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Automated Pool System Saves Swimmer
An anonymous reader writes "An automated swimmer tracking system installed in a pool in Wales has saved a young girl who just collapsed and sank to the bottom, by paging lifeguards when it could not detect her moving." This is the first time a UK swimmer has been saved by the £65,000 Poseidon system since it was installed in March of 2003.
Paging lifeguards is good as long as one is available.
Maybe in the future, a secondary (upper) tiles can be installed on the pool floor, and the system is able to pinpoint the victim and automatically raise enough tiles to push the victim out of the water.
Rock that crushes, Paper & Scissors that don't matter.
Save The Gogs!
That's wonderful news.
But
Obviously it worked in this case, but I would have thought the opposite approach would be safer - ie. compare images to picures of swimmers not in trouble and alert if there is no match.
With this existing system, if you drown in a way the system doesn't know about then you drown.
With the opposite system, if you swim in a way the system doesn't know about then the lifeguard gets a page, he has a quick check and presses the 'swimmer is okay' override button.
And why is image comparision even needed in this case? If an object of person size is on the bottom and not moving for more than X seconds (where X is some small number) then something is wrong.
Worth every cent.
Mastercard will love this one. Poseidon: 65k. Saving a young life: priceless. For everything else...you get the drill
Another link with video and more details. As the father of a two-year-old daughter, watching the girl sink to the bottom of the pool, completely motionless for a minute or so, and then be rescued invoked more emotion in me than I would have believed possible. I would say this one incident more than justified the $118,000 price tag.
The NSA: The only part of the US government that actually listens.
The editorial comment makes it sound like the 65,000 pounds was a waste of money, but I'm sure that, had the child died, the parents would have parted with that much to have her back.
Seriously, 65,000 pounds for a life ain't bad. Look at the Vioxx lawsuit...
http://www.aftenposten.no/nyheter/uriks/article110 6293.ece
Unfortunately only in Norwegian. but there are some pictures.
I think this coupled with an on-guard lifeguard is the way to go. One shouldn't replace the other. Where I go swimming, during free-swim, sometimes there's so many people in the pool its hard to make sense of anything. I can see where something like this would greatly enhance overall safety.
"Simplify, simplify, simplify!" Thoreau
This is the first time a UK swimmer has been saved by the £65,000 Poseidon system since it was installed in March of 2003.
Does this mean that the others weren't saved, or that that noone else came close to drowning?
Send email from the afterlife! Write your e-will at Dead Man's Switch.
"She just jumped into the water and drifted down to the bottom, as if she was going to sleep." That sounds extremely bizarre to me. How does a person just lose consciousness like that? Shock from cold water, maybe?
Unpleasantries.
In late 2006 they will Install Poseidon Vista, which makes the entire pool searchable, have an "aqua" interface and tranparant water. A new filtersing system is also planned, called PoseidonFS, but will probably come with service pack 1.
This guy describes to the school administrator about a complex method of educating students, but it seems like a good idea to get students to learn.
But, the Administrator looked at the price tag, and asked, is it really worth it, to spend all this money for education?
And the guy replied: "If it was MY child, yes!"
This shows that some things, no matter the price tag, can be justified to save a life or the education system.
Student Research and Development
It should be fairly easy to detect snoozy Wally-types, based on their immobile desk chair profiles.
Don't disappoint your bird dog. Go to the range.
.. pa-ra-bo-la, pa-ra-bo-la, 2 pi R, 2 pi R, where's your latus rectum, where's your latus rectum, 2 pi R
TFA says that it's deeper than usual, due to the diving boards, and that there were a lot of surface swimmers which obscure what's happening that deep.
Check out this gem (emphasis mine):
Francois Marmion, general manager of Vision IQ, which developed Poseidon, said: "It is virtually impossible for lifeguards to see everything that is happening in the pool all of the time, given the warm, noisy and crowded environment in which they work. "Thankfully she made a full recovery, but just a minute or so longer under the water and she would have suffered brain damage or died."
Does he think he's a doctor or what?
There is another kind of evil which we must fear most, and that is the indifference of good men. -- Boondock Saints
After all, she only had an 11% chance of survival, but Will Smith had a 40% chance.
