SMART INDUSTRY MONITORING AND CONROLLING SYSTEM USING IOT

SMART INDUSTRY MONITORING AND CONROLLING SYSTEM USING IOT

Abstract:- Given the alarming rate of security lapses brought on by unauthorised entry and fire outbreaks in residential and commercial environments, particularly when property users are not present, along with recent technologicaladvancements,itisincreasinglyimportantto implement remote safety monitoring systems to significantly reduce safety hazards. The safety monitoring system we describe in this paper can be used to remotely monitor residential andcommercial propertiestolook for unauthorised entry points and unusual environmental conditions. The system is equipped with a built-in SMS alert subsystem to warn of security breaches, a liquid crystal display(LCD)-basedon-sitedisplayfunction,and a web-basedgraphinganddisplayfunctiontogivereal-time status updates of sensed data. Two tests were conducted onthesystem:thefirstevaluatedthebasicfunctionalityof thesensorscomprisingthesensingsectioninactivemode, and the second assessed the dependability of the transmitting section by measuring the time required for SMS delivery and information update on the web server. Although the system has shown to be practical and successful, its dependability functions still need to be improved to account for network distribution issues and poorservicequality.

Keywords: Monitoring system,Web server Sensors and Safety hazards

1. Introduction

n the recent years wireless technology and IoT grasped the most industrial area especially automation and control has increasing for need of upholding various sectors.

Healthcare has prime importance in our day to day life. This paper reviewed about new industrialization with ESP8266 and arduino UNO. Indoor Air Quality (IAQ) is highly worsens industrial environments, which then spreads from indoor to outdoor, creating a large scale effect around the industrial areas. Long term and short termeffects caused byAir pollutioncausesthepeople to concern about the air they breathe. The effect of air pollution from industry is monitored scarcely. Our aim

is to monitor the airpollutionfrom the heavy industry which leads to undesirable effects on the health of human beings and also affects the environment. Pollution level incomparison to the ambientair quality standards can be done by using monitoring. To protect the people against extreme air pollution. Robust monitoring systems are necessary to alert people and initiateactions.

In the recent years wireless technology and IoT grasped the most industrial area especially automation and control has increasing for need of upholding various sectors.

Healthcare has prime importance in our day to day life. This paper reviewed about new industrialization with ESP8266 and arduino UNO. Indoor Air Quality (IAQ) is highly worsens industrial environments, which then spreads from indoor to outdoor, creating a large scale effect around the industrial areas. Long term and short termeffects caused byAir pollutioncausesthe people to concern about the air they breathe. The effect of air pollution from industry is monitored scarcely. Our aim is to monitor the airpollutionfrom the heavy industry which leads to undesirable effects on the health of human beings and also affects the environment. Pollution level incomparison to the ambientair quality standards can be done by using monitoring. To protect the people against extreme air pollution. Robust monitoringsystemsarenecessarytoalertpeople andinitiateactions.

The safety of people and their property is a fundamental concernforeveryone.Homeandworkplacesafetyarenow of the utmost importance as a result of the society's constantly rising rate of break-ins and fire breakouts. Technology improvements allow for the efficient deploymentofsafetymonitoringsystemsinboththehome and the workplace to significantly reduce safety risks. Numeroussolutionsareavailableontheinternetforrapid communication over long distances. The inter-networking of "things" such devices and objects integrated with electronics, software, sensors, actuators, and network connectivity, which enable the gathering and exchange of data,isthesubjectofanew,developingtechnologyknown

International Research Journal of Engineering and Technology (IRJET) e-ISSN:2395-0056

Volume: 10 Issue: 03 | Mar 2023 www.irjet.net p-ISSN:2395-0072

astheinternetofthings(IOT). Givenhowquicklywireless and digital vision technologies have been incorporated into daily life over the past ten years, it is not surprising thatideasaboutsafeandcomfortablelivingenvironments and uniform working conditions in sectors have undergone significant change. Wireless connections allow sensor-based residential and industrial safety systems to operate in real time and alert users to potential security andsafetyhazards.

