Projets novateurs réalisés

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

29 670 projets achevés

2811
AB
4990
C.-B.
801
MB
663
NL
825
SK
8841
ON
9197
QC
95
PE
568
NB
1088
NS

Projets par catégorie

Stage de Recherche

Ce projet vise à explorer l’impact des grandes infrastructures de transport, comme le tramway et l’élargissement du pont Pierre Laporte, sur la congestion routière et les émissions de gaz à effet de serre dans la région de Québec. En utilisant un outil de simulation avancé appelé METROPOLIS, le stagiaire analysera comment ces projets peuvent améliorer la fluidité du trafic et réduire les impacts environnementaux. Ce travail permettra de produire des documents clairs et accessibles qui guideront les décideurs publics dans l’élaboration de politiques de transport durable, tout en offrant des solutions concrètes pour améliorer la qualité de vie des citoyens.

Voir la description complète du projet
Superviseur du corps professoral :

Carlos Ordas Criado

Étudiant :

Partenaire :

Cergy-Paris Université

Discipline :

Sociology

Secteur :

Other

Université :

Université Laval

Programme :

Globalink Research Award

Prediction of High-Level-Descriptors in Game Audio

This project aims to research a new set of algorithms that extract audio features from audio files in sound effect libraries and use machine learning approaches to predict high-level audio descriptors–such as emotional adjectives–to enhance game audio file labelling. This research project will assist our partner organization by providing them with a set of algorithms that can be used for the detection and comparison of high level descriptors within their own sound libraries to differentiate their product from competitors, while at the same time providing an improved experience for their users.

Voir la description complète du projet
Superviseur du corps professoral :

Miles Thorogood

Étudiant :

Partenaire :

Audiokinetic

Discipline :

Computer science

Secteur :

Information and cultural industries

Université :

The University of British Columbia - Okanagan

Programme :

Accelerate

HPN Hyperautomation Platform

HPN is building a hyperautomation platform using data science, artificial intelligence (AI), and machine learning (ML) techniques to hyperscale its unique business model. The expected outcomes from this platform will be scale up of revenue internationally along with improved operating margins; enhanced member and customer experience through self-service and AI concierge services; and innovation in our business model by unlocking the predictive and learning capabilities of our data. The intern will be responsible for developing an initial data taxonomy and entity-relationship framework on current data sets; identifying and defining hyperautomation use cases based on customer and member journey models; conducting a state of the art review of hyperautomation models/techniques that could be used for each use case as well as technical uncertainties; developing correlative and causal hypothesis on data relationships based on the HPN busines model/workfkows/datasets; and supporting experiments based on these hypothesis.

Voir la description complète du projet
Superviseur du corps professoral :

Seok-bum Ko

Étudiant :

Partenaire :

Hilltop Partner Network

Discipline :

Engineering

Secteur :

New and Digital Media; Technology; Artificial Intelligence

Université :

University of Saskatchewan

Programme :

Accelerate

Participation in the operation of the biobank at the USask Biobank

The USask biobank currently specializes in oncology specimen collection. We cover all steps from biospecimen sample collection (biopsy, tissue, blood and ascites fluids), processing, quality control and storage. We also coordinate new release samples for the USask and Pan-Canadian project research teams. All patient data, samples and associated data must be captured, traceable and updated in the ATiM biobank database.
During this period, the student will be invited to familiarize themselves with all the operational and administrative activities of the biobank. The student can participate in writing new, reviewing and updating procedures. We also have opportunities for expansion of sample collection in which the student may participate and will be expected to conduct literature searches and lead project set-up meetings during oral and written presentations.

Voir la description complète du projet
Superviseur du corps professoral :

Marilyn Kinloch

Étudiant :

Partenaire :

Lyon Catholic University

Discipline :

Life Sciences

Secteur :

Health and Related Sciences & Technology

Université :

University of Saskatchewan

Programme :

Globalink Research Award

Amélio : Modèle prédictif des intentions de départs des employés – QC-801

Amélio souhaite développer un modèle prédictif novateur pour anticiper les intentions de départ des employés. Ce projet utilisera des techniques avancées en apprentissage automatique pour aider les entreprises à mieux comprendre les dynamiques internes et renforcer leur stratégie de rétention.

