Category: Community

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Community Construction General Intersections Rapidways Traffic signals Uncategorized

navigating the complex world of traffic signals during rapidway construction

rapidway traffic signals in front of vivastation

As you can imagine, we think about traffic signals quite a lot here at vivaNext. They’re a part of everyday life and are essential to get from point A to point B for all users, including transit customers, pedestrians, cyclists and motorists. The stages of rapidway construction have their own traffic signal stages: temporary and permanent.

When construction begins on any of the vivaNext rapidway projects – such as the vivaNext Yonge Street rapidway project in Richmond Hill – traffic patterns and intersections shift to accommodate the new rapidway lanes. Therefore, temporary traffic signals are installed at signalized intersections. Here are some of the changes you’ll notice:

  • Vehicle detection technology – “loops”: Prior to rapidway construction and on completed projects, vehicle detection at signalized intersections is done with induction loops embedded in the road that sense vehicles above them. The loops detect vehicles, resulting in a change in the electrical field. This change is transmitted to activate the traffic signals based on the number of cars waiting.
  • Temp signals and sensors: During construction, however, temporary (“temp”) traffic signals are installed without loops. Since construction activities can damage them, and changing lane configurations can position cars outside of the loops, they can’t be used. So to keep traffic flowing at its best during construction, “Wavetronics Smart Sensor Matrix” technology is installed above the roadway at signalized intersections. This system uses radar sensors designed to detect and manage multiple lanes of traffic. It creates an image which allows the sensors to track the position of each car at the intersection, and activate traffic signals based on the number of cars at any given time. Sometimes, during times of high winds, the sensors can shift – and you may experience longer wait times at these intersections until crews can readjust the sensors.
  • New loops are installed during final paving: During the final paving stage of construction – before the permanent traffic signals are activated on each of the rapidway projects – new induction loops are embedded in the roadway.
  • Signal phases and protected left-turns: Each of the signals that an intersection produces [green, amber and red lights as well as transit signals] are called a phase. One of the new phases that the rapidway project introduced along Yonge is the protected left-turn signal [indicated by the green arrow]. This signal allows drivers to make left-turns and U-turns only while the left-turn signal is displayed, which allows for access to properties that are on the opposite side of the road. This phase also allows for improved traffic flow and fewer collisions, as vehicles no longer have to cross multiple lanes of opposing traffic.
  • Signal cycles: Signal phases together make up a cycle – the total time between the start of a specific display until that display comes up again. Additional time has been added to traffic signal cycles on Yonge, in order to accommodate the phase of a protected left-turn. For instance, if a cycle length at an intersection was previously 130 seconds before construction, it may now be 140 seconds to accommodate for the protected left-turns.
  • Transit signals: When the rapidway opens for service, buses will be traveling down the centre rapidway lanes for a faster and more convenient transit experience. They will have their own bus signals at each intersection that are connected to a GPS within each bus, and work in conjunction with the regular traffic signals.

have a question?

To ensure transit, pedestrians, cyclists and motorists move through intersections safely and efficiently during rapidway construction, the constructor regularly reviews traffic signal timing and makes any necessary adjustments.  If there appears to be traffic signal timing issues, please contact your Community Liaisons and they would be happy to look into your concern.

Categories
Community Construction Design Going Green Rapidways Safety Stations Transit

behind the scenes >> building a vivastation

Blog post by: Elizabeth Kim

Despite wavering weather from Mother Nature, crews have been busy with a number of work activities across each of our construction projects in Richmond Hill, Newmarket and Vaughan.

If you’ve been out driving or walking along these projects, you may feel that construction can sometimes be messy, chaotic, and never-ending. Although all this work may appear identical, there are actually a number of construction activities underway, many of which require specialized crews. But, before work starts on each of rapid transit projects, there’s careful planning that goes on behind the scenes.

vivastations

There are many steps in building each of the iconic vivastations across our projects, all which are carefully planned to ensure work can get completed efficiently, while ensuring everyone – pedestrians, motorists and construction workers – remain safe. When complete, transit users will be able to enjoy new technology and innovative features that each vivastation offers.

Building a vivastation is sort of like putting together the pieces to a puzzle. Each step carefully lays the foundation for the vivastation, prioritizing consistency, quality, and safety.

As the year progresses and work on our vivastations begins to unfold, keep your eyes out for each of the following steps that go into building a vivastation!

1. Excavation, caisson drilling, and finishing

After the existing asphalt and road base is removed in preparation for construction, circular caissons are drilled 8 to 10 meters (26 to 32 feet) into the ground. Caissons are reinforced concrete columns placed below ground that act as the foundation for platforms. First, a large drill is used to create a deep hole for the column. Next, a steel rebar cage is placed in the drilled hole. Finally the hole is filled in with concrete.

2. Platforms, barrier walls are formed, poured, and cured

Once the caissons are installed, the concrete station platform and barrier walls will start to take shape. A concrete slab reinforced with steel is built on top of caissons to serve as the platform for vivastations. Concrete for the barrier walls are then formed, which provide delineation between the vivastation and live traffic, making them a key safety feature of every vivastation.

