diff --git a/README.md b/README.md index eae7723a..f3e79f13 100644 --- a/README.md +++ b/README.md @@ -84,7 +84,7 @@ _By participating, you have the opportunity to **win up to $1000**. Visit this *
Use large language models in MATLAB to extract insights from central bank policy documents.
Impact: Harness AI to revolutionize financial text analysis and unlock deeper insights from real-world monetary policy documents.
Expertise gained: Artificial Intelligence, Computational Finance, Natural Language Processing, Text Analytics, Neural Networks
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Expertise gained: Wireless Communication, Artificial Intelligence, Deep Learning, Image Processing, Machine Learning, Neural Networks, Software-defined Radio
Industry partner:
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Develop a Physics Informed Neural Network (PINN) for fluid flow simulation.
Impact: Transform fluid dynamics with neural networks driving impactful innovations across industries.
Expertise gained: Artificial Intelligence, Deep Learning, Modeling and Simulation, Neural Networks
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Develop a CO2 detection algorithm using hyperspectral images and visualize the results geospatially.
Impact: Enable precise CO2 monitoring for effective climate action.
Expertise gained: Sustainability and Renewable Energy, Image Processing, Machine Learning, Signal Processing
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Design a control system for a multi axis solar tracker.
Impact: Maximize solar irradiance to increase renewable energy production.
-Expertise gained: Sustainability and Renewable Energy, Control, Modeling and Simulation, Solar Panels
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+Expertise gained: Sustainability and Renewable Energy, Control, Modeling and Simulation, Solar Panels
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Develop a cone detection algorithm for Formula Student Driverless competition.
Impact: Enable accurate detection for autonomous racing cars.
-Expertise gained: Autonomous Vehicles, Computer Vision, Deep Learning, Modeling and Simulation
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+Expertise gained: Autonomous Vehicles, Computer Vision, Deep Learning, Modeling and Simulation
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Develop a path planning algorithm for multiple drones flying in an urban environment.
Impact: Contribute to advancing drone applications in UAM and revolutionizing the logistic industry.
-Expertise gained: Autonomous Vehicles, Drones, Robotics, Multi-agent System, Optimization, Sensor Fusion and Tracking, UAV, Modeling and Simulation
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+Expertise gained: Autonomous Vehicles, Drones, Robotics, Multi-agent System, Optimization, Sensor Fusion and Tracking, UAV, Modeling and Simulation
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Develop a Model-Predictive Control algorithm to optimally distribute torque in a 2-motor Battery Electric Vehicle (BEV) powertrain.
Impact: Reduce energy consumption while maintaining best motor performance.
-Expertise gained: Sustainability and Renewable Energy, Automotive, Control, Electrification, Modeling and Simulation
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+Expertise gained: Sustainability and Renewable Energy, Automotive, Control, Electrification, Modeling and Simulation
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Use the Deep Image Prior to solve inverse problems in imaging.
Impact: Implement the Deep Image Prior to provide high-quality solutions to inverse problems in imaging that are ubiquitous in industry.
-Expertise gained: Artificial Intelligence, Computer Vision, Deep Learning, Image Processing, Machine Learning, Neural Networks, Optimization, Signal Processing
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+Expertise gained: Artificial Intelligence, Computer Vision, Deep Learning, Image Processing, Machine Learning, Neural Networks, Optimization, Signal Processing
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Develop a hearing aid simulation in Simulink.
Impact: Improve hearing aid simulation and create a testbed for new audio processing algorithm prototyping.
-Expertise gained: Signal Processing, Audio, Modeling and Simulation
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+Expertise gained: Signal Processing, Audio, Modeling and Simulation
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Design and train a deep learning model to compose music.
Impact: Generative music models can be used to create new assets on demand.
-Expertise gained: Artificial Intelligence, Deep Learning, Machine Learning, Neural Networks, Audio
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+Expertise gained: Artificial Intelligence, Deep Learning, Machine Learning, Neural Networks, Audio
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a CO2 emission model from historical data and create a plan to achieve carbon neutrality in the future.
Impact: Set up a strategy for carbon neutrality and consolidate the international collaboration.
