Industrial Automation Integrated with Internet of Things - A Technical Review

R. Deepak Suresh Kumar1 , Justin Joseph2 , Janani Kavi Priya V.S2 , Venkatesan. B2 , Sreenivas.S2 , Praveen Raj.R2

1Assistant Professor of Mechanical Department, Chennai Institute of Technology 600069, India 2Student of Mechanical Department, Chennai Institute of Technology 600069, India ***

1.INTRODUCTION Inthisfast advancingworld,thechangesare tremendous. Everyplaceontheglobehasaccesstodataandinformation. Thesetransformationsaremadewithinthesetwodecades, where all came to know the taste of the internet. This cyberspaceisnotonlymeanttoconnectdiverseindividuals allaroundnotjustforcommunication,fun,entertainment, etc. here comes the great implementation of cyberspace withinthetypesofmachineryintheindustries.Butitisbeen abitcomplexinitiallybutlaterthisbecamethetrendamong all the industries. This was the introduction of the term “InternetofThings”werebeencommonlyknownas“IOT”. This application of IoT has become mandatory nowadays causeofthegreatpurposeitserves.LettheIoTisusedto connectalltheelectricaldevicesandalotofsensorsthrough several wired and wireless connection. Though it gets connectedthroughtheinternetitrequiresthebasicskillof controlling, checking the signal, operating, etc. all the solutionsimplementedusingthisIoTarenotbeenfullyeasy, ithasitsdefeatsutilizingsecuritybases, networking, data storage. Let the evolution outgrowths into the implementationofIoTinautomationas“IndustrialInternet of Things” as IIOT. It is nothing but the inter linkage of severalsensors,instruments,machinesnetworkedtogether in an industrialized setup. Here the connectivity helps mainlyintheaccessforremoteplacesandsupervisingbutit mainly permits for the data acquisition and collection, interchangingandexploringdiversedataresources.Every industryaimstoimprovetheirproductivityandefficiencyof their merchandises,this isbeenachieved by the means of adapting this IIOT technology. The solutions can also be implementedfastandatareasonablecost.Thispaper,here toexplaintheneedforAutomationbyIIOTtechnology.

[2]debasishmondal(2018) figuredoutthefutureprospects thatleadstoaroadmapforalltheanalyststolookintoitso that it explains briefly about the threats, improvements happenedinthesectorofIOTmarket.theauthorconcluded with the possibilities of the IOT implementations and its impactintheindustryworld.Itwasbeen20yearsagowhere alldiscussedaboutthetechnologyofinterconnectedthings. Whichgaveintotheriseofinternetofthings.Thoughitgave way for all comforts around the globe, it also has its own threats.ThingsinIOTindicatesalltheelectronicdevicesto beconnectedandcontrolled.Thefundamentalstartedwith radio frequency identification. This paper contains a brief

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2. LITERATURE REVIEW

[1]l.AntonyDanieletal(2019) thepaperdescribes the challenges faced in the development of industrial automation systems, for which they took the microcontroller.TheexperimenttakenovertheraspberryPi microcontrollerratherusingArduino.Theyhavedesigned thepibywhichtheytriedtodesignasystemwhichcanbe automatically operated and supervised the complete industrial applications. it grants the facility to handle the applicationsoverinternetbygivingcommands,inwhichthe distance don’t matters. The authors have also mentioned aboutthetypesofdevicesusedfortheinternetmonitoring like profit bus, Wi Fi. The above mentioned devices are limited to some radius of influence. But we need an unlimitedconnectionnetwork,wherecomestheIOTrole.

Abstract The extreme advancement of the web into an organization of interconnected articles that establish a keen climate is described by the term Internet of Things (IoT). Industrial automation becomes mandatoryinthemodern day to meet the different global challenges like increase in productivity, enhanced product quality, compatible prices, fool proof product delivery in time, etc. Industry 4.0 is used correspondingly with the fourth mechanical disturbance and addresses one more stage in the affiliation and control of the cutting edge worth chain. Computerized genuine systems structure the reason of Industry 4.0. The Internet has an enormous change the corporate industry and individual lives and kept doing as such. IoT turns into an establishment for interfacing things, sensors, actuators, and other keen innovations. Our aim is to examine the effect of arising Internet of Things (IoT) in current assembling. To meet the above mentioned requirement different new technologies emerging into industries such as service capsulation and visualization access of manufacturing resources for cloud manufacturing. These technologies can be made possiblewith proper utilization of the sensor and its configuration, present time manufacturinginformation,andserviceencapsulation.In this article, a detailed review of Industrial Automation based on IoT technology such as factory 4.0 implementation and the existing industrial scenario is discussed in detail. Here, the consequence of which the innovation makes everything rich, easy, comfortable with high security. Key Words: Cloud, Data encapsulation, Industrial automation, Internet of things, Manufacturing industry, Enterprise modelling, enterprise systems.

