flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Scan, Deconstruct, Rebuild

Scan, Deconstruct, Rebuild

How laser scanning helped improve construction schedules, plans, and final designs for a major reconstruction project.


By By Tim Gregorski, Senior Editor | September 12, 2011
During the design phase, the laser scanning technology allowed the Building Team to reduce the number of hours in the field.
This article first appeared in the September 2011 issue of BD+C.

 

SSOE Group, an international engineering, procurement, and construction management firm headquartered in Toledo, Ohio, recently completed the reconstruction of two Ford Motor Co. plants. The key to the project’s success was the use of new laser scanning technology that allowed the SSOE-led Building Team to capture untold millions of data points for integration into the 3D design model, thereby saving the client significant amounts of time and money.
Ford determined the two plants had exceeded their designed lifespans and opted to reconstruct and upgrade them rather than build new. All members of the Building Team—SSOE, laser-scanning vendor Troy Design & Manufacturing, Redford, Mich., Walbridge Construction Co., Detroit, and UK software developer Pointools Ltd.—had prior experience with laser scanning technology on smaller projects. What was daunting about these projects was the sheer size, totaling about 200,000 sf.
“Ford wanted us to work within their ‘as constructed’ environments, meaning we would be designing inside existing structures that needed to be cleared of old equipment,” says Joe Gerweck, project manager for SSOE Group.
Ford also required the Building Team to work with point cloud technology to reduce the number of construction coordination conflicts. To create the data points, the Building Team used a 3D laser scanner to capture the point clouds of existing equipment and construction in the plants.

LET THE TROUBLESHOOTING BEGIN!
Once the Building Team was defined, SSOE was tasked as the model integrator during the bid and construction phases to ensure the proper utilization of the 3D models and laser scans. This involved confirming software compatibility between subcontractors supplying 3D elements and collaborating the design intent, construction models, and laser scans.
Much to the surprise of the Building Team, there were few problems regarding software compatibility between the members of the Building Team.
“As with any new endeavor, there are always compatibility issues that need to be identified and resolved,” says Gerweck, who notes that, because point cloud technology and the supporting software are still in their infancy, there is no standard that exists between the technology vendors. “This limits the compatibility some, but it was not to the detriment of the Ford projects,” he says.
Having sidestepped the software compatibility problem, the next step for the Building Team was to scan the two manufacturing plants. This represented the most critical aspect of the job because these scanned data points would be used to compare and coordinate with new construction designs.
Traditional scanning methods and equipment were utilized for both Ford reconstruction projects. According to Neil Wakeman, SSOE Group’s BIM/CAD technical leader, stationary laser scanners on tripods were strategically mapped to encompass an area depending on the density or detail requested by the design engineers. The resulting data points were then imported into manageable files per building bay. The point clouds were then cleaned up and ultimately became the basic content used to create the reconstruction designs.
Architectural drawings utilized screen shots of the laser scans to identify elements for demolition versus elements that were to be reproduced in CAD. When using CAD, it is up to the user to interpret what they see on the screen, and identify it as a real world object such as a beam or column.
The laser scanning process, from on-site scanning to cleaning and organizing the raw scans into manageable files for the Building Team, was utilized during all phases of construction. This allowed improvements to the construction schedule, preplanning, and final design conducted by the Building Team both in the field and in the office.