Real_men_don't_need_spacebars.
That's all well and good re: the girl, but Wales has a far more serious problem:
Wales suffers from a lack of vowels. All the time you see signs like this:
LLWLLDLCNDLWLDLLWLDLLDWLDLWLC - 4 km
It's tragic to listen to Welsh mothers teaching their children traditional songs like ``Old MacDonald Had A Farm'' and lapsing into heart-rending silence when they get to the ``E I E I O'' bit.
If any of you have surplus vowels, please send them to your local VFW (Vowels For Wales) office.
nt!mcrsft!grgj (already sent mine in!) (the above concept courtesy of Dave Barry, some syndicate or other)
Underwater swimming cameras!
Linux Video Tutorial Project, Tutoring the masses.
The system is a good idea, but looking at the camera feed I can't help but think... why not just have one dedicated person (doesn't even have to be a lifeguard) watch the camera feed? No fancy technology needed...
Stop making that big FACE!
Justifies the entire cost of the system.
Sigs are for the weak.
Back-of-the-envelope:
100 systems installed, 65k pounds per system = 6.5M pounds.
Five lives saved (according to the article) = 1.3M pounds per life.
+: The systems are only recently installed, and have years of use yet, so should save many more. If they are 20% through their life-cycle, we can expect final cost around 260k pounds/life.
+?: Perhaps the system will allow cost savings through fewer lifeguards.
-: We're not 100% sure those people wouldn't have been saved anyway without the system.
-: I haven't accounted for running costs, just purchase cost.
It is at least in the ball-park of cost-per-life-saved for other safety expenditure such as on airlines and roads - and it will get cheaper. So we can expect these to become wide-spread in the next decade.
Quattuor res in hoc mundo sanctae sunt: libri, liberi, libertas et liberalitas.
> by paging lifeguards when it could not detect her moving.
Let's hope they never deploy this where I work!
Sheesh, evil *and* a jerk. -- Jade
Could have nets, less chance of pushing the drowning person aside than bringing them up.
XML is like violence. If it doesn't solve the problem, use more.
That is one heavy lifeguard! And usually the heavy ones prefer the bikinis :-
firstoff, nice to hear "IT saved a young life". are there any records of people making fun out of fooling that system?
free 880 megs file hosting - www.FTPZ.US - best
I'm happy to hear that the girl was not hurt and I'll be the first to throw out the corny "if it saves one life then it's worth the cost" However, we're speaking about a pool here, it's not as if the lifeguard has an entire beach to scan. At best the device sent the page seconds before the guard on duty would notice and at worst it encourages the guards to perhaps not be as diligent as they should be. "Excuse me my son appears to be drowning" "No fear ma'am the Hasslehoff 3000 is on the job"
http://images.thetimes.co.uk/TGD/picture/0,,224690 ,00.jpg1 ,00.jpg2 ,00.jpg3 ,00.jpg4 ,00.jpg5 ,00.jpg
http://images.thetimes.co.uk/TGD/picture/0,,22469
http://images.thetimes.co.uk/TGD/picture/0,,22469
http://images.thetimes.co.uk/TGD/picture/0,,22469
http://images.thetimes.co.uk/TGD/picture/0,,22469
http://images.thetimes.co.uk/TGD/picture/0,,22469
It would seem this gadget quite paid for itself by this one action, no other action need be performed by this unit for its lifespan to prove its worth.
On a dark note, possibly, if here in the US, it would have saved a hell of a lawsuit of wich th atty fees would probably sum that total.
But a life at 100k $ us...not bad...not to mention I am sure her and her family couldnt be more happy.....
"An automated swimmer tracking system installed in a pool in Wales allowed lifeguards to ban a man that was urinating in the pool"
then it would have been better to let her die, and settle out of court.
The fact that the system will send warning to the Lifeguard, opens up a whole area of lawsuits.
Kids will be kids, and will go motionless in the water, or there will be tons of false warnings. The game marco polo will have some issues, no doubt, and in the end, some kid may drown, and the lawyers will be all over both the company, lifguard, and the city/owner of the pool.
The article says 8 UK pools (one save). 100 pools worldwide for a total of 5 saves.
