Automatic Fire Alarm System (A-FAS) Design

Automatic drop off Alarm dodge (A-FAS) Design digestThe sentry go of the environment and individuals is varaned and principal(prenominal)tained by the important role firing off solicitude strategys play. Although, the usability of m both(prenominal) of the existing attack demoralize organizations is known by the exploiters, however, they ar drived with risque constitute thus not reasonable for the let loose-income users. The main objective of this project is to envision a ensample of an carmatic implode alarm administration ashes of rules (A-FAS) with low court. The A-FAS designed in this project contains cardinal carcasss, the take noteion outline and the alarm strategy. The determineion strategy operates as the zeal demodulator and consists of a poop demodulator, agitate detector and an emergency counterchange as a manual call point. This paper discusses the design and capital punishment of a microcontroller base flak catcher alarm schem e. The detectors argon rigid in different regularises and e real mansion from any detector at any zone will activate the alarm arranging. The alarm system consists of LEDs, liquid crystal display notification, campana and text message notifications. Furthermore, the system is fitted with demodulators at different zones to mark the presence of individuals, this feature aids the monitoring attend to of the system. The ideal system is controlled by a microcontroller which is programmed using Arduino compiler. Upon completion of the prototype, the A-FAS detects tummy or any rise in temperature sensed by the detectors. Finally, when any of the sensing elements ar triggered, the toll operates and the system sends a text message to the saved number. With the dampment of A-FAS, the rubber of individuals and purlieu will be increased as the low represent of the system will promote users of all income trains to throw off one at their place or home.INTRODUCTIONAn over caco ethesed electrical appliance, a burn splinter or a burning cig atomic number 18tte or exclusively ab step to the fore any of these groundwork trigger a onslaught. Moreover, the presence of nylon settings and a sofa set which emanate poisonous gases if on energize, will open people helpless in a couple of minutes, before plane realizing what is happening.ADT earnest Service and the Chubb Alarm argon the well-recognized companies that deal with security systems and throw off been the innovative leaders in security systems. The products offered by these companies vary from interloper alarms to exaltedly sophisticated bam alarm systems. Furthermore, the systems built by these companies are high in exist and require a scheduled keep to be carried out by the companys specified authorities.Based upon the current existing high be fire alarm systems that are lendable in the commercialise, an mechanical fire alarm system with low address has been let oned. The A-FAS consis ts of two subsystems sensing system and alarm system.The A-FAS detection system has smoke catching capabilities as it incorporates an optical smoke detector. Moreover, it is interfaced with heat detector and an emergency switch. The system features counting capabilities found on infrared radiation emission sensors to ease the determination of individuals in case of emergency.The A-FAS alarm system is associated with the detection system to ease the process of alarming individuals in the event of fire. The alarm system consists of LED and liquid crystal display notifications displaying the location of the fire. A buzzer is also incorporated in the system. The system sends text message alerts as it incorporates a GSM module.Finally, the main part of the A-FAS that controls the entire operation is the microcontroller. This dissertation describes the design and operation of a microcontroller ground fire alarm system that could contri howevere to saving lives and reduce proper ty losings with low cost.AimThe main purpose of this project is to design and prototype an automatic fire alarm system (A-FAS) with trenchant and competitive manipulation and can be produced at a low cost. This system is designed to be easy to operate by any user and is user friendly.The A-FAS is also been designed using minimum hardware at the pooh-pooh level of processing. The system is not restricted to the mentioned infixs and outputs, however, can be adapted per node of necessity without having to design a new system.Problem appellationThe complexity of the existing fire alarm system in the securities industry nowadays is too high in terms of design and structure. delinquent to the complexity of the system, regular preventive maintenance is requisite to be carried out to make sure that the system is operating well. Moreover, the scheduled maintenance adds to the cost of the using the system. Therefore, the proposed fire alarm system is designed with a low cost and can b e utilise by any user for safety purposes.Project ObjectivesThere are some(prenominal) objectives that are required to be r apiece outed in growing the A-FAS to determine the purpose and the elbow room of this project. This project aims to achieve the avocation objectivesTo design a low-cost microcontroller based fire alarm system.To develop a prototype of the fire alarm system using smoke detector, heat detector, emergency switch and infrared sensors as inputs