payroll management system
DESCRIPTION
Payroll systemTRANSCRIPT
PAYROLL MANAGEMENT SYSTEM
By
[BHAVIK PATEL 06-CEG-31][BHAVIN PATEL 06-CEG-27]
DEPARTMENT OF COMPUTER ENGINEERINGSVIT, Vasad 388306
SARDAR VALLABHABHAI PATEL INSTITUTE OF TECHNOLOGY VASAD- 388306
DEPARTMENT OF COMPUTER ENGINEERING
CERTIFICATE
This is to certify that the project entitled
“PAYROLL MANAGMENT SYSTEM” has
been carried out by BHAVIK PATEL(06-CEG-
31) and BHAVIN PATEL(06-CEG-27) under
my guidance in partial fulfillment of the degree
of Bachelor of Engineering in Computer
Engineering of Gujarat University, Ahemdabad
the academic year 2008-2009. To the best of
my knowledge and belief this work has not
been submitted elsewhere for the award of any
other degree.
Internal Guide Head of the Department
Mrs. Neha Soni Prof. B. J. Talati Comp. Engg. Dept.
PAGE INDEX
TOPIC PAGE NO1 INTRODUCTION TO PROJECT/SYSTEM
1.1 DOMAIN DESCRIPTION1.2 OBJECTIVES1.3 LIMITATIONS OF EXISTING SYSTEM
2 FEASIBILITY ANALYSIS2.1 TECHNICAL FEASIBILITY2.2 OPERATIONAL FEASIBILITY2.3 ECONOMIC FEASIBILITY2.4 SCHEDULE FEASIBILITY
3 DEVELOPMENT MODEL4 PROJECT PLAN
4.1 TIMELINE CHART5 REQUIREMENT STUDY/ANALYSIS
5.1 SYSTEM REQUIREMENTS5.1.1 FUNCTIONAL REQUIREMENT5.1.2 NON-FUNCTIONAL REQUIREMENT
5.2 USER REQUIREMENTS AND USE CASES6 SYSTEM DESIGN
6.1 DESIGN METHODOLOGY6.2 ACTIVITY DIAGRAM6.3 SEQUENCE DIAGRAM6.4 STATE CHART DIAGRAM6.5 E-R DIAGRAM6.6 DATA FLOW DIAGRAM
7 STANDARD USED FOR CODING8 TESTING9 IMPLEMENTATION10 SCOPE FOR FUTURE ENHANCEMENT
ANNEXUREGLOSSARYBIBLIOGRAPHY
FIGURE INDEX
FIGURE PAGE NO.
1 ACTIVITY DIAGRAM2 SEQUENCE DIAGRAM3 E-R DIAGRAM4 DATA FLOW DIAGRAM
PREFACE
It gives us great pleasure in placing in the hands of our esteemed Faculties this individual
report, which, we believe, will go through the documentation of the project work done by
us.
The objective of this report is to provide both a conceptual understanding of the system
as well as working guide.
Surely no other Science as Computer Science is proven as the driving force of the Nation.
Computer Science not only decides the present but also the future. The need for software
development today is a competence in a G.U.I based front-end tool as far as the database
programming is concerned.
A typical scenario today involves an application consisting of a visual front end for
presenting data and reporting options to the enterprise users, and a connection to a
database for piping data to controls such as text boxes, tables, and list boxes. These
applications typically feature reporting functions to provide documentation to teachers
and administrative.
As a student of B. E. (3rd Year) when we acquire all the theoretical knowledge, it is both
necessary and advisable to acquaint the students with the real situation through, well-
planned project in relevant fields. Using all the theoretical knowledge and applying into
the real application we learns to develop efficient real world application at the time of
project training. So, the project training is very important for the student for self-
development and self-confident. Also student learns organizational structure, rules and
regulations and management in a real sense, which helps student to get discipline in all
aspects of life.
Aimed for providing the reader with easier and in-depth knowledge of all the basic as
well as important aspects related to the systems having the functionality's of there
respective fields in form of report. The report contains the literature of almost all the
things, which I have gone through from the point of view of any system development life
cycle.
