Day 19 Advent Calendar Autonomus Surface Vessels

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MATLAB Unboxed: A Journey with Marco

Che Figo

45 episodes

6 days ago

This podcast series that embarks on a deep dive into the world of MATLAB and its transformative power for engineers and scientists. I'm your host, Marco Roggero, and over the last 18 years, I've been both a student and a guide through the intricate labyrinths of MATLAB's capabilities, witnessing how it revolutionizes workflows across diverse disciplines.

Mathematics

Science

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All content for MATLAB Unboxed: A Journey with Marco is the property of Che Figo and is served directly from their servers with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.

Mathematics

Science

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Day 19 Advent Calendar Autonomus Surface Vessels

MATLAB Unboxed: A Journey with Marco

1 minute 59 seconds

8 months ago

Day 19 Advent Calendar Autonomus Surface Vessels

🎄 Welcome to Day 19 of the MATLAB Advent Calendar! 🎅 As we approach Christmas, I’m excited to showcase another innovative application of MATLAB and Simulink—Autonomous Surface Vessels (ASVs). These vessels are revolutionizing industries such as maritime transport, environmental monitoring, and offshore operations. Today, let’s explore how MATLAB and Simulink empower engineers to design, simulate, and test these sophisticated systems.

ASVs face unique challenges, from navigating through high-traffic areas to integrating multiple functional components seamlessly. To address these, MathWorks offers a robust platform for developing a digital twin—an integrated environment combining the ASV model, autonomy systems, and operational scenarios. This digital twin enables efficient testing and validation long before deployment. 🌟

Key components include the vessel platform with sensors like cameras, LiDAR, IMU, and GPS, as well as propulsion systems modeled using Simulink and Simscape. These tools allow engineers to simulate dynamics such as hydrodynamics, cross-flows, and payload effects with high fidelity. 🎁

🎇 Guidance, navigation, and control are further supported by features like sensor fusion algorithms, automated parameter tuning, and behavior planning using Stateflow. These capabilities ensure the ASV can navigate safely while adhering to maritime rules, such as COLREGs.

But that’s not all. The Cuboid simulation environment and integration with platforms like Unity and Unreal Engine offer rich, interactive scenarios for testing collision avoidance, risk assessment, and situational awareness. From simulating urban waterways to detecting objects using deep learning, these tools streamline the development of ASVs, ensuring they operate safely and efficiently in complex environments. 🎅

🎁 Why is this topic important? Autonomous Surface Vessels are transforming maritime industries by increasing safety, reducing human risk, and improving operational efficiency. They’re a vital step toward sustainable and intelligent ocean operations.

🎀 Explore more about ASV design and simulation on MATLAB Central, including contributions like Professor Thor Fossen’s Marine System Simulator. For deeper insights, don’t miss our upcoming ASV webinar on June 30th! 🎄

https://www.mathworks.com/help/sm/ug/mars_rover.html

Let’s continue unwrapping the potential of MATLAB and Simulink this holiday season. Happy holidays! ❄️

#MathWorks #MATLAB #Simulink #christmas #advent #ASV #AutonomousVessels #DigitalTwin #SensorFusion #MaritimeInnovation