ITC508 - Collin’s ATM System: A Detailed Object and Data Modelling
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Case Study
AI Summary
This assignment provides a detailed object and data modeling solution for Collin’s ATM system, as per the ITC508 case study requirements. It identifies and describes the main functional and non-functional requirements, including scalability, flexibility, and security. The solution includes a use case model diagram with descriptions, highlighting key interactions such as card recognition, PIN verification, and transaction types. A fully developed use case for viewing the main menu is presented. Furthermore, a UML domain model class diagram is constructed, outlining the system's architecture and assumptions. Finally, the assignment discusses specific tasks required for each design activity of the Software Development Life Cycle (SDLC), including environment description, application component design, user interfaces, and database considerations. Desklib offers a wealth of similar resources for students seeking comprehensive study materials.
Running head: OBJECT AND DATA MODELLING
Object and Data Modelling
Name of Student
Name of the University
Author Note
Object and Data Modelling
Name of Student
Name of the University
Author Note
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OBJECT AND DATA MODELLING
Table of Contents
1. Identify and briefly describe the main functional and non-functional requirements...................3
Functional Requirement:.............................................................................................................3
Non-functional requirements:......................................................................................................4
2. Draw a use case model for the information system.....................................................................5
Use Case Model Diagram............................................................................................................5
Use case Description....................................................................................................................6
Fully developed use case:............................................................................................................7
3. Draw a UML domain model class diagram for all systems.........................................................8
Class Diagram..............................................................................................................................8
Assumptions................................................................................................................................8
4. Specific Tasks Required for Each Design Activities...................................................................9
Describing the environment.........................................................................................................9
Designing application components............................................................................................10
User interfaces...........................................................................................................................10
The database..............................................................................................................................10
Bibliography..................................................................................................................................11
Table of Contents
1. Identify and briefly describe the main functional and non-functional requirements...................3
Functional Requirement:.............................................................................................................3
Non-functional requirements:......................................................................................................4
2. Draw a use case model for the information system.....................................................................5
Use Case Model Diagram............................................................................................................5
Use case Description....................................................................................................................6
Fully developed use case:............................................................................................................7
3. Draw a UML domain model class diagram for all systems.........................................................8
Class Diagram..............................................................................................................................8
Assumptions................................................................................................................................8
4. Specific Tasks Required for Each Design Activities...................................................................9
Describing the environment.........................................................................................................9
Designing application components............................................................................................10
User interfaces...........................................................................................................................10
The database..............................................................................................................................10
Bibliography..................................................................................................................................11
OBJECT AND DATA MODELLING
1. Identify and briefly describe the main functional and non-functional requirements
Functional Requirement:
The main functional requirements of the ATM are described below:
System requirement: One of the major requirement will be establishing of parameters within the
system for data storage and setting that can be used in the execution process.
No activity condition: In case, there is no valid cash card; the display will flash the in initial
display.
Cashless ATM: In the deemed scenario, the acceptance of the card should be denied while the
screen flashes an error message.
Authorization: Another notable requirement suggests that after the cash card mode is entered, a
pin acceptance should be done so that the ATM can process the validity of the cash card.
Card acceptance: Readability of the bank code and serial number to ensure the validity of the
card after which the card can be accepted by the ATM. In case, the card is not read within a
timeframe of 5 seconds, the screen will flash a timeout error notification.
Serial Number reading: The code along with the recorded serial number should be registered
with the system. The serial number on the card should be read efficiently by the machine.
Pin Request: On successful recognition of the cash card. A screen will be flashed asking for the
card’s pin and only after validation of the pin, the system can be accessed.
Processing of Pin: Post processing of the entered pin, the screen will display a dialogue box
citing whether the input response is positive or negative. If the response is identified negative,
the user will be offered three chances to re-enter their pin after which the system will block the
user by capturing the card.
Transaction Type: On validation of the pin the screen will display message after which the user
can proceed with the transaction that will include options such as withdraw, deposit, transactions
and others.
1. Identify and briefly describe the main functional and non-functional requirements
Functional Requirement:
The main functional requirements of the ATM are described below:
System requirement: One of the major requirement will be establishing of parameters within the
system for data storage and setting that can be used in the execution process.
No activity condition: In case, there is no valid cash card; the display will flash the in initial
display.
Cashless ATM: In the deemed scenario, the acceptance of the card should be denied while the
screen flashes an error message.