ACKNOWLEDGEMENT
With great enthusiasm I present this project carried out as a part of Computer semester
VI. I would like to take this opportunity to express my hearty thanks to all those who
have guided, advised, inspired & supported me during the project work. This project
work is an integrated effort of all those persons concerned, without whose co-operation
and effective guidance I couldn’t have achieved its completion
First I would like to thank for giving me the opportunity to work on this project. I would
like to thank my faculty Mrs. Neha Soni for always assisting and helping me in
compilation of the project work successfully. I am very grateful to
I would also like to thank my head of the department Mrs. Bijal Talati for constantly
sharing his knowledge and experience with me throughout the project work.
I am very grateful to all others whose names might not appear in this formal
acknowledgement but the sense of gratitude will always remain in my heart for them.
1.INTRODUCTION TO PROJECT
1.1 Domain DescriptionIndustry employs full-time and casual (contractual) academics. Employees in the
Personnel Department will use the system to maintain employee information, manage
leave, and make payments to the academics every fortnight.
The Payroll system can add new employees and delete employees. It can manage annual
and long-service leave as well as record any sick leave. The system must pay each
academic the correct amount, on time, and by the payment method requested by an
academic.
Employees in the Personnel Department will access system via a Windows-based
desktop interface.
However, the system will also provide a web-based access (called Academic Kiosk)to
full-time academics to view their payment details, leave balances, and personal
information. Some of this information, such as personal details and payment method, can
be updated by academics using the web-based interface.
The Payroll system verifies if the total hours worked so far do not exceed the number of
hours agreed in the contract. The contract information is maintained by another system
called Contracts Management, however the Payroll system stores basic information about
contracts, in particular hourly rate for each contract. The industry deducts standard tax
rates from payments made to full-time academics.
Casual academics can request receiving payment notifications by mail or by email. Full-
time academics employees do not receive payment notifications but they can use
Academic Kiosk to query the system about fortnightly payments, total salaries received
year-to-date, tax and other deductions, leave balances, etc. As mentioned, Academic
Kiosk can be used to modify personal details and payment method.
The academics can choose the payment method. The payments can be mailed (as bank
cheques) to academics to the postal address of their choice. Alternatively, the payments
can be directly deposited into an academic’s bank account.
1.2 Objectives
Employees are the backbone of any company; their management pays a major role in
deciding the success of the organization. Employee information management helps in
deciding the future management needs and any changes that has to be made for greater
productivity. It keeps the records of the functions performed by the individual employee
playing a vital role at the time of performance appraisal. Employee management software
can carry out many functions like employee data analysis, employee monitoring,
centralized employee database, management of the time sheet, etc.
The usage of payroll management system would ultimately reduce the overall
management costs thus ensuring greater profits and reduced burdens. The system is very
easy to use and can adjust into any business frame.
1.3 Limitations of the existing system
The institute doesn’t have any software application which maintains data of the
employees. The record keeping is done manually. This leads to great difficulty when
certain needs arrive of looking into employees’ past data.
The institute uses a payroll application which has limited features and doesn’t work
efficiently and effectively. It doesn’t fulfill many requirement of the administrative
department. The application just keeps very trivial information of the employees and
doesn’t facilitate with any kind of analytical ability.
2.FEASIBILITY ANALYSIS
We have analyzed the feasibility of the system in terms of following spans:
1. Technical Feasibility
2. Operational Feasibility
3. Economical Feasibility
4. Scheduled Feasibility
2.1 Technical Feasibility: The development process of Payroll Management System
would be advantageous to the organization because we would make use of only the
currently available resources of the organization. All the tools needed for the
development are already available with the organization and the organization does not
have to acquire any new resources. The technical feasibility is also attributed to the fact
that the system does not make use of any additional or external third party components
which can lead to increased load on the system.
2.2 Operational Feasibility: The Payroll Management System is intended to provide a
very user-friendly and easy to use interface which is beneficial for both the visitors as
well as the operators who help in providing support for the system. This system would
also be easily acceptable among the visitor and administrator, as there is no need of any
special skill set for using the application. This system also benefits the users as they do
not have to download anything on their terminals increasing their efficiency and ease of
use.
