SPARTK PRIME technology in india for engineers.pptx
1. THE PRIMARY OBJECTIVE OF THIS PROJECT IS TO CREATE A ROBOTIC SYSTEM THAT
CAN AUTONOMOUSLY DETECT, LOCATE, AND MITIGATE FIRE OUTBREAKS IN
VARIOUS ENVIRONMENTS, ENSURING THE SAFETY OF BOTH HUMANS AND
PROPERTY. THE ROBOT IS EQUIPPED WITH A RANGE OF ADVANCED SENSORS,
INCLUDING TEMPERATURE, SMOKE, AND GAS SENSORS, WHICH ALLOW IT TO
DETECT THE PRESENCE OF FIRE AND ASSESS THE SEVERITY OF THE SITUATION.
THROUGH REAL-TIME DATA COLLECTION AND ANALYSIS, THE ROBOT CAN
ACCURATELY IDENTIFY THE FIRE'S LOCATION AND PROVIDE CRUCIAL INFORMATION
TO EMERGENCY RESPONDERS.
5. • Develop an IoT-enabled fire fighting robot equipped with advanced sensors
to detect and assess fire incidents swiftly and accurately.
• Enable real-time data analysis to determine fire severity, precise location,
and optimal response strategies.
• Implement autonomous navigation for the robot to efficiently maneuver
through complex environments and reach fire sources.
• Establish robust IoT communication for remote monitoring, control, and
seamless integration with emergency response systems.
• Enhance firefighter safety by minimizing human exposure to hazardous
environments while improving overall firefighting efficiency.
OBJECTIVE:
6. • Arduino Board
• Voltage Meter
• Features Extraction
• Power conception
• Ultrasonic
• Sensor’s
PROJECT DESCRIPTION
10. PROPOSED WORK
• Industrial automation control systems are becoming
increasingly crucial to manufacturing in a range of sectors.
• The fact is, though, industrial automation control systems
impact the wider enterprise, which means they can
significantly improve your business.
12. CONCLUSION
• sensor-equipped firefighting robots represent a transformative advancement in fire response
technology. These robots offer early fire detection, reduced human risk, precise and autonomous
firefighting capabilities, and the ability to operate in hazardous environments. With continuous
monitoring, remote operation, and real-time data feedback, they enhance both the efficiency and
safety of firefighting efforts.