新加坡六合彩开奖直播

 

新加坡六合彩开奖直播鈥檚 ocean鈥慻oing robots 鈥榞lide鈥 into new waterfront workspace at COVE

- January 27, 2021

Dal's Coastal Environmental Observation Technology and Research group now works out of a 1,880 square-foot workshop on the ground floor of the COVE south building. (Provided photo)
Dal's Coastal Environmental Observation Technology and Research group now works out of a 1,880 square-foot workshop on the ground floor of the COVE south building. (Provided photo)

They鈥檝e travelled more than 82,000 kilometres on over 100 missions, but the most notable expedition in 2020 for 新加坡六合彩开奖直播鈥檚 glider group was a trip over a Halifax harbour bridge to their brand new space at the (COVE) on the Dartmouth waterfront.

The group (CEOTR-pronounced 鈥榮ea otter鈥) at 新加坡六合彩开奖直播 is a small but mighty crew of highly qualified technical personnel with expertise in glider operations, instrument support, field logistics, and data management.

With funding from the (OTN), the (OFI), the (MEOPAR), and contributions from (DFO), the group maintains Canada鈥檚 largest operational fleet of gliders for oceanographic monitoring efforts, and to collect data for researchers studying ocean habitats and marine animal movements.

Until recently, gliders were housed in three different spaces: two at 新加坡六合彩开奖直播 and one at the .

鈥淗aving this COVE space is a large advancement. Before, working in three separate spaces created logistical challenges as we would often need to locate a particular piece of equipment鈥, says Richard Davis (shown right), manager of the Research Implementation Unit at OFI. 鈥淣ow, having our office and workspace under one roof will increase the ability of the glider group to operate more efficiently.鈥

Location, location, location


Moving the glider group together under one roof took a number of coordinating activities. The bulk of the funding for the renovations of the 新加坡六合彩开奖直播 space at COVE came from the under the Development of Autonomous Marine Observation Systems (DAMOS) project with matching funding from , but both OFI and OTN provided significant support to the effort.

鈥淭his is a great location that allows close ties with academia, private industry and the government agencies that now reside at COVE,鈥 says Davis, who oversees the CEOTR team.

The 1880-square foot workshop on the ground floor of the COVE south building 鈥 which took three months to complete and is shared with the Nova Scotia Community College 鈥 is accompanied by 600 square feet of office space on the second level, a mezzanine for extra storage space and the largest industrial hoist at COVE with a 2000 kg capacity. A second, smaller hoist lifts gliders in and out of the 3m ballast tank 鈥 a big improvement over the engine hoist used in the former space. Both the hoist and the ballast tank are available to other tenants at COVE to aid in their research and development activities.

The best feature of all? It鈥檚 mere metres from the harbourfront with a fantastic view of the Halifax skyline.

鈥淲e have a 7-metre ribbed zodiac that we use to deploy and recover gliders in local waters up to 25 nautical miles off shore. While convenient there are times when we need to hire larger boats, both fishing and commercial, to safely perform our work.鈥

The benefits of glider technology


CEOTR uses two types of gliders: the Slocum glider, a buoyancy driven torpedo-shaped robot that聽 changes its density so that it either sinks or rises through the water column in a see-saw fashion. It can stay at sea for up to four months, collecting data on ocean ecosystems and sending it back to shore via satellite.

鈥淲e put a lot of different sensors on the Slocum glider, depending on who the client is and what the mission is,鈥 says Davis. 鈥淲e鈥檝e spent a lot of time lately flying these gliders in the Gulf of St. Lawrence with hydrophones on them, listening for baleen whales, particularly the endangered North Atlantic right whale. When the glider surfaces it reports back whether it heard a whale or not. That information is sent to both the Department of Fisheries and Oceans and Transport Canada to be used in measures designed to reduce the number of whale deaths from fishing gear entanglement and ship strikes.鈥


The second type of glider deployed is called a Wave Glider, which resembles a yellow surfboard covered with solar panels, stays on the surface, and harvests聽 wave energy for propulsion. It collects information on weather and sea-surface conditions, though its primary purpose is to offload data from bottom-moored tracking stations through a subsurface acoustic modem and to listen for acoustically tagged animals swimming through the ocean.

Gliders operate at little cost compared to conducting ocean sampling by ships. They also reduce risk for field personnel who can remotely operate the gliders from their land-based offices, and are a safe and energy-efficient tool for collecting data in the ocean.

COVE as catalyst


鈥淐OVE is a unique space, bringing together established and start-up ocean technology companies with academic partners and excellent facilities,'' said Fred Whoriskey (shown left),聽OTN's executive director. 鈥淕reat synergies that are good for science and good for the Nova Scotia economy will result. We all owe a debt of gratitude to Jim Hanlon who worked tirelessly to make COVE happen.鈥

Despite the disruptions resulting from COVID-19, CEOTR has continued preparing the fleet to support essential training and research, and for deployment in the Gulf of St. Lawrence to assist researchers and regulatory bodies with protecting endangered North Atlantic right whales from ongoing shipping and fishing activities. The Wave Glider is also being used to service the Halifax acoustic receiver Line 鈥 OTN鈥檚 largest listening array for acoustically tagged animals 鈥 to ensure the animal tracking infrastructure is operational and to retrieve critical data.

With a new workspace, a breadth of expertise and tools, and a fleet of ocean-going robots, CEOTR is ready to 鈥榞lide鈥 into action if an essential service or emergency response is required and will continue supporting research initiatives in Atlantic Canada for many missions and kilometres to come.