The Evolution Of The Cost-Effective TrainCam 324
It took me a few seconds to set up the little camera and immediately, my comically slow little trains which, when travelling at maximum speed, could easily be passed by a heavily-burdened pedestrian, began to look almost life-like. On my television screen I saw Amtrak engine 231 chugging toward me as I have so often at St-Albans station in northern Vermont. Following it were two streamlined phase III passenger cars and each, in turn, went around the corner as if on a real track.
Around the same time, I was able to move my track onto a 3'x5' desk, using blue-tack adhesive as a temporary track-bed.
The camera idea was working well. I felt like I was standing beside the tracks and the noise of the miniature train cars rumbling along the desk through the camera's microphone sounded nearly realistic, but there was something missing.
When I was in grade 3, the last train came to my home-town, a simple 20 car freight train hauling a giant transformer. I went to watch with my father as it waited for clearance to leave the station. Beyond the station, the tracks had already been lifted and sold to be reprocessed as razor blades. Standing on the platform looking intently at the train paid off, though, when every youngster's dream came true and the engineer invited me up into the engine while he waited, showing me all the controls and explaining how he needed someone to come up by car to tell him he could leave because we were out of radio range. Looking out the front of the train, I could see the tracks ahead and the elaborate set-up of switches, bells, signal lights, and level crossing signals.
I wanted to recreate that feeling with my simple model train and inexpensive wireless camera. It became my obsession to build a self-contained traincam that could record the tracks as it came and went, possibly even towed by one engine, recording another, giving a movie feeling. But I wanted to do something unique - I wanted to do it so I could publish basic steps for building one, and I wanted to make the whole thing as inexpensive as possible.
My first step was to figure out what rail-car to convert into my traincam. I decided that a dummy engine base with its large truck protruding would be ideal. The truck would allow the camera to better follow the angle of the track rather than the angle of the car. But the camera was too big. The eye itself is slightly wider than the car, and it had a base, battery box, and transmitter to contend with as well. Using a hacksaw and a variety of other tools not usually associated with delicate electronics, I disassembled the camera and extracted its motherboard, transmitter, and eye without damaging any of the wires or circuits. Using my favourite adhesive - blue-tack - (second, perhaps, to duct tape), I attached the camera eye to the front truck of the dummy engine, put the motherboard in the middle, supported it with two hair-elastics, and attached the transmitter to the rear truck. The camera's power source was a battery pack nearly three times the width of the track which had 4 AA batteries and a small circuit board. The power was sent to the camera via wires separated with a plug, and the wires added up to more than 6 feet in length.
Unperturbed, I took an old caboose, took part of the top off, and stuffed it full of wires. Next, I used a flatbed which had been part of my older brother's set at my grandparents' place when we were young and, again using blue-tack, attached the oversized battery pack to its surface.
But all this led to a problem. If you've ever driven a car with a trailer, you know that reversing with a trailer is far more difficult than reversing without a trailer. If you add a second trailer, the vehicle becomes four times as hard to steer in reverse, and if you add a third trailer, the car becomes 16 times harder to reverse. On a train track, the problem is reduced by the metal guides which the cars are forced to follow, but any abrupt movement by an engine pushing three unbalanced cars attached together by stiff wires is very likely to cause a derailment. So the camera could only be pulled, and I found myself spending a good deal of time watching where I had been rather than where I was going, defeating the purpose of the entire exercise - namely to feel like I was watching out the front of a train.
To solve the problem I would need to do what I had originally set out to do - build the entire camera system into no more than one rail-car, and there had to be one more condition: the car could not exceed the length of an 85 foot car, in order to ensure that it could be run on nearly any HO gauge set-up. It also could not exceed the height of an auto-carrier excess-height car (anything less would not have been possible with the size of the transmitter) so it could run on any track with reasonable tunnel and bridge heights. The answer was a 74' Northern Pacific observation passenger car, made by Athearn, because that company's cars' covers detach from the base, giving me more room to work.
There was still one more problem, though. The battery pack was too big to fit in anything short of a garden train, and it had a circuit board inside it, whose purpose I had not yet determined. My first thought was to put four AA batteries inside the car and attach them to a plug of the same type as that on the camera, but the circuit board stopped me.
