Swiss Technology Institute and a Dutch University collaborate on AI to detect plastic in oceans using satellite imagery

TL;DR:

  • Swiss and Dutch collaboration develops AI to detect ocean plastic via satellite imagery.
  • New technology aids systematic plastic waste removal using ships.
  • AI estimates the waste probability for each pixel in satellite images.
  • The AI tackles vast data volumes essential for precise pollution analysis.
  • Superior performance, even in challenging atmospheric conditions.
  • Plastic pollution crisis: 4.8 to 12.7 million tons of plastic enter oceans yearly since 2020.
  • Most plastic sinks or drifts to less accessible ocean depths (around 80 million tons).

Main AI News:

Artificial intelligence (AI) has emerged as a powerful tool in the battle against plastic pollution in our oceans. Developed through a collaborative effort between the Swiss Federal Institute of Technology in Lausanne and Wageningen University in the Netherlands, this groundbreaking technology is set to change the game when it comes to ridding our seas of plastic waste.

This innovative AI leverages satellite imagery to identify plastic debris in the vast expanse of the ocean. Each pixel in these satellite images is meticulously analyzed, and the AI provides estimates of the probability of the presence of plastic waste. What sets this technology apart is its ability to process the massive amounts of data involved in monitoring ocean pollution. While the accumulation of plastic in the sea is visible in Sentinel-2 satellite images from the European Space Agency, the sheer volume of data necessitates the assistance of AI.

What truly distinguishes this AI from its predecessors is its remarkable accuracy, even in challenging atmospheric conditions characterized by clouds and haze. This capability is of paramount importance, given that plastics often wash into open waters following rain showers, making them harder to detect.

The scale of the plastic pollution crisis is staggering. According to estimates from the World Wide Fund for Nature (WWF), between 4.8 to 12.7 million tons of plastic have infiltrated our oceans each year since 2020. Shockingly, only a small fraction of this plastic waste remains on the ocean’s surface. The majority is transported to deeper waters or settled on the seabed, rendering it nearly impossible to retrieve. Current estimates suggest that approximately 80 million tons of plastic waste have accumulated in these less accessible oceanic depths.

With this cutting-edge AI technology, there is newfound hope in the battle against plastic pollution in our oceans. By effectively identifying and tracking plastic waste, it paves the way for more targeted and efficient cleanup efforts. As we face the urgent need to protect our oceans and the countless species that call them home, AI proves itself to be a formidable ally in the fight to preserve our planet’s most precious resource.

Conclusion:

This AI innovation has the potential to significantly impact the market for ocean cleanup technologies and services. With its ability to enhance the efficiency and accuracy of plastic waste detection, it opens up opportunities for businesses to offer more targeted and effective cleanup solutions. As environmental concerns grow and regulations tighten, companies in this sector can leverage AI-driven capabilities to gain a competitive edge and contribute to the vital mission of preserving our oceans.

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