Grants and Contributions
About this information
In June 2016, as part of the Open Government Action Plan, the Treasury Board of Canada Secretariat (TBS) committed to increasing the transparency and usefulness of grants and contribution data and subsequently launched the Guidelines on the Reporting of Grants and Contributions Awards, effective April 1, 2018.
The rules and principles governing government grants and contributions are outlined in the Treasury Board Policy on Transfer Payments. Transfer payments are transfers of money, goods, services or assets made from an appropriation to individuals, organizations or other levels of government, without the federal government directly receiving goods or services in return, but which may require the recipient to provide a report or other information subsequent to receiving payment. These expenditures are reported in the Public Accounts of Canada. The major types of transfer payments are grants, contributions and \'other transfer payments\'.
Included in this category, but not to be reported under proactive disclosure of awards, are (1) transfers to other levels of government such as Equalization payments as well as Canada Health and Social Transfer payments. (2) Grants and contributions reallocated or otherwise redistributed by the recipient to third parties; and (3) information that would normally be withheld under the Access to Information Act and the Privacy Act.
$15,000.00
Jul 15, 2022
For-profit organization
FR-00313
FR-00313
Develop digital adoption plan
$7,087.50
Jul 15, 2022
For-profit organization
FR-00489
FR-00489
Develop digital adoption plan
$7,627.50
Jul 15, 2022
For-profit organization
FR-00797
FR-00797
Develop digital adoption plan
$15,000.00
Jul 15, 2022
For-profit organization
FR-01343
FR-01343
Develop digital adoption plan
$15,000.00
Jul 15, 2022
For-profit organization
FR-01366
FR-01366
Develop digital adoption plan
$4,097,804.00
Jul 15, 2022
Indigenous recipients
RENEWABLE ENERGY MICROGRID FEASABILITY IN THREE NUNAVUT COMMUNITIES
CERRC-H301
The project is mostly related to decreasing greenhouse gas emissions through the demonstration of technologies to reduce fossil fuel use for heat and/or power generation in Canada's remote communities and/or remote industrial sites.
$4,097,804.00
Jul 15, 2022
Indigenous recipients
RENEWABLE ENERGY MICROGRID FEASABILITY IN THREE NUNAVUT COMMUNITIES
CERRC-H301
The project is mostly related to decreasing greenhouse gas emissions through the demonstration of technologies to reduce fossil fuel use for heat and/or power generation in Canada's remote communities and/or remote industrial sites.
$49,999.00
Jul 15, 2022
Indigenous recipients
BUILDING COMMUNITY CAPACITY NEEDS TO ADVANCE INDIGENOUS ISSUES IN MARINE SHIPPING - EQUIPMENT PROCUREMENT
TMX-MSSC-03
The objective of this Project is to advance Indigenous issues and priorities in environment, safety and/or socioeconomic imperatives, consistent with the Terms of Reference of the Indigenous Advisory and Monitoring Committee for the Trans Mountain Expansion Project.
$240,000.00
Jul 15, 2022
For-profit organization
meshMD’s automated forms and AI Engine (“SMARTmesh”)
992234
meshMD plans to build a tool to automate the building digital workflows for its clients. Currently when onboarding a new client, meshMD must take a traditional paper ‘ form’ and manually code a digital workflow out of it. SMARTmesh will use the latest technology to take an existing manual form (pdf) and automatically create a digital workflow out of it. .
$127,050.00
Jul 15, 2022
Academia
Ultrafast quantum sensing of entangled photon pairs
992335
The goal is to develop ultrafast pulse sensing methods for single photons with a measurement efficiency three orders of magnitude higher than previous experiments. This project combines work from two different labs: A high?efficiency ultrafast Kerr switch developed by the NRC group, and a Quantum?FROG technique designed to measure the amplitude and phase of an energy?time entangled state developed by the Waterloo group. The Kerr switch will replace the temporal measurement technique in Quantum-FROG to increase detection efficiency. To effectively combine the work from these two labs, theoretical and experimental milestones must be met. A propagation model that accurately accounts for dispersion and Kerr nonlinearity must be built. Two Kerr switches, one for each photon in an entangled pair, must be built and optimized for switching speed and efficiency. Lastly, the algorithm that recovers amplitude and phase of the entangled state must be modified to work with finite time resolution.