11.8M/5 = 2.25M per life, assuming all systems stop working today. That's a steep price - probably close to a jury award.
If you'll grant me 1000 total patrons per pool, I get about $118/patron for the system. Not too bad, quite honestly. The question is: would pool management feel that they could reduce lifeguards if they bought this system? That might reduce the overall effectiveness. The whole false send of security thing.
One thing that wan't mentioned is the loss rate at those pools. Have they missed any drownings in that time?
Is it just my observation, or are there way too many stupid people in the world?
People in Europe and the UK are worth about 1.000.000 Euro's, this is the smallest amount that this person will hand over as taxes to the country it lives in.
So apart from being great to save lifes, it is really an economical sound thing to do.
...but instead of underwater cameras the cameras should be placed in offices and the system should compare images of workers with a database of pictures of slackers. That way, the project I'm working on (which, coincidentally, is codenamed 'poseidon') might get completed on time.
Doesn't it make you feel good to know that our freedoms are protected by politicans, lawyers and journalists.
Where they do everything they possibly can to prevent you from actually being able to view the video unless you have a browser with and plugin they like.
Anyone got a link to the actual video itself?
They would call it an 'added safety feature' that doesn't gaurantee the safty of any person.
SWIM AT YOU OWN RISK. Minor MUST be accompanied by Adult.
The Kruger Dunning explains most post on
I know that there will soon be people chomping at the bit to mandate these things.
I did some calculations. There are 7.6 million residential pools in the US, and 832 drownings per year among children age 0-14. This number includes non-pool drownings, so the cost to save each child is actually higher than below. There are also a smaller number of adult deaths. Assuming a pool lasts for 20 years:
Cost per pool per year:
$100,000/20 = $5,000.
Cost per year, nationwide:
$5,000 * 7.6M = $38B
Cost per life saved:
$38B / 832 = $45.6M
The per capita Gross Domestic Product of the US is $40,100. At this rate, one person must work 1,140 years to save someone else's life. I realize that it's very chic to say you can't put a price on life, but if you don't, the entire population of the world will quickly be working full-time to do nothing but save lives.
It's a shame that logic always loses out to "Please, won't someone think about the children!"
Isn't that the popular general rule?
So out of all the money you earn each day you only keep $1 a day and you give the rest to charity? Or if you live in the US, I might rephrase and ask if you really only keep $9,827 of your annual salary and give the rest to charity?
I'm guessing you are either in high school or college and don't realize just how long it really takes to make $120,000.
I will not step foot into a pool that has this kind of system installed!
There is no reason for our municipal pools to be used as a tool for the government to spy on our swimming habits. This is ridiculous! I do not want government cameras watching me and my loved ones bathe. As father of 4 little girls, my first concern would be that these swim videos would be traded on the French black market.
I believe Thomas Jefferson put it best, "The man who has traded liberty for security will not get either."
With success. This is technology at its best.
"All great things are simple & expressed in a single word: freedom, justice, honor, duty, mercy, hope." --Churchill
http://download.poseidon-tech.com/Bangor/Film/
Username and password are both user1.
Every time the topic of "AI" comes up, there are a sizeable portion of the crowd who seems to think that AI "failed". This is an excellent example of AI at work, literally saving lives.
To all those who think that this isn't "AI", that's just because you're using "AI" to mean "stuff we haven't figured out how to teach a computer to do yet". If you use that barometer, it was AI yesterday, but won't be tomorrow!
If you'd asked anybody in 1950 if a computer system that can "monitor the trajectories of swimmers in the pool and to analyze, in real time, their activity" and "automatically identify suspicious situations, such as a person who is motionless underwater" was AI, they would have said yes -- and that it might not even be possible.
I remember hearing people say that when Linux had really made it, you'd know because you'd no longer hear about "Linux" so much -- it'd be assumed. Well, if anybody still thinks that AI is a "failure", this is a great example of why it hasn't: not only is it saving lives, but nobody thinks to even use the phrase "AI" any more.
If this were deployed in every pool, there would be competition, and with competition would be significantly reduced prices. Honestly, just a "bottom-of-the-pool cam" to every lifeguard, with an alarm for sections of the bottom that aren't changing but do have someone -- this would catch quite a bit, and be really cheap to implement.