Authorization: Another notable requirement suggests that after the cash card mode is entered, a
pin acceptance should be done so that the ATM can process the validity of the cash card.
Card acceptance: Readability of the bank code and serial number to ensure the validity of the
card after which the card can be accepted by the ATM. In case, the card is not read within a
timeframe of 5 seconds, the screen will flash a timeout error notification.
Serial Number reading: The code along with the recorded serial number should be registered
with the system. The serial number on the card should be read efficiently by the machine.
Pin Request: On successful recognition of the cash card. A screen will be flashed asking for the
card’s pin and only after validation of the pin, the system can be accessed.
Processing of Pin: Post processing of the entered pin, the screen will display a dialogue box
citing whether the input response is positive or negative. If the response is identified negative,
the user will be offered three chances to re-enter their pin after which the system will block the
user by capturing the card.
Transaction Type: On validation of the pin the screen will display message after which the user
can proceed with the transaction that will include options such as withdraw, deposit, transactions
and others.
OBJECT AND DATA MODELLING
Post transaction: Post-transaction, the system will enquiry about the further step that will
include continuation of the process or not. Additionally, printing of the receipt will also be
enquired after which the process will be complete.
Non-functional requirements:
The non-functional requirements of the ATM system are described below:
Scalability: The ATM should offer scalability that is it should be capable of withstanding harsh
situations such as excessive load that can be resulted from increased number of users and
provide cash to the users as long as it has ample cash.
Flexibility: Another notable requirement of the ATM should be flexibility. The system should not
be limited to withdrawal of the cash only; it should also offer options like, checking of last
transactions, cash deposit, change of pin, applying for the bank account and similar others.
UI ease: User Interface (UI) is one of the most desirable requirement for the ATM because it
decides what comfort will the user enjoy while using the ATM. Hence, it is mandatory that the
input and dialogue box displayed on the ATM’s screen is understandable and offers ease of use.
The options should also be understandable and visible to the users.
Usability ease: The ATM should also offer ease of usability to the users that is the actions should
be responded effectively and efficiently. A tutorial for the first time users can be added to
enhance understanding.
Adaptability: The discussed system should also offer adaptability that is it should follow open
system that can be volatile as per the circumstances. However, the adaptability should not
compromise on the security of the system.
Efficiency: Efficiency is one of the most required feature of the system and hence should be
cited special attention. The users should receive adequate response to the input they have given
to the system that and no option should be included in the system that is not capable of
providing appropriate response.
Compatibility: Another notable non-functional requirement of the system is compatibility. The
discussed system should offer compatibility with the systems in existence to ensure that the
users are comfortable with the system and can easily understand the purpose of the system.
The data collected during account opening process at the banks should be applied to the
deemed system while ensuring the compatibility.
Security: Security is the most crucial requirement of the deemed system and should be strong
enough to withstand undesired circumstances. The password protection does ensure the safety
of the system to a limit, however, to enhance it to next level the connection between the ATM
and bank (by electronics means) should be secured. Additional, appropriate care should be
given to avoid stalkers when, user is entering the pin.
Post transaction: Post-transaction, the system will enquiry about the further step that will
include continuation of the process or not. Additionally, printing of the receipt will also be
enquired after which the process will be complete.
Non-functional requirements:
The non-functional requirements of the ATM system are described below:
Scalability: The ATM should offer scalability that is it should be capable of withstanding harsh
situations such as excessive load that can be resulted from increased number of users and
provide cash to the users as long as it has ample cash.
Flexibility: Another notable requirement of the ATM should be flexibility. The system should not
be limited to withdrawal of the cash only; it should also offer options like, checking of last
transactions, cash deposit, change of pin, applying for the bank account and similar others.
UI ease: User Interface (UI) is one of the most desirable requirement for the ATM because it
decides what comfort will the user enjoy while using the ATM. Hence, it is mandatory that the
input and dialogue box displayed on the ATM’s screen is understandable and offers ease of use.
The options should also be understandable and visible to the users.
Usability ease: The ATM should also offer ease of usability to the users that is the actions should
be responded effectively and efficiently. A tutorial for the first time users can be added to
enhance understanding.
Adaptability: The discussed system should also offer adaptability that is it should follow open
system that can be volatile as per the circumstances. However, the adaptability should not
compromise on the security of the system.