Using a voltagemeter, it became apparent that the circuit board was a voltage multiplier, which increased the batteries' 6 volts to 24 volts. This gave me five options:
- build my own circuit board with the same function
- use a second car and fill it with 16 AA batteries
- use 2 12V remote-control batteries
- disassemble the battery pack and use its circuit board
- run the camera off the track's power
Option 1 - building my own circuit board - was out of the question. I had neither the necessary experience nor the know-how to build my own voltage multiplier.
Option 2 - using a second car to hold loads of batteries - had some appeal to it; a model rail-car weighing that much would not derail if it was rammed by a real one, but the cost of 16 batteries and the extra space needed seemed prohibitive. Besides, I explicitly wanted to limit this project to a single car.
Option 3 - using two small 12-volt remote-control batteries - was a good idea. The logic seemed OK to me. I knew that two 12V batteries would cost me about $14 to replace and that they would have a shorter life-span than multiple AA batteries, but they were tiny and left lots of extra room in the car for the motherboard, wiring, camera, and transmitter.
Option 4 - disassembling the existing battery pack for its circuit board - was also a good idea, but I was concerned that I might damage the board while extracting it.
Option 5 - running the camera off of track power - sounded like the best idea. With nickel metal hydride or lithium ion rechargeable batteries (the type used in laptops), I thought that I could possibly keep enough charge to run the camera when the tracks were off, and have it constantly recharge when the tracks were on. But the problem lay in the fact that the camera ran at 24V and the track ran at between (-15V) and 15V, a circuitry nightmare for someone without the knowledge to build a simple multiplier.
I settled on option 3, which involved purchasing two small 12-volt batteries, and, believing I had solved all my design problems, took the cover off my observation car and began adding the camera, its motherboard, and transmitter. The camera fit nicely at one end of the car, but the motherboard and transmitter were too tall and could not be left like that. Realising that the car would probably be heavy enough with the camera, I took the ballast weights out of the bottom of the car, and the motherboard fit very well into to centre, where the base is lower than elsewhere. The transmitter also fit, though it exceeded the height of an auto-carrier excess-height car by a fraction of an inch. Everything up until this point was being held down with blue-tack.
Putting the motherboard in the centre allowed a tiny selector switch on it to be accessible from the side holding the camera. The switch allowed for choosing which channel the camera would use within the 2.4GHz band, and in turn would allow 4 different cameras of this type to operate in the same area at the same time.
In order to use the top of the car, I had to cut most of an inch off the front of the cover to allow room for the camera, and cut off the observation window and a strip of plastic most of the way to the opposite end of the car from the camera, where the motherboard and transmitter would be allowed to protrude, as well as a large un-train-like power switch. For power, I used a single AA battery holder cut in half and glued to the base with the two halves separated to be a little bit longer than it was originally intended. Then I added the two 12V batteries, put the cover on the car, and turned on the switch.
On my television screen was a nice view of the tracks looking forward from my traincam. I attached an engine to the back of it and turned the engine on, pushing the camera. It worked perfectly. My very own traincam was going happily around my miniature, undecorated set-up. I was excited.
I mentioned earlier that 12V batteries would probably have a shorter life span than multiple AA batteries, and as it happens, I was right. As the camera approached the end of its first lap, the television screen went fuzzy and then turned to blue. The batteries had lasted a total journey of nearly 14 feet in 15 seconds. My heart sank. My traincam would not make it around the first bend of any respectable set-up before running out of juice, so it was back to my list of options.
The logical thing to do with the failure of the 12V batteries was to go with option 4: disassemble my existing battery pack and remove its circuit board. That sounded nice in theory, but the inside of the traincam had very little room left, certainly not enough room to hold four AA batteries let alone a small circuit board and additional wires associated with another board.
In spite of myself, I disassembled the battery pack, carefully removing the circuit board with a large pair of pliers in a manner reminiscent of the way junk-yards recover engines from discarded vehicles. Having extracted the board, I cut the wire leaving the battery pack at the plug and I finally had my power solution -- with one problem. I still had to fit 4 AA batteries in the confined space of a one-inch wide train car with the added challenge of making them easy to replace without having to disassemble anything. In the true spirit of ruthless destructiveness, I carefully cut away a huge section of the frame and was able to fit four batteries between the camera and the motherboard, using the cut-away piece of frame as a battery cover. I then cut the wires to the glued-down base of the 12V battery holder and rewired the train to have an extra circuit board in its place, capable of multiplying 6V to 24V.
