Technology advances have touched almost every industry and process — even those under the seas. Today, experts have robots helping oceans through satellite systems, low-cost sensors, big data and more.

6 Ways Robotics Can Help Protect Our Oceans
6 Ways Robotics Can Help Protect Our Oceans

Kayla Matthews | Productivity Bytes

Technology advances have touched almost every industry and process — even those under the seas. Today, experts have robots helping oceans through satellite systems, low-cost sensors, big data and more. 

Whether it's analyzing areas with excessive plastic build-up or re-introducing certain species to reefs, oceans could experience a cleaner and safer future with the help of robots. 

Here are six ways robotics can help protect our oceans in 2020 and beyond. 

 

1. Improve Ship Fuel Efficiency

Every year, boats produce 1,000 megatons of greenhouse gas emissions. However, plotting more fuel-efficient routes can cut reduce this number and help ships conserve fuel use. 

Open Ocean Robotics created boats equipped with sensors, cameras and communication devices to capture information from anywhere in the ocean. They use power from the sun and wind to travel for months without producing any of their own emissions. As the boats continuously collect data, they use satellite and communication systems to send information to users in real-time. 

This process offers precise data related to weather conditions and forecasts. People can then use this information to optimize ship routes that cut fuel costs and reduce greenhouse gases. 

 

2. Carry Out Environmental Monitoring

Sometimes, it's challenging to monitor what's going on at the seafloor. Biomimetic ocean robotics is changing that, as these machines cruise the ocean on surveillance missions. For example, robotic crabs collect new data on the seabed, and robo-jellyfish can monitor what's going on with specific environments. 

The Korea Research Institute of Ships and Ocean Engineering designed a 1,400-pound autonomous crab that can reach an underwater depth of 656 feet. It doesn't stir up clouds of silt and debris, such as propeller-driven remotely operated underwater vehicles (ROVs). The crab also has a doppler radar-based navigation system so that it can feel around in murky conditions. With its several cameras, including a tillable color HD camera, it can zoom in on essential objects and species to see what's happening at the deepest depths.

 

3. Improve Wastewater Treatment 

Ocean robotics are proving useful for the wastewater treatment industry. As part of a RoBi-X partnership, Aarhus Band and Blue Ocean Robotics are looking at ways to use robot technology to improve the work environment, productivity and resource use at wastewater treatment plants. Water purification is also crucial, as wastewater gets discharged into lakes and the sea. Robots can ensure treatment plants increase their capacity while releasing clean fluids. 

Biobot Analytics created small robotic devices that provide data on wastewater and entire regions' health. Around the size of carry-on luggage, these machines offer data on illnesses, chemical exposure, viruses, contaminants in food and more. It's also a useful tool for tracking prescription and illicit drug use in communities. 

 

4. Help the Great Barrier Reef

The Great Barrier Reef has large, damaged sections, and robots help restore baby corals on the damaged areas. A LarvalBoat is a robotic device that disperses coral babies back into the reef. The process involves collecting millions of coral eggs and sperm from the reef, then growing them in floating nursery pool systems. 

So far, the robot has settled millions of coral babies back onto the Great Barrier Reef, and scientists have already noticed coral polyps growing. Eventually, the project could restore reefs worldwide and speed up the recovery of entire ecosystems. 

 

5. Remove Garbage

Society is catching up with the plea to reduce plastic usage, but robots are also helping oceans and pollution reduction. Engineering students have created a semi-autonomous robot named FRED that cleans up trash in the sea. It's solar-powered, too, so it doesn't introduce any additional greenhouse gas emissions. 

FRED works by using a collection conveyer belt to pick up floating debris. Once its bins are full of plastic, it will head back to shore to offload the collected trash. FRED also has sensors and pingers designed to ensure it stays away from marine life during the process. 

 

6. Stop Illegal Fishing

Illegal fishing is a global problem that threatens marine ecosystems, creates food insecurity and causes major human rights violations. 

Ocean robotics can fight unlawful acts, however, by going on long, unmanned missions. For example, Liquid Robotics® created the Wave Glider®, a robot that swam 2,808 nautical miles to Hawaii after working in the UK. 

It works by using sensors in remote marine locations, which open up expanses of the ocean that were once inaccessible or too expensive to send ships to. Big data from the robots, plus satellite imagery and artificial intelligence (AI), can pinpoint where illegal fishing may occur, allowing officials to stop it. 

 

Advances in Robotics Will Continue to Help the Oceans

Robots are already protecting the sea, from improving ship efficiency to removing patches of garbage. However, this technology's only in its infancy — will continue to advance. As it does, so will the bots' eco-friendly capabilities. 

 
The content & opinions in this article are the author’s and do not necessarily represent the views of RoboticsTomorrow
Kayla Mathews - Contributing Author

Kayla Mathews - Contributing Author

Matthews is a tech journalist and writer, whose work has appeared on websites such as VentureBeat, The Week, VICE's Motherboard and Inc.com. She is also a senior writer at MakeUseOf and the owner of ProductivityBytes.com.

Other Articles

5 More Ways Robots Keep People Safe
Robots may have been accused of stealing jobs, but they're actually doing more than most people realize to keep workers safe as they go about their daily tasks. Let's take a closer look at five more ways that robots are helping to accomplish this.
The Evolution of Robotic Sight and Machine Vision Systems
Robotic sight and machine vision systems can help our automata pick up on visual cues that we humans would probably miss or ignore, and they can deliver considerable value to companies that adopt them. Here’s a look at where the technology has been and where it’s headed.
5 Ways Robotics Are Benefiting the Water Industry
Robots are getting more advanced, and as the technology improves, industries find more ways to use it. The water industry is no exception. Here are five ways robotics innovations are helping it.
More about Kayla Mathews - Contributing Author

Comments (0)

This post does not have any comments. Be the first to leave a comment below.


Post A Comment

You must be logged in before you can post a comment. Login now.

Featured Product

BitFlow Introduces 6th Generation Camera Link Frame Grabber: The Axion

BitFlow Introduces 6th Generation Camera Link Frame Grabber: The Axion

BitFlow has offered a Camera Link frame grabbers for almost 15 years. This latest offering, our 6th generation combines the power of CoaXPress with the requirements of Camera Link 2.0. Enabling a single or two camera system to operate at up to 850 MB/S per camera, the Axion-CL family is the best choice for CL frame grabber. Like the Cyton-CXP frame grabber, the Axion-CL leverages features such as the new StreamSync system, a highly optimized DMA engine, and expanded I/O capabilities that provide unprecedented flexibility in routing. There are two options available; Axion 1xE & Axion 2xE. The Axion 1xE is compatible with one base, medium, full or 80-bit camera offering PoCL, Power over Camera Link, on both connectors. The Axion 2xE is compatible with two base, medium, full or 80-bit cameras offering PoCL on both connectors for both cameras. The Axion-CL is a culmination of the continuous improvements and updates BitFlow has made to Camera Link frame grabbers.