Adil Khan 1 year ago
AdiKhanOfficial #FYP Ideas

Advanced firefighting Robot using wireless sensor network technology

Summary:       Fire disasters can occur anytime and result in high losses in terms of lives and property damage. When the incident happens, fire fighters risk their lives to extinguish the fire. The fire spreads so rapidly and it takes no time to cover the whole area. There are

Project Title

Advanced firefighting Robot using wireless sensor network technology

Project Area of Specialization

Internet of Things

Project Summary

Summary:

      Fire disasters can occur anytime and result in high losses in terms of lives and property damage. When the incident happens, fire fighters risk their lives to extinguish the fire. The fire spreads so rapidly and it takes no time to cover the whole area. There are few problems arise in this situation;

1. The response time of fire brigades after informing about the situation.

2. The lives of fire fighters in case of high temperature and even presence of explosive materials.

To solve these problems, we come up with the idea that not only responds the incident very fast but also saves the many lives of fire fighters in the fire critical situations. As we have observe the few incidents occurred during the last decade in which human lives were lost, such as Baldia Town factory. To save people’s life and also save fire fighters from such disaster we need firefighting robot. Robots can help people performing certain jobs, especially in the field that requires a high degree of precision, high-risk, or a job that requires a great power. Therefore, this project idea presents the development of a firefighting robot that can be informed the presence of fire automatically and inform the robot to extinguish fire without the need of any human intervention. The electronic part is one of the vital parts in the development of firefighting robot. It includes flame sensors, Node MCU, DC motor with wheel, Servo motor and Water pump.

This project has two parts. In first part, we will develop wireless sensor nodes which will be placed at the various locations of the building using the concept of Wireless Sensor Network (WSN) technology. The single sensor node consists of flame sensor and a controller (i.e nodeMCU) and work as a client in the wireless network. In second part, robot will be built with the controller as a server. All nodes are connected using internet using the concept of Internet of Things (IoT). The robot also has motor driver (L298N) is used to activate the moving of the gear motor, flow of water starts that extinguish the fire. In this project idea, the location and path of every sensor node is known to server mounted on the robot. After getting signal, the robot starts move towards the fire through its predefined path and stop at the safe distance to the fire. When the robot reaches in the vicinity of the area then the flame sensor in the robot starts working. With the help of flame sensor the robot reach near to the fire and start extinguish the fire.

Project Objectives

Objectives:

1. The main objective of this project is to design and implement an advanced firefighting robot that is able to monitor a prescribed area, detect for the occurrence of fire, locate for exact location of fire source, extinguish the flame and safely return to continue with the patrolling of the area once the extinguishing task is completed.

2. To obtain this goal 3 sensor nodes are also created which are connected with robot through WSN technology.

3. The implementation of this robot will increase the safety of firefighters and therefore help mitigate deaths from unsafe conditions.

Project Implementation Method

 
Implementation Method:
         We will design the wireless firefighting robot which is capable of taking and analyzing inputs from sensors and responds to the commands send by the user. The robot has capability to detect fire anywhere in the building with the help of sensor nodes which work as a client. The robot can perform its operation under adverse circumstances effectively. In future, we want to integrate more sensors with the robot so that more readings can be analyzed by the user so that precise commands can be given to the robot to perform its operation effectively in lesser time. This project has two parts. In first part, we will develop wireless sensor nodes which will be placed at the various locations of the building using the concept of Wireless Sensor Network (WSN) technology. In second part, robot will be built with the controller (NODE MCU) as a server. The robot will be control through programming. . It will follow the path already defined by the user through programming. The sensor nodes consist of fire sensors which detect where the fire blows and send data through Wi-Fi technology to the node MCU which is present in the robot. The robot also has a fire sensor which is activated when it reach near to the fireplace. The robot also consists of wheels and motor driver which helps the robot to move towards its destination and spray the water through water pump. Movement of robot is successfully controlled by programming user via an application (Arduino IDE) on the smartphone, pc, and laptop etc. By the time the robot moved backward when there is nothing in front because we assume that there is no obstacle and fixed the path .The robot moved to extinguish the fire when it reaches to destination, its IR sensor gets activated, The fire extinguishing system is activated once the Flame Sensors detects that there is a fire source and the distance between the Firefighting robot and the fire source is closed enough. Then robot get activate and start extinguishing fire. All these functionalities were integrated in a prototype that was satisfactorily tested in experiments in close to operational conditions. The design of the enclosure considering different cost-performance solutions is currently under work. Expensive solutions are more effective from a protection point of view. We are currently working on the evaluation of the most suitable enclosure from a cost-robustness tradeoff perspective.
 

Benefits of the Project

Benefits of the Project:

• The safety of firefighters and the victims caught in fires is paramount which urging the production of these robots forward.

• They have the ability to withstand environments too hazardous for people and can prevent further damage that may happen left to traditional methods of suppression.

The robot will be used at places where it is dangerous for humans to enter.

? Capability of sensing accurately with increased flexibility.

? Reduce human effort.

? Reliable and economical.

? It reduces the time delay in reaching fire affected area.

? It reduce the errors and the limitations that are faced by human fire fighters.

? Sensors have long life time and less cost.

• It has ability to detect the source of fire, extinguish it and save lives and property assets.

• Reduce human effort.

• It reduces the time delay in reaching fire affected area.

• Sensors have long life time and less cost.

Technical Details of Final Deliverable

Technical Details of the Final Deliverables:

     In most of the offices in Pakistan, the water spray is usually used as a fire extinguisher agent to control moderate fire. This traditional practice smothers the fire at the cost of damage in terms of electronics equipment and documents located in the vicinity of the fire. To reduce the damage rate, an autonomous firefighting robot is developed that first detects fire with the help of flame sensors, then automatically reach to the fireplace and extinguishes the fire through releasing the cloud of carbon dioxide gas. Moreover, it is also capable of sending notification through sensor nodes to the concerned person or rescue departments. A series of tests have been performed on an implemented robot and the results show that it functions well as intended. In future, this solution can be converted into a firefighting drone .The use of a quad copter mechanism instead of wheel in proposed solution may play a handy role to extinguish the fire on high building with the help of remote control.

Final Deliverable of the Project

Hardware System

Core Industry

IT

Other Industries

Core Technology

Internet of Things (IoT)

Other Technologies

Robotics

Sustainable Development Goals

Industry, Innovation and Infrastructure

Required Resources

Item Name Type No. of Units Per Unit Cost (in Rs) Total (in Rs)
Node mcu Equipment48003200
Sensor Equipment131501950
DC motor Equipment4100400
Wheels Equipment4120480
Water tank Equipment1400400
Breadboard Equipment52001000
Multimeter Equipment120002000
LEDs Equipment1010100
Wi-Fi device Equipment135003500
Internet package Equipment9210018900
Miscellaneous Miscellaneous 150005000
Total in (Rs) 36930
If you need this project, please contact me on contact@adikhanofficial.com
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