Having tested all the wires before reassembling the case, I was confident that the camera would work flawlessly and, using model cement, I glued the cover onto the base, covering all the circuitry and leaving only the batteries exposed. Using blue-tack, I attached the removed section of cover over the batteries and was amused by the yellow stripe on the side of the car being no longer quite so straight.
On to the next step: the test.
I turned the camera on, expecting to see the track show up on my television screen.
Instead, a visible spark, and a blue screen lacking only the familiar message "Fatal error" greeted me.
Removing the cover with the glue half-dried was an experience in itself, and when I finally did manage to get the traincam open, I found that the circuit board from the battery pack's negative wire, which I hadn't insulated, had made contact with the camera's motherboard, resulting in a short circuit and an unwelcome interruption in service. With a little electrical tape for the short circuit and all other exposed wires, it was time to add more glue and test the camera once again.
I attached the camera to a U.S. Army engine and turned the transformer on. The camera car very smoothly allowed itself to be pushed rapidly around the track. Holding my breath, I turned the camera on and let it go around the track once again. On my television screen I saw the tracks zip by, and the batteries even lasted for a while.
The next morning I turned the camera on, and it had no life. Some quick tests with the voltagemeter revealed that something had drained my batteries during the night. I'd have to disassemble it and figure out what was draining the batteries in my sleep.
I decided I would use the opportunity to add lighting to the camera. In the dark, such as in a tunnel or simply in an unlit room, there was no image. With the help of a lighting kit, which consists of 2 small lightbulbs and some wires, I affixed a light bulb on either side of the camera lens.
This created a new problem, however, as the camera was too big for the lights. I would have to disassemble the camera head, too, and that meant cutting, stripping, and reattaching some extremely fine wires. Meanwhile my battery draining problem was forgotten.
I removed the screws holding the wheel truck in place under the camera and fed the wires for one of the lights down through the tiny hole. One of my lights, I decided, would be track powered. The other light would be attached to the battery pack and come on when the camera came on. The two lights are clearly visible in the front of the traincam. On-board batteries power the one to the left, and the one seen to the right is powered by the tracks. The one powered by the batteries is dimmer than the one powered by the tracks as it is being connected to the camera's electrical system before the multiplier, resulting in a lower voltage -- and better power conservation to power the all-important camera.
With the now reduced camera with its exposed circuitry sitting in a bed of blue-tack near the front of the traincam, I was finally able to fit the lights in place, using still more blue-tack, on either side of the camera, behind the front ledge of the lens so that they would not overpower an image the camera tried to capture. Seeing that the camera and lights were all exposed to the elements, I began to glue back the front inch or so of the shell which I'd cut off to make room for the original design. This provided a shelter for the camera and lights in the event of a derailment (which could be catastrophic on my desk, as trains derailing have the annoying habit of plunging 2 feet to horrible destruction on the floor) and a way of focusing the light from the two lightbulbs forward, illuminating the view for the camera in the event that ambient light would not be strong enough.
The track-powered light worked flawlessly. It was about time something on this camera did. In a dark room, the track-powered light at full power was strong enough to read by from more than a foot away.
The other light, the one attached to the internal circuitry of the camera, still posed a problem. The only wires that were not insulated, and so didn't involve a complete disassembly, were the connectors where the batteries made contact with the voltage multiplier. But that left a problem: as long as the batteries were plugged in, the light would be on. It would make my existing power-drainage problem a walk in the park by comparison.
My power-drainage problem? I had forgotten about that! Forgetting about the problem of the light draining the battery pack, I set back about my original task of fixing the power drainage. It wasn't long before I put 2 and 3 together and was pretty sure I'd come up with 5. My battery pack went straight to the multiplier, the multiplier then sent power to the switch and from there to the camera's motherboard. That meant there was only one place that could be drawing power: the multiplier.
I carefully removed the multiplier and all the wires from the guts of the traincam, and with wires hanging everywhere and blue-tack getting stuck to everything, I thoroughly examined the multiplier. What, I thought, could I do about this problem, without completely rebuilding the system?
It was simple. There was a tiny wire on the multiplier I'd previously ignored, and attached to it was a small switch. Obviously, that switch was not just an on-off switch for the camera: when on, the multiplier was draining power even if there was no draw on it.