2.3 Economic Feasibility: The Payroll Management System has a very low
development cost. The low cost is attributed to the usage of the existing resources of the
organization. As the website is very user friendly and easy to use, there is no need to
provide special training to the users of the website, thus saving valuable time and money.
2.4 Scheduled feasibility: Projects are always given deadlines. Every project is
completed in a specific duration. I was the only working on the project and I had the
project duration of four months only. So i have tried our level best to fulfill each and
every requirement. I had to complete the project in time and if it is not possible to
complete the software in time then I would try our best to fulfill client requirements.
3.DEVELOPMENT MODEL
The Payroll Management System is a database software application which is developed
using a waterfall software developing model.
The waterfall model is a popular version of the systems development life cycle model for
software engineering. Often considered the classic approach to the systems development
life cycle, the waterfall model describes a development method that is linear and
sequential. Waterfall development has distinct goals for each phase of development.
Imagine a waterfall on the cliff of a steep mountain. Once the water has flowed over the
edge of the cliff and has begun its journey down the side of the mountain, it cannot turn
back. It is the same with waterfall development. Once a phase of development is
completed, the development proceeds to the next phase and there is no turning back.
The advantage of waterfall development is that it allows for departmentalization and
managerial control. A schedule can be set with deadlines for each stage of development
and a product can proceed through the development process like a car in a carwash, and
theoretically, be delivered on time. Development moves from concept, through design,
implementation, testing, installation, troubleshooting, and ends up at operation and
maintenance. Each phase of development proceeds in strict order, without any
overlapping or iterative steps.
The disadvantage of waterfall development is that it does not allow for much reflection or
revision. Once an application is in the testing stage, it is very difficult to go back and
change something that was not well-thought out in the concept stage. Alternatives to the
waterfall model include joint application development (JAD), rapid application
development (RAD), synch and stabilize, build and fix, and the spiral model.
To follow the waterfall model, one proceeds from one phase to the next in a purely
sequential manner. For example, one first completes requirements specification, which
are set in stone. When the requirements are fully completed, one proceeds to design. The
software in question is designed and a blueprint is drawn for implementers (coders) to
follow — this design should be a plan for implementing the requirements given. When
the design is fully completed, an implementation of that design is made by coders.
Towards the later stages of this implementation phase, separate software components
produced are combined to introduce new functionality and remove errors.
Thus the waterfall model maintains that one should move to a phase only when its
preceding phase is completed and perfected. However, there are various modified
waterfall models (including Royce's final model) that may include slight or major
variations upon this process.
System Engineering Analysis
DesignCode
Testing
Maintenance
4.PROJECT PLAN
4.1 TIME LINE CHART
month
task 1/1 8/1 15/1 22/15/2 12/2 19/2 26/2 5/3 12/3 19/3 26/3 2/4 9/4 16/4 23/4
TESTING
DOCUMENTATION
FINAL DOCUMENTATION
REQUIREMENT ANALYSIS
DESIGN
CODING
january february march april
DOMAIN DISCRIPTION
4.2 TEAM ORGANISATIONThere are three types of team organizations:
1. DD: Democratic Decentralized
2. CD: Control Decentralized
3. CC: Control Centralized
For our project the team organization is Control Decentralized because here we are
having the lecturers as our guide. The problems are being recognized by them and are
solved by us.
The software project team for “Payroll Management System” consists of 2
member:
Bhavin Patel and Bhavik Patel (S.V.I.T. – Computer department)
The project was undertaken under the guidance of Mrs.Neha Soni, Mr. Milin
Patel And Ms. Jignya Seth.
5.REQUIREMENT ANALYSIS
Nowadays, the world is moving at a lightening swiftness and so is computer field. It is
advancing
each and every day.
Initially the work of project management was done manually and the data was
kept in files
but now the technology is such that each employee who is part of project management
team has
all the projects, their phases, reports all at hand.
Due to which user can quickly know regarding the status of any project and its
progress.
Such is the technology which is increasing at a very fast pace. This system has been made
so, that user can work faster and in a much better environment.
