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Author: Tronserve admin

Wednesday 28th July 2021 12:23 PM

Sensitive Whiskers Could Make Small Drones Safer


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Animals of all models and sizes have whiskers of some sort. Cats and dogs and rodents have them. Seals have them too. Some birds have them, as do insects and fish. Whiskers have presented up across such a diversity of animals because they’re an efficient and effective strategy of short range sensing. Besides just being able to detect objects that they come into straight contact with, whiskers can also sense fluid flows (like the speed and direction of moving air or water), and they work even if it’s dark or foggy or smoky.

 

While we’ve seen some research on whiskers before—I’m sure you consider the utterly adorable ShrewBot—there hasn’t been too much emphasis on adding whiskers to robots, likely because lidar and cameras offer more useful data at longer ranges. And that’s totally fine, if you can afford the lidar or the computing necessary to make adequate use of cameras. For very small, very cheap drones, investing in sophisticated sensing and computing may not make sense, especially if you’re only interested in simple behaviors like not crashing into stuff.

 

At ICRA last month, Pauline Pounds from the University of Queensland in Brisbane, Australia, demonstrated a new whisker sensing system for drones. The whiskers are tiny, cheap, and sensitive enough to notice air pressure from objects even before they make physical contact.

 

The whisker fibers themselves are easy to fabricate—they’re just blobs of ABS plastic that are heated up and then drawn out into long thin fibers like taffy. The length and thickness of the whiskers can be modulated by altering the temperature and draw speed. The ABS blob at the base of each whisker is glued to a 3D-printed load plate, which is in turn linked to a triangular arrangement of force pads (actually encapsulated MEMS barometers). The force pads can be fabricated in bulk, so it’s straightforward to make a whole bunch of whiskers at once through a process that’s easy to automate. The materials cost of a four-whisker array is about US $20, and the weight is just over 1.5 grams.

 

As you can see in the video, the whisker array is surprisingly sensitive: It can detect forces as low as 3.33 micronewtons, meaning that the researchers had to be vigilant not to stand too tight to the whiskers while making measurements since the force of their breathing would throw things off. This sensitivity allows the whiskers to detect the wave of air generated by objects moving towards them, perhaps not in time for the drone to actually stop, but certainly in time for it to take other steps to protect itself, like cutting power to its motors. The whiskers can also be applied to measure fluid flow (a proxy for velocity through the air), and of course, at slow speeds they work as contact sensors.

 

While the focus of this research has been on whiskers for microdrone applications, it sounds like these could be fantastic sensors for a wide variety of robots, and specifically for cheap robots. Any small robots that operate in environments that are dark, dusty, or smoky could leverage these sensors to keep from running into things where far more expensive cameras and lidar systems would struggle. But for now, the University of Queensland researchers are focused on aerial applications, with the next steps being to mount whisker arrays on real drones to see how they perform.



This article is originally posted on manufacturingtomorrow.com


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Posted on : Wednesday 28th July 2021 12:23 PM

Sensitive Whiskers Could Make Small Drones Safer


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Posted by  Tronserve admin
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Animals of all models and sizes have whiskers of some sort. Cats and dogs and rodents have them. Seals have them too. Some birds have them, as do insects and fish. Whiskers have presented up across such a diversity of animals because they’re an efficient and effective strategy of short range sensing. Besides just being able to detect objects that they come into straight contact with, whiskers can also sense fluid flows (like the speed and direction of moving air or water), and they work even if it’s dark or foggy or smoky.

 

While we’ve seen some research on whiskers before—I’m sure you consider the utterly adorable ShrewBot—there hasn’t been too much emphasis on adding whiskers to robots, likely because lidar and cameras offer more useful data at longer ranges. And that’s totally fine, if you can afford the lidar or the computing necessary to make adequate use of cameras. For very small, very cheap drones, investing in sophisticated sensing and computing may not make sense, especially if you’re only interested in simple behaviors like not crashing into stuff.

 

At ICRA last month, Pauline Pounds from the University of Queensland in Brisbane, Australia, demonstrated a new whisker sensing system for drones. The whiskers are tiny, cheap, and sensitive enough to notice air pressure from objects even before they make physical contact.

 

The whisker fibers themselves are easy to fabricate—they’re just blobs of ABS plastic that are heated up and then drawn out into long thin fibers like taffy. The length and thickness of the whiskers can be modulated by altering the temperature and draw speed. The ABS blob at the base of each whisker is glued to a 3D-printed load plate, which is in turn linked to a triangular arrangement of force pads (actually encapsulated MEMS barometers). The force pads can be fabricated in bulk, so it’s straightforward to make a whole bunch of whiskers at once through a process that’s easy to automate. The materials cost of a four-whisker array is about US $20, and the weight is just over 1.5 grams.

 

As you can see in the video, the whisker array is surprisingly sensitive: It can detect forces as low as 3.33 micronewtons, meaning that the researchers had to be vigilant not to stand too tight to the whiskers while making measurements since the force of their breathing would throw things off. This sensitivity allows the whiskers to detect the wave of air generated by objects moving towards them, perhaps not in time for the drone to actually stop, but certainly in time for it to take other steps to protect itself, like cutting power to its motors. The whiskers can also be applied to measure fluid flow (a proxy for velocity through the air), and of course, at slow speeds they work as contact sensors.

 

While the focus of this research has been on whiskers for microdrone applications, it sounds like these could be fantastic sensors for a wide variety of robots, and specifically for cheap robots. Any small robots that operate in environments that are dark, dusty, or smoky could leverage these sensors to keep from running into things where far more expensive cameras and lidar systems would struggle. But for now, the University of Queensland researchers are focused on aerial applications, with the next steps being to mount whisker arrays on real drones to see how they perform.



This article is originally posted on manufacturingtomorrow.com

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sensitive whiskers drone shrewbot