With this piece of information I was able to kill two birds with one stone. I attached one of the battery-powered light's wires to the switch, and moved the switch to somewhere where I could reach it outside of the jumble of wires inside the traincam's shell. Using electrical tape and blue-tack, I affixed it to the transmitter antenna.
With that solution in place, I installed fresh batteries, put all the innards back into the train's open hole, sealed it up with electrical tape, and tested it.
Now the natural assumption here is that it worked, and it wouldn't be a bad assumption. But it would be only half right.
I turned on the switch attached to the voltage multiplier, and the light on one side of the camera came on. That was a good start. I took a deep breath, and turned the camera switch on.
The audio static on my TV set disappeared, and I waited expectantly for the video static to do the same. I had sound but no sight. What good was a train camera that had sound but no sight?
I removed the battery section's cover, removed the battery pack, and unceremoniously squeezed all the fine wires I'd earlier stripped and spliced to get the camera out of its shell. Then I put the battery pack back in and the cover on.
This time, it worked. Properly. The lights cast a glow on the track in front of it sufficient to give a night feeling to the image, the image showed up on the screen, the audio came over the speaker, and just to be sure, the traincam promptly derailed.
The problem turned out to be a weight imbalance. The end of the traincam with the batteries was heavy enough to pave a road, but the other half of the car, which held only the switch, the transmitter, and some wires, was too light and could easily be imbalanced and leave the track. With the help of a pair of container weights and some more electrical tape, I was able to easily remedy this last problem by strapping the weights under the car and holding them there with the tape. At long last, I had a traincam that worked. A comparable traincam on-line would have cost a minimum of US$360, approximately $550 Canadian, and would still have required a train car to mount it in and some assembly. Purchasing a traincam built into a railcar cost even more.
This cost-effective self-contained traincam was completed for an estimated cost of C$170 (approximately US$115) and uses the following components:
(Prices are approximate and in Canadian currency)
* X-10 Wireless 2.4GHz wireless camera receiver (model VR31A) (attached to VCR)
* X-10 Wireless 2.4GHz wireless camera and components (model XC10A) (camera, motherboard, transmitter)
* X-10 Wireless camera battery pack components (model ZB10A) (voltage multiplier) (all camera components C$118)
* Athearn Northern Pacific 74' observation car (C$20)
* Small screw-on electric switch (C$2)
* 4 AA batteries (C$7)
* 2 small lights (C$5)
* Container weights (C$5)
* 2 AA battery holders with 9V battery style plugs (C$5)
* 2 9V battery style wires and plugs (C$2)
* Electrical tape (C$1)
* Model cement (C$2)
* Blue-tack (C$3)
* Wires (scavenged from 6' of wire attached to camera) (C$0)
Copyright (c) 2002 by David Graham. All rights reserved. David Graham has a passion for model trains and computers. He can be found at http://cs-club.org/~canada/. Slashdot welcomes reader-submitted features and reviews. Thanks to cdlu for this one.
What a Post! (Score:3, Funny)
Re:What a Post! (Score:4, Funny)
Obviously you haven't read anything by John Katz!
Re:What a Post! (Score:2, Funny)
Re:What a Post! (Score:2, Funny)
Not only that, the biggest spelling of "ad" I have ever seen in your post
umm pictures? (Score:5, Insightful)
Re:umm pictures? (Score:4, Insightful)
Re:umm pictures? (Score:5, Informative)
http://pkl.net/~cdlu/trainpictures/ [pkl.net]
Re:umm pictures? (Score:2)
Re:umm pictures? (Score:5, Informative)
mirror [boisestate.edu]
Re:umm pictures? (Score:3, Interesting)
Re:umm pictures? (Score:3, Interesting)
Behold, here is a mirror [boisestate.edu]
Wow (Score:3, Funny)
How to overcome the /. effect... (Score:4, Funny)
Re:How to overcome the /. effect... (Score:2)
Ah, but what if shalsdot would slashdot itself? That'd be odd, because if slashdot would slashdot slashdot, people can't reach slashdot and thus cant continue to slashdot slashdot on slashdot anymoe, after which is repeats when people manage to get on again, only to slashdot slashdot again in a vicous circle effect! AAAH!
Maybe it's time to go to bed. Yes, think happy thoughts, happy thoughts.
