Intelligent Transportation System Based On Fingerprint .

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International Journal of Research in Engineering, Science and ManagementVolume-1, Issue-10, October-2018www.ijresm.com ISSN (Online): 2581-5782256Intelligent Transportation System Based onFingerprint Biometric in Cloud SystemsA. Arthi1, L. X. Nisha Innola21,2Assistant Professor, Department of Information Technology, M.A.M College of Engg. and Tech., Trichy IndiaAbstract—Fingerprint identification is one of the oldest methodthat has been successfully used in numerous applications. Each ofour ten fingerprints is different from one another and from thoseof every other person. Even identical twins have uniquefingerprints. That makes them ideal for personal identification. Afingerprint is made of a series of ridges and furrows on the surfaceof the finger. The uniqueness of a fingerprint is determined by thepattern of ridges and furrows as well as the minutiae points.Minutiae points are local ridge characteristics that occur when aridge splits apart or a ridge ends. The biometric basedauthentication believes it has come up with the best way to takeattendance in college buses. College system will use fingerprintscanners that log everyone as they step off the bus. The fingerprintsystem already uses scanners inside the college, but their locationmakes it difficult to keep track of every student. So, the collegeswill begin installing the scanners on select buses. If this initial trialgoes as well as expected, the scanners will be installed on thecollege's entire buses. When the student returns to be identified,the finger scanner again scans the finger. The computer softwarenow compares the new template with the other templates in thedatabase. When a matching template is found, the student isidentified. This identification and matching process takes underone second to complete. And to send the intimation to parentsabout their students whether he/she reach save destinationsthrough SMS alerts.Index Terms—Biometric, Fingerprint, SMS alertI. INTRODUCTIONMore customary methods for access control incorporatetoken-based recognizable proof frameworks, for example, adriver's permit or visa, and learning based distinguishing proofframeworks, for example, a secret word or individual IDnumber. Since biometric identifiers are one of a kind to people,they are more dependable in checking character than token andlearning based techniques; notwithstanding, the gathering ofbiometric identifiers raises protection worries about a definitiveutilization of this data.Biometrics alludes to system identified with human qualities.Biometrics validation is utilized in software engineering as atype of recognizable proof and access control. Biometricidentifiers are regularly classified as physiological versusconduct attributes. Physiological attributes are identified withthe state of the body. Social attributes are identified with theexample of conduct of a man, including yet not restricted tocomposing mood, stride, and voice. A few analysts haveinstituted the term conduct measurements to portray the lastclass of biometrics.Many different aspects of human physiology, chemistry orbehavior can be used for biometric authentication. The selectionof a particular biometric for use in a specific applicationinvolves a weighting of several factors and identified sevensuch factors to be used when assessing the suitability of anyquality for use in biometric authentication. Universality implies that each individual utilizing aframework ought to have the quality. Uniqueness implies the quality ought to be adequatelyextraordinary for people in the significant populacewith the end goal that they can be recognized fromeach other. Permanence identifies with the way in which a qualitychanges after some time. Measurability (collectability) identifies with thesimplicity of securing or estimation of the quality.What's more, procured information ought to be in ashape that licenses consequent preparing andextraction of the important capabilities. Performance identifies with the exactness, speed, andvigor of innovation utilized (see execution segment formore points of interest). Acceptability identifies with how well people in theapplicable populace acknowledge the innovation tosuch an extent that they will have their biometricquality caught and evaluated.II. EXISTING SYSTEMIn the present system no work is done related to transportattendance. In some institutions it may be done orally. If thissystem is not implemented then many student may cheat theirparents to get money for transport. Also parents may expectsome acknowledgment weather their ward has got bus properly.Disadvantages of present Working System Leads to unwanted expenses towards transport. Leads to accident if they use two wheelers. Leads to depression to parents about their ward safety. Difficult to track the students to enter the bus or notIII. PROPOSED SYSTEMIn proposed system, there is no system for students who are

International Journal of Research in Engineering, Science and ManagementVolume-1, Issue-10, October-2018www.ijresm.com ISSN (Online): 2581-5782entering into college bus or not. And also implement GPS basedbus tracking system which is a cost expensive and efficientsystem. Using this system four application will be developed.First application is establishing communication betweencollege server and bus system which is capable of providingreal-time data regarding the current location of buses. Secondapplication is sending a group messages i.e. alert messages tothe students waiting at the next stop, changes in current route,bus number, etc., hence it saves the time of students. Thirdapplication is generation of e- bus pass system which is an ecofriendly as there is no need of generation of plastic bus passes.Last application is developing an emergency handling systemwhich will send alert messages simultaneously to college,police and ambulance in case of accidents. In existing system itis difficult to send alert about students whether he is enter intothe bus or not. The parents can’t be track the students detailsand need manual inception for tracking the students.Advantages of proposed system There is no need to sensors or advance GPS devices Easily know the status of students Cost effective and time consuming process Real time attendance alert system Efficient notification systemIV. SYSTEM REQUIREMENTSSoftware RequirementsOperating system : Windows OSFront End: .NET (C#)Back End: SQL SERVERApplication: Web applicationHardware RequirementsProcessor: Dual core processor 2.6.0 GHZRAM: 1GBHard disk: 160 GBCompact Disk: 650 MbKeyboard: Standard keyboardMonitor: 15 inch color monitor257VI. UML DIAGRAMSA. UML DiagramsUse case diagrams are usually referred to as behaviordiagrams used to describe a set of actions (use cases) that somesystem or systems (subject) should or can perform incollaboration with one or more external users of the system(actors). Each use case should provide some observable andvaluable result to the actors or other stakeholders of the system.Fig. 2. UML diagramB. Sequence DiagramA Sequence outline is a connection chart that shows howquestions work with each other and in what arrange. It is a buildof a message succession graph. A grouping chart indicatesprotest cooperations organized in time arrangement. It portraysthe items and classes associated with the situation and thesuccession of messages traded between the articles expected todo the usefulness of the situation. Grouping graphs arecommonly connected with utilize case acknowledge in theLogical View of the framework being worked on. Arrangementcharts are now and then called occasion outlines or occasionsituations.V. SYSTEM ARCHITECTUREFig. 3. Sequence diagramsFig. 1. System architectureC. Activity DiagramsActivity diagram is another important diagram in UML todescribe dynamic aspects of the system. Activity diagram isbasically a flow chart to represent the flow from one activity toanother activity. The activity can be described as an operationof the system. So the control flow is drawn from one operationto another. This flow can be sequential, branched or concurrent.

