UTIAS Seminar Series
ML for Automated Monitoring of Insects
Abstract: Biodiversity monitoring is crucial for tracking and counteracting adverse trends in population fluctuations due to climate change and other anthropogenic factors. While terrestrial animals have been a keen interest, insects are highly under-monitored due to their sheer complexity. This contrasts with the fact that nearly 90% of the described species on the planet are insects. […]
Renaissance of Phase
Lecture Hall, University of Toronto Institute for Aerospace StudiesAbstract: The phase or argument of a complex number is an important concept known to most of the university students in STEM. We will begin the talk by asking the following question: • What are the phases of a complex matrix? A novel answer to this question will then be followed by further questions: • What […]
Registration-based model reduction of parameterized PDEs with spatio-parameter adaptivity
Abstract: We present a nonlinear registration-based model reduction procedure for rapid and reliable solution of parameterized two-dimensional steady conservation laws. This class of problems is challenging for model reduction techniques due to the presence of nonlinear terms in the equations and also due to the presence of parameter-dependent sharp gradient regions that cannot be adequately represented […]
Sound sources in premixed flames
Lecture Hall, University of Toronto Institute for Aerospace StudiesAbstract: Lean premixed combustion is the desired combustion regime in industrial gas turbines. It results in a low level of NOX emissions due to operating at lower temperatures and facilitates better combustion efficiency. However, the main issue with operating gas turbines in this regime is thermoacoustic instability, commonly initiated by combustion-generated sound. This issue is […]
Physics-driven control of complex fluid flows
Lecture Hall, University of Toronto Institute for Aerospace StudiesAbstract: The ability to control fluid flow behaviors can lead to quiet, economical, and efficient systems in fluid mechanics and aerodynamics. Because of high dimensionality, strong nonlinearity, and complexity in fluid physics, the design of effective control strategies can be challenging. My research focuses on uncovering the underlying physics of complex fluid flows using the […]
Opportunities and Perspectives from the Aerospace Industry
Bio: Nimeesha Kuntawala is a Product Development Team Lead in the Flight Sciences directorate at Gulfstream Aerospace. She has been at Gulfstream for 7 years. She started at Gulfstream as a Technical Specialist in Aircraft Performance in 2016, helping to flight test and certify the G500 and G600. In 2019, she became the Group Head […]
A Variational Theory of Aero-hydrodynamics
A Variational Theory of Aero-hydrodynamics The Euler equation does not possess a unique solution for the flow over a two-dimensional object. This problem has serious repercussions in aerodynamics; it implies that the inviscid aero-hydrodynamic lift force over a two-dimensional object cannot be determined from first principles; a closure condition must be provided. The Kutta condition […]
Bayesian Sequential Optimal Experimental Design
Lecture Hall, University of Toronto Institute for Aerospace StudiesSpeaker: Xun Huan Date & time: Thursday, June 8th, 1pm Location: UTIAS Lecture Hall Title: Bayesian Sequential Optimal Experimental Design Abstract: Experiments are crucial for developing and refining models in engineering and science. When experiments are expensive, a careful design of these limited data-acquisition opportunities can be immensely beneficial. Optimal experimental design (OED) thus leverages […]
Dynamics of flow unsteadiness in high-speed double cones and cylinders
Lecture Hall, University of Toronto Institute for Aerospace StudiesDate and Time: July 7, 11 AM Venue: UTIAS Lecture Hall, AS 158 Abstract: External flows in the high-speed (compressible) regime with regions of flow separation often present rich fluid-dynamical features. An aspect of such flows that is particularly interesting is temporal unsteadiness, which is typically driven by interaction of shock waves with flow […]
Unique Dynamics of Reacting Systems Under Near Limit Conditions
Lecture Hall, University of Toronto Institute for Aerospace StudiesSpeaker: Prof. Tanvir Farouk Professor, Department of Mechanical Engineering, University of South Carolina Today’s energy technologies have been moving toward operating at near-limit conditions to achieve higher efficiency, lower emission, and fuel variability. Under these near limit conditions chemical kinetics and the thermo-fluid dynamics couple more distinctively in a reacting flow system. This talk discusses […]