What, no pictures? (Score:2)
And next week... (Score:2, Funny)
Re:And next week... (Score:1, Insightful)
Re:And next week... (Score:1)
that grass growing cam will be pretty boring...
Re:And next week... (Score:2, Funny)
Re:And next week... (Score:2)
Why high speed? That would spoil all the fun.
Personally, I can't wait for his next 20k article on how to set up a wet-paint-drying-cam.
X-10!! (Score:5, Funny)
Re:X-10!! (Score:2)
Very touching story... (Score:1, Interesting)
Re:Very touching story... (Score:1)
Re:Very touching story... (Score:3, Informative)
Re:Very touching story... (Score:5, Informative)
"Cost effective" (Score:4, Funny)
Re:"Cost effective" (Score:2, Funny)
This is a STORY? (Score:1, Insightful)
maybe.... (Score:2, Funny)
I know I'd ride the "TittyTrain"....
nbfn
I don't get it. (Score:5, Funny)
Anyhow, nicely written article. Some may argue this isn't news for nerds, but my goodness, if it isn't, then what the heck is this news for?
Re:I don't get it. (Score:4, Funny)
What we need, though, is wrecks. Trains going around in circles are boring. However, trains crashing into each other at 79mph (scale) are not. Particularly if cars, pedestrians, houses, etc. can also be made to fly around the room with vigor.
Re:I don't get it. (Score:2)
http://www.addamsfamily.com/addams/train.jpg [addamsfamily.com]
Re:I don't get it. (Score:2)
This is ridiculous. (Score:3, Insightful)
Timothy, you posted the ENTIRE run-on account, of some guy fumbling with little toys.
It's not even like a model railroad club, with beautifully detailed mountains, towns, and tunnels did this. It's a guy with no clue ripping apart toys and sticking them together with rubber bands, and running a train around on his desk.
This is not cool, it's dumb.
Re:This is ridiculous. (Score:3, Insightful)
Re:This is ridiculous. (Score:3, Funny)
Re:This is ridiculous. (Score:3, Funny)
Normally I would give the same advice. But as I read the story it got more horrible and more horrible, I could not look away.
It was like watching a trainwreck...
Re:This is ridiculous. (Score:2)
Not sure why anyone thinks this stuff is cool, anyway. I dig cooler stuff out of my junk box before breakfast. Here's something I did one Sunday afternoon when I was bored. [slashdot.org] I did update the program, and now I can bookmark coordinates; *clickclick* on a list item and *whirrwhirr* the camera is on target. I plan to draw up some parts and write a HOWTO. Since it's tiny and clear, I've had people at my (otherwise uncluttered) desk wondering where the camera was. I've even done research into setting up a kit for people to build their own, and so far have the materials cost, including two RC servos, near $25.
BUT I would never write a novella about it in excruciating detail. Not to mention downright painful wording, pompous descriptions of everyday activities and products, and little asides that are supposed to be humorous, but leave you questioning the future of society.
And anyone who would publish close-up shots of himself kissing is sick. And his girlfriend is sick for putting up with it, if she knows.
Photos (Score:5, Informative)
Re:Photos (Score:3, Insightful)
I look at this picture and see a nice, wholesome, normal, attractive young woman. She looks happy. I think anyone who can't look at a trim, healthy, wholesome, young woman and acknowledge that she is attractive is going to face a lot of disappointments. News at eleven: glamourous celebrity gals, spend a lot of time and energy looking glamourous. Most normal women don't have time for that. Glamourous celebrity gals only bother going to that trouble when they are going to be on camera. When they are off-duty they don't look any different than the girl next door.So, lay off.
So lay off.
Time (Score:1)
TrainCam, whats next? (Score:1)
Imagine, the world beeing taken over by blogging, camming, trains!
Oh wait... Well it was kinda neat anyway.
Northern pacific car? (Score:5, Funny)
then derail on straight track.
-Nick
Rio Grande: The Action Road.
I'm almost finished... (Score:5, Funny)
Stay tuned!
like on the simpsons... (Score:2)
Kid: "You broke my batmobile"
Lee: "Broke? or made better?"
something like that...hilarious though...
I'd like to see some traincam pics (Score:1)
What to do with your trains: Just camera's? (Score:3, Interesting)
Re:What to do with your trains: Just camera's? (Score:2)
Beer, Lego robot, & model trains all working together. Now what could be more newsworthy stuff for nerds than that?
