Projets novateurs réalisés

Explorez des milliers de projets réussis issus de la collaboration entre organisations et talents postsecondaires.

29 670 projets achevés

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Projets par catégorie

Livelihood Strategies and the Experience of Urban Development: the Case of Women Workers in Resettlement Colonies in Mumbai

A prominent feature of urban development in the present era is the forced eviction of communities living in informal settlements to make space for infrastructural projects. The research project looks at the livelihood strategies adopted by women in the Lallubhai Compound, a resettlement colony in Mumbai, to navigate the effects of their displacement due to the urban development project. Since the social norms relegate women to the household, their unpaid labour inside the house to sustain the family is often not recognised or acknowledged. However, women bear the major brunt in the event of a crisis such as displacement. The strategies adopted by women to cope with the effects of displacement, which is spread across their paid and unpaid work in the informal sector, are in effect subsidising the cost of labour of the people in the city. Thus, women contribute directly, through their paid work, and indirectly, through their life-sustaining social reproductive work, to the workforce of the city. However, this significant contribution made to Mumbai’s urban development by women living in resettlement colonies and navigating the impacts of the cycle of displacement and resettlement is not being recognised.

Voir la description complète du projet
Superviseur du corps professoral :

Judy Fudge

Étudiant :

Partenaire :

University of Mumbai

Discipline :

Sociology

Secteur :

Public Service, Policy, and Governance; Other

Université :

McMaster University

Programme :

Globalink Research Award

Autonomous surgical phase recognition on endoscopic camera images

At large, the desire of the Mitacs Research Grant is to gain understanding of surgery as a new field of science, dubbed Surgical Data Science (SDS), and to provide computer knowledge compatible robot system development through ontology driven Surgical Process Modeling (SPM) and Deep Learning (DL) methods, which can lead to autonomous surgical phase detection-based clinical systems. Surgical phase detection is a key challenge in SDS to create decision making support in the Operating Room. The overall objective is the development of autonomous surgical phase detection methods with SDM for laparoscopic hysterectomy (LH) procedures, based mainly on the endoscopic video data. All data used in the study is anonymized, publicly available, and surgically-annotated.

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Superviseur du corps professoral :

Gabor Fichtinger

Étudiant :

Partenaire :

Óbuda University

Discipline :

Computer science

Secteur :

Health and Related Sciences & Technology

Université :

Queen's University

Programme :

Globalink Research Award

Multi scale assessment of Ecosystem Resilience to Hydroclimatic disturbances

The connection between climate change and terrestrial ecosystems has long been a key challenge in global change research. Climate change and hydroclimatic disturbances will impact the structure and functioning of these ecosystems. Therefore, studying their responses to disturbances at different scales is crucial for contributing to ecosystem management, mitigation, and adaptation strategies. This study seeks to answer the question raised in WCRP carbon feedbacks in climate systems: “How will highly-vulnerable land carbon reservoirs respond to a warming climate, climate extremes, and abrupt changes?” The objective of the project is to develop a multi-dimensional resilience index (MDRI) that includes resistance, resilience, and recovery aspects of the ecosystem. The MDRI, with its improved understanding of resilience, will help identify ecological hotspots in the country for better ecosystem management. Our research also expands on current work in a fundamental direction to provide a deeper and more thorough knowledge of ecological functioning.

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Superviseur du corps professoral :

Xiaohua (Adam) Wei

Étudiant :

Partenaire :

Indian Institute of Technology Roorkee

Discipline :

Earth science

Secteur :

Forestry; Environmental Science and Technology; Water

Université :

The University of British Columbia - Okanagan

Programme :

Globalink Research Award

Development of Lipid Nanoparticle Reagents for Functional Genomics in Difficult-to-Transfect Cells In Vitro

The objective of this project is to develop lipid nanoparticle (LNP) reagents for the delivery of nucleic acids to turn off, or turn on target genes in “hard-to-transfect” neurons and stem cells in vitro and in vivo. A recent report (BCC Research, April 2011) observed that “51% of researchers employ cell-based techniques to perform transfection routinely. Although transfection techniques have been available for many years ….this procedure faces challenges such as the efficiency of gene introduction and its toxicity in cells.” With an estimated market of $1.9 billion by 2016 this project will help explore high value market niche that is poised for substantial growth. It will leverage clinical grade, proprietary LNP reagents, a novel proprietary microfluidic-based manufacturing LNP technology, and a unique mechanism of action that maximizes LNP potency by combining broad expertise in technology development and commercialization from the University of British Columbia, and Precision NanoSystems Inc. (PNI).

Voir la description complète du projet
Superviseur du corps professoral :

Marcel Bally

Étudiant :

Partenaire :

Precision NanoSystems Inc.

