Innovative Projects Realized

Explore thousands of successful projects resulting from collaboration between organizations and post-secondary talent.

29670 Completed Projects

2811
AB
4990
BC
801
MB
663
NL
825
SK
8841
ON
9197
QC
95
PE
568
NB
1088
NS

Projects by Category

Climate change issues and solutions for the Greater Montreal area

Human-induced warming of the planet amounts to ~1C since pre-industrial times, with a warming signal that increases with latitudes. This warming is accompanied with higher incidence of extreme weather (e.g. temperature, precipitation), including persistence of weather systems and consequently increased probability of drought and flooding. The goal of this project is to document projected changes in climate and impacts of climate change in the Greater Montreal area, in support of adaptation strategies developed by the city. In order to quantify the uncertainties of future projections of Montreal’s climate, a formal comparison of state-of-the-art Global Climate Models’ simulations against local historical records will be conducted. This will serve to contextualize the projected changes with respect to current models’ simulations of the last several decades. This study builds on previous work done by Ouranos and the city of Montréal on the impact of climate change and adaptation strategies in Quebec and the Greater Montreal area. Preliminary results from this study will be presented at the Sommet de Montréal in late may and a full report presented by the end of summer 2022.

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Faculty Supervisor:

Bruno Tremblay

Student:

Partner:

Société du Quartier de l’innovation de Montréal

Discipline:

Earth science

Sector:

Administrative and support, waste management and remediation services

University:

McGill University

Program:

Business Strategy Internship

Systèmes agroforestiers de production d’ignames (Dioscorea alata et D. cayenensis) pour l’amélioration de la sécurité alimentaire et des conditions nutritionnelles des ménages au Mayombe et au Plateau de Batéké en République Démocratique du Congo

Les régions du Mayombe et du Plateau de Batéké, dans le sud-ouest de la RDC sont sujettes à une déforestation qui, compte tenu des défis démographiques et en l’absence de mesures appropriées en termes d’aménagement du territoire, de changement climatique et de systèmes de production agro-écologiques innovants, pourrait accroître l’insécurité alimentaire et la malnutrition dans ces zones. Cette étude, utile pour la programmation potentielle du CESIQ en Afrique, tente de : 1) analyser l’agrobiodiversité des systèmes agroforestiers autour de la réserve de biosphère de Luki dans le Mayombe et du d’Ibi sur le plateau Batéké ; 2) évaluer les relations entre l’utilisation de l’igname, la sécurité alimentaire des ménages et l’accès aux revenus des femmes ; 3) évaluer la productivité et la durabilité des systèmes agroforestiers à base d’ignames dans les jachères pré-forestières et les jachères améliorées ; et, 4) analyser les facteurs d’adoption des systèmes agroforestiers à base d’ignames.

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Faculty Supervisor:

Damase Khasa

Student:

Partner:

Éducation à la Solidarité Internationale

Discipline:

Life Sciences

Sector:

Sustainability & the Environment; Forestry; Agriculture and Food

University:

Université Laval

Program:

Accelerate

Evaluating impacts of philanthropic giving on community sustainability in Atlantic Canada: Learning from and supporting collaborative research focused on social and environmental impact

This research project is focused on building an understanding and also supporting the relationship between the philanthropic sector and the research sector in supporting impactful solutions to complex problems faced by communities in Atlantic Canada. The partner organizations, the Lawson Foundation and Metcalf Foundation are invested in developing solutions that enhance community sustainability and health. As philanthropic actors, these partner organizations will be involved in the learning process advocated within this two-pronged research project that will support understanding of different models of intersectoral philanthropic- research- community collaboration. The first part of the project is devoted to building intersectoral philanthropic research projects and capacity. The second part of the project is engaging with food system stakeholders in the Atlantic regions to learn from these stakeholders effective models of intersectoral philanthropic investment for systems change.