3. 3.1DISCUSSIONSortsofindustrial automation Mechanicalrobotizationispresentlyutilizedacrossahorde of businesses with computerized frameworks doing everything from performing fabricating undertakings to workinganATM.[1]Thedegreeofmultifacetednatureand humancollaborationwitharobotizedframeworkshiftsby application. While there are incalculable uses of modern computerization arrangements, virtually the entire can be categorized as 1 of 3 mechanization classes: fixed, aboutprogrammable,andFlexible.Thefollowingissomewhatmoreeveryoneofthesesortsofmodernmechanization.

[5] Maheswari et.al (2020) demonstrated the multiple regressionanalysisinordertopredictefficiencyinmining industrywithhelpofIOT.Forthisstudy,anIOTcomponent incubated with AC500 PLC and Revolution Pi opening increasestheperformance,energyefficiencyandproviding better accuracy results for mining industry. The modifications were done for local monitoring communicationforwhichthedataprocessingwasdoneby usageofdifferentsensorsduringthewithdrawalofzincand lead from ores. These systems also slow to track out real timedataforcrucialandcriticalinformationforcontroland services. The data analysis was to be done under the machinelearningalgorithms,predictingtheestimationfor extraction of zinc and lead. The variables significantly showedtheextractionproductivityofzincandleadforthe pHleveltobelessthanp<0.05whichreachesupto94%of datatobematchedandpredictingthebestsuitedregression modelwhichcontributesmajorlyinminingindustry.Further studyistobecarriedforvaluationofroutineandefficiency ofminingprocessincalculationwithpH,temperatureand particlesize[1].

historyaboutIOTanditsclasses,applications,workingflow. A lot being done by implementing IOT in market but sometimesthehandlingofmachinesbecomehardmanually. Thewayforthecontrolofmechanicalapplicationsalsocame intoaction.Theautomotiveindustryisfullybeensupervised andmanagedbythisIOTandhenceitbecometheindustrial internet of things. The IIOT plays a major role in the production, security, storage. The idea of big data and its implementation in IIOT have been inserted. The whole architectureandthedataareverysignificantforthefuture of [3]IIOT.sachinkumar

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causedtotheautomatichandlingof

[4]Foradiset.alitexplainsthebasicroleofinternetofthings inthesectorandthecomponentsusedintheindustry.The level of devices was mechatronic which has the interlink withotherlevelsofmechanical,electrical,softwaredevices. Here the author explains the concept of UML4IoT which automaticallytransfersinformationofmechatronicintothe IOTbasedcyberphysicalthing.IIOThavelotofadvantages butsidewaysithasitsowndemeritstoowherethecurrent industryislaggingfrom.Itisbeendetailedaboutthemodel to modeltransformerandimplementedtheprototypeinthe laboratorysystem.Thismethodledwaytootherwaystoo likeprototypeimplementationinindustrythingsbasedon Contiki activated embedded boards and c programmes to demonstratethecompletepurposeoftheresearch.

Yadavetal(2017) providedthedetailed viewovertheinternetofthings(IOT)witchemphasisallthe technology,utilizationissues.IOTleadtoalltheflourishing sectors includes RFID, internet protocols. The major implementationofIOTis the process. The method of interconnecting all the newly developed applications and devices bridging the various technologywiththisphysicalworld.Therearemanyhurdles facedbythisamazingtech.likelytherearemanyprotocols whichhasitsownfunctions.Thisemergingconceptnotonly leadswithspecific sector, it spreadsitswingsover others also. Lot of new fields gets linked like big data, cloud computing, security. the authors presented the detailed service applicable illustration to provide desired IOT services. It includes about the closed loop and open loop feedback control which helps in the advancement of the automationindustryandalsoincommunication,usesinIT sector,manufacturingsector.Itconsistsofdifferentcontrol actionsnamelydiscretecontrol(on/off),PIDcontroller,SC and LC controller. Now comes the types of production systemslike batchproduction,jobshopproduction,along with the fixed, programmable, flexible, integrated automation. at theconclusionthepapercontainsthe pros andcons,goalsoftheexistingsystem.theauthormentioned thatwiththehelpofIOTthedevelopmentofAIinfuture.

