There is a story going around the internet about snake robots. Here is the wikipedia version:
Also, snakebots can be used by animal control officers to subdue rabid or invasive creatures. Raccoons, barn cats, and large rodents typically respond to the snakebot's presence with attacks upon which the snakebot will emit an electrical shock and paralyze the aggressor. (retrieved from: https://en.wikipedia.org/wiki/Snakebot)The sources, which include at least 1 academic journal article:
(http://ijetsr.com/images/short_pdf/1522048019_1217-1222-oucip927_ijetsr.pdf)
appear to be quoting each other. I can find no first hand experience stories or other evidence for this.
There are 3 claims here:
- "snakebots can be used by animal control officers"
Snake Robots are highly experimental and there may be only 10 in the world at the time of writing this - March 2019. They are not readily available to anyone except researchers and advanced hobbyists who build their own.
- "(pests) respond to the snakebot's presence with attacks"
If there is any truth in this then it would give snake robots an important pest control "lure" advantage. Therefore IMO it is worth finding out.
- "emit an electrical shock and paralyze the aggressor"
Electric shock is used in some commercially sold rat traps so this may work.
Focussing on (2), can a snake robot attract pest attention? If this is an instinct for some animals, would they still have it after many generations in NZ with no contact with snakes? I am a practical person so late at night on the 16 Mar 2019, I was out in the bush with my snake robot and equipment to try to find out.
In brief: The result is inconclusive. No predators attracted but I was only able to get the snake robot running alone for 10 minutes.
In brief: The result is inconclusive. No predators attracted but I was only able to get the snake robot running alone for 10 minutes.
Lots of problem-solving to get out there. It was a close decision to go ahead but it was good value as discovery of what the snake robot needs to do better.
Note - I am describing and naming products that worked well in this particular situation. I have no promo connection with their makers or sellers.
Where to put the Snake Robot?
I had access to a bush area north of Auckland. I found a dried up creek with a waterhole and I selected an earth bank above that as a good area. Later I got advice from a local farm manager who recommended the same place. I placed a "Trail Camera" there 2 weeks before the grand experiment and results from that showed possum activity. Here is the reconnaissance highlights video:
I had access to a bush area north of Auckland. I found a dried up creek with a waterhole and I selected an earth bank above that as a good area. Later I got advice from a local farm manager who recommended the same place. I placed a "Trail Camera" there 2 weeks before the grand experiment and results from that showed possum activity. Here is the reconnaissance highlights video:
Showing off the snake workings has been good value for public demos, but it will not do for out in the bush. I asked my daughters about hosiery and they recommended heavy opaque pantyhose. Well done! I can report that "Columbine 50 denier (heavy) opaque pantyhose Mocha small" that I bought from the Farmers Trading Company was good value for both flexibility and protection.
Monitoring Cameras
The "TechView 720P Outdoor Trail Camera" bought from "JayCar" - NZ 169.00 Cat.no: QC8041 - had a success rate of 19 out of 26 trigger events in 2 weeks, ie 73 percent which is better than I expected. I set up its timer to record from 6:30pm to 6:30am ie at night with a little evening and morning. The highlights video above is from this camera.
I bought and assembled an "Infra-Red Spotlight Kit" NZD 10.14 on special from "JayCar". Cat.no: KG9068. I modified it to run from a 5V powerbank through a boost module giving 9V. That needed use of 47 ohm resistors instead of the supplied 220 ohm. This gave me the opportunity to measure the efficiency of a boost module. Input is 5V x 1.1 A = 5.5W. Output running the 32 leds is 9V x 0.5A = 4.5 W. Efficiency = 4.5/5.5 = 0.82 (82 percent).
This "spotlight" did well at adding more infra red illumination, especially for the next item.
I dragged out an old Sony Handicam Video Camera of circa 2001 vintage. At that time Sony used CCD sensors which have good infra-red sensitivity and they had a "Nightshot" setting including an infra-red spotlight. Similar result to a trail camera but with the advantage of an optical zoom lens. I positioned myself 25m away and used this as my night vision to watch the test site.
SmartPhone as infrared monitoring camera?
In earlier trials at home I found 2 x smartphones that appeared to have some infrared sensitivity. This suggested the possibility of a wildlife monitoring camera with remote monitoring capability. However in these real bush conditions they were not sensitive enough. I have since tried finding and removing the "infra red cut filter" on an old phone but that only resulted in my breaking the camera. [UPDATE 30 Mar 2019 - tried this again on a Vodafone VFD-300 - found the infra-red-cut-filter in the back of the lens, broke it out and ... success - it is now an effective infra red camera. It has also gained increased sensitivity as a visible light camera although with false colours. New blog post about this:
http://hitechfromlotech.blogspot.com/2019/03/smartphone-vfd-300-as-infra-red-camera.html]
Needs remote control
I was watching from behind a large tree about 25m away from the snake. That was too far for remote control by bluetooth which was losing contact at only about 7m so I had the snake idling which gives a small "jiggle" movement. On the TODO list is to combine our open source software projects "XMSnakeRobot" and "XMRemoteRobot" to give long distance remote control over mobile data. As in run the snake robot and cameras from the farm house, which would get me well away from target animals which may want to avoid me. I have made good progress on that in the last week.
Snake Robot needs an external power supply for this experiment
The snake robot runs on internal model aircraft lithium batteries which give it independent untethered movement - this seems to be a rare capability for existing snake robots. Sessions are limited to about 45 min indoors."In the wild" it only ran 10 min before the back battery ran out - I think the tail hit some real life outdoor resistance like digging into the dirt. I did try running from a "powerbank" but the current draw had peaks that were too high, often triggering the powerbank cutout. On the TODO list is to try running from 2 x powerbanks which may work because the front and rear halves of this snake robot are powered separately.
Photos
Target area with trail camera:
Snake Robot setup as seen by the trail camera
"Oldie but a goodie" - old Sony Handicam has infrared "nightshot".
John Calder (author), with snake robot and important support equipment, navigating past cattle.
Update - 15 May 2023 - NASA is working on snake robots. They achieve movement with Archimedes screws. Excellent idea!
Hi John,
ReplyDeleteThis is Brian and I was the door salesman. We had an long and awesome chat before.
I found a youtube video which may help with your robot
https://www.youtube.com/watch?v=qevIIQHrJZg
Let me know what do you think
Brian Goh
Hi Brian,
DeleteThanks for the link. Great "Inflatable Vine Robot" idea here. I am trying to make robots that can move all of themselves around rather than having a fixed base station like this one. However thinking about the particular problem of pest control where a base station is OK, this Vine Robot is a good candidate for the "lure hypothesis" experiment.