Claims:WE CLAIM:
1) A Firefighting system using internet of things (IOT) comprising of;
a. Detecting the fire condition through Sensors placed in the buildings and transferring all the historical data to the users and the system (database of the website);
b. data base of the website for building data storage;
c. micro controller for data processing;
d. communicating with the computer system through microcontroller;
e. communicating with the other locations in the building through web access parameters by this Wi-Fi ,
f. carrying out video transmission through WIFI interface for WIFI camera.
2)The Firefighting system using internet of things (IOT) as claimed in claim 1, wherein the said system is used for complete collection of object and environment information. like people, events, environments, materials, firefighting products, fire-fighting facilities and fire-fighting equipment using sensors, video, RFID and other technologies involved in firefighting safety management.
3) The Firefighting system using internet of things (IOT) as claimed in claim 1, wherein the said system with Wireless sensor network is communicated with the base station or computer system through microcontroller.
4) The Firefighting system using internet of things (IOT) as claimed in claim 1, wherein the said system carries out the transmission of sensor information to different networks and achieve data exchange between different objects and platforms.
, Description:FIELD OF THE INVENTION:
The present invention relates to a fire fighting systems. The present invention more particularly relates to a firefighting system using internet of things (IOT).
BACKGROUND OF THE INVENTION:
Prevention of fire and fire risk level control difficulty are increased day by day. Fire-fighting and monitoring situations are very serious today. Public security keep on insisting in increase of technology in firefighting and monitoring. They give special attention to improve the science and technology in resisting fire disasters. Fires accidents are becoming more serious because of bigger building density and higher urban buildings. Accidental fires caused 6% of all unnatural deaths in India. Exploding cooking gas cylinders and stoves accounted for nearly one-sixth of all deaths from accidental fires between 2010 and 2014, with a total of 19,491 deaths. Electrical short circuits killed 7,743 people over the same period. Fire accidents kill 54 people daily in India and direct property losses are unknown. In order to protect the people and secure the properties from fire, it is necessary to design good real time high reliable fire monitoring system. There are lot of disadvantages in the available fire detection, monitoring and alarm system. The few disadvantages are small surveillance capacity, simple human computer interface system, poor reliable in detection, slow response time and non flexible network interface system. The traditional fire monitoring system has false negative responses and false positive responses are high in number. The rate of occurrence of malfunctions in these system are large and the time delay in detection is very serious. It is necessary to design a system to overcome these problem and satisfy the application user requirements.
Prevention of fire and fire risk level control difficulty are increased day by day. Fire-fighting and monitoring situations are very serious today. Public security keep on insisting in increase of technology in firefighting and monitoring. They give special attention to improve the science and technology in resisting fire disasters. They are concerned about the application of new technology such as IoT and wireless sensor network in fire-fighting and monitoring field. IoT is very suitable for fire-fighting with wide scope along with wireless sensor network (WSN). IoT has high degree of intelligence for maintaining many product categories, quantities, complex fire danger factors and large range of equipment for fire monitoring and fighting. IoT has high scalability and high resource sharing capabilities for handling various complex business information. IoT combined with WSN plays an important role in the fire alarm, fire control facility monitoring and fire equipment management. IoT technology is combined with fire fighting for hazard source monitoring, fire monitoring, fire-fighting rescue, fire early warning, prevention and early disposal. It is used effectively to enhance the fire brigade fire frightening and emergency rescue capabilities.
So there is a need for an IOT based firefighting system with small surveillance capacity, simple human computer interface system, poor reliable in detection, slow response time and nonflexible network interface system.
OBJECTS OF THE INVENTION:
The main object of the present invention is to provide an IOT based firefighting system.
Another object of the present invention is to provide a system for a with small surveillance capacity, simple human computer interface system, poor reliable in detection, slow response time and nonflexible network interface system.
Other objects and benefits of the present invention will be more apparent from the following description, which is not intended to bind the scope of the present invention.

SUMMARY OF THE INVENTION:
Accordingly, an IOT based firefighting system is disclosed. Firefighting system using internet of things (IOT) comprising of; Detecting the fire condition through Sensors placed in the buildings and transferring all the historical data to the users and the system (database of the website); data base of the website for building data storage; micro controller for data processing; communicating with the computer system through microcontroller; communicating with the other locations in the building through web access parameters by this Wi-Fi ,and carrying out video transmission through WIFI interface for WIFI camera.
DESCRIPTION OF THE DRAWINGS:
Fig 1 is the flowchart for IOT based firefighting system.
DETAILED DESCRIPTION OF THE DARWINGS WITH RESPECT TO DRAWINGS:
The present invention is an IOT based firefighting system. The present invention provides small surveillance capacity, simple human computer interface system, poor reliable in detection, slow response time and nonflexible network interface system.
In one embodiment, fire monitoring system is based on wireless sensor network in combination with Internet of Things. The system minimize the losses due to fire. Sensors detects the fire condition and transfers the data to the system. Fire brigade and building owners can do the interactions with the system. Sensors placed in the buildings detect the data and all the historical data is provided to the users. The historical data reference from building data base server provides useful response mechanisms. The users can communicate with the system through different ways to monitor and control the environment and get more information about it. The wireless fire-fighting or monitoring system consists of the following units.
