Dolphins' Hunting Technique Inspires New Radar Device 79
minty3 writes "The twin inverted pulse radar (TWIPR) made by a team from the University of Southampton in England uses the same technique dolphins do to capture prey. Like dolphins, the device sends out two pulses in quick succession to cancel out background noise. The findings, published in the journal Proceedings of the Royal Society A: Mathematical and Physical Sciences, explained how the device resembles the way dolphins send out two pulses in quick succession to cancel out background noise."
They mysteries and wonder (Score:3, Interesting)
They mysteries and wonder of creation still have many secrets to reveal and lessons to instruct the attentive.
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Hmmm, looks like I need to find a spelling bee. ;D
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Hmmm, looks like I need to find a spelling bee. ;D
A babel fish should be able to sort it out so we hear what you mean not what you wrote :)
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A babel fish should be able to sort it out ... :-)
I prefer translator microbes [wikia.com] ... :-)
Re:The mysteries and wonders (Score:2)
"The mysteries and wonders of creation still have many secrets to reveal and lessons to instruct the attentive, as we slowly but inexorably destroy them".
Doppler Sonar, hurray! Best weaponize it asap.
http://suite101.com/a/ocean-pollution-a326713 [suite101.com]
Summary incorrect based on article (Score:5, Interesting)
I would be more interested in finding out if this is actually the technique dolphins use or do they do something different?
a 50 year old technique (Score:5, Informative)
I used to do something similar with unterminated co-ax cables for baseline subtraction. A box car integrator is short pulsewidth sampler. If one's baseline is large and fluctuating the traditional and expensive way to remove this is double pulse correlated subtraction. Which is nothing more that sampling things twice in succession and subtracting. Unfortunately that's not only expensive in terms of fast rececovery integrator hardware, but if you do it digitally it's got a small difference of large numbers problem as well. The clever way to do this is you don't terminate the coax on the integrator but rather extend the coax past it for a few feet, then leave it unterminated. The pulses thus fly past the integrator which can sample as usual, then 6 nanoseconds later an inverted reflection off the unterminated end pass the sampler in the opposite direction. Anything with fluctuation slower than 6 nanoseconds cancels out before the integrator can make the measurement. It's perfect and costs nothing. You dial in the timing with the coax length which is roughly a foot for every 2 nanoseconds.
Here they are doing this relying on the rephasing from the impedance mismatch of the reflecting object types being different. People who do FM lidar do something similar. It's an old old technique. probably dates back to the invention of coax.
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Where is +1, Hall of Fame?
There are also other ways to do some of this. (Score:5, Interesting)
One of the things described was comparing returns from a positive and a negative pulse, to detect the presence of rectification. Good idea, but...
There is another way to do that, which I believe is much more sensitive: Send the pulse on one frequency, listen for the return on a harmonic. Only nonlinear devices (mainly semiconductor junctions - constructed or accidental, like corroded metal joints) will produce the harmonic reflection.
This is how the "bury diodes in the drywall" bug works. The diode(s) sends a strong second harmonic reflection, essentially nothing else does. When the wall moves slightly, due to ambient sound it, varies the length of the transmitter-diode-receiver path, phase modulating the harmonic signal with the audio signal.
Because only change in phase matters, many diodes in the wall don't interfere with each other, but combine their randomly-phased reflections to make the wall more reflective (just like OFDM reception improving when you have multipath "interference").
"Illluminate" the building with a stable microwave carrier and listen to the second harmonic (shifted down) with an FM receiver - recovering the sound from the room adjacent to the diode-doped wall. Nothing to it.
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There is another way to do that, which I believe is much more sensitive: Send the pulse on one frequency, listen for the return on a harmonic.
That is a really clever idea, but if you are doing this at radar frequencies (for spatial resolution) wouldn't the harmonics be difficult to detect? Would the semiconductor junctions of the size used in current semiconductor devices be sufficiently efficient radiators at the harmonic frequency?
On the other hand, perhaps you don't need the spatial resolution of radar for the applications mentioned in the article.
I am not an EE, as is probably obvious.
