Design And Construction Of A GSM/SMS-Based Fire Alarm System

Electrical Electronics Engineering | Industrial Physics | Physics

The design and construction of a GSM/SMS-based fire alarm system involve the development of a sophisticated security apparatus that utilizes GSM technology to alert designated individuals via text messages in the event of a fire emergency. This system typically integrates various components such as heat or smoke sensors, a microcontroller unit (MCU) for processing data and controlling system operations, GSM modules for communication, and a power supply unit. Upon detection of smoke or a rise in temperature beyond a predefined threshold, the sensors trigger the MCU, which then activates the GSM module to send out pre-programmed SMS alerts to designated phone numbers. The system may also include additional features such as manual override switches, battery backups for power redundancy, and remote monitoring capabilities through mobile applications or web interfaces. The integration of GSM/SMS technology enhances the responsiveness and reliability of traditional fire alarm systems by enabling real-time communication and remote management, thereby bolstering the safety and security of residential, commercial, and industrial spaces.

ABSTRACT

A fire alarm system is used primarily to evacuate the premises in the event or occurrence of a fire condition and then secondarily to report the fire to the proper authorities, in this paper basically a low cost fire detection and control system based on smoke and heat detection is proposed.The use of wireless automation in almost all the field of power, gas, agriculture and security systems has over the years provided novel solutions to remote operations, in the paper the implementation of a SMS based communication system is incorporated to a smoke detection system in the case of a fire. The implemented design is cheap and effective. The SMS sending feature included in the design increases the reliability of the system. The design has been developed since the social and economic cost of natural disasters which has increased in recent years due to population growth, change in land use patterns, migration and unplanned urbanization, environmental degradation and global climate change. Fire considered being natural or manmade, thus the management shall provide safety of the building occupant and properties. The system has come to light through the way of inspiration to develop a compact system, based on the fundamental ideas of safety, security and control.

LIST OF FIGURES

Figure 2.1: Fire Tetrahedron ……………………………………………………………5

Figure 2.2: Basic Conventional Fire Alarm System ……………………………………6

Figure 2.3: A Manual Pull Station Cover ……………………………………………….7

Figure 2.4: Class A Fire………………………………………………………………….8

Figure 2.5: Class B Fire …………………………………………………………………8

Figure 2.6: Class C Fire …………………………………………………………………8

Figure 2.7:Class D Fire …………………………………………………………………….8

Figure 2.8: Types Of Fire Extinguishers ………………………………………………..10

Figure 2.9: GSM Network Structure ……………………………………………………15

Figure 3.9: LDR CIRCUIT ………………………………………………………………22

Figure 3.1: System Block Diagram …………………………………………………………….17

Figure 3.2: Regulated Power Supply ………………………….………………………..17

Figure 3.3: Bridge Rectifier Circuit …………………………………………………….19

Figure 3.4: Capacitor Filtering ………….……………………………………………….21

Figure 3.5: Block Diagram Of LM317T …………………………………………………23

Figure 3.6: Battery Backup………………………………………………………………24

Figure 3.7: LED Schematic Symbol And I-V Characteristics Curves Showing The Different Colours Available …………………………………………………………………………25

Figure 3.8: LED Series Resistor Circuit ………………………………………………….26

Figure 3.10: PIC 16F84A PIN Configuration …………………………………………….27

Figure 3.11: PIC 16F84A Block Diagram…………………………………………………28

Figure 3.12: SIM900 GSM/GPRS Module ………………………………………………..29

Figure 3.13: MQ5 Circuitry ……………………………………………………………………31

Figure 3.14: shows the typical sensitivity characteristics of the MQ-5 for several gases. In their: Temp: 20℃, Humidity: 65%, O2concentration:21%, RL=20Kω, Ro: sensor resistance at 1000ppm of H2 in the clean air. Rs: sensor resistance at various concentrations of gases. …………………………………………………………………………………………….32

Figure 3.15: shows the typical dependence of the MQ-5 on temperature and humidity. Ro: sensor resistance at 1000ppm of H2 in air at 33% RH and 20degree. Rs: sensor resistance at different temperatures and humidity ……………………………………………………33

Figure 3.16: Complete Circuit Diagram For Fire Alarm System With SMS Notification………………………………………………………………………………34