5.1 SYSTEM REQUIREMENTS
FUNCTIONAL REQUIREMENTS:
Function 1: Administration of the Application
Function Purpose and Priority
Administrator can create new roles/rights/users and edit the existing
roles/rights/users.
Function Inputs
Create User: - User name, Full Name, Password.
Create Rights :- Give rights to the user
Function Operations
Create User: - The admin fills the information about the user and selects rights to
be given to the user clicks on the “Save” button.
Function Outputs
Create User: - New user is created and assigned to the selected rights and then
added in the database.
Edit User: - Changes made to the user information are saved.
Function 2: Manage Employee Data
Function Purpose and Priority
It stores detailed employee profile including his/her personal information,
qualification profile, experience profile and basic salary information.
Function Inputs
Personal Details : Name , Address , Contact , Date of Birth , Sex etc.
Qualification Profile : Qualification , Grade , Passing Year , Institute.
Experience Profile : Worked As, Nos. Working Years, Working Category
Basic Salary Information : Designation , Department , Scale , Date of
Joining, Applicable allowances and deduction and bank information etc.
Function Operations
The employee details can be added , edited and deleted by the users who
have enough authority for the functions.
Function Outputs
The user authentication is checked against the operation used by the user.
If user is not allowed to access the asked operation he/she is reported by
the application
Function 3: Designation History
Function Purpose and Priority
The past data of the employee designation and his/her progress throughout
career is maintained.
Function Inputs
Designation, Type, Date of Joining, Reason for new designation etc.
Function Operations
The user fills the input details save.
Function Outputs
The current designation is upgraded. New scale is assigned and joining
date , month of increment is changed.
Function 4: Increment and Incentive Detail
Function Purpose and Priority
The functions allows to keep track of the increments/incentives given to
the employee.
Function Inputs
Date, Nos of increment/incentives, Reason.
Function Operations
The user can add increment/incentives records.
Function Outputs
The current basic is upgraded according to the given increment/incentives
based on the employee’s scales.
Function 5: Scale Prediction
Function Purpose and Priority
This is the analytical tool which allows to generated data showing the
normal progress of any employee in future
Function Inputs
Selects employee , Starting Date ( Joining date , Current date) , Ending
date, The years after which the scales should be upgraded.
Function Operations
Generates the data including year and basic of the employee according to
the given inputs.
Function Outputs
Shows graphical view of the generated prediction.
NON-FUNCTIONAL REQUIREMENTS:
Hardware Requirements :
233 MHz Pentium processor or other compatibleIntel Chipset Motherboard512 MB SD-RAM4 GB hard disk
Software Requirements :
1) Operating System -Windows 98 onwards2) Application Software –Microsoft Visual Basic 6.03) Database Tool – Oracle
5.2 USE-CASE DIAGRAM:
USER
6.System Design
6.1 DESIGN METHODOLOGYThe method that we have used for designing this system is “Structural Design”.
In the structure-oriented approach, the problem is viewed as a sequence of things to be done. A number of functions are written to accomplish these tasks. The primary focus is on functions.
A typical program structure for structural programming is as follows:
Registration Process
Diff. Depat
View the Time & Date for Joinig
Exit
View Reports
ADMINISTRATOR
Selection of different
Categories
EMPLOYEE
Login
Main Program
Function – 1 Function – 2 Function – 3
Function – 4 Function - 5
Function – 6 Function – 7 Function – 8
In a multi-function program, many important data items are placed as global so that they may be accessed by all the functions. Each function may have its own local data.
Global data are more vulnerable to an inadvertent change by a function. This provides an opportunity for bugs to creep in. Another serious drawback with the structural approach is that it does not model real world problems very well. Along with the disadvantages the structural design has various advantageous features, which encouraged us to use the structural approach.
Some of the striking features that encouraged us for using structural design are:
1. Emphasis is on doing things (algorithms).2. Large programs are divided into smaller programs known as functions.3. Most of the functions share global data.4. Data move openly around the system from functions to function.5. Functions transform data from one form to another.6. Employs top-down approach in program design.