[6]Hassanet.al(2019)studiedaboutprivateconservationin block chain based IOT system for purposes of integration issues,challengesandfutureresearchaspectsthathasbeen displayed. The trends of IOT have been increasing in our dailylifeatdifferentaspectlevels.Thejobsofblockchains haveoccurredforpublicorganizationswhichcausesahigh possibilities of information spillages. Certain enhancing techniquesandprotectionswereattackedtosecureoutthe information trade between two distinct gatherings. As of expandingsavvygadgetstheMobileCrowdSensing(MCS) hasbeendeclaredwhichtotallyusesbrilliantgadgetclients to take detecting at upper level supplanting out the static detecting. It gives the nature of administration, item checking and exactness pace of ongoing information for encompassing gadgets. This likewise brings about investigatingbiggerscopeplanofactionsatisfyingoutthe fewbusinessandpoliticalinterestsinenterprises.Thefive significantsecuritypreservationplansareutilizedforblock chain base IOT framework assigned as anonymization, encryption, blending, private agreement and differential protection which are generally utilized in medical care, funds, energy frameworks, systems administration and wearablegadgets[2].

3.2 Fixed This sort of computerization is likewise alluded to as typeunbendingorhardmechanization.Asthenamessuggest,thisofmechanizationisthemostunadaptableandis

International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 08 Issue: 12 | Dec 2021 www.irjet.net p ISSN: 2395 0072 © 2021, IRJET | Impact Factor value: 7.529 | ISO 9001:2008 Certified Journal | Page209 regularly used to execute monotonous undertakings with committed gear to improve creation effectiveness and through put rates. When a fixed computerization arrangementisarrangement,itistryingtoalterthecycleor reconfigurethehardware.Fixedrobotizationarrangements areacceptablechoicesforcreationthatissteadyandstable aftersometimeandhashighvolumethrough puts.Instances inoffixedcomputerizationaresequentialconstructionsystemstheautobusiness. 3.3 Programmable Thiskindofrobotizationisbestforclumpsofitemswhere theguidelinesforthemechanizedframeworkchangeafter sometimecontingentuponwhichitemisbeingfabricated. illustrationwhenhoweverrobotizationreconfiguredinvestmentsequencing.with[2]ThecontrolprogramcanbereconstructedforeachclusterthegivendetailsandthevitalhandlingundertakingsandThischangeovercyclerequiressignificantasbyandlargethehardwareshouldlikewisebefromclumptogroup.Programmableisfrequentlyutilizedformediumvolumescanlikewisebeutilizedforloworhighvolumesfinancialmattersaredefended.Modernrobotsareanofprogrammablerobotization. 3.4 Flexible: thisframeworkisfrequentlyalludedtoasdelicate mechanization.Itislikeprogrammablecomputerizationin that it gives adaptability to item changeovers. The large preferred position of adaptable mechanization is that the item changeovers are passed on through the control frameworkandhappenrapidlyandconsequently killingthe CNCtimeneededtoreconfigurethegearinthemiddleofbunches.machinesareanillustrationofadaptablemechanization. 4. Material handling: Material Handling is the turn of events, security, accumulating,andcontrolofmaterialsandthingsallthrough applicathelpsemiacollecting,warehousing,transport,use,andevacuation.[3]Ascycle,materialmanagingjoinsawideextentofmanual,robotized,andautomatedequipmentandsystemsthatorganizeandmakethestorenetworkwork.Theirionhelpswith:  Anticipating  Assetallotment  Creationarranging  Streamandcycletheboard  Stockadministrationandcontrol  Clientconveyance  After dealsbackingandadministration Anorganization'smaterialtakingcareofframework and cycles are set up to improve client assistance, lessen stock, abbreviate conveyance time, and lower generally taking care of expenses in assembling, circulation and transportation. 5. Need for Automation: Diminish Worker Fatigue and Effort or Labour IntensiveOperation Typically,peopleloatheworn out,dull informationassessmentmanaged.techniqueorhumanAmazingconsiderationandremainstoassignments.Undertakingsthatneedinconstancygiveaspotmechanizedframeworkstosparkle,yetthisadditionallyconstantforframeworksusingprogressedsensorsreconciliation.Mechanizedframeworkstakeintoupgradesthatprofitbyreliableexecution.[5]arrangingandpreparingdon'tshieldagainstthetouch.Eliminatetheunplannedinformationpassagemissedinformationpointfromlogging.MaketheforgatheringsensorandcycleinformationAlso,computerizedframeworksmayutilizeabilities.Tunetheframeworkandpermitthetorollinwithoutinclinationorpredisposition. 6. IOT in Manufacturing: Industry 4.0 is utilized reciprocally with the fourth mechanical upheaval and addresses another stage in the associationandcontrol ofthemodernworthchain.Digital actual frameworks structure the premise of Industry 4.0. ThingssimilartheandempoweringandinterfaceprogrammingTheyutilizepresentdaycontrolframeworks,haveimplantedframeworksanddiscardanInternetaddresstoandbetendedtothroughIoT.[6]Therefore,itemsmethodsforcreationgetarrangedandcan'convey',betterapproachesforcreation,esteemcreation,ongoingadvancement.Digitalactualframeworksmakeabilitiesrequiredforkeenproductionlines.TheseareabilitiesweknowfromtheIndustrialInternetoflikefaroffcheckingortrackandfollow,tospecifytwo. Figure 1:Industry4.0