Voir la description complète du projet
Superviseur du corps professoral :

Christian Gagné;Michael Morin

Étudiant :

Partenaire :

Amélio

Discipline :

Computer science

Secteur :

Information and Communications Technology; Artificial Intelligence

Université :

Université Laval

Programme :

Accelerate

Evolutionary Significance of Hybrid Zones on Avian Biodiversity from the Neotropics

Tropical forests house an exceptionally high biological diversity and despite great interest in factors that might drive the formation of high species richness, little is understood about how this diversity arose. In the Neotropics, rivers appear to delimit the geographic ranges of closely related avian species, and are generally believed to have been important in in promoting species formation by acting as dispersal barriers to populations on either side. A key question is whether or not reproductive isolation is accumulating between taxa that are separated by rivers over most of their geographic range, but have narrow contact zones in headwater regions. These zones are defined as regions in which members of genetically distinct populations mix and produce offspring of mixed ancestry. Thus, in my project I will explore the genetic architecture of two avian contact zones from the Brazilian Amazon using cutting-edge genetic methods to provide a detailed analysis of the evolutionary process in one of the most diverse ecosystems on Earth.

Voir la description complète du projet
Superviseur du corps professoral :

Jason Weir

Étudiant :

Partenaire :

Universidade Federal do Pará

Discipline :

Life Sciences

Secteur :

Université :

University of Toronto

Programme :

Globalink Research Award

Effect of altitude on cardiovascular responses to voluntary apnea in Nepali Sherpa

Our lab has demonstrated that voluntary apneas (i.e., breath-holds) at high altitude cause decreases in heart rate in lowlander populations. Apneas at altitude also cause cardiac arrhythmias in a majority of lowlanders. Unlike lowlanders, native highlanders (e.g., Nepali Sherpa) do not get the same decreased heart rate and cardiac arrhythmias during voluntary apneas at high altitude. However, a recent study showed that mountaineers climbing Mount Everest—almost all of which were Sherpa—got many cardiac arrhythmias over a multi-day ascent. Like apnea, exercise is an autonomic nervous system stressor, and these data therefore contradict our findings. I will therefore re-assess the cardiac responses to apneas in Sherpa at low and graded high altitude to uncover the progressive effect of altitude on the heart’s response to nervous system stress. Uncovering the physiological mechanisms described above provides new insights into the adaptations of the Sherpa to altitude. This project furthers Dr. Steinback’s research into physiological mechanisms during apneas. This project also furthers Dr. Mahotra’s clinical understanding via the population-specific outcomes not available through research in lowlanders. We hope the physiology we uncover informs future clinical research with meaningful impacts on the health of Nepali Sherpa.

Voir la description complète du projet
Superviseur du corps professoral :

Craig Steinback

Étudiant :

Partenaire :

Tribhuvan University

Discipline :

Life Sciences

Secteur :

Life Sciences (not health); Environmental Science and Technology

Université :

University of Alberta

Programme :

Globalink Research Award

Design and Generation of Boryl Radicals for Direct Deoxygenation of Alcohols via C–O Homolysis

The hydroxy group (–OH) is well represented in organic chemistry and is present in 37% of commercial therapeutics, 69% of natural products and numerous biomasses. Despite their ubiquitous nature, the development of methods to directly transform hydroxy groups in a mild and less wasteful way has been seriously neglected. This, therefore, pushes for a method to interface organoboron chemistry with photoredox catalysis to achieve the direct activation of hydroxy groups for its functionalization with boryl radicals. Our lab has recently developed a new boronic ester that could potentially undergo photochemical oxidation. We anticipate that this Xpin-protected boronate (Bxpin) has the potential to generate a boryl radical via photoredox catalysis for alcohol abstraction to generate an alkyl radical. This alkyl radical could then undergo a wide variety of radical addition processes such as the Giese-type reaction, the Minisci reaction, acylation, and metallaphotoredox cross-coupling. The unique reactivity in this proposed project will help illuminate our fundamental understanding of photochemical C–O bond cleavage and boryl radical formation.

Voir la description complète du projet
Superviseur du corps professoral :

Dennis Hall

Étudiant :

Partenaire :

Westfälische Wilhelms-Universität Münster

Discipline :

Physics

Secteur :

Pharmaceuticals; Sustainability & the Environment

Université :

University of Alberta

Programme :

Globalink Research Award

Temperature Optimization in CEA Cannabis Production

Lighting and heating remain high-cost energy considerations in controlled environment agriculture, whether for food or medicinal plant production, yet how these parameters affect highly valued phytochemical profiles in Cannabis sativa inflorescence and subsequent cannabis products remains largely unexplored in industrial settings. This information could prove useful for licensed producers of cannabis or indoor food producers in Canada alike, where alterations to environmental control during plant growth might greatly reduce operational costs while boosting crop quality. Research objectives comprise determining how differences in daytime cultivation temperature affect plant growth/development parameters and cannabinoid profiles (THC and CBD). The effect of cultivation day temperature on photosynthetic rate, transpiration rate, and stomata conductance in cannabis plants will be investigated using the LICOR 6800. Additionally, energy consumption between HPS and LED lights during the cannabis flowering stage will be compared and modeled using historic kW usage and environmental control data. By collaborating with Cielo Verde Inc. as they shift from conventional high-pressure sodium (HPS) lighting to light- emitting diodes (LEDs) in their indoor production facility, our research will permit real-time analyses of environmental control effects on crop yield and quality, while assessing energy consumption in an indoor production facility for medicinal plants.