to the system. Moreover, using LEDs, LCD display, buzzer and text messages as outputs to the system.To develop a prototype with the capability of customizing the system to meet with the customer requirements with regards to the inputs and outputs, without having to plan a new system.To develop an automatic fire alarm system to safeguard the user and their surroundings, while cosmos user friendly to match the need of the masses.Project ScopeTo achieve the above objectives, the project needs to be implemented as belo wThe heart of the fire alarm system is to be a microcontroller to control the entire operations conglomerate.The fire alarm system is to count the number of individuals present in the locations where the infrared modules are installed. adequate to(p) of displaying the character of the alarm on the LCD display.Capable of sending SMS notifications via GSM module interfaced in the system.Project limitationSince the project is interfaced with a GSM module that needs a SIM card to send SMS notifications and thus the system is limited to the amount of credit available on the SIM. Moreover, the system allows infrared sensors that are used to count the number of people entering and exiting the zone and thus to make the system more sensitive and receive all the infrared radiation from the correct source, the infrared modules need to be placed with a minimum distance of 2 meters.Furthermore, to receive live info from the sensors to produce visual output to the user in terms of if any sen sor is disconnected from the system, the system is required to engender personalized sensors.organization Overview protrude 1.1 defines the inputs and outputs interfaced to the microcontroller device. The A-FAS has the features of interfacing additional inputs and outputs based on customer needs.Color theatrical role of sensorInfrared sensorsSmoke detectorHear detector collar switchThe A-FAS works in a loop checking all the input sources and acting accordingly. The smoke detector, hear detector and the emergency switch broadcast a signal to the microcontroller once triggered, this notifies the microcontroller to hazard the surroundings via the output devices. A keypad is added in the system to allow the user to interface and monitor the system.The Atmega2560 microcontroller acts as the heart of the Fire Alarm System which controls the entire system. The signals macrocosm received from the sensors are being compared by the Atmega2560 to either hazard the surroundings for the exist ence of fire or to hazard the surroundings for the presence of a fault in the system.Moreover, the system can alert the surroundings via a buzzer and LED notifications as well as SMS notifications once the Atmega2560 microcontroller receives signals that in that location is fire present in one of the zones.Thesis structureThis thesis is divided into six chapters. The prototypic chapter explains the problem statement, objectives, scopes and limitations of the project. The second chapter in this thesis is the projects literature review, which is based on the detection components of the A-FAS, the ATmega2560 and a comparison among microcontrollers and microprocessors. Moreover, this chapter contains summary of several available inventories software system available in todays market and previous projects developed by engineers.Furthermore, chapter three describes the points problematical in the maturement of the A-FAS. There are four builds involved in the production of the fi re alarm system which include the research var., the designing phase, development phase and the analysis phase. Chapter four of this thesis discusses the system design process involved and the hardware and software development. Moreover, chapter five explains the results of the system development of the A-FAS and its analysis based on the system operation and gets.Finally, chapter six concludes the project and the recommendation suggestions for the perseverance of the project and future work. The sixth chapter aids to the continuity of the project by other individuals interested as they can refer to it to develop the system.CHAPTER IILITERATURE REVIEWAs mentioned earlier in the previous chapter, cost factor plays a very important role in this project. Subsequently, to design a system with the objectives mentioned above requires research and studies that are described in this chapter. This chapter will include three subtopics, previous case study on fire alarm systems, hardware an d software studies.Fire Alarm System Related WorkAccording to Bao Minzhong, Jianmei, Niihau Xiao and Wang 1, the function of the fire alarm system is to detect fire at an early stage providing sufficient metre to produce high reliable judgment results. If the fire alarm system nosedives to notify the user in the presence of fire for the user to educate appropriate measures, the system fails as alarm systems should cause the operator to respond. Moreover, brownness Campbell 2 suggested that for a system not to fail, it must(prenominal) require positive feed support from the operator.Nur Abd Aziz 3 proposed a fire alarm system consisting of three sensors, thermistor hear sensor, infrared sensors and infrared smoke sensors. The thermistor heat sensor was used to detect the rate at which temperature rises and high temperatures. The infrared sensors were used for intruder alarms to detect the