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

The Healthy Body Scorecard: A new health screening tool for Canadian

Building off of the original Healthy Bodies Scorecard project, this research aims to test the newly developed Healthy Body Scorecard tool and provide evidence of its usefulness. We will distribute the draft of the scorecard along with a feedback questionnaire for health care practitioners (HCP’s) targeting those who work with typically developing children as well as those with experience working with children with disabilities. We also intend to develop an “at home” version of the scorecard based of the original that could potentially be used by parents or youth either prior to an appointment with their HCP or as a means to increase the frequency of data collection by the HCP for the purpose of monitoring. We will test the scorecard and seek feedback from parents through a second survey that will ask what components of the current scorecard they would be willing to fill out in an “at home” version of the scorecard. We will conduct focus groups or interviews with a selection of participants from both the HCP’s and the parents who participated in the surveys in order to gain in-depth feedback.

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Faculty Supervisor:

Amy McPherson

Student:

Partner:

The Sandbox Project;McDonalds Restaurants of Canada Ltd

Discipline:

Life Sciences

Sector:

Health and Related Sciences & Technology

University:

University of Toronto

Program:

Accelerate

Strengthening Urban Forest Management in Halifax Regional Municipality

Urban-forest management is a complex enterprise in the 21st century. It is plagued by numerous diverse uncertainties. With this set of projects, as part of our larger program of urban-forest research, we aim to address key uncertainties as identified by HRM’s urban-forestry staff. One project will examine how urban-forest NGOs in Canada can support municipal tree programming. Another aims to develop guidance on conserving urban treenesting songbirds during the breeding season. The third seeks to strengthen the attention to climate change in the next iteration of urban-forest planning in HRM. All three projects will provide critical information to HRM for use in improving the long-term management of its urban forest.

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Faculty Supervisor:

Peter Duinker

Student:

Partner:

Halifax Regional Municipality

Discipline:

Life Sciences

Sector:

Public administration

University:

Dalhousie University

Program:

Accelerate

Engineering Tunable Mucoadhesive Nanocarriers for Ophthalmic Drug Delivery

Over 90% of ocular medications are administered by eye drops despite multiple drawbacks including low bioavailability of the target therapeutic, systemic toxicity, and the requirement for using high doses due to the effective clearance mechanisms for drug in the eye. To increase the therapeutic efficacy of ocular medications, novel nanocarrier systems have been developed that can deliver the drug to the ocular surface over an extended period of time at the required dose. These nanocarriers interact with the ocular tear film by adhering to the innermost mucosal layer that acts to protect and lubricate the eye. By sticking to the mucosal layer, mucoadhesive nanocarriers can greatly reduce dosing frequency, create a more comfortable drop to improve patient compliance, and improve clinical efficacy through controlled release. The proposed project is focused on assessing the performance of novel mucoadhesive nanocarriers developed by the applicant for ocular drug delivery for mucosal drug delivery, with a focus on characterizing the mechanisms of interactions between the nanocarriers and the mucosal layer.

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Faculty Supervisor:

Todd Hoare

Student:

Partner:

University of Leeds

Discipline:

Engineering

Sector:

Education

University:

McMaster University

Program:

Globalink Research Award

We Are Here: Healthcare Experiences of LGBTQ* Individuals Assigned Female at Birth with Chronic Health Conditions

Members of the LGBTQ+ community assigned female at birth are at a disproportionate risk of developing CHC, such as mental health disorders, addiction, obesity, heart conditions, and asthma (Dearing & Hequemboug, 2014; Eliason, 2014). The proposed mixed methods study will explore the experiences of members of the 2SLGBTQQIA community assigned female at birth with chronic health conditions in Canadian healthcare systems. The primary goal of this study is to understand the supports and barriers encountered by this community and ultimately improve their relationship with the healthcare system and healthcare providers. The intern conducting this study will collaborate with and support CBRC research managers and team members on all ongoing work related to this project, including data cleaning, analysis, and producing academic- and community-oriented reports

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Faculty Supervisor:

Nathan Lachowsky

Student:

Partner:

Community Based Research Centre Society

Discipline:

Life Sciences

Sector:

Other services (except public administration)

University:

University of Victoria

Program:

Accelerate

Évaluation archéologique, historique et mise en valeur de l’ancien village de l’Anse St-Étienne dans le Bas-Saguenay