You didn't take the math to its completion. Sure, if each of the 832 people has to pay for their own rescue, it's $45.6M per person (going by your math, which I have no reason to doubt).
/295M in the USA (according to Google) is about 16 cents per person per year. I'd say 16 cents is a bargain for a life-saving technology.
But one of the great things about living in a country is that you get to pool (no pun intended) the resources of everyone who lives there. So $45.6M
I think I understand your objection, in that if we buy every new technology we *may* end up paying "too much" and spend all of our money on mechanisms which are only going to save one or two people. But at what point is "too much" to save a life?
I completely agree in that, at some point, a line needs to be drawn. But it's ridiculous to say that "one person must work 1,140 years to save someone else's life" because that's not how our country works (or any, as far as I know). I'm not going to need to work for a thousand years for fire protection or the police department or public education for that matter because those are things that, as a society, we've decided get used enough to pool our resources to buy as a city/county/state/country.
A better argument might be "For $38 billion we could do XXX and save more lives." That I could get behind. I was even with your math for the first two calculations, as I expected you to simply say "for $38B we could save a million people from dying of AIDs" or some other life-saving expenditure. But talking about a 'per-person' cost of something that wouldn't be billed 'per person' seems unrealistic.
-Trillian
I used to live in Kinross in scotland, and the pool there has a section with a moveable floor.
It uses some sort of hydraulic arrangement to vary the pool depth, so it can do anything from a diving pool to a 6in deep baby pool.
It may not be fast enough in this situation, but i see no reason why it couldn't just push the pool floor all the way up until the unconcious individual is out of the water.
n/t
How about just watching your freaking kids using the freaking pool? What if pool owner installs this $100K+ system and it fails to react to a drowning kid? What if no one is available to rescue the kid? What if the potential rescuer is also a poor swimmer?
There are thousands of "what ifs" here. The point is, watch after your kids until they're smart enough to watch after themselves (about 20-21 years or so). This is coming from a person who had a severe trauma at 1.5 years of age due to parents not watching.
Spending hundred thousand dollars is not a reason to be careless enough to let your kid (or friend) drown in the pool.
I watched the poseidon video capture of the rescue, the alarm looks to have been sounded 11 seconds after the girl was unconscious. The lifeguard doesn't actually dive in until the 30th seconds. Where was the lifeguard for 19 seconds? Is this typical? Seems a little long for a lifeguard who should be right poolside to me.
I've been to lots of pool where the lifeguard were sitting at a desk reading and not watching the water or in some cases there stayed inside an office. Now most of these pools were lap pool where only 'hardcore' swimmers spend time, but still a pulled muscle in the deep end and even the best swimmer can go down.
On the other hand I've been to other pools, and worked at one with really good lifeguards. The pool I worked at had Ellis lifeguards and our training and expectations were a orders of magnitude higher that the traditional Red Cross lifeguards at most pools (sorry I have to shame any organization that tells you to treat someone for a neck injury before getting the person breathing). I doubt the girl in the article would have made it to the bottom at my pool. A good lifeguard can tell which swimmers can swim and which can't by watching them. Those that can't swim get watched more, and if they do something stupid, like jumping into the deep end, in seconds you'll know if their coming up or not.
I think that system like these will only decrease the number of good lifeguards hired and we will see more and more lifeguards sitting behind desk or in offices reading because "the computer is watching the kids". The £65,000 cost of the Poseidon system would have been better spend hiring more and better trained lifeguards and keeping them well trained.
RTFA, the British don't call it pool, they call it Billiards!
" This is the first time a UK swimmer has been saved by the £65,000 Poseidon system since it was installed in March of 2003"
Wireless devices espically ones that operate in 2.4ghz range do not work underwater. So if you drown and sink to the bottom of the pool no signal will get out. Thats why all underwater communication is either extremely low freq, tethered, or accoustic.
65k british pounds is about $110k US. The system has saved one life already. I'm sure that girl thinks it was worth the money as well as her parents. I do too.
If it worked once, it'll probably work again. It'll never replace lifeguards, but it certainly has shown it can be a valuable assistant.
Sounds like £65,000 well spent to me.