presence or any motion, acting as a pillager alarm system. The infrared smoke sensors were used to identify fire in its early stages or smoldering. In the presence of fire, the water sprinklers are mechanically switched on and the piratey alarm is trigger off. The known catalysts for fire is smoke, flame and heat but only smoke and smoke sensors have been applied and emphasized. Furthermore, when a fire occurs, the exceedingly sensitive motion sensors will respond to normal environmental vibration which could be caused by moving cars or planes overhead.Furthermore, Chew and Ing Ming 4 proposed a similar system consisting of smoke detector, heat detector and a burglar alarm. In the event of smoke or a rise in the temperature, the system sends a signal to the microcontroller which in return operates a buzzer. Moreover, the microcontroller operates an auto redialing telephone programmed with specific number. This system. Moreover, the system is implemented with photo-electric sensor and inductive law of law of proximity switches. The photo-electric sensor is activated w hen transmitter cannot send go down to the receiver. The inductive proximity switch is normally used for metallic element detection and activates when a metal is discover in the system. Once any of the sensors is activated, the microcontroller will sound the buzzer and brazen-faced LEDs. Chew and Ing Ming categorized the system proposed for industrial purposed. The complexity of this system contributes to the inability of installing such system at homes or offices. sleuthing components of the Fire alarm systemSensors are types of transducers that responds to a type of life force by producing another type of energy signal, usually electric 5. somewhat of the sensors available include acoustic, biological, chemical and electromagnetic. These are used in more applications and are heavily used in the medicine industry and robotics as a source of detection components. The detection components of the A-FAS consist of smoke sensors, heat sensors and infrared sensors.Smoke SensorsSmok e detectors are devices designed to detect a fire while it is in its early stages or smoldering, duplicating the sense of smell. These devices have gained a wide usage in the residential and life safety applications. There is no debate that smoke detectors is the single about effective method of reducing fire damages and death. 90% to 95% of fire deaths occur in residential buildings (NZFS, 1993), targeting this will help accomplish the most cost-effective results.Studies of assorted types of smoke detectors, in particular photoelectric and ionisation smoke detectors, illustrates that, one type of detector will be judge to perform better than the other, depending on the source of the smoke. Natarianni (1993) concludes that in flaming timber crib fires, the ionization smoke detectors activate before the photoelectric detectors. This coating is from simulated fires in hospital patient rooms. However, most importantly, both detectors activated before threatening the patients life. Moreover, a series of full- collection plate tests of smoke detectors installed in corridors and bedrooms of residential areas was conducted by Kennedy et al (1978). They concluded that inadequate warning in smoldering fires were often produced by ionization detectors. Subsequently, reducing the time available for escape once activated and the escape routes may be smoked-logged. photoelectric smoke detectors contain a light emitting device, most commonly a light-emitting diode(LED), a smoke chamber and a photosensitive device that produced a monitored current from receiving light directly from the light source. The intensity of tech light r severallying the photosensitive device is reduced by the smoke that enters the chamber. A drop in the intensity below a trusted level causes a drop in the current produced by the photosensitive device, which is detected by the sensor control circuitry. Dropping the current below a preset threshold results in triggering the smoke alarm.Table 2.1 summarizes the advantages and disadvantages of photoelectric smoke detectors. The complete specification of the smoke detector used in the A-FAS can be obtained in Appendix A.Table 2.1 Advantages disadvantages of photoelectric smoke detector 6.AdvantagesDisadvantagesSensitive to visual particles of smoke.Provide early warning.Detects smoldering low heat fires.Detects presence of smoke, not toxicity.Can be installed in any of the following typical locationsOffice areasClean roomsAtriums and corridorsSleeping rooms retentiveness closetsEarly contamination by dust causing reduced sensitivity. essential be cleaned on a regular basis.Has a potential for high false alarm rate, however, lower than the ionization smoke detectors.Heat SensorsA heat sensor detects abnormal rate of temperature rise or high temperatures. There are numbers of various heat detectors available in the market, which includeThermistor.Thermocouple.Resistance temperature device.Diode based temperature sensor.There ar e certain features to consider while choosing the best heat sensor for any use. These features are summarized in table 2.2.Table 2.2 Features of various heat sensors 7.ThermocoupleRTD thermistorSEMICONDUCTORHigh accuracy and repeatability.Fair linearityPoor linearityLinearity 1oCAccuracy 1oCNeeds cold junction compensationRequires