Sensors are for data collection, data base of the website building for data storage, a computer interface for data exchange and micro controller for data processing. The system includes the process of finding fire and fire treatment mechanisms. This includes fire prevention and elimination of fire from the buildings. Wireless sensor network is communicated with the base station or computer system through microcontroller. The fire department or house owner or any attention need public persons get information through PC. The communication is possible with the other locations in the building through web access parameters by this Wi-Fi. GSM interface with short messages and WIFI interface for WIFI camera video transmission.
In another embodiment, Sensing layer is mainly used for complete collection of object and environment information. For collecting real time information about various objects like people, events, environments, materials, firefighting products, fire-fighting facilities and fire-fighting equipment using sensors, video, RFID and other technologies involved in firefighting safety management.
The transmission of sensor information to different networks is carried out. It ensures the proper information transmission and achieve data exchange between different objects and platforms.
Finally, data storage, integration and interface of heterogeneous networks, data mining is carried out which supports reliable platform for service management. It ensures the establishment of firefighting safety application. It is used for sharing information, integration of user, intelligent analysis and process control for firefighting IoT. Finally it supports fire-fighting and monitoring business work.
The Iota firefighting application service includes five systems. They are Fire-fighting product identification system, Fire-fighting facility monitoring system, Hazard source monitoring and warning systems, firefighting material monitoring system and Emergency field management and control system.
Fire-fighting product identification system includes fire-fighting product identification codes, and management. The system is designed to do the following works.
They are 1. Fire-fighting product supervision, 2. Management of the products, 3. Improving firefighting product quality 4. Establishing fire-fighting product market order 5. Preventing production and circulation of fraud imitation firefighting products and so on. It also includes technical support for maintenance of fire-fighting products, quality tracking, performance evaluation and management of fire-fighting equipment. ii. Fire-fighting facility monitoring system. They are 1.Fire-fighting facility state perception, 2. Fire disaster early warning, 3. Household fire alarm, 4. Remote network transmission, 5. Video surveillance access and transmission, 6. Remote monitoring information platform of fire-fighting facilities, 7. Fire-fighting facility availability assessment and diagnostic analysis, 8. Firefighting facility maintenance and inspection information management, 9. Fire control supervision, 10. Emergency field information services and so on. The system can ensure the following operations. They are 1. The function of fire-fighting facilities, 2. Extending firefighting supervision vision, 3. To improve the operation of fire-fighting facilities, 4. The timely discover and eliminate fire hazards, 5. To strengthen emergency
Field information support, to provide technical support for fire disaster early warning and for early prevention and early disposal and so on.
Hazard source monitoring and warning system. It includes the following functions. Such as Hazard source status monitoring, Hazard source environmental monitoring, Safety hazard inspection and monitoring, Hazard source logistics trajectory control, Hazard source warning judgment, Project construction site hazard source monitoring, Hazard source emergency treatment plan, Emergency response linkage platform and so on. The system can predict hazard source potential risks, and can prevent fires, explosions, toxic leaks and other serious accidents caused by hazard source, and providing solid foundation for timely and effective emergency rescue after occurrence of accidents. iv. Fire-fighting and material monitoring system: It includes intelligent deployment and monitoring of firefighting equipment, intelligent management of firefighting equipment emergency repository, firefighting equipment deployment and monitoring, firefighting equipment data analysis, national fire-fighting equipment support system and so on. The system can improve information, intelligence and automation level of firefighting equipment and materials management, and can enhance co-ordination management ability and resource integration sharing of fire-fighting equipment and materials, accelerating fire-fighting equipment management modernization construction, and further can enhance the core fighting force of public security fire brigade.
Video monitoring information access and transfer technology the fire-fighting control room audio and video remote monitoring platform should be established, thereby realizing video and audio remote monitoring on personnel in real time, and strengthening fire-fighting departments.
Fire-fighting facility inspection maintenance information management Fire-fighting facility inspection maintenance information management platform should be established for standardizing failure acceptance, maintenance management, inspection check and other information flow, thereby promoting to improve management level and work efficiency of fire-fighting facility maintenance enterprise.
Emergency field information supporting technology For information support technology, fire-fighting safety management IoT provides detailed and accurate status of building firefighting facility, fire burning time, the fire trend development process, dynamic information for emergency actions and effective disposal after the firefighting rescue forces arrive. The fire site video surveillance system is used for the fire-fighting rescue forces timely, accurately and intuitively grasp the fire site situation and conduct disaster pre-judgment and analysis on the way to the site, thereby effectively enhancing the fire-fighting and rescue operational effectiveness.
In another embodiment, Firefighting system using internet of things (IOT) comprising of;
a. Detecting the fire condition through Sensors placed in the buildings and transferring all the historical data to the users and the system (database of the website);
b. data base of the website for building data storage;
c. micro controller for data processing;
d. communicating with the computer system through microcontroller;
e. communicating with the other locations in the building through web access parameters by this Wi-Fi ,
f. carrying out video transmission through WIFI interface for WIFI camera.