6.2 ACTIVITY DIAGRAM
MAIN FLOW
Diagrams For Each Operation :
1) Add Employee:
Check Access Return Error Message
Add Employee Record Return Success Message
[Not Allowed]
[Allowed]
2)Delete Employee:
Check Access Return Error Message
Return Success Message
[Not Allowed]
[Allowed]
Delete Employee Record
3)Update Employee:
Check Access Return Error Message
Return Success Message
[Not Allowed]
[Allowed]
Update Employee Record
6.3 SEQUENCE DIAGRAM
A sequence diagram in Unified Modelling Language (UML) is a kind of interaction
diagram that shows how processes operate with one another and in what order. It is a
construct of a Message Sequence Chart.
Sequence diagrams are sometimes called Event-trace diagrams, event scenarios, and
timing diagrams.
USER USER DB SERVER
User Functions
Verify functions
Perform functions
6.4 STSTE CHART DIAGRAM
A state diagram is a type of diagram used to describe the behavior of systems. State
diagrams require that the system described is composed of a finite number of states.State
diagrams can describe the possible states of an object as events occur. Each diagram
usually represents objects of a single class and track the different states of its objects
through the system. State diagrams can be used to graphically represent finite state
machines
Enter password
Verify password
Password OKOpen admin screen
Display result
Acknowledge functions
6.5 E-R DIAGRAM
Login
Authentication Scale Prediction
Incentive/Increment
Employee Data
Backup/Restore
E m p l o y e e
C a t e g a r y
C a nH a v e
L e a v e L o a n
C a nT a k e
C a nT a k e
C a nH a v e
C a nH a v e
A l l o w a n c e s D e d u c t i o n
C a nH a v e
C a nT a k e
A d v a n c eD e p a r t m e n t
C a t eg a r y
M o n t h l y S a l a r y
C u tA m t
C a nH a v e
M
1
1
M
1
1 M
M
1
1
M
M
M
1
M
1 1
1 1
M M
M
6.6 DATA FLOW DIAGRAM
0th Level DFD
P a y r o l lM a n a g e m e n t
S y s t e m
L o a n
L e a v e
M a n a g e m e n t
R e p o r t s
A c c o u n t s
E m p l o y e e
I n s t a l m e n t D e t a i l
S a l a r y S l i p
E m p l o y e e
D e t a i l
L e a v eD e t a i l
M a n a g e m e n t P o l i c y
O t h e r R e p o r t s
S a l a r y S t a t e m e n t
1st Level DFD
1 . 0P r o c e s s i n g
o fS a l a r y
i n f o r m a t i o n
E m p l o y e e D e t a i l
C a t e g a r y
L e a v e D e t a i l
O v e r T i m e
P r e s e n t D e t a i l
1 . 1P r o c e s s i n g
o fA l l o w a n c e sc a l c u l a t i o n
E m p l o y e e D e t a i l
C a t e g a r yD e t a i l
L e a v eD e t a i l
O v e r t i m e D e t a i l
P r e s e n t D e t a i l
S a l a r yI n f o r m a t i o n
A l l o w a n c e s
E m p l o y e e A l l o w a n c e s
1 . 2P r o c e s s i n g
o fD e d u c t i o n sc a l c u l a t i o n
G r o s s S a l a r y
A d v a n c e
L o a n
D e d u c t i o n
A d v a n c eD e t a i l
L o a n D e t a i l
E m p l o y e e D e d u c t i o n
1 . 3 N e t
S a l a r y
G r o s s S a l a r y
S a l a r y S t a t m e n t so r
R e p o r t s
R e p o r t s
2nd Level DFD
2 . 0P r o c e s s i n g
O fS a l a r y
i n f o r m a t i o n
E m p l o y e e D e t a i l s
C a t e g a r y
D e p a r t m e n t
L e a v e
O v e r t i m e
P r e s e n t s D e t a i l
E m p l o y e e D e t a i l
C a t e g a r yD e t a i l
D e p a r m e n tD e t a i l
L e a v eD e t a i l
O v e r t i m e D e t a i l
E m p l o y e e P r e s e n t s
2nd Level DFD
2 . 1P r o c e s s i n g
o fA l l o w a n c e sc a l c u l a t i o n
D a i l y A l l o w a n c e s
T r a v e l l i n gA l l o w a n c e s
H R A
B a s i c S a l a r y
M e d i c a l
D Ai n f o r m a t i o n
T Ai n f o r m a t i o n
H R Ai n f o r m a t i o n
M e d i c a li n f o r m a t i o n
B a s i c S a l a r y
2nd Level DFD
2 . 2P r o c e s s i n g
