@@LeeCuriosity Hi Lee. I’m currently working on a similar project involving an obstacle-avoiding robot, but with a remote controller and nRF24 for communication. Our professor has given us specific requirements for the project: - At least two microcontrollers (or one microcontroller and a smartphone) must communicate wirelessly. - At least one microcontroller must have at least one, ideally two, sensors and one or two actuators connected. - Sensor data should be transmitted via wireless communication to the second microcontroller. This second microcontroller processes the data and sends back a decision to the first microcontroller. I’ve prepared a concept but need a bit of help. I can send you the PDF of my concept
Hi Lee, can you do this same project obstacle avoiding robot but this time with a remote controller and nRF24. Thanks
Definitely yes bro !
@@LeeCuriosity Lee how can i contact you? I have this similar project like this for my class but need your help.
@@grey533 How was it ?
@@LeeCuriosity Hi Lee.
I’m currently working on a similar project involving an obstacle-avoiding robot, but with a remote controller and nRF24 for communication.
Our professor has given us specific requirements for the project:
- At least two microcontrollers (or one microcontroller and a smartphone) must communicate wirelessly.
- At least one microcontroller must have at least one, ideally two, sensors and one or two actuators connected.
- Sensor data should be transmitted via wireless communication to the second microcontroller. This second microcontroller processes the data and sends back a decision to the first microcontroller.
I’ve prepared a concept but need a bit of help. I can send you the PDF of my concept