Efficiency: Efficiency is one of the most required feature of the system and hence should be
cited special attention. The users should receive adequate response to the input they have given
to the system that and no option should be included in the system that is not capable of
providing appropriate response.
Compatibility: Another notable non-functional requirement of the system is compatibility. The
discussed system should offer compatibility with the systems in existence to ensure that the
users are comfortable with the system and can easily understand the purpose of the system.
The data collected during account opening process at the banks should be applied to the
deemed system while ensuring the compatibility.
Security: Security is the most crucial requirement of the deemed system and should be strong
enough to withstand undesired circumstances. The password protection does ensure the safety
of the system to a limit, however, to enhance it to next level the connection between the ATM
and bank (by electronics means) should be secured. Additional, appropriate care should be
given to avoid stalkers when, user is entering the pin.
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OBJECT AND DATA MODELLING
2. Draw a use case model for the information system.
Use Case Model Diagram
Figure 1: Use Case Model Diagram
2. Draw a use case model for the information system.
Use Case Model Diagram
Figure 1: Use Case Model Diagram
OBJECT AND DATA MODELLING
(Source: Created by Author)
Use case Description
The table provided below provides the description of the uses of the designed system:
Use Case Brief Use Case Description
Insert Card The system allows the user to insert the card into the system.
Card
Recognition
The system should be able to provide the bank with option of recognizing the
card.
Re-insert Card The customer should be able to re-insert the card in to the system in case the
recognition of the card fails for the first time.
Enter Pin The customer should be able to enter the pin into the system.
Pin
Verification
The ban king authorities should be provided with the option to recognize the
pin verification and allow access to the customer. In the machine.
Re-enter Pin The customer should be allowed to re-enter the pin in the system in case the
customer enters wrong pin for the first time.
Authorize
Account
The banking authorities should be allowed to authorize the account of the
customer so that the customer can perform the actions required by him on the
ATM machine.
View Options The View option would enable the customer to view the different type of
accounts that is Savings, Credit and Super Saver.
Select Account The customer would be able to select the type of account the customer
possesses.
View Main
Menu
The customer is allowed to view the main menu of the ATM.
Transfer
Money
The system provides the customer with the option to transfer money from
their account.
Withdraw
money
The customer is also provided with the option of withdrawing money from
the ATM machine.
Check balance The customer is also provided with the option to check their balance with the
bank.
Deposit The customer is provided with the option of depositing money to the system.
(Source: Created by Author)
Use case Description
The table provided below provides the description of the uses of the designed system:
Use Case Brief Use Case Description
Insert Card The system allows the user to insert the card into the system.
Card
Recognition
The system should be able to provide the bank with option of recognizing the
card.
Re-insert Card The customer should be able to re-insert the card in to the system in case the
recognition of the card fails for the first time.
Enter Pin The customer should be able to enter the pin into the system.
Pin
Verification
The ban king authorities should be provided with the option to recognize the
pin verification and allow access to the customer. In the machine.
Re-enter Pin The customer should be allowed to re-enter the pin in the system in case the
customer enters wrong pin for the first time.
Authorize
Account
The banking authorities should be allowed to authorize the account of the
customer so that the customer can perform the actions required by him on the
ATM machine.
View Options The View option would enable the customer to view the different type of
accounts that is Savings, Credit and Super Saver.
Select Account The customer would be able to select the type of account the customer
possesses.
View Main
Menu
The customer is allowed to view the main menu of the ATM.
Transfer
Money
The system provides the customer with the option to transfer money from
their account.
Withdraw
money
The customer is also provided with the option of withdrawing money from
the ATM machine.
Check balance The customer is also provided with the option to check their balance with the
bank.
Deposit The customer is provided with the option of depositing money to the system.
OBJECT AND DATA MODELLING
Money
Print
transaction
History
The print transaction option of the system would allow the customer to view
the transaction history of the customer.
Generate
report
The banking authority is provided with the option to print the daily, weekly
and monthly report from the system.
Fully developed use case:
The use used for description in this section of the report is the use case of View main
menu by the customer:
Use Case Name: View Main Menu
Scenario: View the main menu
Triggering Event: The customer enters the system and views main menu.
Brief Description: The customer is allowed to view the main menu of the ATM.
Actors: Customer, The system
Related uses
cases:
From the main menu the customer can view other use cases such as
check balance and deposit money.
Stakeholders: The other stakeholders related to this use case is the bank and the
banking authority.