6.4 Business intelligence and data analytics: Tomaintainyourbusiness,yourdynamicshouldbe guided by precise information. ERP arrangements use business knowledge (BI) devices to give information assortment,investigation,andrevealingtechniques.There areevenapproachestoexamineinformationcontinuouslyto rolloutmomentimprovementstoyourcreationmeasures. You can furthermore utilize authentic information for businessdetermining.

,UpgradessquanderedstockpilingturningdisposingconveyingBuildsanareas.andassortmentadditionallyframeworkscompletelyincorporatedintoanassemblinganddispersionmeasure.AS/RSalludestoanofPCcontrolledstrategiesfornaturallykeepingrecoveringburdenstoandfromcharacterizedcapacityMechanizedcapacityandrecoveryframeworksgiveassortmentofadvantages:Buildsthroughputabilities,exactnesslevelsto99.99%,Expandsergonomicsbythingstotheadministratoratahelpfulstature,oftimelosttostrolling,looking,lifting,bowingandexercises,Givesmostelevatedconceivablethickness,Setsasideto85%+ofinanycasefloorspace,Buildsworkprofitabilityupto85%itemsecurity,Givescontinuousstockcontrol.[13]

6.3 Cross department collaboration: The more offices your organization has, the more significantitistooverseeinsidecorrespondencepracticesto keepawayfrombotches.Furthermore,ifyourorganization has areas everywhere on the world, you need a route for everybody to remain in contact across time regions and languagehindrances.[8]Amiscommunicationbetweenyour crude material provider and circulation focus can prompt expensive stock blunders. Specialized apparatuses put togetherexaminedreports,documents,messages,messages, andcallchronicles.Thereareevenprivate,inwardchannels formomentcorrespondence.

8. Automated storage: AnAutomatedStorageandRetrievalSystem (AS/RS)isamixofhardwareandcontrolsthathandle,store andrecovermaterialsvaryingwithexactness,precisionand speed under a characterized level of mechanization. [12] Frameworks change from more modest computerized frameworks to bigger PC controlled capacity/recovery

6.1 Enterprise in planning: ERP is an abbreviation that means "Enterprise ResourceManagement",thecombinedcycleofget together and coordinating business information through an incorporated programming suite. ERP programming contains applications which robotizes business capacities likecreation,dealsciting,bookkeeping,andthat'sonlythe tipoftheiceberg.

6.2 Work process visibility and streamlining: Prior to ERP frameworks, planning between numerousworksitestookagreatdealoftimeandexertion. Ontheoffchancethatyouneededupdatesonaparticular piece of your business, you needed to call or visit the site genuinely.Hugecompanieswithpublicandworldwideareas thesameneededtoworkaroundtimeregions.[7] ERPframeworksupsetworkprocessperceivability. Presently,inany event,whenyou'reinyourofficecentral command, you can open a typical information base from yourERPsuitetogetongoinginsightsconcerningwhat'sat thesametimeoccurringatyourassemblingplantsabroad andconveyancefocusescomfortable.