And yes, I really have put a lot of thought into this, and have been pondering doing it for a while. I just doubt that my wife would let me put a tunnel through the fridge
Great description (Score:1)
Scouts who want to know how to do things.
Thanks
rcb
Other Ideas (Score:4, Interesting)
The formula (Score:1, Funny)
2. Copy site on slashdot
3. ????
4. Profit!
Watch out! (Score:4, Funny)
What's really amazing... (Score:5, Funny)
It sounds like there are products out there that already do exactly what this guy's camera does. And they probably do things a lot better (i.e. take power from the rails, offer a "swivel" camera so you can take pictures front, back, or side) - but you get what you pay for. As interesting as this is, I don't see how he did things any better. To me, it's just a miniature version of Junkyard Wars, except:
- he's not competing against anyone else
- there's no prize
- there's no time limit
- he did the basic equivalent of destroying a perfectly working car in order to construct a motorcyle that weighs twice as much, and only runs in one gear
- he doesn't get to meet Cathy Rodgers
Traincams (Score:2)
They have a beautifully made version of this that I believe costs a mere $1,400-odd. Unfortunately, I don't think it's available in the US; I think the technology is PAL, not NTSC.
I have a Marklin Digital HO setup, and it's both very cool and back-breakingly expensive.
D
ARGH!!! (Score:2)
For one - You can step voltages down with just a resistor, but NOT up. The voltage drop across a resistor is, as you said, I*R - If you know the device consumes 100 mA, then you know what value resistor you need to drop 24v to 15v, not vice versa.
That said, such an approach only works for constant-current devices. Other than LEDs, incandescant lights, and trickle battery charging, I can't think of any other apps where simple voltage dropping works. (For trickle charging - Use a large resistor such that the voltage drop between your power supply and the battery voltage results in only a few milliamps of charge current, NiCd and NiMH batteries can take very light constant overcharges if the current is VERY low, like C/16 to C/25 or so. (C being the current needed to charge the battery to full capacity in one hour - i.e. for a 100 mAh battery, C is 100 mA and C/25 would be 4 mA)
And as to your equations...
15 = I * R
"You can substitute R = 0"
15 = I * 0... OOPS. That comes out to I = 15/0. DOH.
The +/- voltage issue is easy to fix with a rectifier (Simplest form = diode)- You'd need a variant of a full-wave rectifier for this, which would require 4 diodes.
Re:Powering from the rails (Score:3, Funny)
Re:Powering from the rails (Score:3, Funny)
Dear God. Please, please promise us you'll never attempt to do anything that involves Hardware Engineering.
As a slightly off-topic note, this sort of thing is exactly why real engineers get annoyed with universities that give out degrees in software "engineering". Proper engineering curricula preclude graduates from giving advice where they oughtn't.
Re:Powering from the rails (Score:2)
I don't claim to know much about Electrical Engineering - that's not what I'm studying. I was trying to be helpful but I obviously don't know enough. I wasn't trying to sound authoritative or cocky.
I also don't claim to know a lot about Software Engineering - I'm only in Second Year. This sums up what I know about software design:
Step 1: Help the user determine what the problem they are trying to solve is.
Step 2: Determine the best tool for the job.
Step 3: If the best tool is an algorythmic one, break the problem down into smaller and smaller parts until you've got a whole pile of single tasks.
Step 5: Design an algorythm to perform each task. Test thoroughly and examine all cases.
Step 6: Implement your algorythms on the computer if it's appropriate.
Step 7: Test the fuck out of your implementations then assemble them into a program. Then test the fuck out of the program.
Step 7: Let the user play with the program and get their feedback.
Step 8: Repeat steps 1 - 7 as necessary.
I hope that shows you that I know something about SE and that I'm not completely full of shit. I know I've still got a lot to learn.
Pop-up promoter? Gah! (Score:1, Funny)
No! Don't take me away! I didn't MEAN to steal! I clicked that option by accident! I haven't had a chance to be anything but a tr-o--o-ool!
Here's where to get one (Score:5, Informative)
http://www.nehobby.com/traincam.htm
http://www
http://www.modelvideocam.com/MODELVIDEOCA
http://members.aol.com/YORKtrains/ki
They're more expensive than a jury-rig, but welcome to life.