o fD e d u c t i o n sc a l c u l a t i o n
P r o v i d e n t F u n d P r o f e s s i o n a l T a x
G r o s s S a l a r y
2 . 2 . 0A d v a n c e
D e t a i l
A d v a n c e
2 . 2 . 1L o a n
D e t a i l
L o a n _ M a s tL o a n _ T r a n s
P Fi n f o r m a t i o n
P Ti n f o r m a t i o n
G r o s s S a l a r y
L o a nD e t a i l
A d v a n c e D e t a i l
E m p l o y e eA d v a n c e
L o a nM a s t e rD e t a i l
L o a nT r a n s e c t i o nD e t a i l
7.Standard Used For Coding
CONTROL PREFIX
SR NO CONTROL TYPE PREFIX1 Checkbox Chk
2 Combo box,dropdown list box Cmb3 Command button Cmd4 Common Dialog Dlg5 Control Ctr6 Directory listbox Dir7 Drive listbox Drv8 Form Frm9 Image Img10 Horizontal scroll bar Hsb11 Image combo Imgcbo12 Image list Ils13 Label Lbl14 Line Lin15 List box Lst16 List view Lvw17 Menu Mnu18 Option button Opt19 Picture box Pic20 Rich text box Rtf21 Shape Shp22 Timer Tmr23 Textbox Txt24 Toolbar Tlb24 Treeview Tre25 Vertical scroll bar Vsb
8.TESTING
• Testing plan is one of the modules of the system analysis and the design, which has
greater importance. After system is ready it should go for testing. Testing is one of the
critical phases. The system Developer has to undergo and which one should not avoid
before final system implementation.
• If testing is conducted successfully, it will never cover errors in the software.
Secondly, testing demonstrates that software functions appear to be working according to
specification and that performance requirements appear to have been met. In addition,
data collected as testing is conducted provides a good indication of software reliability
and some indication of software quality as a whole. But there is one thing that testing
cannot do:
• Testing cannot show the absence of defects, it can only show that software errors
are present. Testing should be planned before testing begins. Test planning can begin as
soon as the coding phase is complete.
• During system testing the system is used experimentally to ensure that software
does not fail special test data are input and result examined and likewise corrections are
done.
VARIOUS TESTING METHODS ARE:
• Unit Testing
• Integration Testing
• System Testing
• Acceptance Testing
• In Unit Testing, we tested individual components like each controls for their
validations to ensure that they operate correctly.
• The next level is called Integration Testing. In this many unit tested modules are
combined into subsystems, which are then tested. The goal here is to see if the
modules can be integrated properly. This testing activity can be considered testing the
design.
• In System Testing, we tested whether system elements have been properly integrated
and perform allocated functions to detect the errors that may result from unanticipated
interactions between sub-system and system components.
• Finally, in Acceptance Testing, we tested whether the system is accepted for
operational use or not.
In this employee management system I have used unit testing & integration Testing
Unit Testing
Integration Testing
Acceptance Testing
System Testing
TEST CASES:
Following test cases were carried out:
Test Description: Testing for Login ModuleAction To Be Performed Expected Result Actual ResultCase 1: To Login Into Application
Double Click on the user.If username is valid then ask for password
Checked and OK
Checks remember my nameCheck box
If it is checked already directly jump to password page.
Checked and OK
Test Description: Testing for Authentication ModuleAction To Be Performed Expected Result Actual ResultCase 1: Operate functions in the Employee Form
Click on the function(e.g Add,Edit,Delete,Search).