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Faculty Supervisor:

Kelly Vodden

Student:

Partner:

The Lawson Foundation;Metcalf Foundation

Discipline:

Sociology

Sector:

Professional, scientific and technical services

University:

Memorial University of Newfoundland

Program:

Accelerate

Agri-Food Process Improvement

The Agri-Food Process Improvement internship was developed to provide a holistic view into the aspects of food processing and manufacturing for undergraduate students in science based fields directly related to, or adjacent to, agricultural and food sciences (e.g., physical sciences, engineering). We believe that by increasing exposure into the possibilities of a career that has a foundation in feeding a growing population, more young professionals will understand both the value and the potential of a career in the food industry. The interns will be working through a series of modules and/or units that will first establish a knowledge base in the science of food and food processing/manufacturing (and related professions such as food safety and quality), and then will move onto supervised project work. Each intern will have the individual opportunity to conduct at least two projects that will consist of [1] a literature review on a specialized topic (e.g., low carbohydrate direct expanded snacks, novel protein extrudates, industry knowledge gaps in training and certification programs, best sustainable practices, automation and smart technologies), [2] developing a detailed data collection and/or trial plan, and then [3] summarizing and presenting their findings. The overarching goal of this program

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Faculty Supervisor:

Michael Nickerson

Student:

Partner:

Saskatchewan Food Industry Development Centre

Discipline:

Physics

Sector:

Agriculture; Manufacturing; Professional, scientific and technical services

University:

University of Saskatchewan

Program:

Business Strategy Internship

Skills Passport

The Skills Passport project will create a resource hub providing training and support in workplace readiness, EDI, and skills training for students and employers participating in work-integrated learning (WIL) at the University of New Brunswick. Through the creation of a SharePoint site and specific resource modules, this one-stop resource will allow students and employers to receive just-in-time training and resources to support building meaningful relationships, connections, and opportunities to improve New Brunswick’s labour force.

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Faculty Supervisor:

Stephen Grant

Student:

Partner:

Future of You Company

Discipline:

Business

Sector:

Education

University:

University of New Brunswick

Program:

Business Strategy Internship

Improving Human-Robot Interaction Interfaces for Intelligent Mobile Service Robots in Indoor Environment

There are significant increases in the need of using service robots to adopt the roles of delivery vehicles and personal assistants. Atlantic Business Express is looking at bring the service robots to Canada, starting in Nova Scotia through working with Dalhousie University. The project is to improve the intelligent human-robot interaction interfaces for mobile service robots with safe navigation through obstacles and moving objects such as humans in indoor environment. The interns will develop and integrate new audio and vision modules with seamless integration with the existing motion planner and collision and obstacle avoidance modules. The company will benefit from having well-tested autonomous robots which can interact with people through voice control, 3D object detection and facial recognition. The results will help the company to improve their competitiveness and have larger share of the market in service robots. The Canadian community will benefit from the state-of-the-art research project.

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Faculty Supervisor:

Ya-Jun Pan

Student:

Partner:

Atlantic Business Express

Discipline:

Engineering

Sector:

Professional, scientific and technical services

University:

Dalhousie University

Program:

Accelerate

Education Assistant at Canadian Parks and Wilderness Society

The Canadian Parks and Wilderness Society (CPAWS) is an organisation that is dedicated to the conservation and preservation of Canada’s wilderness. Through their advocacy they aspire to protect 50% or more of Canada’s wilderness for future generations. Sharing knowledge about the importance of Canada’s wilderness and the challenges that conservation efforts are facing is one of the most important aspects of their work. Through the outdoor learning program, the organisation will teach children and youth about the importance of Canadian Wilderness. As an intern with CPAWS, I will be creating and delivering programming to children and youth in outdoor settings in order to foster life-long appreciation for nature and science. CPAWS is piloting their after school outdoor learning program to increase accessibility and broaden the scope of their unique and inspiring program. This will bring instructors and programming directly to students in their learning environment in order to achieve this goal.

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Faculty Supervisor:

Shauna MacKinnon

Student:

Partner:

Canadian Parks and Wilderness Society

Discipline:

Sociology

Sector:

Education; Social Innovation; Sustainability & the Environment

University:

University of Winnipeg

Program:

Business Strategy Internship

Obesity and Macrovascular Complications of the Heart and Kidneys: the Emerging Role of Genetics to Predict Risk and Treatment Outcomes

Globally, obesity continues to be a growing public health challenge and has been associated with cardiometabolic diseases including cardiovascular disease, type 2 diabetes and chronic kidney disease. Current strategies aimed at reducing these cardiometabolic diseases include treatments aimed at controlling hypertension, insulin resistance and dyslipidemia. In more severe cases, bariatric surgery is used to decrease obesity in order to decrease these macrovascular complications. Mendelian Randomization (MR) can assess the genetic association between a trait and a downstream outcome. Using two-sample MR, we hope to analyze how genetic traits for obesity are causally linked with cardiovascular and chronic kidney diseases and if these genetic links can inform more effective, personalized treatments.

