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Algorithm helps robots avoid obstacles in their path

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Algorithm helps robots avoid obstacles in their path

“When robots take certain jobs, it’s a gift to humanity” – Hendrith Vanlon Smith Jr, CEO of Mayflower-Plymouth

If you’ve ever ordered a product from Amazon, chances are that a robot selected your purchase from a shelf, read the barcode and delivered it to the counter for packaging. Hopefully, it didn’t collide with a human worker on its journey or lost its way.

The odds of that happening have now shortened, with the University of South Australia researchers developing an algorithm to help robots avoid running into humans and other moving obstacles in their path.

UniSA mechatronics engineering lecturer Dr Habib Habibullah and colleagues have built a computer model that ensures mobile robots can recognise and avoid unexpected obstacles, finding the quickest and safest path to their destination.

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In a new paper published in the Journal of Field Robotics, Dr Habibullah describes how his team combined the best elements of existing algorithms to achieve a collision-free TurtleBot able to adjust its speed and steering angles.

“There are two types of path planning strategies for mobile robots, depending on whether they are being used in fixed environments or where they are encountering moving obstacles, such as humans or machines,” Dr Habibullah says.

“The first is fairly easy to program but the second is more challenging.”

There are several algorithms on the market trying to address the issue of robots colliding with moving objects, but none are foolproof.

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The UniSA researchers tested their model against two common online collision avoidance algorithms – Dynamic Window Approach (DWA) and Artificial Potential Field (APF) – and found theirs came up trumps.

In a series of simulations in nine different scenarios, they compared collision rates, the average time to destination and the average speed of the robot.

In every scenario, the UniSA-designed algorithm helped robots successfully navigate a path without any collisions. In comparison, the DWA model was only 66 per cent effective, colliding with objects in three of the nine simulations. The APF model was also collision-free but took more time to reach its destination.

Also Read: Madurai Hospital used robots to treat COVID patients

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“Our proposed method sometimes took a longer path, but it was faster and safer, avoiding all collisions.”

Dr Habibullah says their algorithm could be applied in many environments, including industrial warehouses where robots are commonly used, for robotic fruit picking, packing and pelletizing, and also for restaurant robots that deliver food from the kitchen to the table.

The UniSA-designed algorithm can direct the TurtleBot to stop, take a turn and even reverse direction if it encounters anything in its path.

“This could also be a potential solution for agricultural robots, for example, autonomous lawnmowers, ground robots for crop surveillance and autonomous weeding robots, where children, pets and other animals are often present,” Dr Habibullah says. (Newswise)

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Taazakhabar News Bureau
Taazakhabar News Bureau
Taazakhabar News Bureau is a team of seasoned journalists led by Neeraj Mahajan. Trusted by millions readers worldwide.

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