Precondition: The precondition of the use case is select account. The customer has to
select the account
Post condition: The post condition of the use case is any of the five stages provided
below:
Transfer Money
Withdraw money
Check balance
Deposit Money
Print transaction History
Flow of Activities Actor System
1. Customer inserts the ATM
card.
1. The system checks the ATM card
2. The system verifies the Pin
Money
transaction
History
The print transaction option of the system would allow the customer to view
the transaction history of the customer.
Generate
report
The banking authority is provided with the option to print the daily, weekly
and monthly report from the system.
Fully developed use case:
The use used for description in this section of the report is the use case of View main
menu by the customer:
Use Case Name: View Main Menu
Scenario: View the main menu
Triggering Event: The customer enters the system and views main menu.
Brief Description: The customer is allowed to view the main menu of the ATM.
Actors: Customer, The system
Related uses
cases:
From the main menu the customer can view other use cases such as
check balance and deposit money.
Stakeholders: The other stakeholders related to this use case is the bank and the
banking authority.
Precondition: The precondition of the use case is select account. The customer has to
select the account
Post condition: The post condition of the use case is any of the five stages provided
below:
Transfer Money
Withdraw money
Check balance
Deposit Money
Print transaction History
Flow of Activities Actor System
1. Customer inserts the ATM
card.
1. The system checks the ATM card
2. The system verifies the Pin
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OBJECT AND DATA MODELLING
2. The customer enters the
ATM Pin
3. The customer selects main
menu
3. The system displays main menu
Exception
condition:
1. The ATM Pin is not valid
2. The customer account is not valid
3. Draw a UML domain model class diagram for all systems
Class Diagram
Figure 2: UML Class Diagram
(Source: Created by Author)
Assumptions
During the creation of the class diagram various assumptions were made as the provided
conditions for the construction was not enough and hence, the assumptions helped in the
development of the concept for the class diagram for the construction of the class diagram of the
ATM system. The major assumptions made for the system includes the connection of the system
to the bank and the bank keeping an account for the users of the ATM. It is assumed that the data
2. The customer enters the
ATM Pin
3. The customer selects main
menu
3. The system displays main menu
Exception
condition:
1. The ATM Pin is not valid
2. The customer account is not valid
3. Draw a UML domain model class diagram for all systems
Class Diagram
Figure 2: UML Class Diagram
(Source: Created by Author)
Assumptions
During the creation of the class diagram various assumptions were made as the provided
conditions for the construction was not enough and hence, the assumptions helped in the
development of the concept for the class diagram for the construction of the class diagram of the
ATM system. The major assumptions made for the system includes the connection of the system
to the bank and the bank keeping an account for the users of the ATM. It is assumed that the data
OBJECT AND DATA MODELLING
of the Customers would be stored in the database of the bank and the ATM machine a=would be
fetching the details of the customers from the bank of the user. With these assumptions in mind
the construction of the class diagram of the ATM has been done.
4. Specific Tasks Required for Each Design Activities:
The Software Development Life Cycle includes the following six phases:
Requirement gathering and analysis: In this phase the analysis of the requirement are and the
main requirements for the implementation of the system are identified.
Design: The design phase involves ideating the design of the system that is to be installed in to t
he system.
Implementation: The implementation phase involves the implementation of the system involves
the actualization of the design for the system that is to be adopted in the ATM.
Testing: The testing phase involves the testing of the system that has been implemented for
installation in an ATM machine. The simulation need not be done in an actual ATM machine, it
can also be done in a simulation tool.
Deployment: The deployment phase involves deploying the system into an actual ATM system.
Maintenance: After the deployment phase is over the machine is to be maintained regularly. The
maintenance of the system would keep the machine from lagging or getting damaged at critical
stages.
Describing the environment
ATMs (or Automated Teller Machines) are what are known as Alternative Delivery
Channels.
Alternative, because they are alternative to the human teller.
Delivery because they are programmed to deliver a specific set of services, and
Channel because in the banking world, all delivery mechanisms need a channel via which the
delivery would be made.
Designing application components
The application would be containing a front end which is to be connected to an internet
connection. The ATM actually do not have any database connected to the machine but it uses the
data obtained from banks via the internet.
of the Customers would be stored in the database of the bank and the ATM machine a=would be
fetching the details of the customers from the bank of the user. With these assumptions in mind
the construction of the class diagram of the ATM has been done.