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Faculty Supervisor:

Jennifer Brooks

Student:

Partner:

University Health Network

Discipline:

Life Sciences

Sector:

Health and Related Sciences & Technology

University:

University of Toronto

Program:

Accelerate

Connected Canadians: Marketing & Program Coordinator

Connected Canadians is looking to expand our paid services in the healthcare sector. We need assistance in market research as well as in implementing marketing strategy, and helping to execute our expanded programming in this area.

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Faculty Supervisor:

Robin Ritchie

Student:

Partner:

Connected Canadians

Discipline:

Business

Sector:

Education

University:

Carleton University

Program:

Business Strategy Internship

Marketing Research and Implementation of marketing campaign for entire Glo3D rebrand in the automotive space

The project will utilize the 4 Ps (product, price, place, promotion) framework as a guide to building an effective global marketing strategy that strengthens Glo3D’s brand and broadens our reach as we enter new verticals. The candidate will be tasked to better understand how to grow our user base and which marketing channels are effective for which demographics. They will get good at understanding marketing analytics, conversion rates through a signup funnel, cost per acquisition metrics, Google Analytics, and more. As far as professional growth, the candidate will have a tremendous opportunity learn how to tactically build awareness and acquire users for the Glo3D platform.

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Faculty Supervisor:

Shirley Chen

Student:

Partner:

Glo3D Inc.

Discipline:

Business

Sector:

Information and cultural industries; Professional, scientific and technical services

University:

Wilfrid Laurier University

Program:

Business Strategy Internship

Decoding geometrical structures from neural population recordings using Machine Learning and Deep Learning

Neurons situated in a brain region called the hippocampus have been discovered to represent information related to numerous aspects of space and navigation. The activity of these neurons is referred to as the cognitive map, a complex brain representation of space, navigation and other associated physical clues. The aim of this project is to design, develop, implement and test artificial intelligence algorithms to decode neural data recorded from the hippocampal formation. The neural data considered is, among others, recorded from rodents freely moving and navigating in a complex environment. The developed algorithms will aim to analyse and better understand how space is
represented in rodents’ and humans’ brains and how the cognitive space representation reacts and adapts to different topologies and different external stimuli. Finally, understanding how cognitive maps dynamics change and, in particular, how spatial memory is negatively affected by time and external stimuli shall lead to a better understanding of neurological dementias such as Alzheimer’s disease.

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Faculty Supervisor:

Manu Sasidharan Madhav

Student:

Partner:

École polytechnique fédérale de Lausanne

Discipline:

Life Sciences

Sector:

Education

University:

The University of British Columbia

Program:

Globalink Research Award

Numerical simulation for hydrate management in offshore pipelines

One of the major problems listed by many energy companies is flow assurance which involves significant efforts and costs to prevent hydrate blockages in the oil and gas facilities. Gas hydrate forms so rapidly and without warning in the offshore pipelines relative to waxes, scales, or asphaltenes. Although the hydrate plug formation rate is fast, remediation may take days or months. This research may help to understand further the hydrate formation behavior in the pipes. Conducting tests on the experimental setup is the best way to see hydrate significantly where and when it will be formed. Numerical simulations of the fabricated flow loop are one of this research’s objectives. However, the results of the model will be validated and compared with experimental data in different conditions. The MITACS support will be used to hire a Postdoctoral fellow (PDF) to support the activities in this project. The PDF will support computational modelling and operations of tests systems at C-CORE.

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Faculty Supervisor:

Sohrab Zendehboudi

Student:

Partner:

C-CORE

Discipline:

Engineering

Sector:

Mining; Professional, scientific and technical services

University:

Memorial University of Newfoundland

Program:

Accelerate

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