Re:Here's where to get one (Score:2)
the Crimson Guard cam (Score:2, Funny)
Why is this here post. (Score:1)
But for a chance, It's my turn.
Why is this here? Trains are neat yes... but I don't find it particularly geeky one mans tail of Duct tape and product placement.
Now if it ran linux, or could have Beowulf implications then perhaps I'd see justification, for the bad posts alone.. but? Why?
Re:Why is this here post. (Score:2)
The whole article can be summed up in 1 sentence:
"I attached a camera to a train"
This has already been done to many different electronic items and has been posted many times on slashdot (the last one was when a guy put a camera on a really fast RC car. at least that had movies and was somewhat interesting since the car was moving at 30-40mph))
My favorite quote:
Around the same time, I was able to move my track onto a 3'x5' desk, using blue-tack adhesive as a temporary track-bed.
Whew! Talk about exciting!
Katz? (Score:1)
I wondered where that windbag went to...
Saw this at The Childrens Museum.. (Score:1)
In other news: Slashdot Now Offers Free Hosting! (Score:5, Funny)
- text only hosting (linking to images on external servers permitted).
- HTML markup (limited)
- free message board on each page
- Slashdot-Effect protection (tm)
Optional features include posting your webpage several times a week for maximum exposure, and limited spelling and grammar checking.
Act now, and get a free CowboyNeal.
Re:In other news: Slashdot Now Offers Free Hosting (Score:2)
If he has video Icangetit posted at live.curry.com (Score:1)
This is actually interesting (Score:5, Insightful)
So cut the guy some slack, even though this was an inappropriate post for the front page. Maybe in five years he'll be working for that company that makes the $350 product with a cam already installed.
Re:This is actually interesting (Score:2)
Hmm... (Score:2)
Actually, even though I have a feeling I could do a much better job (I have an EE degree), I still found it amusing. Even for an EE, it has a lot of base information on dos/donts/gotchas. (Like the balance/weight issues.)
Re:This is actually interesting (Score:2, Insightful)
Hell, if I had 1/10 of the negative feedback on the stuff i've hacked together to learn on (or whatever) I'd be a computer/electronics hating luddite.
Give the guy a break. I think he did an admirable job!
Timothy needs to go (Score:2, Insightful)
there is NOTHING geeky about this project. It's stupid. Perhaps if the submitter had actually done some nifty wiring, or taken the time to make a website including pictures, or made it controllable from the internet. I dunno, i'm grasping on how to make this good.
This just sucks and dosen't even include any links. I thought that was a rule for posting on the front page.
I was hoping they would take his editorial privelages away for the monkey automatons.
It's becoming clear that they keep him around to make the other editors look good.
YUK
(mod me however you like I'm not a troll and i don't post often enough to care about my karma)
Easy solution (Score:2)
Lighten up, dude. (Score:3, Insightful)
Instead of interpreting this article as how some guy thinks he's really 'leet or whatnot, perhaps he just felt that a story of how a little sweat, experimentation and curiousity can oftentimes lead one up the path to both a neat project where one can save some dough and _learn_ something in the process.
In fact, I see this story as a reminder that as curious beings, we should not feel afraid of trying something for ourselves instead of relying on fully "plug-n-play" solutions. I often think that too many things these days come "ready to use!", "Use once and throw away!", "No need to think and fuss, just plug-n-go!".
It's an adventurous experimental heart like this that will either discover the next phenomenon or invent the new revolutionary tool.
irony (Score:2)
But the pictures are MINE! ALLL MINE! YOU MUST BUILD YOUR OWN TO ENJOY MY KICKASS TRAIN GOODNESS.
Signed,
The X10 Train Mastermind.
Big scale, big deal (Score:2)
Re:Big scale, big deal (Score:2)
I was thinking of doing something like this with my N-scale trains.
If I had the money, I'd like to do a Gomez Addams train layout in N.
Some Constructive Criticism (Score:2)
Yes, there are pictures if you follow the link, but I have yet to find one that looks like it was taken from a wireless cam on a train. Instead, they are just pictures of his train setup, which isn't very spectacular. The guy needs to either light his subject better, or fix the gamma correction. The only way I can see half of them is to change the gamma to something like 3 or more. Also, the extensions are .jpg, but apparently they are uncompressed BMPs (!). Compress and give us some thumbnails, dude.