"And then I visited Wikipedia
"...by paging lifeguards when it could not detect her moving."
...by paging lifeguards when it could detect her not moving.
Shouldn't this read
If it could not detect her not moving, it would be pretty useless wouldn't it?
just FYI.
I heard once that drowning was a horrible way to die, but my personal experience of it from what I was later on told was a near-drowning event when I was a kid was, dare I say, pleasant and much like a dream. I was seeing cartoon characters in the depth that were smiling for me till someone 'saved' me and I was 'woken up' to my parents' panic. Maybe I wasn't drowning.
When I was a lifeguard, we made people, no matter how old or fit looking, do a several lap swim test, starting at the shallow end of course. No test, no going in the deep end. Had to call the cops a few times with (usually drunk/stoned) belligerent young males who insisted they could swim when they obviously couldn't. The women and kids were always OK with it though, never any trouble with them that I recall.
If something goes into the pool, it has motion, then if that area stops having motion for more than 10 seconds, send an alert.
Try the program "motion" http://motion.sf.net/
It draws a lined box around the motion just like their $60,000 system does.
It wouldn't be hard to then add a little code that watches that area for non motion. It's all open source so it's easily modified and the hard part of detecting motion is already done for you.
In the pool situation, as long as objects keep moving then there's no alert.
The camera would have to be mounted completely stable so the background never changes or moves. The "motion" program has a mask file feature so you can mask off areas that you don't want to detect, like possibly the top part of the pool water.
The "motion" program project would probably appreciate the code addition. It's a great program for home security cameras and Linux makes the whole thing cheap, automated by scripts and stable.
You could do this for the price of a PC or two.
How long can you hold your breath at the bottom of the pool? Long enough to trigger the alarm?
What if this system, rather than letting someone die (which is the unfortunate, but natural consequence of drowning), what if, the system merely gave enough warning to save the child to the point of a permanent vegetative state? How does that figure into your calculations?
This issue is a bit more complicated than you think.
Shouldn't the headline read: "Automated Pool System Saves NON-Swimmer"?
One thing I enjoy doing, in my pool is sitting on the bottom all alone and staring at the sky. With my weight belt I can do it for slightly more than a minute, but for that minute I am wonderfully relaxed, and I can think about nothing but holding my breath. I bet doing this would play hell with the system.
I used to have a cool sig, back when I cared
Just a note to those who posted something to the effect of "lifeguards should be paying attention"
I was working for a rec department that had a drowning, it was their first in 19 years. I was friends with the guard on the stand, I knew the other guards, I heard everyone's story individually. 11 kids aged 5-11 from a daycare jumped into 5 feet of water, 10 came up. It took about 60 seconds for the guard to see through all the splashing and yelling, then another 30 or so to actually get to the spot, grab the kid, and come up for air. In that amount of time the kid had stopped breathing. Paramedics arrived on scene, worked the kid for 20 minutes, he was pronounced dead in the ER
As a guard with 6 years experience and now an EMT, I honestly believe that the guards at that pool did everything right. They were watching the water, activated the emergency plan, cleared the pool, pulled the kid out, and started CPR. The child still died.
I don't know if this system is worth it's cost, but it certainly is a valuable tool and one that can certainly help lifeguards on the stand. Simply saying "the lifeguard should be paying attention" doesn't acknowledge the realities of a busy pool.
-Galen in NC, USA
I can exhale a bit, enough to sink to the bottom of a pool and then sit there for a minute or two. There's always a bit of residual air in your lungs to work from...
Yes I've done it before, just for fun. I can't swim at all well so I find it relaxing to just sit at the bottom of a pool (on the very rare occasions I even go in one).
I would easily be able to set off this alarm (though I wouldn't want to on purpose).
"There is more worth loving than we have strength to love." - Brian Jay Stanley
At $120,000 a pop, it's probably not worth it. What is the operational life of the system? How much does it cost to maintain? How many of the systems will actually save a life?
Like it or not, life DOES have a monetary value. If we only save one life per $10 million spent, that's probably not worth it (as we could save many more lives spending $10 million elsewhere.) The FAA values a life at about 2.3 million dollars - and only mandates changes where the cost of changes is less than 2.3 million dollars times lives expected to be saved.
