Introduction & Usage

It's a Wifi controlled spy Robot.  It is a drivable device that can be controlled from anywhere  using a WiFi connection (If you have wifi connection all over your country you can cont

Author: Thinesh Vasee


Picture of the complete version

                                                     

Making & Assembling the Structure

The following electronics components are used in this Structure

 

            1)Arduino Uno

            2)WiFi Shiled module (ESP8266)

            3)H-bridge module (For controlling motor)

            4)1 kohm resistors

            5)10 kohm resistors

            6)5V USB Power bank

            7)Jumper wires

            8)Led lights

            9)Photo resistor

           10)ultrasonic sensor

           11)buzzer

 

First design the mechanical structure of the robot, which is easy you can buy the structure from the following link http://www.lankatronics.com/smart-car-chassis.html and can build it easily.

Then the connection of the electronic components, the circuit here uses an Arduino Uno as the main controller, which interfaces with a WiFi Shiled module (ESP8266) for wifi communication. The Arduino controls the DC motors using a H-bridge driving circuit, which is able to control up to two motors, rotating them independently in both directions. Connect the LDR and LED to the circuit to avoid the darkness.  The power bank is use to power Arduino and provides 5v Voltage. Connect all the components using jumper wires.

Connected Picture

                                      

Explanation of Code 

The code uses one serial port for the communication between the Arduino and the WiFi shield Module, and another is for communication between the Arduino and the computer. Once the Arduino Uno only have one serial port, Software Serial library is use to create a secondary port, using digital pins 2 and 3.

During the setup, both serial communications have to be started, and their baudrate defined. Notice that my WiFi module was set to 115200 kbps. 

Some Explanation for commands

An auxiliary function is used for sending data , reading and displaying the response on Serial Monitor.

Five possible commands are define (cm1 to cm5). Whenever the Arduino receives one of those commands they are moving forward,  moving backward, moving right, moving left and stand by, it enters in one of five possible commands\ and continue in that command until it receives a different command.

Each state defines the signals for motors pins. I use digitalWrite(pin, LOW) when I want to set a pin to 0V and analogWrite(pin, motoSpeed) when I want to turn on a pin. Using analogWrite allowed me to change the speed of the motor, and make the robot move slower.

Notice that the motors work between 3 and 6V. 

A html interface is design for the control of the NightCrawler.

An Android smart phone was used to broadcast the live video and audio from the robot to the control interface. You can find the app on Google Play store.(https://play.google.com/store/apps/details?id=com.pas.webcam).

Html Code Explain

The html interface has two divisions, one is for audio and video (from IP Webcam) and the other one is for the five commands.

Audio and video division has a form with a text box and a button. This is used as an input for specifying Webcam IP address. It comes with a standard IP address (192.168.0.5), but the user can enter a different IP which will be there in IP webcam. Video and audio are loaded when we enter the IP address which will show in the serial monitor.

JavaScript is used for dealing with the interface and sending data to the Arduino. Those scripts are coded in different files, and added on html header.

By using the laptop navigation keys you can control the crawler.

 Light & Dark Detection

If the NightCrawler goes into dark places you can't see the video clearly because of the lack of light, for that purpose i'm using LDR which detects darkness and turn on the LED. so that you can see the clear vision of the video

 

Picture of the Circuit

 

Future Enhancements

Detect obstacles and their distance

Control camera angles through app

Record Streamed video and audio

 

Explanation from Poster

Arduino Code

//include libraries
#include 

SoftwareSerial esp8266(3, 2); //RX pin = 3, TX pin = 2

//definition of variables
#define DEBUG true //show messages between ESP8266 and Arduino in serial port
int state = 5; //define initial state of the robot (5 = stand-by)
//define motor pins
const int motor1Pin1 = 5;
const int motor1Pin2 = 6;
const int motor2Pin1 = 9;
const int motor2Pin2 = 10;
//led blink
int sensepin = 0;
int ledpin = 12;
//define motor speed
int motorSpeed = 150; //motor speed (PWM)