Voir la description complète du projet
Superviseur du corps professoral :

Mark Lefsrud

Étudiant :

Partenaire :

Cielo Verde

Discipline :

Life Sciences

Secteur :

Professional, scientific and technical services

Université :

McGill University

Programme :

Accelerate

Simulation-Based Factory Layout Design and Workflow Optimization for Offsite Construction

Off-site construction involves prefabricating building components in a controlled environment, allowing for enhanced efficiency, quality, and sustainability. This research addresses critical challenges in the development of manufacturing facilitylayoutsfor Roberts Group, Prince Edward Island(PEI). By employing digital simulation approaches, the project aims to design and optimize factory layouts and workflows, reducingmaterial and
streamline production processes to support modular building components. The project responds to PEI’s housing crisis, where demand for affordable housing. The anticipated production of over 200 modular units annually will directly contribute to meeting local housing needs. The collaboration with the University of New Brunswick’s Off-
site Construction Research Centre will generate best practices and methodologies that can be scaled across the industry. This project not only supports Roberts Group’s immediate operational goalsbut also establishes transferable frameworks for sustainable off-site construction.

Voir la description complète du projet
Superviseur du corps professoral :

Zhen Lei

Étudiant :

Partenaire :

Roberts Developments Inc

Discipline :

Engineering

Secteur :

Manufacturing and Construction; Technology; Construction

Université :

University of New Brunswick

Programme :

Accelerate

Interactions entre la végétation boréale alluviale et la dynamique fluviale en contexte de pergélisol sur la Beaver Creek River, Yukon

Ce projet de recherche vise à étudier les impacts du changement climatique sur la Beaver Creek River, au Yukon, au Canada. Dans cette région froide, le pergélisol (sol gelé en permanence) se dégrade sous l’effet de l’augmentation des températures, particulièrement marquée aux niveau des pôles, ce qui peut fragiliser les berges des rivières, modifier les écosystèmes et affecter les infrastructures humaines. A l’aide de photographies aériennes, d’images satellites, d’observations sur le terrain et d’analyses sédimentaires en laboratoire, le projet étudie les changements survenus au cours des 60 dernières années. Les résultats aideront par exemple à déterminer si la végétation, qui se développe à mesure que le pergélisol dégèle, stabilise les berges ou, au contraire, contribue à leur érosion. Sur le plan scientifique, il apportera de nouvelles connaissances sur les impacts du réchauffement climatique dans les régions périglaciaires, qui représentent une zone sensible et relativement peu étudiée. Les résultats pourront être utilisés pour mieux anticiper les risques liés à l’érosion, aux inondations et à la dégradation des écosystèmes au niveau de ces rivières arctiques. Pour les gestionnaires et décideurs locaux, ces informations seront utiles pour réfléchir à l’entretien de certaines infrastructures, comme l’Alaska Highway.

Voir la description complète du projet
Superviseur du corps professoral :

Daniel Fortier

Étudiant :

Partenaire :

Université Paris 1 Panthéon-Sorbonne

Discipline :

Earth science

Secteur :

Education

Université :

Université de Montréal

Programme :

Globalink Research Award

Applied Transformative Justice Frameworks for Gender and Sexuality-Based Violence Prevention

This project involves conducting a literature review of research and popular publications on transformative justice—an approach that aims to develop responses to violence by understanding the structures of inequality outside of the current pathways of criminalization and punishment—with the aim of developing applied tools, resources, and guidelines for distribution as open access resources in both English and French on gender- and sexuality-based violence prevention. The project builds on a university-community partnership between
Éduconnexion and Concordia’s Simone de Beauvoir Institute to create a hub for resources to support and empower community organizations in under-resourced areas throughout the city of Montreal in using transformative justice approaches in their work with communities. Built out of a commitment to agency, cultural safety, and self-determination, the project centers on an understanding of the intersections between race, gender, sexuality, citizenship status, religion, ethnicity, disability, and other factors shaping the experiences of
people who are at risk of experiencing or witnessing gender- and sexuality-based violence.

Voir la description complète du projet
Superviseur du corps professoral :

Natalie Kouri-Towe

Étudiant :

Partenaire :

Éduconnexion

Discipline :

Sociology

Secteur :

Other services (except public administration)

Université :

Concordia University

Programme :

Accelerate

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