The reality of life is that if we're all going to have MEANINGFUL lives, some of us are just going to have to die sometimes.
paintball
very well done though, yay technology.
happy
I was imagining some kind of grille covering the floor of the pool, that hydraulically rises to surface level whenever it detects a drowner.
That's why we have this thing called society. Shared responsibility. Social contract. But then you're probably 12, so we can't expect you to understand that yet.
65K sterling is peanuts in a public sector budget.
I have some excellent Flaming Space Meatball insurance to sell you. Only $40K, and that's peanuts in a public sector budget -- imagine the horrors of lacking coverage and then being attacked by a Flaming Space Meatball!
Any program relying on (nontrivial) preemptive multithreading will be buggy.
to validate this sort of a system — Advanced Class scheduled August 25, 2005 from 8:00 PM to 9:40 PM Location: Princeton Unprepared Party Scrabble; 65,000 is a small price to pay for a child's life and it's not likely to be the last.
They might actually start watching the fucking pool. What, was this girl invisible or something? Was the water opaque?
You know, a lot more people die each year in cars than pools.
Try and convince people that speed governors on cars restricting them to the speed limit would be worthwhile, and they will kick and scream until the end of time. But when it to dropping a hundred thousand bucks on every pool out there in the hopes that some kid will try breathing water in it...well *that* is entirely worth it.
Any program relying on (nontrivial) preemptive multithreading will be buggy.
If you're gonna do that math, you should also give some other examples of what we could do with the $0.16/year/person this costs.
I have to say, as a non-pool owning, non-kid having, it bothers me that you just go ahead and bundle me in amongst the people paying for this thing. At the very least, it would seem to me that only people who have pools should have to pay for saving kids who fall in them. That way, it's part of the cost of buying a pool, something that should be taken into account when pricing one.
All in all, I have to figure this system, if produced in the volumes required to cover every pool in the US would cost a lot less than $100,000, thus making a lot of this math invalid.
http://lkml.org/lkml/2005/8/20/95
Seriously, how hard would it be to design something for around US$1,000. All you need is a camera, a clever embedded system, and some water proofing.
To make it EXTRA easy to install, perhaps a wireless interface from the underwater portion to an above-ground processing system. That way a municipal council can just glue it onto the side of a wall, and not have to drain the pool to install it.
A couple of kids at uni should research this, hell if the competition is #65,000 then getting the price down to something reasonable will a)make money and b)be a positive contribution to society.
You're sure about your math (let alone that apostrophe)?
It just can't be true, at least in current Euros. If the average tax rate is 50%, and a person works on average 40 years, then that means the AVERAGE person in the EU makes 50,000 Euro per year?
That's pretty far out of line with my understanding. I would have to imagine it'd be perhaps closer to 30,000 Euro on average.
http://lkml.org/lkml/2005/8/20/95
This is the cost of the monitoring system only. You have to have a person there within a few minutes to save them. So that means this system only works if you have lifeguards on duty.
Houses don't always have lifeguards on duty, which is part of the reason their pools are so dangerous.
So you need to add the cost of a full-time lifeguard for each pool, or close to it. And once you've done that, you probably don't need the computer monitoring, because a life guard is unlikely to miss a person falling into a home pool, which is probably only 40 feet by 20 feet.
http://lkml.org/lkml/2005/8/20/95
According to the article, the lifeguard can't always see beneath the surface due to the glare. Instead of paying some company £65,000 for an automated system, why not have a volunteer or the lifeguard monitor a few underwater video cameras. In this case it was the underwater camera that caught what happened. Humans are much better at analyzing moving imagery anyway. The only problem with human is that we are error prone. Giving the lifeguards monitors would also allow them to watch for shenanegans going on beneath the surface.
$120K may not be the price of a "possibloe" loss of life, but if there are two pools in town, and one has the system and one doesn't, the other pool may need to buy one to save their business.
For public pools, if citizens want one, they get it and pay for it. Maybe the next mayor or councillor will promise it just before election to show that they care more than the current bunch in power.
blog.sam.liddicott.com
If this serves as an excuse for parents to not watch their kids, there will be more harm than good.