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Piece of cake. Just pick a fundamental where the second harmonic is in a quiet frequency. Your second harmonic signal will stand out like a sore thumb.
It's also phase-coherent with your transmitter so you can use a synchronous demodulator to pick it out of a hell of a lot of noise, if there is noise. Phase-locked is as narrowband and accurately tuned as it gets: Your bandwidth is the sho
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There is another way to do that, which I believe is much more sensitive: Send the pulse on one frequency, listen for the return on a harmonic.
This is a follow-on to my earlier question, about the difficulty of receiving the harmonics of a radar-frequency interrogation pulse. If the pulse consisted of two distinct frequencies (or was transmitted in addition to a continuous illumination at a different frequency), would a diode or other nonlinear reflector generate a return signal at the beat frequency?
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That said I suspect dolphins mostly build a picture or even 3d model of the environment based on the perceived location of the reflections.
For example, say there is someone talking right in front of you, but you can still listen and aurally locate people who are talking further away behind that person. Even if the person in front is talking loudly, as long as he's not way too loud you can still detect the positi
Perception is everything, or so it appears to be (Score:2)
Human echolocation experient (Score:3)
[...] you could clap your hands (or click your tongue) and hear the location of the echoes in the room. With practice you can identify the rough shape of the room and even location of large objects.
I suggest the /.ers to try this experiment, it's fun.
Best results in the dark, during a quiet night so you won't hear much background noise, yet close your eyes.
Snap your fingers while walking slowly (short whistle also works).
If you do this walking down a corridor, then you will guess where are the doors, the coats hanging, the turns and crossing very easily.
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Following links to here [discovery.com] we find:
"As for the dolphin: while acting as an inspiration for the technology, Leighton and his team later discovered this was not how the animals' sonar worked. Dolphins also send out twin pulses, but theirs vary in amplitude, not polarity, h
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Now I know I'm going to have some weird dreams tonight trying to figure out how exactly dolphins perceive that!
Just so I'm clear... (Score:4, Funny)
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Re:Just so I'm clear... (Score:4, Funny)
How many pulses do dolphins and this radar send, and what purpose does that serve?
I'm sure it's all for a greater porpoise.
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How come there's no button for Score:-17, Bad Pun?
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luckily, /. has no way to punnish someone that way.
Re:Just so I'm clear... (Score:5, Funny)
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You may think I accidentally copied your joke*. The truth is we made the same joke twice, in quick succession, to get through background noise.
*(despite specifically looking through the replies to see if someone had already done it before I posted... how did I miss this?)
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But, sadly, background noise increased.
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Apparently not one ping only.
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Any good EE already knows this (Score:5, Informative)
http://en.wikipedia.org/wiki/Correlated_double_sampling
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beacuse we are talking about dolphins-- which send two pulses in quick sucession to cancel bakground noise-- is that it was posted twice, to avoid background noise
Near Zero Information in the article (Score:2)
I expected much more description of what the concept meant and how it worked.
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The radar "sends out two pulses in quick succession to cancel out background noise", like dolphins which "send out two pulses in quick succession to cancel out background noise".
I also think that sending out two pulses in quick succession may cancel out background noise.
*eyes rolling at 300 rpm*
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In this case the two pulses cancelled out the signal instead of the noise. Or the summariser is a relative of Foghorn Leghorn.
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You forgot the standard prefix to your comment, comrade:
"In Soviet Russia...."
So, no fish for you, bad dolphin... ;-)
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> I expected much more description of what the concept meant and how it worked.
Totally spit-balling but maybe it works like differential electrical signals. In short two signals inverted from each other, if there is any background noise it is canceled out when you subtract one signal from the other to get the desired waveform.
https://en.wikipedia.org/wiki/Differential_signaling [wikipedia.org]
Re:Near Zero Information in the article (Score:5, Informative)
Radar clutter suppression and target discrimination using twin inverted pulses [royalsocie...ishing.org]
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Quoting an absolute meaningless part of TFA doesn't help either.