Prior to the installation of the barrier walls, electrical conduits are placed within the steel rebar cage.  Plywood forms are used as a mold for the walls and are placed around the rebar. Concrete is poured into the forms to create the barrier walls. Once the concrete is hardened, the forms are removed and the barrier walls are smoothed out to remove any surface imperfections.

3. Steel erection

A steel skeleton – prefabricated offsite and transported by trucks – is then erected on the concrete barrier walls. Prior to delivery to the site, the steel canopy is painted with a resin coating, in a champagne bronze colour.

These structures are raised into place by a large crane with careful maneuvering and precision. Lanes are often reduced around the vivastation during this procedure to ensure pedestrians, motorists and crews remain safe.

4. Glass installation

Each of our vivastations use tempered glass, which contains properties that strengthen the glass, ultimately creating a safe and durable structure that covers the exterior of the vivastation.

The glass is pre-cut and tinted prior to delivery to the site. Construction crews then carefully place the glass onto the canopy, creating our beautiful, signature blue vivastations.

5. Tile work on platform

Tile work is then done on the platforms, including tactile tile work at every vivastation. These tactile tiles are either cast iron or porcelain plates – depending on the construction project – that act as a textured ground surface indicator. These tiles are able to assist pedestrians and passengers who are visually impaired effectively navigate the surrounding environment.

Similar to our bus stops, we install directional tiles at every vivastation platform. Directional tiles are brown, textured tiles that help to assist visually impaired pedestrians and passengers in determining accurate direction of travel.

6. Electrical and IT systems

The installation of electrical and IT (Intelligent Transportation) systems are spread out throughout the whole construction process. However, most of this work happens close to when the vivastations will be completed. Security and PA systems, emergency call boxes (ECB), lights, and motion-activated heaters within the enclosed waiting area are installed, along with PRESTO/VIVA fare vending machines.

7. Fixture installation

Fixtures common to every vivastation are installed. These include, but are not limited to, garbage and recycling bins, handrails, doors, signs, and benches, signaling that the rapidway will soon be open for service.

building transit for the future

It takes time to build transit that will have a lasting impact on generations to come. Our construction projects are about more than just dedicated lanes for bus rapid transit – they’re about connecting people and places, and providing complete streets for the entire community to benefit from. Complete streets provide economic, environmental and social benefits that lead to an overall improvement in quality of life.

Transit riders, residents and businesses are best served when transit works as an integrated system. It’s crucial for transit services to work together as a well-planned network, connecting different modes of transportation and destinations. And we’re proud that our vivastations play an integral role in connecting the community in a faster, more efficient way.

STAYING INFORMED

Make sure to connect with us on social media to receive regular construction updates and stay in touch! The best way to stay informed about our construction projects is to sign-up for email notifications at vivanext.com/subscribe, and to follow us on our social media platforms.

Categories
Community Community Events History Uncategorized

revitalizing the historic Quaker Meeting House and Cemetery fence in Newmarket

Over the last few years, the fence at the historic Quaker* Meeting House and Cemetery – located at 17000 Yonge Street in Newmarket — had deteriorated and it was due for a makeover. A staple in the community, we wanted to restore the fence back to its original form to continue to honour those buried in the preserved Quaker cemetery.

So, on Saturday October 20, more than 40 volunteers from vivaNext, RapidLINK – a consortium composed of Aecon Construction and Dufferin Construction Company – and the Quaker Meeting came together to scrape, sand, prime and paint this fence. An incredible community initiative, it was truly a sight to see – cars driving by even honked to show their support.

It was a beautifully sunny fall day marked by a few sun showers, but the rain didn’t dampen the spirits of our many volunteers! All hands were on deck to restore this fence – which surrounds a cemetery containing more than 200 years of history – in record time.

This fence is now completely rejuvenated thanks to the efforts of this group and we can mark this date and add it to the interesting history of this place that dates back to the 1800s.

The historic Quaker Meeting House and Yonge Street Friends Burial Ground in Newmarket was bought, established and built by Quakers Timothy Rogers, Asa Rogers and William Doan from 1807-1810. The burial ground occupants include many of the earliest Quakers from 1807 onward. The Quaker Meeting House is the first permanent place of worship in Newmarket and around 30 other Quakers like Barbara Horwath still gather there on Sundays and Wednesdays for worship.

“We are so thankful to all the people who came out to paint this old fence. It means so much to us and our community,” said Quaker Volunteer Barbara. “This Quaker Meeting House in Newmarket gives us an opportunity to meet other Quakers who support our beliefs and to be part of a community who shares similar interests including giving back to others.”

We were honoured to contribute to the community, and look forward to making a difference in many ways.

*Quakers (also known as the Religious Society of Friends) believe that a human being can have a direct communion with God without the presence of a minister, an institution or a holy book. Quakers got their name from Judge Gervase Bennet because they “trembled” or “quaked” when they felt the spirit of God within them.