If you have air in your lungs, you probably wouldn't be sat 12 foot under the surface - unless you have a weight belt of course.
And the people shall be oppressed, every one by another, and every one by his neighbour Isaiah 3:5
This is the 4th person being saved by the system. So far the system hasn't missed anybody drowning. There is about 1-4 false positive per day per pool (which is acceptable according to lifeguards).
The system is very quick, reacts in about 10s. It essentially works by finding and tracking everybody underwater in the pools. It knows the 3D location of all swimmers, and reacts if someone is underwater and motionless for a few seconds. Poseidon/VisionIQ did a lot of innovative research in 3D tracking which has been published and patented over the last 10 years or so. Some of the people working at that company are among the smartest I know.
Poseidon is a small company and as it is they barely break even. The system is not just clever software, but lots of cameras and a fast computer system. The installation is not easy as all cameras have to be calibrated for the specific 3D architecture of the pool. The cost may look steep but really is isn't that much compared with the normal cost of the pool maintenance, as it is essentially a one-off cost.
At a large public pool apparently someone can be expected to drown every other year or so in spite of lifeguards presence. Poseidon can make a difference. It cannot replace lifeguards as someone trained has to do the rescues, it is just an alert system.
In 2004 in the UK a person drowned in a pool which had rejected the Poseidon system. The next day the paper's outline were "Person drowns for want of 65,000 Pounds".
For all the Linux afficionados out there, last I heard Poseidon ran on Windows NT 4.0.
For all the naysayers out there, when Poseidon started no one thought they had a business, but they single-handedly created their own market. We can now expect competitors to show up. As most trailblazers Poseidon might be bought out in the future by some big security company spinoff or something. We can also expect the system's cost to come down somewhat in the future, and hopefully to be more prevalent.
Nevertheless I'd be very proud to have been associated with a small outfit who has measurably saved people's lives. Very few endeavours succeed in that regard.
Best.
Maybe simple underwater cameras could have the same effect. Put a monitor out by the lifeguarding stand, and let the lifeguard(s) keep an eye on that. Perhaps it's not as novel an idea, but the cost difference could be enough to make them common place in public pools. One of the scuba shops in my area had cameras mounted under plexiglass windows in the pool, so patrons in the store could watch classes in session. Although I never worked as a lifeguard at a public pool, I was certified. And as a scuba instructor I ran snorkeling tours off a boat. I had to deal with distressed swimmers on a regular basis, but fortunately I never had to deal with an unconscous person in the water. Even with that background, if I glanced at a monitor and saw anything like the picture posted in the article, I'd be in the water in a heartbeat.
Was the water opaque?
Effectively, yes. If you RTFA you'd know that the sun shine on the pool made it hard to see below the surface. Also the other kids splashing around made it even harder to see *and* the pool is over 12feet deep.
Perhaps someone will even build an Open Source Poseidon and you will just have the hardware cost: a few cameras, a PC, and installation cost: $5,000 tops.
This sig is just as redundant as the rest of this posting
because it's a French invention.
They seem to have cracked the problem of getting computers to understand scenery, which we are still trying to solve. Of course, we want to use computers to drive autonomous soldiers, while the French want to use them to save lives. That really says something about those frog wimps, don't it?
Perhaps we should just take over this company, and rename it 'Freedom Vision' or something?
This was at a large private pool run by a condo association. You recognized the residents fairly soon after working there, they only needed to be tested once. After that, not too many new people, and when they came in (friends of the residents), they would usually have been told they needed the swim test.
now the teenbopper lifeguards can flirt more and pay even less attention to their jobs.
The false positive problem is certainly an important one, as is a method to alert others in the vacinity that there is a problem. As firefighters we carry a device called PASS, which, when we aren't active does several things: 1) after 30 seconds of inactivity it sounds an alert tone, at low volume, for about five seconds. 2) After the five second low-volume tone, it increases volume to an obnoxious level for another five seconds. 3) After the second five-second alert it goes hog wild until it is manually silenced.
We get lots of false positives with this system on the fire ground, because much of the time of people not in the building fighting the fire is spent standing around. This is especially true for the RIT or FAST team - a separate team of firefighters that is standing by outside the structure and waiting to execute an entry and effect a rescue within five seconds of a "mayday" going over the radio, or hearing someone's PASS alert going off inside the structure.
