hello, your video was recommended to me on youtube, it's good. I would like to learn how to make this kind of robots. You will have information on pages or tutorials that help you get started.
This does not necessarily have to be move-able. However, this is to make it relatively easy to record course data. If we know the sensor head angle and the robot's speed, we can easily calculate the course shape.
Actuator driving the sensor: Self-made voice coil motor Line sensor: TEMT7100X01 x4 After that, there is one potentiometer that detects the angle of the sensor
holaa, cuentas con algún curso o asesoría? soy de mexico y no encuentro mucha información
hello, your video was recommended to me on youtube, it's good. I would like to learn how to make this kind of robots. You will have information on pages or tutorials that help you get started.
I also want such a product, where can I buy it?
Hello
Hello,where can I find those wheels?
Made by myself with a 3D printer
What about the tyres ? Did you make them or can you tell me where to buy them from ?
@@oster7927 you can buy here.
buyee.jp/yahoo/shopping/store/item/robotena_k0039/robotena/1
@@harukishimotori thank you
Hello, May I ask why the sensor head has to be move-able?
This does not necessarily have to be move-able. However, this is to make it relatively easy to record course data. If we know the sensor head angle and the robot's speed, we can easily calculate the course shape.
@@harukishimotori wow that is really interesting... also May I ask what device is used to move the sensors? and how much sensors is used?
Actuator driving the sensor: Self-made voice coil motor
Line sensor: TEMT7100X01 x4
After that, there is one potentiometer that detects the angle of the sensor