Last year, Clark Construction started deploying Turnover Vision, an interactive punch list management application developed by the firm’s Research & Development Group, which combines punch list and scheduling data to optimize a project’s work plan.
Turnover Vision analyzes big data from a project’s punch list and organizes them into interactive heat maps and graphs. Using simplified architectural floor plans as the common communications platform, the dashboard provides a breakdown of real-time punch list status and turnover productivity rates.
The algorithm driving Turnover Vision’s dashboard “also allows us to anticipate productivity in the punch list phase,” says David Barritt-Flatt, director of research and development for Clark Construction in Bethesda, Md. The goal of this tool, he explains, is to reduce project closeout timelines and to improve the client experience through increased trust and transparency.
Prior to the implementation of Turnover Vision, which Clark piloted in 2016, the firm’s project teams were spending more than 15 hours each week documenting punch list items, manually updating PDF versions of turnover maps, and meeting with clients to discuss turnover rates.
Barritt-Flatt elaborates that deploying this dashboard not only eliminates a lot of administrative labor, but also “gives our subcontractors better direction” to identify and solve problems quicker. Equally important, the dashboard frees Clark’s engineers to focus on their primary responsibilities because they are spending a lot less time doing paperwork.
“One of our vice presidents, a construction leader, said that Turnover Vision was like adding a half- to a full-time employee to the project,” says Barritt-Flatt. He adds that clients now want Clark to adapt the app to go beyond producing punch list reports, so the contractor is now investigating Turnover Vision’s possible application for jobsite safety.
“We view this as part of our evolution to digitize our construction management approach,” he says.
Turnover Vision uses simplified architectural floor plans as its common communications platform. Image: Clark Construction
In the November 2017 edition of its company magazine Superstructure, Clark Construction singled out R&D Group team member Ryan Nam as the driving force behind Turnover Vision. While working on a multifamily residential project, Nam came up with the idea of an interactive dashboard to leverage Clark’s practices by merging big data with visual analytics.
Turnover Vision debuted last year at the recently completed Central Place residential tower in Arlington, Va., and was expanded to Clark’s residential and mixed-use projects across the country.
Clark started with residential and hospitality projects because they typically have a lot of room design iteration. But with tweaks, the firm is now using Turnover Vision on nearly all of its projects, including museums—one of Clark Construction’s specialties.
Related Stories
Sponsored | Steel Buildings | Nov 7, 2022
Steel structures offer faster path to climate benefits
Faster delivery of buildings isn’t always associated with sustainability benefits or long-term value, but things are changing. An instructive case is in the development of steel structures that not only allow speedier erection times, but also can reduce embodied carbon and create durable, highly resilient building approaches.
Mass Timber | Aug 30, 2022
Mass timber construction in 2022: From fringe to mainstream
Two Timberlab executives discuss the market for mass timber construction and their company's marketing and manufacturing strategies. Sam Dicke, Business Development Manager, and Erica Spiritos, Director of Preconstruction, Timberlab, speak with BD+C's John Caulfield.
Green | Jul 26, 2022
Climate tech startup BlocPower looks to electrify, decarbonize the nation's buildings
The New York-based climate technology company electrifies and decarbonizes buildings—more than 1,200 of them so far.
Building Technology | Jun 9, 2022
GSA Green Proving Ground program selects six innovative building technologies for evaluation
The U.S. General Services Administration’s (GSA) Green Proving Ground program, in collaboration with the U.S. Department of Energy, has selected six innovative building technologies for evaluation in GSA’s inventory.
Smart Buildings | Jun 1, 2022
Taking full advantage of smart building technology
Drew Deatherage of Crux Solutions discusses where owners and AEC firms could do better at optimizing smart technology in building design and operations.
Sponsored | BD+C University Course | May 10, 2022
Design guide for parapets: Safety, continuity, and the building code
This course covers design considerations for parapets. The modern parapet must provide fire protection, serve as a fall-protective guard, transition and protect the roof/facade interface, conceal rooftop equipment, and contribute to the aesthetic character of the building.
Sponsored | BD+C University Course | May 10, 2022
Designing smarter places of learning
This course explains the how structural steel building systems are suited to construction of education facilities.
Concrete Technology | Apr 19, 2022
SGH’s Applied Science & Research Center achieves ISO 17025 accreditation for concrete testing procedures
Simpson Gumpertz & Heger’s (SGH) Applied Science & Research Center recently received ISO/IEC17025 accreditation from the American Association for Laboratory Accreditation (A2LA) for several concrete testing methods.
Sponsored | BD+C University Course | Apr 19, 2022
Multi-story building systems and selection criteria
This course outlines the attributes, functions, benefits, limits, and acoustic qualities of composite deck slabs. It reviews the three primary types of composite systems that represent the full range of long-span composite floor systems and examines the criteria for their selection, design, and engineering.
Wood | Apr 13, 2022
Mass timber: Multifamily’s next big building system
Mass timber construction experts offer advice on how to use prefabricated wood systems to help you reach for the heights with your next apartment or condominium project.