In firefighting the PASS alarm is useful because we can tell which way to go to find the injured, unconscious, or trapped firefighter or team. Unfortunately such systems don't work so well in water, because the speed of sound is much faster (water is more dense than air), so your ears are unable to distinguish direction, except with extended training (tens to hundreds of hours of underwater time).
The good news about such a system is that the lifeguards, like the RIT or FAST teams, get used to false positives, and learn to evaluate situations quickly to figure out what's going on.
In addition, such a situation can be further improved if only one lifeguard is initially responsible for the monitoring of the system and evaluating alarms, at least for ten seconds or so.
On the question of how long you have when you drown, AED (that's automated external defibrilator) companies have researched this topic extensively. For a non-trauma-induced cardiac arrest (drowning is included in this category), you have an approximately 90% probability of survival if defibrilation is conducted within one minute of arrest. The probability of survival goes down by roughly ten percent per minute after that (the curve isn't linear, though). In addition, we have found that after about four minutes even in victims that are effectively converted, the quality of their outcomes are significantly diminished.
So what about CPR? CPR in the vast majority of cases (approaching 99%), is not sufficient intervention to convert a cardiac arrest. In fact, it is believed that in the cases where CPR alone was successful in converting an arrest, that the victim was not arresting, and the report was wrong, based on various enzyme and other chemical levels in the bloodstream. CPR buys time, it flattens out the conversion curve, so that defibrilation and IV intervention can improve both the probability of survival and the quality of the outcome.
Friends help you move. Real friends help you move bodies.
Never forget: 2 + 2 = 5 for extremely large values of 2.
I can vouch for that from personal experience. Years back, when I was a child, we used to go to a pool a mile or two down the road from our house. There was a set of stairs on one side and to the left of it was the shallow end and on the right, it started sharply declining. I hadn't learned to swim yet, but I was Ok as long as I was in the shallow end. Well, I got confused one day and jumped off on the right side. Luckily, it was shallow enough still that I could push off of the bottom and just barely reach air. Still, I remember how scary it was because it took pushing off as hard as I could to get up there and there just wasn't enough time to gulp air and still cry out for help. Luckily, someone spotted my flailing (a friend of the family nearby) and helped pull me out. In retrospect, I should have been pushing towards the side of the pool, but I was, of course, kind of panicked at the time.
This sig has absolutely no significance and serves only to take up screen space and waste the time of the reader.
Reason - really, really bad math.
Assuming the grandparent's figures are correct, the cost per year, nation-wide, is $38B. The cost per life saved is $45.6M. So, $38B/295M is $128.81 per person per year for the opportunity to save 832 children per year. That's a little more significant than $0.16.
That would also be about 100M subscriptions to save a kid in Africa, if the comparison matters to you.
Sure I'm paranoid, but am I paranoid enough?
It was the pervert operating the camera that saved her life!
Naturally, some group of concerned citizens has spoken out that this is "proof" that these systems should be mandatory...
Genius is one percent inspiration and 99 percent perspiration, which is why engineers sometimes smell really bad.
A larger market means other companies are going to invent similar safety devices.
Yeah, twenty years later.
Ever seen someone that is prone to fainting? I mean, really bad where it can happen any time without warning?
I can tell you it's scary as hell, and can be as instantaneous as if someone flipped a switch to turn 'em off. The person could be walking around quite normally, then with no warning they crumple to the floor like a rag doll.
There was a girl in my Master's course that was afflicted with this. The first time I saw it I thought she'd had a heart attack or something. Thankfully, she was always OK (so long as she wasn't on stairs or anything when it happened). We'd put her in a recovery position and she'd come round after a minute or so.
Do you really rate our lives as being worth so little?
If 100 dollars will vaccinate 100 people in developing countries, preventing them from dying young from disease, then it would be reasonable to claim that each life saved is worth one dollar.
Mod parent up, good article, thanks!
having a camera underwater is a great idea
but if you can't monitor your water
you have too many people in it
The whole point of the article is that there was NOONE operating the camera. The computer did it all by itself. You know - an automatic system. Or don't you have sophisticated machinery where you come from?