How a Team of Innovators Protected Torontoās Busiest Rail Corridor
In this story, youāll discover:
- The hidden risks beneath Torontoās Distillery District
- How a high-rise project put Canadaās busiest rail corridor at risk
- The boutique firm that kept 300,000 commuters moving safely
- How Internet of Things (IoT) and digital twin technology saved 3,000 hours and USD 1 million
A Hidden Challenge beneath a Beloved Neighborhood
Most people wandering through Torontoās Distillery District have no idea what lies beneath their feet. Between the red-brick buildings, cobblestone streets, and bustling cafĆ©s, itās easy to forget this picturesque neighborhood sits on land that was once underwater. Over the centuries, the land was reclaimed from Lake Ontario by extending the shoreline with a mix of garbage, construction debris, and industrial fill.
Torontoās Distillery District, once home to Canadaās largest 19th-century distillery, Gooderham & Worts, is now one of the cityās most vibrant cultural hubs.
But those unstable ground conditions make building in the area especially complex. So when a new luxury high-rise broke ground at 31 Parliament Street, it wasnāt just another addition to the skyline. It was a test of precision engineering, teamwork, and digital monitoring ingenuity. To add to the challenge, one of Canadaās busiest rail corridors runs just steps from the project site, moving over 300,000 commuters in and out of the city every day. Keeping those trains running safely while a deep excavation unfolded next door was non-negotiable.
A New Landmark in a Neighborhood with Deep Roots
The Distillery District has undergone a remarkable transformation over the past two decades. Once home to the Gooderham and Worts DistilleryāCanadaās largest 19th-century distilling operationāitās now one of the cityās most vibrant cultural hubs. Its cobblestone streets and preserved Victorian industrial buildings house art galleries, restaurants, boutiques, and theaters, drawing residents and visitors alike to a neighborhood where old-world charm meets modern energy.
Itās against this backdrop that No. 31 Condominiums is taking shapeāa striking 41-story luxury tower from Lanterra Developments. Designed by Arquitectonica with interiors by Studio Munge, No. 31 was deliberately created to reflect the areaās character. Its red brick faƧade and earthy tones echo the historic streetscape, while glass-wrapped upper floors add a bold, modern edge to the skyline. Inside, the building offers approximately 428 suites ranging from studios to three-bedroom residences, along with a slate of lifestyle amenities: a 50-foot indoor pool with views of the CN Tower, a fitness and yoga studio, co-working spaces, rooftop terraces, and even a pet spa.
“We designed No. 31 to reflect the romance of Europeās walking and patio districts, while capturing the cool, creative vibe of a place like SoHo in New York,ā the developers note on the projectās website. āItās a building where culture, community, and contemporary living come together.ā
A Boutique Firm with a Big Responsibility
But before any of that could become reality, crews and specialists had to contend with difficult soil conditions shaped by years of human-made fill and industrial activity, all while protecting the 6.4 kilometers of track, 14 rails, and a web of switches belonging to the neighboring Union Station Rail Corridor. Disruptions werenāt an option.
āAny shift in the ground could translate to movement in the rails,ā explained Samantha Ford, president and general manager of Monir Precision Monitoring, the boutique firm brought in to oversee the projectās critical monitoring operations. āWe had to make sure that didnāt happen.ā
āKeeping the commuter corridor open throughout the project was crucial,ā Ford added. āIt was about more than protecting infrastructure. It was about protecting peopleās daily lives.ā
Monir Precision Monitoring isnāt a multinational conglomerate. Based in Mississauga, this boutique firm specializes in geotechnical and structural monitoring for complex construction environments. But what they lack in size, they make up for in agility, innovation, and deep expertise.
āIf I had to explain my job to a 10-year-old, Iād say I come up with the cool ideas to solve tricky problems, and my team makes them happen,ā Ford laughed.
On the No. 31 project, Monir was tasked with monitoring both the excavation shoring and the adjacent rail corridor for any signs of displacement. But this wasnāt just about installing a few monitoring sensors and calling it a day. It required continuous, real-time data collectionāand the ability to interpret that data quickly enough to keep the cityās busiest rail line running safely.
