have prolaser ii, not afraid to opensource
well, not opensource the prolaser ii...
but develop some opensource tools that anyone who can afford an arduino can build.
existing equipment:
- prolaser ii
- falcon (the original)
- lidatek le-10 head (owned from new, lost controller – but controller is optional in the le-10 really)
wish list:
- v1
- alp
what i've built so far:
- laser detector tester total cost, arduino + $0.80 + pizeo speaker to hear freq on lidar
- lidar pulse recorder total cost, arduino + sd shield ($15 or DIY) + infrared receiver ($3 or find around house) + piezo to hear freq of lidar
(records intervals between pulses to 64gb sdcard, accurate to +/- 250 nanoseconds between pulses) - ir blinkenlights total cost, arduino + 8 x $0.80 for IR LEDS
pointless device – but if you point the prolaser ii at it, it will claim it is doing + (or -) 5 km/hour
what i will be building next:
- lidar pulse playback (to playback recorded pulses from lidar pulse recorder)
- combined pulse recorder + playback (to playback recorded pulses from lidar, while recording responses from jammer)
why i joined:
- to woo mirage:
- i read a review of the alp by mirage, in which he mentioned he had recorded pulse trains from his LI, and that ALP records pulses to USB.
- i figure that i might as well record pulses in the same format ALP uses (and be able to play them back), and since i live in australia, i will need someone who is willing, knowledgable, and curious enough to put my devices in front of real equipment, and give me the results.
protect and serve the community :p who doesn't want a magic black box, to tell you what your other magic black box is actually doing when it jams a gun.
request to everyone:
- send me your recorded pulse trains! i am especially interested in examples from (i won't name it) the very random one was finally solved by ALP.
