LIDARs
From CajunBot Wiki
LIDAR (Light Detection and Ranging) is an optical remote sensing technology that measures properties of scattered light to find range and/or other information of a distant target. The prevalent method to determine distance to an object or surface is to use laser pulses. Like the similar radar technology, which uses radio waves, which is light that is not in the visible spectrum, the range to an object is determined by measuring the time delay between transmission of a pulse and detection of the reflected signal. LIDAR technology has application in Geomatics, archaeology, geography, geology, geomorphology, seismology, remote sensing and atmospheric physics. Other terms for LIDAR include ALSM (Airborne Laser Swath Mapping) and laser altimetry. The acronym LADAR (Laser Detection and Ranging) is often used in military contexts. The term laser radar is also in use but is misleading because it uses laser light and not the radiowaves that are the basis of conventional radar.[1]
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[edit] Ibeo
* The Ibeo ALASCA manual
[edit] Leica
[edit] Reigl
Datasheets for various Reigl LIDAR products:
- Riegl LMSZ420i Lidar Datasheet
- Riegl LMSZ420i Lidar System Configuration
- Riegl LMSZ390 Lidar Datasheet
- Riegl LMSZ390 Lidar System Configuration
- Riegl LMS-Q240
[edit] SICK
[edit] SICK LMS
See: SICK
[edit] Oscillating SICK
[edit] Oscillating SICK driver docs
[edit] Images
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[edit] Velodyne
[edit] See also
- Model creation
- AEVIT
- Battery backup
- C-NAV antenna
- C-NAV receiver
- Comtrol box
- Digi Portserver TS8
- Ebox
- EMC console
- EMC control panel
- EMC steering engage lever
- Ibeo Alasca LIDAR
- Iteris LDW
- LabJack
- Logger, Steering, and NTP computers
- Eaton Vorad Radars
- CajunBot-II
- RT3102
- RT3K antenna
- RT3K wheel speed sensor
- Shore power box
- SICK LIDAR
- Torc E-stop
- Vision camera for detecting lanes
- Vision computer
- WiFi radios
