A new computational model developed by researchers at MIT takes ambient vibrations and analyzes them to pick out features in the noise to give indications of a building’s stability, MIT News reports. The feedback can then be used to monitor the building for damage or mechanical stress. Think of it as getting your blood pressure or cholesterol checked regularly to find warning signs of future problems before they become too dire.
The model is being tested on the tallest building on the MIT campus, the 21-story Green Building, a research building made of reinforced concrete. The researchers attached 36 accelerometers to selected floors from the building’s foundation to its roof to record vibrations.
But in order for these recordings to actually serve a purpose, the team needed to figure out how to take the data and link it to the health characteristics of the building, according to Oral Buyukozturk, a professor in MIT’s Department of Civil and Environmental Engineering.
Their solution was to create a computer simulation of the Green Building as a finite element model. MIT News describes this type of model as “a numerical simulation that represents a large physical structure, and all its underlying physics, as a collection of smaller, simpler subdivisions.” The researchers then added parameters to the model, such as the strength and density of concrete walls, slabs, beams, and stairs in each floor.
With all of this done, the researchers are able to then add something like the vibration caused by a passing truck to the simulation in order to see how the model predicts the building and its elements would respond. To make the model as accurate as possible, data from the Green Building's accelerometers was mined and analyzed for key features relating to the building’s stiffness and other indicators of health.
The more data that is added over time, the more intelligent the system becomes. The researchers say they are confident that any real life damage in the building will show up in the system.
This type of model will be especially useful to immediately see, after an event such as an earthquake, if and where there is damage to the building.
The researchers’ vision is for a system such as this to be outfitted on all tall buildings, making them intelligent enough to monitor their own health and provide increased resiliency.
Related Stories
AEC Tech Innovation | Jan 24, 2023
ConTech investment weathered last year’s shaky economy
Investment in construction technology (ConTech) hit $5.38 billion last year (less than a 1% falloff compared to 2021) from 228 deals, according to CEMEX Ventures’ estimates. The firm announced its top 50 construction technology startups of 2023.
Concrete | Jan 24, 2023
Researchers investigate ancient Roman concrete to make durable, lower carbon mortar
Researchers have turned to an ancient Roman concrete recipe to develop more durable concrete that lasts for centuries and can potentially reduce the carbon impact of the built environment.
AEC Tech | Jan 19, 2023
Data-informed design, with Josh Fritz of LEO A DALY
Joshua Fritz, Leo A Daly's first Data Scientist, discusses how information analysis can improve building project outcomes.
AEC Tech Innovation | Jan 14, 2023
CES recognizes a Dutch firm’s wearable technology for construction management
The firm’s TokenMe product offers construction managers a real-time crowd- and asset-tracking solution via low-power, location-aware radio and RFID tags and multiple sensors through which data are processed with cloud-based artificial intelligence.
Sustainability | Jan 9, 2023
Innovative solutions emerge to address New York’s new greenhouse gas law
New York City’s Local Law 97, an ambitious climate plan that includes fines for owners of large buildings that don’t significantly reduce carbon emissions, has spawned innovations to address the law’s provisions.
Sponsored | Resiliency | Dec 14, 2022
Flood protection: What building owners need to know to protect their properties
This course from Walter P Moore examines numerous flood protection approaches and building owner needs before delving into the flood protection process. Determining the flood resilience of a property can provide a good understanding of risk associated costs.
Mass Timber | Dec 1, 2022
Cross laminated timber market forecast to more than triple by end of decade
Cross laminated timber (CLT) is gaining acceptance as an eco-friendly building material, a trend that will propel its growth through the end of the 2020s. The CLT market is projected to more than triple from $1.11 billion in 2021 to $3.72 billion by 2030, according to a report from Polaris Market Research.
75 Top Building Products | Nov 30, 2022
75 top building products for 2022
Each year, the Building Design+Construction editorial team evaluates the vast universe of new and updated products, materials, and systems for the U.S. building design and construction market. The best-of-the-best products make up our annual 75 Top Products report.
K-12 Schools | Nov 30, 2022
School districts are prioritizing federal funds for air filtration, HVAC upgrades
U.S. school districts are widely planning to use funds from last year’s American Rescue Plan (ARP) to upgrade or improve air filtration and heating/cooling systems, according to a report from the Center for Green Schools at the U.S. Green Building Council. The report, “School Facilities Funding in the Pandemic,” says air filtration and HVAC upgrades are the top facility improvement choice for the 5,004 school districts included in the analysis.
Wood | Nov 16, 2022
5 steps to using mass timber in multifamily housing
A design-assist approach can provide the most effective delivery method for multifamily housing projects using mass timber as the primary building element.