-Expertise gained: Computational Finance, Sustainability and Renewable Energy, Modeling and Simulation, Machine Learning
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+Expertise gained: Computational Finance, Sustainability and Renewable Energy, Modeling and Simulation, Machine Learning
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Develop a predictive classifier model able to discriminate jets produced by top quark decays from the background jets
Impact: Reduce the interference of background jets and help the discovery of new fundamental physics
-Expertise gained: Artificial Intelligence, Big Data, Deep Learning, Physics
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+Expertise gained: Artificial Intelligence, Big Data, Deep Learning, Physics
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Perform early-stage economic feasibility of an energy project to determine project viability.
Impact: Connect economic aspect to technical design.
-Expertise gained: Sustainability and Renewable Energy, Modeling and Simulation, Electrification
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+Expertise gained: Sustainability and Renewable Energy, Modeling and Simulation, Electrification
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Develop a sensor fusion algorithm for vehicle pose estimation using classical filtering or AI-based techniques.
Impact: Enhance navigation accuracy of autonomous vehicles.
Expertise gained: Autonomous Vehicles, Sensor Fusion and Tracking, State Estimation
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Use Deep Learning and Inertial Measurement Units (IMU) data to recognize human activities and gestures.
Impact: Enable the next generation of wearable electronic devices with motion recognition.
-Expertise gained: Artificial Intelligence, Deep Learning, Embedded AI, Neural Networks, Signal Processing
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+Expertise gained: Artificial Intelligence, Deep Learning, Embedded AI, Neural Networks, Signal Processing
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Remove vibration signals from inertial measurement units.
Impact: Improve navigation systems by making them robust against vibrations.
-Expertise gained: Drones, Autonomous Vehicles, Robotics, Modeling and Simulation, Sensor Fusion and Tracking, State Estimation, Signal Processing
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+Expertise gained: Drones, Autonomous Vehicles, Robotics, Modeling and Simulation, Sensor Fusion and Tracking, State Estimation, Signal Processing
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Design a controller to enable a micro aerial vehicle to stabilize in the scenario of an external aggressive disturbance.
Impact: Contribute to advancements in aerial vehicle control in contracted spaces with unforeseen environment conditions.
Expertise gained: Autonomous Vehicles, Drones, Robotics, Aerospace, Low-cost Hardware, Modeling and Simulation, State Estimation, UAV, Control
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Develop an example that predicts and visualizes coastline impact due to rising sea levels.
Impact: Assess and plan for the potential impact of climate change.
Expertise gained: Sustainability and Renewable Energy, Modeling and Simulation
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Develop a tool to identify and visualize geographical areas susceptible to landslides.
Impact: Identify areas that are at risk for landslides to help mitigate devastating impacts on people and infrastructure.
-Expertise gained: Sustainability and Renewable Energy, Machine Learning
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+Expertise gained: Sustainability and Renewable Energy, Machine Learning
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Model satellites in Low Earth Orbit (LEO) to identify conjunctions and prevent collisions with space debris, while maintaining orbital requirements.
Impact: Contribute to the success of satellite mega-constellations and improve the safety of the Low Earth Orbit (LEO) environment.
-Expertise gained: Autonomous Vehicles, Control, Satellite, Modeling and Simulation
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+Expertise gained: Autonomous Vehicles, Control, Satellite, Modeling and Simulation
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your own cryptocurrency trading strategies based on sentiment analysis.
Impact: Have a foundation on the potential opportunities on Environmental, Social, and Governance (ESG) portfolio analysis.
-Expertise gained: Artificial Intelligence, Deep Learning, Machine Learning, Text Analytics
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+Expertise gained: Artificial Intelligence, Deep Learning, Machine Learning, Text Analytics
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Model and control an autonomous snake-like robot to navigate an unknown environment.
Impact: Advance robotics design for hazardous environments inspection and operation in constricted spaces.
Expertise gained: Robotics, Manipulators, Modeling and Simulation
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Analyze real-world traffic data to understand, model, and predict human driving trajectories.
Impact: Contribute to autonomous driving technologies and intelligent transportation research.
Expertise gained: Big Data, Autonomous Vehicles, Support Vector Machines, Machine Learning, Deep Learning, Automotive
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Automatically classify behavior of tracked objects to enhance the safety of autonomous systems.
Impact: Make autonomous vehicles safer by classifying behaviors of objects around them.
-Expertise gained: Artificial Intelligence, Autonomous Vehicles, Robotics, Drones, Deep Learning, Explainable AI, Machine Learning, Mobile Robots, Neural Networks, Reinforcement Learning, Sensor Fusion and Tracking, UAV, UGV, Automotive
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+Expertise gained: Artificial Intelligence, Autonomous Vehicles, Robotics, Drones, Deep Learning, Explainable AI, Machine Learning, Mobile Robots, Neural Networks, Reinforcement Learning, Sensor Fusion and Tracking, UAV, UGV, Automotive
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Develop a smart plant water system using Internet of Things (IoT) and low-cost hardware.
