WiFi enabled AntiFog, Obstacle Avoidance and Vehicle Maintenance System

Smog is considered as a serious worldwide problem especially in Asian countries resulting sometimes in fatal injuries. Wireless communication can play a vital role in solving this problem effectively. This system is proposed and designed to drive the vehicles safely in a dense smoggy atmosphere wher

Project Title

WiFi enabled AntiFog, Obstacle Avoidance and Vehicle Maintenance System

Project Area of Specialization

Internet of Things

Project Summary

Smog is considered as a serious worldwide problem especially in Asian countries resulting sometimes in fatal injuries. Wireless communication can play a vital role in solving this problem effectively. This system is proposed and designed to drive the vehicles safely in a dense smoggy atmosphere where nothing is visible to the driver. The system utilizes off the shelf wireless fidelity modules operating in station mode for moving vehicles and access point mode for immobile vehicles to enable the driver to drive along a smoggy path in case if any vehicle is stopped on the motorway due to any reason (accident, car breakdown, etc.) Along with the use of ESP8266 Nodemcu, Ultrasonic sensors and Accelerometer. Ultra Sonic sensors installed on the vehicle shows the distance of front objects to let him drive safely. Additionally, an android application is also designed so that the users having an Internet resource can see road hazards (speed breakers, potholes, debris etc) ahead. The technique is used to analyze the mobile phone’s global positioning system coordinates and speed of the vehicle to do effective road monitoring. The proposed system would not only be helpful for the drivers to drive smoothly on the road in a foggy environment and avoid unforeseen catastrophes but can also be used for effective road monitoring.

Project Objectives

The aim of this project is to develop an Anti Fog system which determines the obstacle and its distance using Ultrasonic Sensors. It also identifies the location of the obstacle and monitors the road with the integration of GPS to our data collection application.

The objectives are the following:

•Objective 1: Obstacle detection and distance measurement

•Objective 2: App development for data collection

•Objective 3: Road Monitoring using crowdsourcing.

Project Implementation Method

Implementation Method

1. The ESP8266 will be programmed to work in station and access mode

2. The ADXL345 Accelerometer will be integrated with NodeMCU.

3. The ESP8266 will be integrated with the Ultrasonic sensor.

4. App will be developed and functions of crowdsourcing would be added. 

5. Hardware and Software part will be integrated. 

Benefits of the Project

After the successful completion and testing of the project, we would have a device which when fitted to any vehicle would work to guide the vehicle
in any environment which results in compromised visibility. The said objective would be achieved by using wifi as the source.
the proposed system would ensure the smooth flow of vehicles by preventing accidents on the high way using a High-range ultrasonic sensor and via Wireless communication.
Coupled with the device, an app would be launched, which with the permission of the user would first find the user's location and then with the touch of a button
record the users traveled path, miles traveled, and the route taken whilst also monitoring the road, its conditions and the driving habits of the user/driver.
 

Technical Details of Final Deliverable

The project is comprised of the following stages.

D5.1- In the 1st stage, the ESP8266 will be programmed to work in station and access mode so that if one car stops or moves wifi either emits or gets connected. 

D5.2- In the 2nd stage, the ADXL345 Accelerometer will be integrated with NodeMCU to observe the movement or steady position of the vehicle. 

D5.3- In the 3rd stage, the ESP8266 will be integrated with the Ultrasonic sensor to note down the distance from the vehicle 

D5.4- In the 4th stage App will be developed and functions of crowdsourcing would be added for road monitoring purpose and for locating the required shops

D5.5- In the 5th stage Hardware and Software parts will be integrated together to get the proper results.

Final Deliverable of the Project

HW/SW integrated system

Core Industry

Health

Other Industries

IT , Legal , Manufacturing , Transportation , Security

Core Technology

Internet of Things (IoT)

Other Technologies

Wearables and Implantables

Sustainable Development Goals

Good Health and Well-Being for People, Industry, Innovation and Infrastructure, Sustainable Cities and Communities, Life on Land

Required Resources

If you need this project, please contact me on contact@adikhanofficial.com