//*****
//SETUP
//*****
void setup()
{
  //set pin modes
  pinMode(motor1Pin1, OUTPUT);
  pinMode(motor1Pin2, OUTPUT);
  pinMode(motor2Pin1, OUTPUT);
  pinMode(motor2Pin2, OUTPUT);
  
  //start communication
  Serial.begin(115200);
  esp8266.begin(115200);
  
  sendData("AT+RST\r\n", 2000, DEBUG); //reset module
  sendData("AT+CWMODE=1\r\n", 1000, DEBUG); //set station mode
  sendData("AT+CWJAP=\"ghost\",\"sam12346\"\r\n", 2000, DEBUG); //connect wi-fi network 
  delay(5000); //wait for connection

  sendData("AT+CIFSR\r\n", 1000, DEBUG); //show IP address
  sendData("AT+CIPMUX=1\r\n", 1000, DEBUG); //allow multiple connections
  sendData("AT+CIPSERVER=1,80\r\n", 1000, DEBUG); // start web server on port 80
  //led blink
  // put your setup code here, to run once:
  analogReference(DEFAULT); //not necessary

  //   Serial.begin(9600);
  pinMode(ledpin, OUTPUT);
}


//*********
//MAIN LOOP
//*********
void loop()
{
   
  if (esp8266.available())  //verify incoming data
  {
    if (esp8266.find("+IPD,")) //if there is a message
    {
      String msg;
      esp8266.find("?"); //look for the message
      msg = esp8266.readStringUntil(' '); //read whole message
      String command = msg.substring(0, 3); //first 3 characters = command
      Serial.println(command);
           
      //move forward
      if(command == "cm1") {
          state = 1;
      }

      //move backward
      if(command == "cm2") {
          state = 2;
      }

      //turn right
      if(command == "cm3") {
          state = 3;
       }
       
       //turn left
       if(command == "cm4") {
          state = 4;
       }

       //do nothing       
       if(command == "cm5") {
          state = 5;
       }

    }
  }
  
  //STATE 1: move forward
  if (state == 1) {
    analogWrite(motor1Pin1, motorSpeed);
    digitalWrite(motor1Pin2, LOW);
    analogWrite(motor2Pin1, motorSpeed);
    digitalWrite(motor2Pin2, LOW);
  }
  //STATE 2: move backward
  if (state == 2) {
    digitalWrite(motor1Pin1, LOW);
    analogWrite(motor1Pin2, motorSpeed);
    digitalWrite(motor2Pin1, LOW);
    analogWrite(motor2Pin2, motorSpeed);  }
  //STATE 3: move right
  if (state == 3) {
    analogWrite(motor1Pin1, motorSpeed);
    digitalWrite(motor1Pin2, LOW);
    digitalWrite(motor2Pin1, LOW);
    analogWrite(motor2Pin2, motorSpeed);
  }
  //STATE 4: move left
  if (state == 4) {
    digitalWrite(motor1Pin1, LOW);
    analogWrite(motor1Pin2, motorSpeed);
    analogWrite(motor2Pin1, motorSpeed);
    digitalWrite(motor2Pin2, LOW);
  }
  //STATE 5: do nothing
  if (state == 5) {
    digitalWrite(motor1Pin1, LOW);
    digitalWrite(motor1Pin2, LOW);
    digitalWrite(motor2Pin1, LOW);
    digitalWrite(motor2Pin2, LOW);
  }
   int value = analogRead(sensepin);
  value = constrain(value, 20, 250);
  int ledlevel = map(value, 50, 250, 255, 0);
  analogWrite(ledpin, ledlevel);
}

//*******************
//Auxiliary functions
//*******************
String sendData(String command, const int timeout, boolean debug)
{
  String response = "";
  esp8266.print(command);
  long int time = millis();
  while ( (time + timeout) > millis())
  {
    while (esp8266.available())
    {
      char c = esp8266.read();
      response += c;
    }
  }
  if (debug)
  {
    Serial.print(response);
  }
  return response;
  
}

 

Html Code 


Control interface

IP Webcam (IP):

 

Arduino IP Address:

Press and hold keyboard arrow keys to move the robot

 

 

More Updates will come in future like using ultra sensors. Thank you for reading my blog.




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