LESSONS LEARNED ABOUT WORKING REMOTELY
Following the scans, the data was then integrated within the 3D modeling software, providing the Building Team with both a visual reference and actual reference to locate points in the 3D digital space. The result was the basis of the designs for updating the two Ford facilities. The entire Building Team was able to virtually see the design intent models, fabrication models, and laser scans overlaid in Navisworks for discussion before anything was assembled in the field.
Once the data points from the scans were transferred to the 3D modeling environment, the Building Team now had the capability to measure points and elevations virtually from a remote office during reconstruction. The scans from the Ford facilities were also used to coordinate the new utility layout with the existing utilities for such systems as HVAC, compressed air piping, coolant piping, domestic water piping, steam piping, electrical bus ducts, and electric cable tray. This resulted in a reduction of the number of hours the Building Team spent in the field verifying existing site conditions.
“The laser scanning technology was very effective,” says Gerweck. “During the design phase, it was much more efficient to review the laser scan results than to travel many hours to verify field conditions.”
Although having the laser scans reduced the number of overall trips to the job sites, thereby saving the client money in the long run, some site visits were still unavoidable. “It’s always beneficial for the Building Team to visit the site because there are instances where the laser scan does not fully describe the actual site condition based upon where the tripod was located for the scan,” says Gerweck.
During the laser scanning process, the Building Team learned another valuable lesson—that rescanning the buildings after the manufacturing equipment was removed proved to be much more efficient and accurate than editing the point clouds by hand to reflect the conditions prior to the new design. Wakeman says SSOE will be certain to incorporate this bit of wisdom into future scanning projects.
Perhaps the most important lesson from this case study is that, while the learning curve associated with new technology can be intimidating, once the Building Team is on same page technologically, the result can save a client significant time and money, thus benefiting everyone involved in the project. BD+C

Related Stories

| Aug 4, 2014

BIM Giants: Firms enhance BIM/VDC with advanced collaboration tools [2014 Giants 300 Report]

Cloud-based data sharing, rapid iterative design, and cross-discipline collaboration are among the emerging trends in the BIM/VDC field, according to BD+C's 2014 Giants 300 Report.

| Jul 15, 2014

A look into the history of modular construction

Modular construction is more than a century old, and throughout its lifespan, the methods have been readapted to meet specific needs of different eras.

| Jul 14, 2014

Meet the bamboo-tent hotel that can grow

Beijing-based design cooperative Penda designed a bamboo hotel that can easily expand vertically or horizontally.

| Jul 1, 2014

7 ways to cut waste in BIM implementation

Process mapping, split models, and streamlined coordination meetings are among the timesaving techniques AEC firms are employing to improve BIM/VDC workflows.

| Jun 25, 2014

AIA Foundation launches Regional Resilient Design Studio

The Studio is the first to be launched as part of the AIA Foundation’s National Resilience Program, which plans to open a total of five Regional Resilience Design Studios nationwide in collaboration with Architecture for Humanity, and Public Architecture.

| Jun 19, 2014

Singapore's 'Tree House' vertical gardens break Guinness World Record

The high-rise development will have a 24,638-sf vertical garden, breaking a Guinness World Record.

| Jun 18, 2014

Arup uses 3D printing to fabricate one-of-a-kind structural steel components

The firm's research shows that 3D printing has the potential to reduce costs, cut waste, and slash the carbon footprint of the construction sector.

| Jun 12, 2014

Austrian university develops 'inflatable' concrete dome method

Constructing a concrete dome is a costly process, but this may change soon. A team from the Vienna University of Technology has developed a method that allows concrete domes to form with the use of air and steel cables instead of expensive, timber supporting structures.

| May 29, 2014

Wood advocacy groups release 'lessons learned' report on tall wood buildings

The wood-industry advocacy group reThink Wood has released "Summary Report: Survey of International Tall Wood Buildings," with informatino from 10 mid-rise projects in Europe, Australia, and Canada. 

| May 27, 2014

Contractors survey reveals improving construction market

The construction industry is on the road to recovery, according to a new survey by Metal Construction News. Most metrics improved from the previous year’s survey, including a 19.4% increase in the average annual gross contracting sales volume. SPONSORED CONTENT

boombox1
boombox2
native1

More In Category



Engineers

Navigating battery energy storage augmentation

By implementing an augmentation plan upfront, owners can minimize potential delays and unforeseen costs when augmentation needs to occur, according to Burns & McDonnell energy storage technology manager Joshua Crawford.


3D Printing

3D-printed construction milestones take shape in Tennessee and Texas

Two notable 3D-printed projects mark milestones in the new construction technique of “printing” structures with specialized concrete. In Athens, Tennessee, Walmart hired Alquist 3D to build a 20-foot-high store expansion, one of the largest freestanding 3D-printed commercial concrete structures in the U.S. In Marfa, Texas, the world’s first 3D-printed hotel is under construction at an existing hotel and campground site.

halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021