3691364079?profile=original3691364136?profile=originalI am trying to figure out what are the internals of the LaserWorks (Boblov) LE-032 700M Laser Range Finder as far as laser-module used.  Also, how does it compare with the LightWare SF11/C (120 meter) module?

Are they two totally different animals?

Also, since both are able to measure the speed of an object, would it be possible to measure with them wind speed and direction?

Thank you for your input!

https://www.amazon.com/LaserWorks-Riflescope-rangfinder-Tactical-Rangefinder/dp/B077M4BF7T

https://acroname.com/store/r395-sf11-c?sku=R395-SF11-C&gclid=CjwKCAiA24PVBRBvEiwAyBxf-b_-gcJacjKIMed2WMwVIw9BfNj3wOuAwx9A9KwBEgb1sz-FNH1TJRoC_XUQAvD_BwE

You need to be a member of diydrones to add comments!

Join diydrones

Email me when people reply –

Replies

  • Thank you for the information.  You are right.  Did some more digging.  Looks like that these are designed to work with larger objects not the small aerosol particles needed to measure wind velocity.  That type of Anemometer LIDAR has a beam splitter that measures particle speed within an area called "fringes" where the beams converge. 

  • Without having all the details - neither product is suitable for wind speed and direction measurement. They both use time-of-flight laser technology but have very different timing systems.

    'Scope type laser range finders offer long range, slow update rate and low resolution. These are intended for use by people as an indicator.

    The SF11/C and other laser altimeters have shorter range, fast update rate and high resolution. They are intended for use by flight controllers in a fully autonomous or reporting mode.

This reply was deleted.

Activity

DIY Robocars via Twitter
RT @_JonMyer: 🚨Attention DeepRacer's including #UndergroundDeepRacer🚨 Check our our LIVE stream that including @IAM_dbro Take a few moments…
Wednesday
DIY Drones via Twitter
RT @MarvelmindMaxim: Extreme precision for 60 swarming robots. #marvelmind #autonomousrobotics #robotics #swarmrobotics #rtls #ips #indoor…
Aug 3
DIY Drones via Twitter
RT @MarvelmindMaxim: Precise (±2cm) tracking for racing boats and autonomous boats. Works outdoor and indoor. #autonomous #AutonomousVehic…
Aug 3
DIY Drones via Twitter
RT @MarvelmindMaxim: Helping PixHawk folks to fly autonomous quadcopters using PX4 and ArduPilot. https://marvelmind.com/drones/ Equally suitab…
Aug 3
DIY Robocars via Twitter
RT @chr1sa: The @DIYRobocars @donkey_car virtual AI car race is starting in 15 minutes! Watch it live on Twitch https://www.twitch.tv/mossmann3333 htt…
Aug 1
DIY Robocars via Twitter
RT @chr1sa: Don't miss our monthly @DIYRobocars @donkey_car virtual AI car race tomorrow at 10:00am PT live on Twitch. Head-to-head racing…
Jul 31
DIY Robocars via Twitter
RT @sparkfun: Our completed tutorial on building an @NVIDIA Jetson Nano-powered @Sphero RVR gets your bot up and running via teleoperation…
Jul 30
DIY Robocars via Twitter
RT @SmallpixelCar: Freeway test https://t.co/4V5tV9lhIP
Jul 29
DIY Robocars via Twitter
Very small autonomous cars racing, thanks to an overhead camera: https://control.ee.ethz.ch/research/team-projects/autonomous-rc-car-racing.html
Jul 29
DIY Robocars via Twitter
Jul 29
DIY Robocars via Twitter
Jul 29
DIY Robocars via Twitter
RT @chr1sa: Don't miss our virtual AI car race this Saturday! Real developers + virtual cars =🏎️🏎️🏎️ Head-to-head battles with thrills, sp…
Jul 28
DIY Robocars via Twitter
Jul 27
DIY Robocars via Twitter
RT @usashirou1: Jetson nano by Isaac Kaya #jetson https://t.co/Mu1N0CyQkN
Jul 23
DIY Robocars via Twitter
RT @GPUsolution: JetRacer mady by Iflytek company #JetsonNANO #Nvidia https://t.co/MimTymIwge
Jul 23
DIY Robocars via Twitter
RT @openmvcam: I love this: Mega or Mini? Image Classification on the 1MB OpenMV Cam H7 by Ish Ot Jr. in OpenMV, Edge Impulse, Internet of…
Jul 23
More…