4. Specific Tasks Required for Each Design Activities:
The Software Development Life Cycle includes the following six phases:
Requirement gathering and analysis: In this phase the analysis of the requirement are and the
main requirements for the implementation of the system are identified.
Design: The design phase involves ideating the design of the system that is to be installed in to t
he system.
Implementation: The implementation phase involves the implementation of the system involves
the actualization of the design for the system that is to be adopted in the ATM.
Testing: The testing phase involves the testing of the system that has been implemented for
installation in an ATM machine. The simulation need not be done in an actual ATM machine, it
can also be done in a simulation tool.
Deployment: The deployment phase involves deploying the system into an actual ATM system.
Maintenance: After the deployment phase is over the machine is to be maintained regularly. The
maintenance of the system would keep the machine from lagging or getting damaged at critical
stages.
Describing the environment
ATMs (or Automated Teller Machines) are what are known as Alternative Delivery
Channels.
Alternative, because they are alternative to the human teller.
Delivery because they are programmed to deliver a specific set of services, and
Channel because in the banking world, all delivery mechanisms need a channel via which the
delivery would be made.
Designing application components
The application would be containing a front end which is to be connected to an internet
connection. The ATM actually do not have any database connected to the machine but it uses the
data obtained from banks via the internet.
OBJECT AND DATA MODELLING
User interfaces
The user interface of the machine should be designed efficiently. The customer visiting
the ATM counter should be able to perform their operation efficiently and should be guided
efficiently.
The database
The data store in the ATM is not actually a database it is connected to the internet and
obtains the data via the internet.
User interfaces
The user interface of the machine should be designed efficiently. The customer visiting
the ATM counter should be able to perform their operation efficiently and should be guided
efficiently.
The database
The data store in the ATM is not actually a database it is connected to the internet and
obtains the data via the internet.
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OBJECT AND DATA MODELLING
Bibliography
Ahmed, M. A., Butt, W. H., Ahsan, I., Anwar, M. W., Latin, M., & Azam, F. (2017, March). A
Novel Natural Language Processing (NLP) Approach to Automatically Generate
Conceptual Class Model from Initial Software Requirements. In International
Conference on Information Science and Applications (pp. 476-484). Springer, Singapore.
Almorsy, M., Grundy, J., & Müller, I. (2016). An analysis of the cloud computing security
problem. arXiv preprint arXiv:1609.01107.
Bello, S. I., Bello, R. O., Babatunde, A. O., Olugbebi, M., & Bello, B. O. (2017). A University
Examination Web Application Based on Linear-Sequential Life Cycle Model.
Bertoncello, V., Possamai, O., Bortolozzi, F., & Vosgerau, D. S. (2017, April). A Model for the
Development of Learning Objects Using Educational Design. In Proceedings of the 2017
International Conference on Information System and Data Mining (pp. 111-118). ACM.
Dennis, A., Wixom, B. H., & Tegarden, D. (2015). Systems analysis and design: An object-
oriented approach with UML. John wiley & sons.
Dwarakanath, A., Chintala, U., Virdi, G., Kass, A., Chandran, A., Sengupta, S., & Paul, S. (2015,
May). CrowdBuild: a methodology for enterprise software development using
crowdsourcing. In Proceedings of the Second International Workshop on CrowdSourcing
in Software Engineering (pp. 8-14). IEEE Press.
Elamin, R., & Osman, R. (2017, July). Towards Requirements Reuse by Implementing
Traceability in Agile Development. In Computer Software and Applications Conference
(COMPSAC), 2017 IEEE 41st Annual (Vol. 2, pp. 431-436). IEEE.
Gude, B. C., Kakumani, L. R., Phanindhar, S., & Singireddy, S. R. (2016). GSU Event Portal.
Johnston, S. K., & Nally, M. P. (2015). U.S. Patent No. 9,122,422. Washington, DC: U.S. Patent
and Trademark Office.
Mall, R. (2014). Fundamentals of software engineering. PHI Learning Pvt. Ltd..
Mao, K., Capra, L., Harman, M., & Jia, Y. (2017). A survey of the use of crowdsourcing in
software engineering. Journal of Systems and Software, 126, 57-84.
Bibliography
Ahmed, M. A., Butt, W. H., Ahsan, I., Anwar, M. W., Latin, M., & Azam, F. (2017, March). A
Novel Natural Language Processing (NLP) Approach to Automatically Generate
Conceptual Class Model from Initial Software Requirements. In International
Conference on Information Science and Applications (pp. 476-484). Springer, Singapore.