annoyingRequires excitationRequires excitationWidest Range-148oC to +2300 oCWidest Range-200oC to +850 oCWidest Range0 oC to + coke oCWidest Range-55oC to +150 oCLow voltage outputLow costHigh sensitivity10mV/K,20mV/K Typical outputThe LM35 temperature sensor are precision integrated circuit temperature sensors, which will be used to develop the A-FAS. This sensor is fully rated from -55 C to +150 C and with the linear scale factor of 10mV/C. It operates from 4 to 30 V, has less than 60 A spill current and has low self-heating (0.08 C in still air). The control circuitry or the interfacing of LM35 is easy due to the low output impedance, linear output an d very(prenominal) inherent calibration. The LM35 series is available in hermetic TO transistor packages, while the LM35C, LM35CA and LM35D are available in TO-92 transistor package. The LM35D is also available in an 8-lead surface-mount small outline package and a plastic TO-220 package. 8 (Reprinted from datasheet of LM35 8.)The LM35 can function as a basic centigrade temperature sensor sense temperature among +2 oC and +150 oC and can function as a full -range centigrade temperature sensor sensing temperature between -55 oC to +150 oC. Figure 2.1 illustrates the circuitry for using the sensor for both functions, where +Vs is the voltage supplied to the sensor. Adjusting the output voltage of the sensor enables the temperature to be obtained in level centigrade.Infrared SensorsThere are legion(predicate) sensors available for obstacle detection such as infrared sensors, unhearable sensors, camera and laser based sensor system (LIDAR). In this thesis, infrared sensors are used to accomplish the task of counting the numbers of individuals in the placed installed.Low cost with accuracy is one of the main objectives of this project, hence infrared sensors were selected for the design. These sensors are astray used for measuring distances and obstacle detection and have faster response time than ultrasonic sensors 10. Moreover, power uptake of the infrared sensors is lower than that of ultrasonic sensors 11. Infrared sensors are categorized as diffuse reflection sensors and retro-reflective sensors. The last mentioned is mainly used in harsh environment conditions and has a big detection range than the diffuse reflective sensors 12. Infrared sensors utilize a light sensor to detect a selective light wavelength in the spectrum. When an object obstructs the sensor, the light from the LED is broken by the object and the signal is not received by the receiver.ATmega2560 MicrocontrollerAs defined by jam L. Atonakos 13, microcontrollers are souped-up micropr ocessors with built-in features such as RAM, ROM, A/D, Interval timers and analog input and output ports. Atmega2560 (figure 2.2), is a powerful flash microcontroller that contains many features in a 100-pin package. The datasheet of the ATmega2560 is attached in Appendix B.The definition of a flash microcontroller is that it can be programmed and erased instantly without the usage of ultra-violet light. The Atmega2560 is an 8-bit microcontroller with a powerful consummation of instructions in a single clock cycle wind to the achievement of 1 MIPS per MHz, allowing the designer to optimize power consumption vs processing speed 14. The internal architecture of the microcontroller is shown in figure 2.3.The profound processing social unit (CPU) is the brain of the microcontroller that controls the execution of the program, therefore able to coming memories, handle interrupts and perform calculations. The microcontroller unit (MCU) consists of 256K bytes of in-system flash, 4K by tes EEPROM and 8K bytes of SRAM, which are used for memory. Other features include 1486 programmable input and output ports.Ultra-low power consumption in prompt and power down mode.flexible timer/counters with compare modes and internal and foreign interrupts.Code protection facility, which is one of the best in the industry.Comparison between microcontroller and microprocessorThe fact that microcontrollers may have one or two available codes for moving data from external memory to the CPU, whereas, microprocessors have many useable codes, is the best way to exemplify the contrast between microcontrollers and microprocessors.Microcontrollers have many types of bit handling instructions, however, microprocessors have one or two. In conclusion, the microcontroller is come to with rapid tendency of bits within the chip, whereas, microprocessors are concerned with rapid movement of codes and data from external addresses to the chip.Microcontrollers can function as a computer wit h the addition of no external digital parts, however, microprocessors must have many digital parts to be operational 15.OrCADFigure 2.4 shows the OrCAD software used for circuit designing, testing and circuit analyzing. Generally, OrCAD is a software used to produce printed circuit board (PCB) layouts. The circuit was drawn onto the PCB board using OrCAD Capture, where footprints for each component was researched. The design rule check ensures that there are no errors present in the circuit.Arduino IDEThe Arduino IDE (Integrated development environment) is a platform application from ATmega microcontrollers. Figure 2.5 shows the Arduino version used to compiling the program. Arduino IDE is used for writing, debugging, and optimizing ATmega microcontroller