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There's a bit of confusion over the meaning of background noise. In this example, it's not stray sound or RF, but reflections from things you don't care about. For dolphins, they're talking about air bubbles in the water. For this RADAR system, they're talking about brush and rubble. The idea of differential signalling does not apply here.
Basically, they're sending two pulses, shifted 180. They both bounce off the target, come back, and cancel each other out at the receiving antenna, yielding no respon
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If their second "click" is used as a reference signal, i.e., the signal itself, not its echo, it could be used not only to invert the first signal and filter out the noise, but also give information about the distance:
Depending on when the reflected echo comes in - delayed (and overlaid) - to the reference (second) signal it would also account for the distance of the target.
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It acts like a material discriminator, in that certain interesting materials, such as wires or micro-circuitry, invert only one of the reflections, so instead of cancelling each other out, they amplify.
The discussion of "twin inverted pulse sonar" clearly states that one signal is inverted from the other. So if only one signal gets inverted during reflection they aren't amplifying, they are canceling.
Seems more likely that "hard" objects cleanly invert both signals while "noisy" ones like bubbles or brush fuzz up both signals, essentially adding noise that the receiver can then subtract by subtracting the two signals. In which case this is classic differential signaling.
"As its name suggests, TWIPS uses
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No, it is a sonar-only one to the 2013 radar version.
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It's more clever than that. Here's a sonar explanation anyway:
http://resource.isvr.soton.ac.uk/FDAG/UAUA/RESEARCH/echolocation%20and%20bubbles/echolocation%20and%20bubbles%201.htm [soton.ac.uk]
It involves clutter (e.g. bubbles) having non-linear reflections (presumably because they're compressible), hence they have both even and odd harmonic reflections. Something from a harder object will have only odd harmonics. Adding the reflections from two pulses, one of which is inverted, will cancel the even harmonics of the clut
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There's a bit of confusion over the meaning of background noise. In this example, it's not stray sound or RF, but reflections from things you don't care about. For dolphins, they're talking about air bubbles in the water. .
That's because it is called clutter, the royal society article title Radar clutter suppression and target discrimination using twin inverted pulses I suspect minty3 did not RTFA or even has the slightest understanding of Radar, my theory is given more weight by the poor summary. He probably skimmed the 1st paragraph of one of the puff piece articles he linked to and called it good.
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Re:But does it... (Score:5, Funny)
Only if the device sends out two pulses in quick succession, which resembles the way dolphins send out two pulses in quick succession to cancel out background noise.
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The one time I do not have mod points.. which does not resemble the way dolphins send out two pulses in quick succession to cancel out background noise.
OMG I read the article... (Score:3)
Prior art (Score:1)
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Wonder if that's patentable since there's clearly prior art on nature then...
Easy, you just sequence the dolphins DNA and patent that.
hmmm (Score:2)
I wonder if the device sends out two pulses in quick succession to cancel out background noise?
Dolphins inspire new way of writting summary (Score:1)
Like dolphins, the device sends out two pulses in quick succession to cancel out background noise. The findings, published in the journal Proceedings of the Royal Society A: Mathematical and Physical Sciences, explained how the device resembles the way dolphins send out two pulses in quick succession to cancel out background noise."
Quickly copy and paste the same line twice then add crap in between to create echo chamber effects.
Not Patentable (Score:2)
Things like this need to be banned from the patent office as unpatentable due to prior art. This rule needs to be dealt out retroactively - should clear up a lot of the bad patents.
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Otherwise some patent troll will go after the dolphins. This may be the only way to kill the trolls - they can be cited for interfering with wildlife or something. Kind of like getting Al Capone on tax evasion, though if you ask me, Al's business model was more ethical than the trolls'. At least he delivered product.
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The main point is... (Score:2)
The results offer the possibility that buried catastrophe victims not carrying such tags might still be located by TWIPR
Think of how many more people could be quickly found in building rubble or IEDs found by battlefield personnel if the teams were using search dolphins. The military could even equip them with lasers to support combat operations with, unlike sharks, no need for night-vision goggles. Think of the real-world applications people.