Le village de St-Étienne constitue l’un des plus anciens villages de compagnie du Québec et le plus ancien dans la région du Saguenay-Lac-Saint-Jean. Opéré entre 1882 et 1900, ce village est un superbe exemple du contexte économique du XIXe siècle, alors que la totalité des infrastructures et services municipaux relève de la mono-industrie qui exploite le secteur.
Il ne faut donc pas s’étonner du fait que cette ville de compagnie dont l’existence fut brève soit somme toute peu documentée. Les plans de construction, les gens y ayant habité, les événements s’y étant passés relèvent des activités privées de la compagnie Price, propriétaire de tous les bâtiments. Dans un tel contexte, les quelques archives ayant résisté au temps et l’archéologie doivent s’unir afin de reconstituer l’histoire tant architecturale que socio-économique du lieu.
Le village de St-Étienne, situé sur les berges du fjord de la rivière Saguenay, dans un secteur déjà fréquenté par des touristes, recèle un potentiel récréotouristique indéniable. Les travaux effectués par madame Boissonneault constitueront un premier pas vers cette remise à jour dont l’objectif ultime est de contribuer à la relance socio-économique de la municipalité de Petit-Saguenay.

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Faculty Supervisor:

Érik Langevin

Student:

Partner:

MRC-du-Fjord-du-Saguenay

Discipline:

Sociology

Sector:

Public administration

University:

Université du Québec à Chicoutimi

Program:

Accelerate

Commercialization of Selective Hybrid High Throughput Fused Direct and Filament Deposition Modeling System

While newer, advanced Filament Fused Deposition Modeling (FFDM) 3D printing systems for additive manufacturing of plastics products have been designed in order to increase rate productions similar to conventional plastic transformation processes. Up to the date hybrid configurations that can achieve for printing selectively high deposition rates without compromising part quality hasn’t yet been fully developed and exposed as an optimal solution in plastic product design.
For the previous case mentioned, the system’s proposed in this project apply a novel configuration where a large-scale 3D printing additive manufacturing machine will have the capability to print parts components at high deposition rates with direct fused deposition (DFDM) of polymer pellets or particles flakes by a screw-extruding system and include a selectively nozzle configuration to print zones by filament fused deposition (FFDM) polymer where higher printed layer resolutions are required based on part’s mechanical performance.

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Faculty Supervisor:

Rafiq Ahmad

Student:

Partner:

North Forge

Discipline:

Engineering

Sector:

Education; Management of companies and enterprises; Professional, scientific and technical services

University:

University of Alberta

Program:

Accelerate

Polymer composites with graphene

With the increasing effects of Green House Gas (GHG) emissions on climate change, there is also increasing interest to alternatives to internal combustion engines for mobility. Battery electric vehicles are one route, and another is fuel cells. There is increasing interest in polymer composites that are not only mechanically strong and lightweight, but also have other properties, such as electrical and thermal conductivity. An application for such polymer composites is in proton membrane fuel cells, and specifically the bipolar fuel cell plates which make up a significant amount of the cost and weight of current fuel cells. One means to have electrical conductivity is by the addition of carbon fillers to the polymer matrix – carbon black, carbon nanotubes,
graphite fiber have all been used in the past. Graphene is a more recent entry into the market as a carbon conductive filler because of its interesting properties due to its two-dimensional layer geometry. Hydrograph has developed an aerosol based process to create pure graphene without chemical or mechanical processing normally required from the graphite to graphene processing routes.

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Faculty Supervisor:

Andrew Hrymak

Student:

Partner:

Hydrograph

Discipline:

Engineering

Sector:

Manufacturing

University:

The University of Western Ontario

Program:

Accelerate

Design of a Novel, Low-profile Picture Space Heater

Datec Coatings Corporation has developed a new technology that enables them to print heating elements on various surfaces. One of these is a mica sheet, which is physically very similar to regular cereal box cardboard. By printing an image on another sheet of mica and placing both of these in a frame, it is possible to create a wall-mounted picture that functions as a portable space heater. This design has the potential for numerous advantages over conventional space heaters in areas of safety, aesthetics and space-saving. The main barrier preventing this from being a successful alternative to conventional space heaters is in the total heat output of the units. It is the goal of this project to design the most efficient and safe wall mounted unit with the highest possible heat output. In addition, the design must be able to be manufactured in Canada, be inexpensive, and aesthetically pleasing.