Good job (Score:2, Insightful)
Make your own fun! If you buy it, it isn't fun it's entertainment.
Why so negative? (Score:5, Insightful)
The very cradle of modern geek society was heavily into model trains as well; read up on the TMRC [mit.edu] sometime. They were the spiritual leaders of a lot you consider to be cool now.
Re:Why so negative? (Score:3, Insightful)
If you don't like the article, don't read it. And more importantly, don't post about why you don't like the article and "why is it here". I actually found it interesting. More importantly, I really think that all the whiners on here are causing more harm to slashdot than the quality of the articles.
Re:Why so negative? (Score:2)
Re:Why so negative? (Score:3, Insightful)
I, for one, found it interesting reading, and eagerly await the day it can be done on my Marklin Z-gauge set.
Re:Why so negative? (Score:2)
Re:Why so negative? (Score:2)
Re:Why so negative? (Score:2)
I agree that the article is not proof of the enormity of the author's metaphorical intellectual penis. My contention is that this article is appropriate for Slashdot because the project is both technically cool and within the scope of what many random slashdotniks might actually do, and because the article is a good writeup of the project.
Mastercard Style (Score:4, Funny)
* Athearn Northern Pacific 74' observation car (C$20)
* Small screw-on electric switch (C$2)
* 4 AA batteries (C$7)
* 2 small lights (C$5)
* Container weights (C$5)
* 2 AA battery holders with 9V battery style plugs (C$5)
* 2 9V battery style wires and plugs (C$2)
* Electrical tape (C$1)
* Model cement (C$2)
* Blue-tack (C$3)
* Wires (scavenged from 6' of wire attached to camera) (C$0)
* Sticking out as the biggest geek on a site full of geeks (Priceless)
Time waste (Score:4, Funny)
I really wonder... (Score:2)
Re:I really wonder... (Score:2)
Something like ( L0s3r/n0lif3) Perhaps??
If you liked getting in a locomotive ... (Score:2, Informative)
where you can not only get in, but learn to OPERATE a locomotive for an hour for $100. It's DAMN FUN.
alot of work to save a little money... (Score:2)
remember, whenever you are going to start something... chances are that someone somewhere else has a better product to use (as in the camera.. i have a camera+transmitter that runs off of a 9 volt battery and is the size of 4 quarters stacked for my indoor remote control airplane (mini-park flyer is what they are called)
Great though at the modifications to the camera and train cars!
I hate him! (Score:2)
Because he no-doubt got his X-10 cam by clicking on one of those annoying pop up ads, thereby encouraging more pop-ups!
A while back my friend got a puppy. He and his wife worked so they wanted to keep an eye on him during the day. One easy click on an X-10 ad and POOF! the dog-cam was born. It was really cool to, the only downside was...
HE CLICKED THE POPUP! Not only that by $$$ were actually generated by the popup. EVIL! EVIL! EVIL!
Anyway...
Dog-cam, simple but cool.
Train-cam, simple but cool.
Shreak
Getting there (Score:2, Interesting)
I recall a big complaint in the early reviews was that you couldn't get it in whatever model you wanted... a DIY system could handle that nicely.
One of the problems mentioned, the variable track voltage as a power source, could be bypassed if you used a DCC wiring system-- those typically have 16vac on the rails at all times. Rectify, transform, and go.
It's surprising where the "gaps" in creating a quality model railroad are. We can put cameras in our engines, but the only cars we can put on the roads are static or limited in motion. Very few control panels have moved out of the "array of toggles on a sheet of board" level (why not electronic?) We can get about five different quality affordable implementations of the EMD F7, but you'll still pay a fortune (or spend hours starting with a crude kit) for a halfway-decent F59PH, SD50/60 or SD45, at least in 1:87.
I actually believe there would be a good market for custom "voodoo figurines" for layouts. One General Electric C44-9W, one Electro-Motive SD60M, and a 1:87 representation of the laptop that swallowed my notes. Wheee!
Oh for Pete's Sake! (Score:2)
Man, who the hell would.. (Score:2)
I am proud to be a citizen of the social-democractic country we call Canada.
Ahh... nevermind.
Re:Crap, all kinds, cheap, from Slashdot (Score:2)
Wait until Jon Katz takes apart an X10 camera, straps it to a dirt bike, and jumps a shark [jumptheshark.com].