Smart Monitoring for a High-Stakes Site
To meet the demands of the site, Monir deployed a comprehensive monitoring system that combined traditional instrumentation with advanced digital tools. The setup included:
- In-place inclinometers (IPIs) to measure lateral ground movement
- Automated total stations (ATS) to track precise shifts in excavation walls and nearby structures
- Vibrating wire piezometers to monitor groundwater pressure
- Rail monitoring prisms installed directly on the tracks to detect vertical or lateral movement
All of this data was streamed into Bentleyās iTwin IoT software, where it was integrated into a live digital twin of the site. But iTwin IoT did more than just consolidate the dataāit turned the data into actionable insights. Real-time alerts notified engineers the moment readings crossed predefined thresholds, while custom dashboards gave project managers an at-a-glance summary of site health.
The platform allowed Monir to set trigger levels specific to each instrument and customize notifications based on severity, location, or stakeholder. This meant the right people received the right information at the right timeāenabling faster, more informed decision-making in a highly dynamic environment.
Beyond data collection and alerting, the digital twin also became a powerful communication toolābringing together diverse teams around a single, real-time view of the site.
Bridging Communication Gaps with Digital Twins
Urban construction projects often bring together a wide range of stakeholdersāfrom engineers and project managers to city officials and transit authorities. Miscommunication or delays in sharing information can quickly lead to costly or dangerous outcomes.
Monirās use of a visualized digital twin created a single, accessible source of truth. Stakeholders could toggle between live sensor readings, drone imagery, and construction models to better understand how the excavation was affecting surrounding infrastructure. Ford said that, before adopting this approach, it felt like ātrying to monitor a site through binoculars from a distance.ā With the digital twin, āeveryoneās looking at the same thing,ā which simplified complexity and made it easier to see what was happening underground in real time.
āIt brought real life to the project,ā Ford reflected. āSuddenly, it wasnāt just numbers on a spreadsheetāit was something people could see and act on together.ā
Delivering Results: Keeping Trainsāand the CityāMoving
Monir Precision Monitoringās innovative approach didnāt just safeguard the Union Station Rail Corridor during construction ā it delivered measurable, lasting benefits. By integrating Bentleyās iTwin IoT platform into their monitoring strategy, Monir achieved a 40% increase in operational efficiency, saved more than 3,000 hours in on-site assessments, and helped shave six months off the overall project timeline.
These efficiencies translated into substantial cost savings, with the project reportedly saving around USD 1 million. More importantly, continuous, real-time monitoring ensured the critical rail infrastructure remained stable and operational throughout excavation, maintaining uninterrupted service for over 300,000 daily commuters.
āThe Bentley software and services deployed on this project gave us peace of mind in the results, speed of delivery, and reliability of critical monitoring information for early detection of any issues that may arise,ā said Ford.
For Ford and her team, safety was personal. āA lot of our workers have friends and family at home who want them to come back safe,ā she said. āAnd hundreds of thousands of commuters rely on those trains every day. Keeping both groups protected was a top priority for us.ā
A Model for Smarter, Safer Cities
The success at 31 Parliament Street is more than a single project wināitās proof of whatās possible when advanced digital tools, real-time data, and committed teams come together. For Ford, itās a glimpse into the future of urban infrastructure management.
āWeād love to see entire cities running on digital twins someday,ā she said. āItās not just about individual projects. Itās about protecting communities, improving operations, and making smarter decisions for the places we live and work.ā
In fast-growing cities like Toronto, where history meets progress on every corner, projects like this demonstrate that even the most complex challenges can be overcomeāwith the right technology, the right strategy, and the right people.
Want to dive deeper into the technology behind this project?
Read the full case study to explore how iTwin IoT helped Monir Precision Monitoring deliver continuous, real-time insights and safeguard one of Canadaās busiest rail corridors.
Learn more about iTwin IoT and how it can help take your infrastructure monitoring to the next level.