Almorsy, M., Grundy, J., & Müller, I. (2016). An analysis of the cloud computing security
problem. arXiv preprint arXiv:1609.01107.
Bello, S. I., Bello, R. O., Babatunde, A. O., Olugbebi, M., & Bello, B. O. (2017). A University
Examination Web Application Based on Linear-Sequential Life Cycle Model.
Bertoncello, V., Possamai, O., Bortolozzi, F., & Vosgerau, D. S. (2017, April). A Model for the
Development of Learning Objects Using Educational Design. In Proceedings of the 2017
International Conference on Information System and Data Mining (pp. 111-118). ACM.
Dennis, A., Wixom, B. H., & Tegarden, D. (2015). Systems analysis and design: An object-
oriented approach with UML. John wiley & sons.
Dwarakanath, A., Chintala, U., Virdi, G., Kass, A., Chandran, A., Sengupta, S., & Paul, S. (2015,
May). CrowdBuild: a methodology for enterprise software development using
crowdsourcing. In Proceedings of the Second International Workshop on CrowdSourcing
in Software Engineering (pp. 8-14). IEEE Press.
Elamin, R., & Osman, R. (2017, July). Towards Requirements Reuse by Implementing
Traceability in Agile Development. In Computer Software and Applications Conference
(COMPSAC), 2017 IEEE 41st Annual (Vol. 2, pp. 431-436). IEEE.
Gude, B. C., Kakumani, L. R., Phanindhar, S., & Singireddy, S. R. (2016). GSU Event Portal.
Johnston, S. K., & Nally, M. P. (2015). U.S. Patent No. 9,122,422. Washington, DC: U.S. Patent
and Trademark Office.
Mall, R. (2014). Fundamentals of software engineering. PHI Learning Pvt. Ltd..
Mao, K., Capra, L., Harman, M., & Jia, Y. (2017). A survey of the use of crowdsourcing in
software engineering. Journal of Systems and Software, 126, 57-84.
OBJECT AND DATA MODELLING
Misra, H. (2016). Managing User Capabilities in Information Systems Life Cycle: Conceptual
Modeling. International Journal of Information Science and Management (IJISM), 15(1).
Mythily, M., Valarmathi, M. L., & Durai, C. A. D. (2018). Model transformation using logical
prediction from sequence diagram: an experimental approach. Cluster Computing, 1-12.
Rodriguez-Martinez, L. C., Duran-Limon, H. A., Mendoza-González, R., & Muñoz, J. (2015).
Identifying common activities in the graphical user interface development process and
their integration into the software-system development life cycle. Computer Science and
Information Systems, 12(1), 323-348.
Saeed, M. S., Sarwar, N., & Bilal, M. (2016, August). Efficient requirement engineering for
small scale project by using UML. In Innovative Computing Technology (INTECH),
2016 Sixth International Conference on (pp. 662-666). IEEE.
Sah, A., Bhadula, S. J., Dumka, A., & Rawat, S. (2018). A Software Engineering Perspective for
Development of Enterprise Applications. In Handbook of Research on Contemporary
Perspectives on Web-Based Systems (pp. 1-23). IGI Global.
Misra, H. (2016). Managing User Capabilities in Information Systems Life Cycle: Conceptual
Modeling. International Journal of Information Science and Management (IJISM), 15(1).
Mythily, M., Valarmathi, M. L., & Durai, C. A. D. (2018). Model transformation using logical
prediction from sequence diagram: an experimental approach. Cluster Computing, 1-12.
Rodriguez-Martinez, L. C., Duran-Limon, H. A., Mendoza-González, R., & Muñoz, J. (2015).
Identifying common activities in the graphical user interface development process and
their integration into the software-system development life cycle. Computer Science and
Information Systems, 12(1), 323-348.
Saeed, M. S., Sarwar, N., & Bilal, M. (2016, August). Efficient requirement engineering for
small scale project by using UML. In Innovative Computing Technology (INTECH),
2016 Sixth International Conference on (pp. 662-666). IEEE.
Sah, A., Bhadula, S. J., Dumka, A., & Rawat, S. (2018). A Software Engineering Perspective for
Development of Enterprise Applications. In Handbook of Research on Contemporary
Perspectives on Web-Based Systems (pp. 1-23). IGI Global.
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