International Journal of Research in Engineering, Science and ManagementVolume-1, Issue-10, October-2018www.ijresm.com ISSN (Online): 2581-5782Activity diagrams deals with all type of flow control by usingdifferent elements like fork, join etc.Fig. 6. Level 0Fig. 7. Level 1Fig. 4. Activity diagramVII. DATA FLOW DIAGRAMA two-dimensional chart clarifies how information ishandled and moved in a framework. The graphical portrayalrecognizes each wellspring of information and how itcooperates with other information sources to achieve a typicalyield. People looking to draft an information stream chart mustdistinguish outer data sources and yields, decide how the datasources and yields identify with one another, and clarify withillustrations how these associations relate and what they resultin. This kind of outline helps business advancement andconfiguration groups imagine how information is handled anddistinguish or enhance certain angles.Fig. 8. Level 2Fig. 9. Level 3Fig. 10. Level 4Fig. 5. Overall data flow diagramFig. 11. Level 5258

International Journal of Research in Engineering, Science and ManagementVolume-1, Issue-10, October-2018www.ijresm.com ISSN (Online): 2581-5782259that, second time fingerprint login, parents know about studentssafely reached into the college. In this module, parent interfaceis creating for post complaints. If the out time intimation doesnot send to parents means, parents open the interface to post thecomplaints about student delay time. This complaintautomatically forward to admin and he can provide response toparents with proper intimation.IX. SCREENSHOTSFig. 12. Level 6VIII. SYSTEM IMPLEMENTATIONModules Student enrollment Student login Bus details with attendance Student tracking Notification and Post ComplaintsModules Description Student enrollment:In this module, student registers their details withfingerprint using fingerprint sensor. Fingerprint feature detailsare extracted and stored in admin database. Each student hasunique fingerprint identity for future purpose. Fingerprint canbe detected using binarization and minuatie extractionalgorithm. Fingerprint features are stored in database. Student login:After registration, he can get login information to enterinto the system. Then implement fingerprint sensing system toextract fingerprint from students. Fingerprint features arematched with database for authentication. We can implementSupport Vector machine algorithm to classify the fingerprintfeatures. Bus details with attendance:Admin can be login to the system to enter bus details andstudent details and stored in database with updated manner. Hecan enter all student details with fingerprint information withcorresponding bus details. Based on these details provideattendance to each students with proper reports Student tracking:Student can be login to the system and calculate at the timeof first capture the fingerprint. And also calculate the time ofsecond time that is student leaving from bus. Based on twotimes, we can calculate the time interval. Notification system and post complaintsBased on first time fingerprint login, alert can be send toparents according student registration number to know aboutthe status of student that is he can enter into the system. AfterFig. 13. HomeFig. 14. LoginFig. 15. Admin Home page

International Journal of Research in Engineering, Science and ManagementVolume-1, Issue-10, October-2018www.ijresm.com ISSN (Online): 2581-5782Fig. 19. User InfoFig. 20. Emergency alert sent to parent and institutionFig. 16. New Student EnrollmentFig. 21. Admin students fee informationFig. 17. Student In/Out verificationFig. 22. Students LoginFig. 18. Students In/Out InformationFig. 23. Students Home Page260

International Journal of Research in Engineering, Science and ManagementVolume-1, Issue-10, October-2018www.ijresm.com ISSN (Online): 2581-5782261paid, dues, rout no. & bus stop. The reports highlight variousbus services and features of the bus, which can be subjected toimprovements especially for the college administration toimprove bus transport system. The system requirescomparatively small amount of resources such as memory,input/output devices and disk space. And to provide fingerprintbased authentication system to know the details about studentin and out time details. A Transportation Management Systemis a software system designed to manage transportationoperations and ensure better service, decrease routing time withoptimized cost and fuel efficiency.XI. FUTURE ENHANCEMENTFig. 23. Feedback PageAs part of future work, to implement GPS based onfingerprint system to track the student and also bus details. Wecan extend the framework to implement the system withAndroid based applications.X. CONCLUSIONThe Online transport management system is a window basedsystem aimed at students, college administration to maintainbus facility. The system takes student information as inputsource and attempts to maintain the bus services. It allowsflexibility during these processes. The system generatesexhaustive reports related to the Bus Management i.e. FeesREFERENCES[1][2][3][4][5][6]The complete Reference ASP.NETSystem Analysis and Design – Alias M. AwadSoftware Engineering – Roger etspider.com

Fig. 1. System architecture VI. UML DIAGRAMS A. UML Diagrams Use case diagrams are usually referred to as behavior diagrams used to describe a set of actions (use cases) that some system or systems (subject) should or can perform in collaboration with one or more external users of the system (actors).

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