applications for firmware product design. Arduino programs are written in C or C++ and the software comes with a library called wiring which makes may common outputs and inputs operations much easier.Fire alarm systems available in the marketThere are several types of fire alarm system available in the market today. The various fire alarm systems from different developers vary in terms of carrying into action and functionality. Research has been carried out to investigate the technology and features used to develop each of the systems and compared them with the proposed A-FAS system. Table 2.3 concludes the results on the research, 16 17.Table 2.3 Manufacturers productsSpecificationsSECURE 6000INTELLIGUARD 2900DeveloperChubb AlarmADT Fire and SecurityFire monitoringAvailableAvailableSecurity monitoring systemAvailableAvailableService and maintenanceProvidedProvidedMain featuresSounding the alarm at first sign of smokeCombination of interior motion, door and window.Controlled via a remote controlPlugs into telephone line to provide back to back monitoring system.Connected to signal fire condition to ADT customer monitoring center.Computer assisted reporting.Expandable used microprocessor to offer blanket(a) flexibility.Reduce false alarm since the system can locate the fountain of the alarm.Cost$2,055$1,800CHAPTER IIIMethodology This methodology chapter describes the planning and research involved in the development of the entire A-FAS system. The progress of this project was due to the socio-economic class of the work in four phases research phase, designing phase, development phase and the analysis phase.IntroductionThe fire alarm system described in this thesis is divided in to two sections, which are the hardware and the software sections. These sections play a vital role in the effectivity and the functionalities of the system. In order to start developing the project, there are few procedures that must be considered. Thus, earlier planning is important in designing and developing the A-FAS. The related phases have been illustrated in figure 3.1.Research phaseThe first phase of this methodology deals with the systems literature studies, research and analysis. Problem identifica tion is include in the research phase. Moreover, the system objectives are determined by observations and theoretic information obtained from internet sources, journals, books and magazines.During this phase, the system requirements are determined, which include the hardware and software interfacing. Furthermore, the research and analysis conducted on the existing systems available in todays market is included in the research phase, as well as reviews on previous projects developed by organizations or individuals.A few problems have been identified based on the current research that has been done, which include pirate alarms are combined with the fire alarms in the same system, leading to discombobulation and inability to identify the source of the alarm by the user.The systems available are designed for specific purposes, providing the user with no options of customization of the fire alarm inputs and outputs.The cost of the systems is too high for low income individuals to secure their lives and properties by purchasing one.Websites and documentations were the source of reviews on analysis activities conducted in this phase. The system planning and development programming were then determined in this phase which suited the chosen development methodology. Upon completion of this phase, the system scopes, specifications and Gantt chart were produced.Designing PhaseThe second phase of the system development is the designing phase. The main objective of this phase is to supply or transform the requirements and analysis obtained from the research phase into design specifications for system implementation and construction.This phase involves a vital task for the success of the automatic fire alarm system, which is the hardware design of the system.Designing of the A-FAS hardware systemThe A-FAS hardware design involves detection components and the microcontroller. The detections components which are the smoke detector, heat detector, infrared sensors and an eme rgency switch are connected to the microcontroller. The latter is the control unit identifying the source and location of the fire if any of the input detection devices is triggered. A text message will be sent and a buzzer will be activated for individuals to evacuate the premises.Smoke sensorsThe system has been deep-rooted using a Mercure photoelectric smoke detector. The system has the capability of being interfaced with most of the market available smoke detectors. However, to interface the smoke detector to the microcontroller, the smoke detector circuit is required to be altered. The smoke detector then sends a signal to the microcontroller in the event of emergency.The photoelectric smoke detector used in this project is very effective and highly recommended by users, with a low cost. These devices offer high power permissive waste capability and are ideally suited for hostile environments.Heat sensorsThe LM35 temperature sensor has an output voltage which is linearly prop ortional to temperature in centigrade, thus the sensor is suitable for the project. The sensor draws very small amount of current which makes it very low self-heating. Figure 3.2 describes th