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Faculty Supervisor:

Robert Fleisig

Student:

Partner:

Datec Coating Corporation

Discipline:

Engineering

Sector:

Advanced Manufacturing

University:

McMaster University

Program:

Accelerate

Optimization Design and experimental demonstration of Optical Phased Arrays (OPAs)

We are proposing to help design the experimental setup to characterize chip-scale Optical Phased Arrays (OPAs). OPAs – a photonic device used for optical beam forming and beam steering – have been widely studied for LiDAR, optical sensing, free-space communication and more. Building on previously prototyped phase array antenna design at Honeywell, the team aims to develop next-generation micro-photonic phase arrays that can steer beams with minimum output of 2 Watt (optical power) for data rates on the order of 10 Gbps and acceptable bit error rates. Our goal is to establish and conduct in-lab characterization of the newly design OPA to validate and verify design parameters predicted through simulation studies, as well as to provide recommendations for optimization of the OPA design.

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Faculty Supervisor:

Regina Lee;Winnie Ye

Student:

Partner:

Honeywell Canada (Kanata, ON)

Discipline:

Engineering

Sector:

Information and cultural industries; Manufacturing

University:

Carleton University; York University

Program:

Accelerate

Recherche sur les publics actuels et potentiels du Musée de la civilisation de Québec

En 2023, le Musée de la civilisation de Québec (MCQ) renouvelle son exposition permanente sur l’histoire du Québec pour en faire un attrait plus actuel, plus rassembleur et plus inclusif. Près de 18 ans après le lancement de la dernière exposition permanente, le premier défi du Musée est de récolter des données statistiques sur le visage et les intérêts de son public actuel, ainsi que sur le public potentiel afin de créer une exposition pertinente, moderne et populaire. Ces informations nécessaires serviront ainsi à la compréhension précise des attentes du public québécois, canadien et international envers cette nouvelle exposition. Ce stage Mitacs est mené pour permettre non seulement au Musée d’évoluer avec les plus récentes connaissances scientifiques en matière de sondage, mais également à la Chaire de leadership en enseignement des sciences sociales numériques (CLESSN) de poursuivre sur le terrain le développement de ces méthodes novatrices.

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Faculty Supervisor:

Yannick Dufresne

Student:

Partner:

Musée de la civilisation

Discipline:

Sociology

Sector:

Arts, entertainment and recreation; Utilities

University:

Université Laval

Program:

Accelerate

Mobile shape-changing haptic props for virtual reality

The proposed project is built around combining two existing projects, one situated at Carleton and the other situated at NAIST. Carleton has developed a tactile device which can both be tracked for use with Virtual Reality and can also change shape to simulate the tactile feel of various objects presented in a virtual environment. The limit of this device is in its lack of mobility, which is where the research done by Prof. Kiyoshi Kiyokawa’s lab can benefit. Prof. Kiyokawa developed a drone to be used with VR to intercept a participant’s motion and provide tactile feedback via a carried plastic barrier. The limitation of this is in versatility, offering only one barrier shape. These two projects when combined, creates a mobile shape changing tactile system. However, the combination of these technologies creates new challenges (weight, stability, speed) that will need to be addressed throughout the research process.

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Faculty Supervisor:

Robert Teather

Student:

Partner:

Nara Institute of Science and Technology

Discipline:

Computer science

Sector:

Technology; New and Digital Media; Entertainment and Media

University:

Carleton University

Program:

Globalink Research Award

Automatic Classification of Normal and Dysphagic Swallows Based on the sEMG Signals

Swallow events classification is significant to improve the performance of swallow detection in digital health technologies. Our work consists of two major contributions: First, we perform data preprocessing techniques and transform the raw sEMG signals into feature vectors before using them to train an ML classifier. It is important for developing a data exploration project since preprocessing the data can often help with getting rid of the noise. Besides, properly optimized feature extraction is the key to effective model construction in machine learning. Second, we develop an ML swallow-detection algorithm to classify swallow events that can use algorithms like Artificial Neural Network (ANN), fuzzy classifier, Support Vector Machines (SVM), etc. Improving the accuracy of swallowing detection will lead to more robust digital health software systems to support patients who are experiencing swallowing disorders because of conditions like head and neck cancer, stroke or Parkinson’s Disease.

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Faculty Supervisor:

Linglong Kong

Student:

Partner:

True Angle Medical Technologies, Inc.

Discipline:

Mathematics

Sector:

Health and Related Sciences & Technology; Manufacturing

University:

University of Alberta

Program:

Accelerate

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