2. Review of Related Literature

In order to monitor pollution, Kavithaetal. (2019) advocates on employing intelligent sensors. The ability to track air pollution from anywhere in the world is made feasible by the sensors' collected data being uploaded to the Google cloud. Alerting is utilised when air pollution levels are in danger. This is used in industries and to reduce vehicle emissions' pollution. Rajalakshmi, R, and others (2019), observes the air's harmful gases to guaranteethesecurityofthosewhoareinitandmakesthe data accessible for monitoring anywhere in the globe. Sensorsareusedtokeeptrackofthechemicalcomposition of the air, including levels of combustible gases, LPG, methane, and carbon monoxide. Data from the cloud server is then portrayed visually to help with statistics. Fire and gas detection systems are used by Rupali et al. (2018) to maintain industrial and domestic safety. This system uses a sensor circuit to detect gas and fire leaks. The microcontroller, in turn, is controlled by the sensing circuit,whichinturnactivatesthealarmsystemtowarnof the gas and fire leak. SMS notifications are provided to users using GSM modems. Additionally, it is built with a mechanism to use a water sprinkler to spray water in the eventofafireorgasleak. MQ-6andMQ-9wereemployed as gas sensors to find the leak. Fire detection is done utilisinganIRflamesensor,whichfindsthefireandsends the user an SMS alert. To study the dangerous gas detectionandwarningsystem,ManishVermaetal.(2018) employ a microcontroller-based system. The amounts of dangerousgaseslikeLPGandpropanearepresentedonan LCD screen every second. Email notifications and alarm generating mechanisms are used to notify the authorised individual. This automatic detection and warning system aidsinfindingasolutiontotheissueasquicklyasfeasible. This work by Angelica Nieto Lee and colleagues (2018) focuses on integrating all the contextual data to deliver correct and pertinent information as needed. Existing systemdata,suchas3Dmodelsandmanuals,thathasnot been included into the monitoring system. In order to raise living standards, Aishwarya et al. (2018) advocated on the automation of numerous tiny chores around us utilisingtheInternetofThings(IoT).

3. Proposed System

Fourseparatesensorsmakeupthedetectingsection:aPIR motionsensor,aDHT11digitaltemperatureandhumidity sensor, a MQ-2 smoke sensor, and a MQ-5 gas sensor. These specialist modules are in charge of identifying and measuring particular environmental changes, then transmitting the measured data to the microcontroller for additional processing. The LCD display's main purpose is to show the system's current condition. As the system carries out monitoring tasks, it displays a variety of notifications, including alarms for gas leaks, smoke, temperature,andintruderdetection,aswellasanyactions made by the microcontroller. A buzzer is used to execute the alarm portion. The buzzer uses a quick electric makeand-break mechanism that generates fast vibration to produce signals. A resonating chamber around the electronicsamplifiesthevibration,yettheenclosureisnot impactedorcontactedbythevibratingcomponents.Every time the microcontroller detects an abnormality in the physical circumstances of the surroundings, the buzzer is programmed to sound in accordance with the program's instructions.

4. Result and Discussion

Wewilltestourprototypeunderthefollowingconditions. Samplefindingsforthegas andPIR sensorsfroma test to evaluate the fundamental functionality of the sensors makingupthesensingunitinactivemodeareshown.The picture capture for the web application, SMS alert subsystem,andLCDstatusupdateisalsodisplayed.

International Research Journal of Engineering and Technology (IRJET) e-ISSN:2395-0056

Volume: 10 Issue: 03 | Mar 2023 www.irjet.net p-ISSN:2395-0072

5. Conclusion

A safety system based on IoT technology that can detect temperature, smoke, liquefied gas leaks, and entry has been designed for usage in both homes and businesses. The system also incorporates the ability to dynamically updateawebserver'sdatabaseatpredeterminedintervals for the display of sensed data and graphing functions, as well as to notify an authorised user or industry personnel of abnormal environmental conditions and unlawful intrusionsintoprivateorpublicpropertyinanylocation.

We have successfully given the system the ability to receive feedback from an authorised user by using the GSM/GPRS module. This work is still being improved upon, and we intend to properly investigate and implement feedback mechanisms so that an authorised user may send text messages back to the system to effect exact control of equipment deployed in the house or industrytoeliminateinherentrisks.

Climate at the time of data collecting and the existence of communication mastsfor certain networksareamongthe factorstakenintoaccountwhilechoosingthesites.

From the test results obtained, the functionality and effectiveness of the system has been proved. Therefore, moreefforthastobedonetoincreasesystemresilienceso that it can handle network distribution issues and poor service quality. In the meantime, for optimal results, we strongly advise using the SIM card from the most dependable mobile network in any given location in the GSM/GPRSmodule.

6. Future Scope

Theindustrial sitemayuse thisprototypetohelpfindgas leaksandmonitornumerousparameters,whichspeedsup problem-solvingandimprovescontrol systemproficiency. In order to maintain a secure operation and avoid significanthealthissuesbroughtonbygasleaksaswellas industrial safety dangers, this technology may be used to monitor the natural gas distribution system as well as industrial, commercial, and residential monitoring systems. The recommended approach can assist manufacturers enhance their standards by providing frequent maintenance by acting as an autonomous industrialmonitoringsystem.

The test was carried out by inserting SIM cards from several networks into the GSM/GPRS module and timing how long it took for an SMS to be sent. The time count beganassoonasthesensorspickedupanyanomalyinthe environment,anditcontinueduntilthealarmappearedon thephoneatthespecifiednumberintheprogrammecode andthewebpagewasupdatedwiththenewinformation.

7. References

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[2] Rajalakshmi.R, Vidhya.J .Toxic environment monitoring using sensors based on IoT.

International Research Journal of Engineering and Technology (IRJET) e-ISSN:2395-0056

Volume: 10 Issue: 03 | Mar 2023 www.irjet.net p-ISSN:2395-0072

International Journal of Recent Technology and Engineering,2019.

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