• Ventures and undertakings that handle operational innovations can be required to be knowledgeable in such viewpoints as specialist wellbeing and item quality.Inanycase,giventhatOTisbeingincorporated intotheweb,associationsareseeingthepresentation ofmoresavvyandrobotizedmachinesatwork,which thuslywelcomesalargenumberofnewdifficultiesthat would require comprehension of the IIoT's inward functions.[11]

Figure 2:ImpactofIIOTinIndustries 7. Difficulties in embracing the IIOT: • SelectionoftheIIoTcanreformhowbusinesseswork, howeverthereisthetestofhavingtechniquessetupto supportadvancedchangeendeavorswhilekeepingup securityinthemidstofexpandedavailability.[9]

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6.5 Industrial internet of things: TheIndustrialInternetofThings(IIoT)alludesto theexpansionandutilizationoftheInternetofThings(IoT) inmechanicalareasandapplications.Withasolidspotlight on machine to machine (M2M) correspondence, huge information, and AI, the IIoT empowers businesses and venturestohavebettereffectivenessanddependabilityin their tasks. The IIoT envelops mechanical applications, including advanced mechanics, clinical gadgets, and programmingcharacterizedcreationmeasures.[9]

11. CONCLUSION: Unfoldingtherolesoftheadvanceapplication,here the paper explained all the possible things about IOT in materialhandling.Themanufacturingandlogisticssectoris becoming digitalized the second as Industry 4.0 begins to emerge. The full advancing of the sector takes from the adaption of IOT. They all ensure the improvement of the productionaswellasthesecurity,efficiency,easytocontrol and maintain data for further uses. If the industry moves towards advancement, then IIOT has its major play in the implementing. Here, the result of which the technology makeseverythingelegant,ease,comfywithhighsecurity.

[12] GeorgeChryssolouris,ManufacturingSystems:Theory andPractice.2ndNewYork:Springer Verlag,2006.

[13] Vermesan,Ovidiu&Friess,Peter&Guillemin,Patrick& Gusmeroli, Sergio & Sundmaeker, Harald & Bassi, Alessandro & Jubert, Ignacio & Mazura, Margaretha & Harrison, Mark & Eisenhauer, Markus & Doody,

[2] Bi,Z.&Xu,Li&Wang,Chengen."InternetofThingsfor Enterprise 1537Informatics",SystemsofModernManufacturing.IndustrialIEEETransactionson.May2014,doi:10.1546.10.1109/TII.2014.2300338.

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10. Cyber security ThisCybersecuritystructureshasseveralsystems interactionssidelongthethreatstobeoccurred.Inindustrial automation zone, lot of machineries work allied to one anotherbymeansofoutsidenetworkingwebsupsurgesthe riskofunauthorizedintrusion.Itcausesthebothpersonal data maltreatment and the monetary losses. every connectionandthedatacollectedaretobestoredsafely,but insomecausethedataarebeenhijackedbysomeintruders orhackers.[15]Alldevicesorsensorsepitomizesapossible hazard.Hereitisveryimportanttoensurethesafetyofthe IIOTimplementationinautomationzone.

[1] Mourtzis, Dimitris & Vlachou, Katerina & Milas, Nikolaos. "Industrial Big Data as a Result of IoT Adoption in Manufacturing", Procedia CIRP. 55, 2016, 290 295,doi:10.1016/j.procir.2016.07.038.

[8] Tao,Fei&Zhang,Lin&Venkatesh,V&Luo,Y&Cheng, Ying."Cloudmanufacturing:Acomputingandservice oriented manufacturing model", Proceedings of the InstitutionofMechanical Engineers,PartB:Journal of Engineering Manufacture. vol. 255, no. 10, November 2011,doi:10.1177/0954405411405575.