Impact: Minimize the negative effects of the overuse of water in farming and preserve water resources.
-Expertise gained: Sustainability and Renewable Energy, Artificial Intelligence, IoT, Low-Cost Hardware, Deep Learning, Cloud Computing
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+Expertise gained: Sustainability and Renewable Energy, Artificial Intelligence, IoT, Low-Cost Hardware, Deep Learning, Cloud Computing
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Design a portable charger for Electric Vehicles.
Impact: Help make electric vehicles more reliable for general use.
Expertise gained: Sustainability and Renewable Energy, Control, Electrification, Modeling and Simulation
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Design and implement a real time autonomous human tracking robot using low-cost hardware.
Impact: Leverage mobile technology and deep learning to advance human detection algorithms for impacting human safety and security.
Expertise gained: Artificial Intelligence, Computer Vision, Robotics, Deep Learning, Embedded AI, Human-Robot Interaction, Mobile Robots, Modeling and Simulation, Machine Learning, Low-cost Hardware, Image Processing, Control
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Perform robust visual SLAM using MATLAB Mobile sensor streaming.
Impact: Enable visual SLAM from streaming sensors and extend the state-of-art in real-time visual SLAM algorithms.
-Expertise gained: Autonomous Vehicles, Computer Vision, Drones, Robotics, Automotive, AUV, Mobile Robots, Manipulators, Humanoid, UAV, UGV
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+Expertise gained: Autonomous Vehicles, Computer Vision, Drones, Robotics, Automotive, AUV, Mobile Robots, Manipulators, Humanoid, UAV, UGV
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Develop an efficient method for detecting small changes on Earth surface using hyperspectral images.
Impact: Revolutionize the management of natural resources, monitoring, and preventing of disasters, going beyond what is visible to the naked eye.
-Expertise gained: Computer Vision, Image Processing, Deep Learning
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+Expertise gained: Computer Vision, Image Processing, Deep Learning
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Design and implement a motion planning algorithm for off-road vehicles on rough terrain.
Impact: Expand the frontiers of off-road exploration and navigation using mobile robots for precision agriculture, firefighting, search and rescue, and planetary exploration.
Expertise gained: Autonomous Vehicles, Computer Vision, Robotics, Image Processing, Mobile Robots, SLAM, UGV, Optimization
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Develop an algorithm to compute an optimal path for racing tracks.
Impact: Push racing car competitions into fully autonomous mode
Expertise gained: Autonomous Vehicles, Automotive, Optimization, Modeling and Simulation
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Develop a model of a reversible fuel-cell integrated into a renewable-energy microgrid structure.
Impact: Contribute to the global transition to zero-emission energy sources through the production of hydrogen from clean sources.
-Expertise gained: Sustainability and Renewable Energy, Electrification, Digital Twins, Modeling and Simulation
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+Expertise gained: Sustainability and Renewable Energy, Electrification, Digital Twins, Modeling and Simulation
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Implement algorithms to automatically label data for deep learning model training.
Impact: Accelerate the development of robust AI algorithms for self-driving vehicles.
-Expertise gained: Artificial Intelligence, Computer Vision, Deep Learning, Machine Learning
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+Expertise gained: Artificial Intelligence, Computer Vision, Deep Learning, Machine Learning
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Leverage a deep learning approach to extract behavioral models of mixed-signal systems from measurement data and circuit simulation.
Impact: Accelerate mixed-signal design and analysis thereby reducing Time-To-Market for semiconductor companies.
Expertise gained: Artificial Intelligence, Deep Learning, Machine Learning, Modeling and Simulation, Neural Networks, RF and Mixed Signal, Optimization, Signal Processing
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Improve the reliability of wind turbines by using machine learning to inform a predictive maintenance model.
Impact: Contribute to providing the world with reliable green energy.
-Expertise gained: Industry 4.0, Sustainability and Renewable Energy, Machine Learning, Electrification, Modeling and Simulation, Predictive Maintenance, Wind Turbines
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+Expertise gained: Industry 4.0, Sustainability and Renewable Energy, Machine Learning, Electrification, Modeling and Simulation, Predictive Maintenance, Wind Turbines
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Model a modern HVAC system and design a controller to improve heating, cooling, ventilation, air quality, pressure, humidity, and energy efficiency.