LIST OF PLATES

PLATE 4.1 Inside View Of Packaging Housing Design Components………………..39

PLATE 4.2 Aerial View Of Complete Design………………………………………..40

PLATE 4.3Complete System Powered ON …………………………………………..41

TABLE OF CONTENTS

COVER PAGE ………………………………………………………………………….I

DECLARATION ………………………………………………………………………..II

CERTIFICATION ………………………………………………………………………III

DEDICATION ………………………………………………………………………….IV

ACKNOWLEDGEMENT ……………………………………………………………………..V

ABSTRACT ………………………………………………………………………. ……VI

LIST OF FIGURES ………………………………………………………………………VII

LIST OF PLATES………………………………………………………………………..VIII

CHAPTER 1

INTRODUCTION

1.0 Background Information Of The Study………………….…………………………….1

1.1 Statement Of Problem……………………………………………………………………………….2

1.2 Objective…………………………………………………………………………………………..3

1.3 Scope Of The Study……………………………………………………………………3

CHAPTER 2

LITERATURE REVIEW

2.0 Introduction To Fire And Fire Alarm Systems ……………………………………………….4

2.1 Classes Of Fire…………………………………………………………………………7

2.2 Types Of Fire Extinguishers……………………………………………………………9

2.3 Review Of Related Works……………………………………………………………..10

2.4 Introduction To GSM Network…………………………………………………………13

2.4.1 Messaging Over GSM Network………………………………………………………14

CHAPTER 3

DESIGN AND CONSTRUCTION PROCEDURE

3.0 Methodology………………………………………………………………………….16

3.1 Hardware Design Analyses……………………………………………………………16

3.1.1 Power Supply………………………………………………………………………………………….17

3.1.2 Transformer ……………………………………………………………………………….18

3.1.3 Bridge Rectifier………………………………………………………………………………..18

3.1.4 Filtering Capacitors……………………………………………………………………….19

3.1.5 LM317T Voltage Regulator………………………………………………………..22

3.1.6 Battery Backup………………………………………………………………………24

3.2 LED Indicators…………………………………………………………………………24

3.3 The Microcontroller Unit………………………………………………………………27

3.4 Interfacing The SIM 900 GSM Modem With Microcontroller………………………..28

3.5 Smoke Detector Module (The MQ5 Gas Sensor)………………………………………30

3.6 Selection Of Materials …………………………………………………………….35

3.7 Construction Procedure ……………………………………………………………….35

3.7.1 Printed Circuit Board (PCB)…………………………………………………………..36

CHAPTER 4

4.0 Results And Discussion………………………………………………………………..41

4.1 Presentation Of Results ……………………………………………………………42

CHAPTER 5

CONCLUSIONS AND RECOMENDATIONS

5.1 Conclusion…………………………………………………………………………….41

REFERENCES…………………………………………………………………………….42

CHAPTER ONE

INTRODUCTION

1.0 BACKGROUND INFORMATION OF THE STUDY

Today, humanity can be classified as living in a “machine society” where technological tools are predominantly at different levels, interfacing in the day–to-day activity of man. These livelihood activities constitute and deliver economic, social and political benefits and potential risks to the survivability of nations –especially developing nations like ours.

Due to the fast development in telecommunication technologies, it is believed that wireless communication is a good practice for remote sensing and automation in industrial and residential locations.Nigeria, like any developing country, is witnessing an era of rapid economic and social development. This development brings with it, new technologies, new materials, power sources and telecommunication equipment. Modern industries are springing up housing volatile materials and highly sophisticated equipment that increase the menace of fire. Concern for safety of lives and properties calls for an efficient and dependable fire protection system. This has enhanced the application of new technologies in the fire field. Sensors are able to consider certain dynamic and static variables such as humidity, the type of fuel, slope of the land, the direction and the speed of the wind, smoke , to mention a few.

The reports of most of the panel of enquiries on fire accidents in Nigeria, oral interview of some fire experts and personal experience confirmed the fact that electrical fault is a major source of fire accident. Hence, realization that a fire protection system capable of automatically switching off electrical power supply to the affected area in addition to the traditional role of raising an alarm and triggering a sprinkler or other automatic fire lighting system is going to be more efficient than the existing systems which leaves that important role unaddressed.Now a day’s automatic fire detection and control is becoming very essential to reduce the fire in the building and industry. Automatic fire alarm system provides real-time surveillance, monitoring and automatic alarm. A key aspect of fire protection is to identify a developing fire emergency in a timely manner, and to alert the building’s occupants and fire emergency organizations. This is the role of fire detection and alarm systems. Generally fire detectors are designed to respond at an early stage to one more of the four major characteristics of combustion, heat, smoke, flame or gas. No single type of detector is suitable for all types of premises or fires. Heat detectors respond to the temperature rise associated with a fire and smoke detector respond to the smoke or gas generated due to fire.

Thus, proposed in this paper is the design and implementation of a fire alarm system with SMS notification, this idea is economically efficient as well because the system proposed is intelligent and reduces human intervention and labour extensively and execution can be gotten at a very low cost providing extensive environmental, property and life safety.

1.1 STATEMENT OF THE PROBLEM

The Nigerian environment is considered to be hazards prone brought about by man-made and natural disasters due to its geographic circumstance which is exposed to catastrophic, floods droughts and fires. Based on the reports; devastations of these natural hazards and disasters including fires have increased in recent years. Our lifestyle of negligence and adapting to emerging technological solutions puts us at the risk of loss to fire and related occurrences as seen in markets, homes and other public places. The risk of fire occurrence is high especially during the dry season, Christmas and New Year celebration due to firecrackers. In the case where house fires are prevalent, it has effect to derail the economic growth, destroy social and physical capital including infrastructures, which resort to reallocation of ongoing programs to finance relief operations to fatalities and inhabitants and reconstruction efforts which diverts funds to social services. Fires are considered natural and man-made hazards. In fire prevention and fire suppression; it requires the adoption of uniform fire safety standards, the incorporation of fire safety, construction and provision of protective and safety devices in buildings and structures.

OBJECTIVE

The basic objective of this system is to utilize the available and cheap method of the remote and automation process of the GSM network and sensing system to collect real-time status of the environment and make measurements to prompt a remote response in case of a fire incident.

1.3 SCOPE OF THE STUDY

The scope of this project is to design and construct fire alarm system interfaced with a microcontroller unit and GSM module with the wireless communication features over SMS. Within the scope of this project, the prototype model is equipped with a dedicated SIM (Subscriber Identification Module). Minimal power consumption can be achieved for the operations. The limitation of this project is that the system would not be able to perform communication get the real status of the location when there is no network coverage.