9. The Internet of Nano Things (IoNT) Thesecondterritorywherenanotechnologycanbe joinedwiththeIoTisinthemakingofanactualorganization, made out of nanomaterials that encourages the trading of information through various segments speaking with one anotheratthenanolevel.[14]ThisisknownastheInternet ofNanoThings(IoNT).Regardingadvancement,itisn'tyetat thedegreeofotherIoTframeworks,howeveritispullingin interest from the correspondence and clinical areas. One such model is in field based applications, where far off detectingisrequired,orforestimatingvariousfocusesinside ahumanbody.

[7] Souza,Luciana&Spiess,Patrik&Guinard,Dominique& Köhler,Moritz&Karnouskos,Stamatis&Savio,Domnic. "Socrades:AWebServiceBasedShopFloorIntegration Infrastructure", Lecture Notes in Computer Science LNCS. 4952, 23 May 2014, 50 67, doi:10.1007/978 3 540 78731 0_4.

[9] Chenniappan,Maheswari&Priyanka,E.&Thangavel,S. & Vignesh, S. & Chinnasmay, Poongodi, "Multiple regression analysis for the prediction of extraction efficiency in mining industry with industrial IoT", Production Engineering. vol. 14, no. 8, June 2020, doi:10.1007/s11740 020 00970 z.

[3] A. M. Houyou, H. Huth, C. Kloukinas, H. Trsek and D. Rotondi,"Agilemanufacturing:Generalchallengesand an IoT@Work perspective," Proceedings of 2012 IEEE 17th International Conference on EmergingTechnologies & Factory Automation (ETFA 2012),2012,pp.1 7,doi: 10.1109/ETFA.2012.6489653.

[5] Tao, Fei & Zhang, Lin & Liu, Yongkui & Cheng, Ying & Wang, Lihui & Xu, Xun," Manufacturing Service Management in Cloud Manufacturing: Overview and FutureResearchDirections,"JournalofManufacturing ScienceandEngineering.vol.137,no.4,11August2015, doi:10.1115/1.4030510.

[4] F. Tao, Y. Zuo, L. D. Xu and L. Zhang, "IoT Based Intelligent Perception and Access of Manufacturing Resource Toward Cloud Manufacturing," in IEEE Transactions on Industrial Informatics,vol.10,no.2,May 2014,pp.1547 1557,doi:10.1109/TII.2014.2306397.

[6] Zhang, Yingfeng & Zhang, Geng & Liu, Yang & Hu, Di," Researchonservices encapsulationandvirtualization access model of machine for cloud manufacturing", JournalofIntelligentManufacturing.28,5March2015, 1 15,doi:10.1007/s10845 015 1064 2.

[10] Ul Hassan, Muneeb & Rehmani, Mubashir Husain & Chen,Jinjun,"Privacypreservationinblockchainbased IoTsystems:Integrationissues,prospects,challenges, and future research directions," Future Generation Computer Systems. vol. 97, March 2019, doi: 10.1016/j.future.2019.02.060.

REFERENCES

[11] Atzori,Luigi&Iera,Antonio&Morabito,Giacomo,"The Internet of Things: A Survey, Computer Networks". 2010, pp 2787 2805. doi: 10.1016/j.comnet.2010.05.010.

International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 08 Issue: 12 | Dec 2021 www.irjet.net p ISSN: 2395 0072 © 2021, IRJET | Impact Factor value: 7.529 | ISO 9001:2008 Certified Journal | Page212 Pat,"Internet of Things Strategic Research Roadmap," 2009. [14] N.Bui,"Internetofthingsarchitecture(IoT A),project deliverable D1.1 SOTA report on existing integration frameworks/architectures for WSN, RFID and other emergingIOTrelated,"January2014 [15] ]Y.Li,M.Hou,H.Liu,andY.Liu,“Towardsatheoretical frameworkofstrategicdecision,supportingcapability andinformationsharingunderthecontextofIoT,”Inf. Technol.Manage.vol.13,no.4,2012,pp.205 216. BIOGRAPHIES RDeepakSureshKumar Assistant ChennaiMechanicalProfessorEngineeringInstituteofTechnologyJustinJosephStudentMechanicalEngineeringChennaiInstituteofTechnologyJananiKaviPriyaVSStudentMechanicalEngineeringChennaiInstituteofTechnologyVenkatesanBStudentMechanicalEngineeringChennaiInstituteofTechnologySreenivasSStudentMechanicalEngineeringChennaiInstituteofTechnologyPraveenRajRStudentMechanicalEngineeringChennaiInstituteofTechnology