That is on our list. Are you thinking for Android Studio? The concept is very similar to our wall following robot example at ruclips.net/video/1rUkZKOERoI/видео.html
Since this sensor reads reflected light, it is not good at determining proximity to clear objects. The range sensor would be better at that since it uses sound. modernroboticsinc.com/range-sensor
Thank you. I now understand how the ODS works. Love the videos.
Very helpful and super cool! I liked the robot keeping a fixed distance along the wall 😂
Great video! By the way, do you have the line following program? If so, can you explain it or can you make it availble to download? Thanks.
That is on our list. Are you thinking for Android Studio? The concept is very similar to our wall following robot example at ruclips.net/video/1rUkZKOERoI/видео.html
That was a quick response haha. Yes, we use Android Studio.
How about adding the Java code used for each of the programs that you showed in this video. That would be a huge help to all of the teams out there.
Great idea. We have the distance approximation code available on the product page. We can get others out as well in the near future.
Wall following now has its own video and example code which can be downloaded at modernroboticsedu.com/course/view.php?id=5
will this detect the distance from the clear edge of the velocity vortex field?
Since this sensor reads reflected light, it is not good at determining proximity to clear objects. The range sensor would be better at that since it uses sound. modernroboticsinc.com/range-sensor
do you know of a color sensor robot for paint color?
I need complete detail in PDF forms
Thank you.
Your sensor is really wired, You have wrong reading, or you have sensor what read light sensitivity. Because distance sensor have constant readings
Well, not really exponential, it goes as 1/x^2