Discipline :

Life Sciences

Secteur :

Health and Related Sciences & Technology

Université :

The University of British Columbia

Programme :

Elevate

Outcomes of a Training and Mentoring Program for Electrical and Plumbing Employers

We are proposing a novel gender-inclusive approach with a focus on understanding barriers faced by women, Indigenous people, youth, and other underrepresented groups to increase recruitment, improve retention, expand and stabilize the construction and industrial workforces across Canada, and support employers. This proposal builds on our prior research on workplace factors associated with health professions’ workplace stressors, injuries and retention, and our former collaborative professional practice with injured miners, employers, and unions on workers’ return to work. Our proposed research will develop and implement strategies to increase worker participation and retention in the construction and industrial workforce, based on gender-, age-, and ethnicity-informed systematic analysis of barriers to recruitment and retention.

Voir la description complète du projet
Superviseur du corps professoral :

Behdin Nowrouzi-Kia

Étudiant :

Partenaire :

The Ontario Electrical League

Discipline :

Life Sciences

Secteur :

Other services (except public administration)

Université :

University of Toronto

Programme :

Accelerate

Reshaping the management of low back pain in the emergency department

In Australia, low back pain (LBP) is the 5th most common cause of presentation to emergency departments (EDs). However, most LBP cases seen in EDs are non-serious and non-urgent, and they place a significant pressure on ED staff, who are trained managing patients with urgent health problems. The project aims to develop, implement and evaluate a novel model of care for patients with LBP presenting to EDs. The novel model of care includes 1) a triage approach to identify ED patients with non- urgent LBP who can be redirected to outpatient setting, 2) reshaping the ED workforce to give better access to physiotherapists for patients requiring within ED care, and 3) a virtual care for patients requiring hospitalisation who could manage themselves at home, with remote consultation with hospital-based clinicians. If successful, this model of care will be a solution to relieve significant pressure on EDs in Australia and globally and will allow to improve healthcare services efficiency.

Voir la description complète du projet
Superviseur du corps professoral :

Hugo Massé-Alarie

Étudiant :

Partenaire :

University of Sydney

Discipline :

Life Sciences

Secteur :

Education

Université :

Université Laval

Programme :

Globalink Research Award

L’impact de la pandémie de COVID-19 sur le développement de carrière : de nouvelles compétences à acquérir pour les professionnelles et professionnels en counseling et développement de carrière (partie 2)

Ce projet consiste à mener une recherche visant à éclairer le phénomène inédit qu’est la pandémie de
la COVID-19 comme choc de carrière et dont les résultats probants seront valorisés par une action de
formation auprès des professionnelles et professionnels en counseling et développement de carrière.
Un recueil mixte de données (par questionnaire puis entretiens semi-dirigés) auprès d’adultes
anglophones et francophones entrés sur le marché de l’emploi depuis au moins 5 ans et ayant consulté
une professionnelle ou un professionnel en counseling et développement de carrière durant la
pandémie (objectif de 100 personnes répondantes) permettra de comparer les caractéristiques des
chocs de carrière déjà documentés à celui lié à la pandémie de COVID-19. Les résultats permettront
d’identifier des éléments concrets liés au choc de carrière qui ont la capacité de remettre en cause le
sens au travail ainsi qu’un processus de changement allant du déclencheur du choc de carrière au
changement de carrière.

Voir la description complète du projet
Superviseur du corps professoral :

Réginald Savard

Étudiant :

Partenaire :

Canadian Education and Research Institute for Counselling

Discipline :

Sociology

Secteur :

Education; Professional, scientific and technical services

Université :

Université du Québec à Montréal

Programme :

Accelerate

Développement d’un module de production d’énergie électrique autonome 4.0

L’industrie minière canadienne dépend encore considérablement des énergies fossiles en raison de ses activités qui sont principalement localisées dans les régions non reliées au réseau de distribution électrique principal. L’objectif de ce partenariat entre l’Université du Québec à Rimouski (UQAR) et l’entreprise Caron Technologies International (CTI) Inc. est de développer et de concevoir un module de production d’énergie électrique autonome, transportable et adapté aux besoins de l’industrie minière et aux contraintes du nord canadien. Le module sera muni d’un système de panneaux solaires à déploiement et à rangement automatique, d’un système de suivi intelligent du soleil et d’un système intelligent de gestion de l’énergie. Le module proposé se démarquera des produits disponibles sur le marché par sa robustesse, sa légèreté, sa transportabilité, son adaptabilité, sa versatilité, sa maintenabilité et son utilisation intelligente des ressources énergétiques. L’utilisation des énergies renouvelables permettra à CTI Inc. de réduire de manière considérable l’empreinte environnementale de ses activités de forage.