Impact: Contribute to the design and control of modern homes and buildings to preserve energy and healthy living environments.
-Expertise gained: Sustainability and Renewable Energy, Modeling and Simulation, Electrification, Control
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+Expertise gained: Sustainability and Renewable Energy, Modeling and Simulation, Electrification, Control
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Improve range, performance, and battery life by designing a cooling algorithm that keep EV battery packs cool when they need it most.
Impact: Contribute to the electrification of transport worldwide. Increase the range, performance, and battery life of EVs.
-Expertise gained: Autonomous Vehicles, Sustainability and Renewable Energy, Automotive, Control, Electrification, Modeling and Simulation, Optimization
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+Expertise gained: Autonomous Vehicles, Sustainability and Renewable Energy, Automotive, Control, Electrification, Modeling and Simulation, Optimization
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Develop a deep learning neural network for audio background noise suppression.
Impact: Advance hearing aid technology through research in speech enhancement and noise suppression and improve the quality of life of persons with a hearing impairment.
Expertise gained: Artificial Intelligence, Deep Learning, Neural Networks, Signal Processing
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Automate the process of infrastructure inspection using \ aerial vehicles and deep learning.
Impact: Enhance safety and speed of infrastructure inspection across a wide range of industries.
Expertise gained: Computer Vision, Drones, Artificial Intelligence, Robotics, UAV, SLAM, Deep Learning
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Design a 3D virtual environment to test the diverse conditions needed to develop an autonomous vehicle.
Impact: Contribute to autonomous vehicle development by creating virtual test scenes that can be used with many simulators across multiple vehicle development programs.
-Expertise gained: Autonomous Vehicles, Automotive, Modeling and Simulation
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+Expertise gained: Autonomous Vehicles, Automotive, Modeling and Simulation
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Design an intelligent fan cooling system to moderate temperatures in a building to eliminate or reduce the need for air conditioning systems.
Impact: Contribute to energy and carbon footprint reduction.
-Expertise gained: Sustainability and Renewable Energy, Control, Modeling and Simulation, Optimization
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+Expertise gained: Sustainability and Renewable Energy, Control, Modeling and Simulation, Optimization
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Reduce the cost of Wireless Communication and IoT network deployment by generating coverage maps from limited measurements.
Impact: Contribute to the evolution and deployment of new wireless communications systems.
Expertise gained: Artificial Intelligence, Wireless Communication, Machine Learning
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Reduce the effort required to properly develop a battery pack optimized for an automotive drive cycle.
Impact: Contribute to the global transition to zero-emission energy source.
-Expertise gained: Sustainability and Renewable Energy, Control, Electrification, Optimization, Parallel Computing
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+Expertise gained: Sustainability and Renewable Energy, Control, Electrification, Optimization, Parallel Computing
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Internal combustion engines will continue to be used in the automotive marketplace well into the future. Build a MIMO airflow control to improve engine performances, fuel economy, and emissions, and start your career in the automotive industry!
Impact: Improve environmental friendliness of engine control by tier 1 automotive supplier.
Expertise gained: Autonomous Vehicles, Automotive, Control, Modeling and Simulation
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Smart devices and robots have become part of our everyday life and human-robot interaction plays a crucial role in this rapidly expanding market. Talking to a machine is going to complete change the way we work with robots.
Impact: Open up the opportunities to create robots that can be an intuitive part of our world.
Expertise gained: Artificial Intelligence, Computer Vision, Robotics, Signal Processing, Natural Language Processing, Mobile Robots, Human-Robot Interaction, Low-Cost Hardware
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Legged robots with manipulators will be the ideal platforms to traverse rough terrains and interact with the environment. Are you ready to tackle the challenge of operating robots outdoor?
Impact: Contribute to state-of-the-art technologies for exploration and search and rescue transformation.
Expertise gained: Robotics, Control, Image Processing, Manipulators, Mobile Robots, Modeling and Simulation
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Revolutionize the current transportation system by improving autonomous vehicles localization for level 5 automation.
Impact: Contribute to the change of automobile industry, and transportation system.
-Expertise gained: Computer Vision, Robotics, Autonomous Vehicles, SLAM, State Estimation, Sensor Fusion and Tracking
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+Expertise gained: Computer Vision, Robotics, Autonomous Vehicles, SLAM, State Estimation, Sensor Fusion and Tracking
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