We often find illegal immigrants moving from one
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Layout of the System To make this project we use IR sensor, node MCU, BLYNK cloud server, Node MCU always connected to the server (cloud) by Wi-Fi service and have an ability to send the HTTP request to the server by giving a notification. This notification stores in the server database and server notice center update. When server update, then this update notification sends to the user. User has an Arduino android app (Blynk app), and Web quickly observes this notification. Then from the app alarm is turned ON. Individual devices are shown in Fig. 8. Fig. 8. Overall system function. B. Discussion We have implemented a simple basic circuit diagram to connect the system with the send signal via Wi-Fi. There are two following circuits. One of it connects D1 pin of the NodeMCU with the GND pin of the Buzzer and LED light represented in Fig. 9. And the other circuit shows how the infrared sensor is connected to the NoeMCU by connecting the wires with the source voltage of 3V, GND and analog pin (A0) [Fig. 10]. The basic diagram is given below: Fig. 9. Circuit connection, connecting the D1 pin with NodeMCU and the GND pin with buzzer and the LED light. Fig. 10. Circuit of NodeMCU connecting the 3v, GND and A0 with the IR sensor. International Journal of Information and Electronics Engineering, Vol. 10, No. 2, June 2020 47 When an intruder crosses the respective area, the signal is sent to Node MCU. It is directly sent via Wi-Fi to the Blynk cloud. It then sends a notification to the app (smartphone). See Fig. 11 the notification is taken from the app. Inside the app, we can see the notification message. And then we can go to the BLYNK app interface and from there we can turn ON the buzzer from the app. In Fig. 12 we can see the Buzzer is currently OFF. When the Buzzer is pressed it will turn ON the Buzzer. In the future, we will add a camera on this project and we will improve our detection area as well as we can use the ultrasonic sensor instead of the IR sensor. It can be used to detect a long-range object. For better and high-speed notification system we can use raspberry pi 3 B+ for make server request. Web and Android app user interface design can make more user-friendly and add more feature better user experience. We can use better and advance database system to add more data and space. Fig. 11. Motion detected and the notification message pops up over the smartphone. Fig. 12. Blynk app interface where the buzzer alarm is currently OFF. When it is turned ON the Buzzer and lights is turned ON. IV. M ATERIALS AND M ETHODS A. Hardware Device Node MCU esp32: The Node MCU ESP-32S [9] is one of the advancement board made by Node MCU to assess the ESP-WROOM-32 module. It depends on the ESP32 microcontroller that flaunts Wi-Fi, Bluetooth, Ethernet, and Low Power bolster all in a solitary chip. Propelled API for equipment IO, which can significantly decrease the excess work for designing and controlling equipment. Code like Arduino, yet intelligently in content. Occasion driven API for system applications, which facilitates designers composing code running on a 5mm*5mm estimated MCU in Nodes style. Significantly accelerate your IOT application creating process. Under WI-FI MCU ESP8266 incorporated and easy to prototyping improvement pack. We give the best stage to IOT application advancement at the most minimal expense. BLYNK app Wire Breadboard IR Sensor An infrared sensor [10] is an electronic gadget with simple configuration, that radiates so that we can detect a few parts of the environment. An IR sensor can quantify the warmth of an item just as it recognizes the motion when an object is passed in front of it. These sorts of sensors emit infrared radiation and receive the radiation via the receiver that is called passive Infrared sensor. Buzzer LED In our task, we are working with Node MCU esp32. Node MCU is an open source IoT stage. It incorporates firmware which keeps running on the ESP32 Wi-Fi SoC from Espressif Systems and equipment which depends on the ESP-12 module. [10] Node MCU esp32 Wi-Fi module is working with an infrared sensor (IR). The recognition scope of the IR sensor is nearly around 2 cm to 30 cm. The sensor module is interfaced with Arduino having IO voltage dimension of 3.3V to 5V. The IR sensor has IR Transmitter that transmits the rays and IR receiver which receives the ray after getting any obstacle. It is shown in block diagram in Fig. 13. Fig. 13. IR transmitter and IR receiver sending and receiving rays. [10] An IR sensor, A is mounted over a wall there is a gap between the human and the IR is distance B. The rays split Yüklə 0,96 Mb. Dostları ilə paylaş:
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