Dec 16, 2020
Last year, eight1 national infrastructure stakeholders issued a report calling for sustainable spending to replace Canada’s aging infrastructure. Called the Canadian Infrastructure Report Card 2019 (CIRC), it paints an alarming picture of core public roads and bridges in desperate need of long-term repair. How bad is it? As much as 40% of the roads and bridges across the country are in “fair, poor, or very poor condition.” Water infrastructure, like water mains, wastewater sewers, and linear stormwater assets get the same failing grade. Most of the red-flag infrastructure (60-80% depending on the category) is over 20 years old. (Construct Connect)
“Reliable infrastructure connects our communities, enables our economy and protects our environment—it supports our quality of life right across the country,” said John Gamble, president and CEO of the Association of Consulting Engineering Companies–Canada (ACEC), one of seven organizations supporting the report. “So, in light of these findings, Canadians should be concerned.”
Engineers Canada notes that climate change impacts the rate of infrastructure deterioration. For infrastructure built decades ago when the climate effects were not a priority, lifespan estimates must be reconsidered amid weather unpredictability. Severe weather events have become the norm, weakening the integrity of existing assets that no longer meet expected benchmarks. In 2020, Canada’s public infrastructure is at serious risk.
“Reliable infrastructure connects our communities, enables our economy and protects our environment—it supports our quality of life right across the country.”
—John Gamble, president and CEO of the Association of Consulting Engineering Companies–Canada (ACEC).
Repairing aging infrastructure requires rehabilitation and replacement over several decades in order to support community needs, commerce, and the environment. Roads and bridges are the key public policy items, demanding the most government attention and investment over the shortest timeline.
Real-time remote settlement monitoring provides a return on investment at many levels in several categories: Financial Officers realize the long-term value of sensor readings. Contractors and engineers look for on-site safety, planning accuracy, and productivity gains. Operations Managers and government agencies require regulatory checkmarks that come with infrastructure stability.
If policies support infrastructure repair, it is crucial that engineering calculations are validated long-term with measurable data that enables predictability and reduces risk. Real-time monitoring of construction sites adds a layer of safety for onsite crews at the time of construction and continues providing managers with accurate oversight data of how the ground is setting after infrastructure repair.
We no longer live in an age where we can’t measure what we can’t see. Geotechnical sensors enable data collection in real-time, creating analytics that save lives and inform proactive decisions that protect investments and the people who rely on them.
Investing in subgrade settlement monitoring is an investment in the overall lifetime integrity of new construction builds. Measurand designs and builds advanced geotechnical ground sensors that give engineers’ eyes underground and project managers crucial data about the structural health of construction projects. Settlement analytics draw a picture of what is going on under what we can see in order to improve public safety, reduce risk, and satisfy new compliance regulations.
Monitoring settlement under and around highways maintains traffic safety and mitigates infrastructure losses. When lateral displacement is detected where slope stability is a concern, early warnings ensure safeguards are implemented in time to mitigate risk from geohazards like landslides.
Retaining structures and embankments can be accurately monitored for vibration, vertical shifts, tilt, and convergence (tunnels), communicating minor movements via a number of transmission channels.
Measurand is recognized around the world for geotechnical monitoring equipment. ShapeArray™ is used for a wide range of monitoring projects, including dams, levees, embankment and slope stability, roadways, tunnels, bridges, infrastructure rehabilitation, pipelines, deep excavation work, and open-pit and underground mines.
Measurand’s ShapeArray is a user-friendly, flexible geotechnical instrument ready to measure deformation in soil and structures impacted by construction:
The patented, cyclical installation of the SAAV model ShapeArray is what makes it so easy to install. Ready to collect data in 75% less time than traditional in-place inclinometer systems, ShapeArray begins to capture real-time deformation data vertically, horizontally, or in an arc without on-site calibration required.
Measurand’s software tracks the medial axis in the centre of the casing in 3D to produce traditional inclinometer plots. ShapeArray™ can be installed where traditional inclinometers cannot. The cyclical installation creates a zigzag into both new and existing casings—even those that are too distorted for conventional use—which saves time and money by eliminating the need to drill new boreholes when converting from manual to automated monitoring. A spring box at the top holds the joints firmly in contact with the sides of the casing.
Advanced sensor technology is the base of ShapeArray. But as communication technologies advance, combining shape-sensing readings with the next generation of digital node-style, long-range, low-power wireless data loggers is an exciting advancement for geotechnical monitoring.
Node-style data loggers wirelessly transmit data from geotechnical sensors to data acquisition systems (DAQ). DAQs can automate the reading of samples and configured to upload data to the web via cellular modem.
DT ShapeArray by RST Instruments enables long-range radio-telemetry and stand-alone data collection of Measurand ShapeArray™ instruments at a low cost. DT ShapeArray Data Logger integrates Measurand’s patented shape-sensing technology with the RST Instruments’ robust data acquisition suite including the RSTAR Radio and DT data loggers to increase operational flexibility.
The partnership between RST Instruments and Measurand represents a clear and simple path to automated data collection without the need to engage a third-party wireless communication vendor. Measurand’s patented ShapeArray™ along with RST Instruments’ range of geotechnical monitoring sensors can be incorporated together into a wireless, or stand-alone, data collection system by using the DT ShapeArray Data Logger.
Canadians should be concerned about the rate of deterioration of aging infrastructure and the risk it poses. For synchronized, safer worksite construction settlement monitoring over the lifetime of infrastructure projects moving forward, DT ShapeArray by RST Instruments is the device of choice to wirelessly collect high-quality data, share data in real-time, and make risk-informed cost-effective decisions.
Contact us today to learn more.