios, and move the projects along at a quicker pace."

Lessons Learned
The most critical factor preventing more robust integration between BIM and GIS is the native incompatibility of the two data formats. Defining spatial coordinates of the BIM file at the beginning of the project is important to circumvent this. "Defining the coordinates allows us and our client to accurately locate a building within a site and to give it a physical location context at larger scales that can be overlaid with aerial imagery, topographic and other layers from an enterprise geodatabase," said Siegel.

For more information on using GIS for facilities, visit esri.com/facilities.

Karen Richardson is a writer at Esri. She has a degree in geography emphasizing GIS from the University of Washington in Seattle, Washington.

A 1.026Mb PDF of this article as it appeared in the magazine—complete with images—is available by clicking HERE

Last Updated ( 21 November 2012 )
 
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