Voir la description complète du projet
Superviseur du corps professoral :

Noureddine Barka;Maxime Berger;Tawfik Masrour;Ibtissam El Hassani

Étudiant :

Partenaire :

Caron Technologies International Inc.

Discipline :

Engineering

Secteur :

Manufacturing

Université :

Université du Québec à Rimouski

Programme :

Accelerate

Validation of Novel Strain Sensors

The project will focus on the development and validation of novel strain measurement techniques. The effectiveness of mathematical modeling, optical tacking programs and microelectrical mechanical systems will be proven through ex-vivo testing on cadaver equine systems. The results and findings from the new systems will be evaluated against the current standards and literature reports for comparison. The systems will also be tested to ensure the results prove its effectiveness to be both repeatable and reliable in testing elastic biological tissues.
The expected outcomes of this project will help to explain how and why strain is experienced in the tendon as a result of the entire equine forelimb system. This information can be further applied to the predictions, prevention, and treatment of the equine tendon injuries. After proper testing and evaluations, these new systems have the potential to be applied to in-vivo applications of biological tissue testing applications.

Voir la description complète du projet
Superviseur du corps professoral :

Holly Sparks

Étudiant :

Partenaire :

Université Bourgogne - Franche-Comté

Discipline :

Engineering

Secteur :

Health and Related Sciences & Technology; Biotechnology

Université :

University of Calgary

Programme :

Globalink Research Award

Analyse de rentabilité d’un carrefour énergétique décentralisé et vert en zone agricole

Le projet vise à étudier un modèle de carrefour de production d’énergie décentralisé et indépendant produisant des énergies et des produits nécessaires à la production agricole (électricité, engrais…). Ce modèle de carrefour énergétique servirait à alimenter des zones agricoles à partir d’un mix d’énergie verte produite sur place (éolien ou solaire). A travers la combinaison de différents procédés chimiques comme la biométhanisation ou l’hydrolyse, ce modèle de production énergétique permettrait la création d’éléments exploitables par les organisations agricoles, ainsi que de stocker de l’énergie. Ainsi la recherche vise à définir et contextualiser ce modèle de carrefour énergétique ainsi qu’à analyser sa rentabilité.

Voir la description complète du projet
Superviseur du corps professoral :

Pierre-Olivier Pineau

Étudiant :

Partenaire :

Machinerie Dubois

Discipline :

Business

Secteur :

Manufacturing

Université :

HEC Montréal

Programme :

Accelerate

Further testing the potential of Timegated Raman for Online Mineralogy

The project aims to investigate the potential of a novel approach called Timegated Raman, capable of identifying minerals contained within rocks. Specifically, the project involves measuring known samples in a laboratory setting using a Timegated Raman unit, to assess to what extend the method can be used to quantify theminerals present in mineral powders, and whether this can also be done when the minerals are in slurry form i.e. mixed with water. This would allow online measurements in an industrial setting, potentially providing important information in a timely and simple fashion and allowing for process optimization. In turn, this research could help mineral processing plants notice changes in the ore contents sooner and make the necessary adjustments to offset the disturbances, reducing process upsets and costs.

Voir la description complète du projet
Superviseur du corps professoral :

Jean-François Boulanger

Étudiant :

Partenaire :

Agnico Eagle Mines Limited

Discipline :

Earth science

Secteur :

Mining

Université :

Université du Québec en Abitibi-Témiscamingue

Programme :

Accelerate

Electrochemical-based Biosensor Assays for Detecting Drugs of Abuse in Saliva at Ultra low Levels

Drug-impaired driving represents a significant and increasing threat to the safety of Canadians and there is an urgent need for a convenient, rapid and accurate road-side testing technology for impaired driving. Current solution for roadside drug testing only provides qualitative results, while quantitative detection of drugs currently requires expensive equipment, dedicated infrastructure and specialized laboratory personnel. To address this problem, eye3concepts Inc. is teaming up with McMaster University to develop the next-generation field deployable oral fluid (saliva) drugs of abuse testing platform. In this project drug tests will be developed for the detection of methamphetamine and opiates utilizing novel nanozyme-based electrochemical biosensor technology which will allow of the tests will be available in approximately one minute. The implementation of this project will boost the growth-rate of eye3concepts Inc., create jobs in Canada, and ultimately create a global solution for real-time drug testing.

Voir la description complète du projet
Superviseur du corps professoral :

Amin Reza Rajabzadeh;Seshasai Srinivasan

Étudiant :

Partenaire :

Eye3concepts Inc.

Discipline :

Engineering

Secteur :

Manufacturing

Université :

McMaster University

Programme :

Accelerate

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