If the user have enough rights to perform functionTake further action
If user doesn’t assigned the rights to perform particular function show error message
Checked and OK
Case 2: Change user rights
Click on the user menu
If the user is administrator then allow him to change user rights and information.
If the user is encoder the menu should be disabled
Checked and OK
Selects userDisplay all the information of the selected user.
Checked and OK
Change user informationUpdate rights of the selected user.
Checked and OK
Test Description: Testing for Scale Prediction ModuleAction To Be Performed Expected Result Actual Result
Enter inputs(Start Year,Ending Year,Scale change yrs)
Checks if the ending year is valid.If not then shows error.
Checked and OK
Click Generate Scale
Checks if the selected employee is regular typed.
If not then show error message.
If yes then generate scale records
Checked and OK
Test Description: Testing for Backup Restore ModuleCase 1: Backup DatabaseAction To Be Performed Expected Result Actual Result
Click on Database utility menu
Checks if the the user is allowed to take backup
If not then show error message.
Checked and OK
Selects backup directory Show directory viewer Checked and OK
Click on start backup
Copy database on the choosenDirectory
Save log into database
Show error report is file is not copied correctly
Checked and OK
Case 2: Restore Database
Click on Database utility menu
Checks if the the user is allowed to restore
If not then show error message.
Checked and OK
Selects any previously takenBackup from log
Restore the database to the original path
If there is something wrong
Checked and OK
with restoration show error message
9.IMPLEMENTATION
When a new system needs to be implemented in an organization, there are three different
ways to adopt this new system: The big bang adoption, phased adoption and parallel
adoption.
• Parallel adoption: The old and the new system are running parallel, so all the
users can get used to the new system, and meanwhile do their work using the old
system.
• Phased adoption :The adoption will happen in several phases, so after each phase
the system is a little nearer to be fully adopted.
• Big bang adoption: The switch between using the old system and using the new
system happens at one single date, the so called instant changeover of the system.
Everybody starts to use the new system at the same date and the old system will
not be used anymore from that moment on.
Since our system is completely independent from the existing system and makes no
use of the existing system, the implementation method used is the Big Bang Adoption.
User documentation does not need to be updated during the implementation process,
because it happens in such a short period. There are no special interfaces needed to be
able to get used to the new system, because the new system is all there is.
10.SCOPE OF THE FURTHER ENHANCEMENT
This application can be further enhanced to cover each aspect of the institutes. Employee
management system will be extended towards a complete management package for the
institute. It will really help to manage and organize the employees’ detail very efficiently
and effectively. The application will prove itself as a powerful tool which enhance the
working power of the administration department and can help in improving overall
management of the institute.
The following are some of the important enhancement that can take place into the current
working software application :
1) This includes management of employees salary , leave status and each kind of
financial features which helps the institute as a financial tool.
2) In Our System an Administor easily Modify and Update the any Emplyee’s
information.
3) Easily add new user in database.
ANNEXURE
1. Process: A process done in the system is denoted by this symbol. For example prepare
attendance report, pay slip, etc.
2. External entity: A source or destination of data which is external to the system.
3. A data flow: it is packet or data. It may be in the form of document or letter.
4. Data store: Any store data but with no reference to the physical method of storing.
5. Multiplicity: Use to represent one to many relationship between the entities
*
6. Association: It represents the relationship between the entities
7. State: It represents current state of system that is being designed.
GLOSSARY
This part shows the terms used in my project.
Data Flow Diagram: a means of representing a system at any level of detail with a
graphic network of symbols showing data flows, data stores, data processes, and data
sources/destination.
Data Table: the connection between the output of one object or process and The
Input to another.
Function: it describe in the statement of scope are evaluated and in some Cases
refined to provide more detail prior to the beginning of estimation.
Performance: Performance is measured by processing speed, response time, resource
consumption, throughput and efficiency.
Process: something that transfers the data value. It processes input data and generates
Requirement analysis: requirement analysis categorizes requirement and
organizes them into related subsets.
Requirement specification: it is the final work product produced by the system and
requirements engineer.
System: an organized collection of components that interact with each other.
System Design: the first stage of design, during which high-level decisions
are made about the overall structure of the system.
BIBLIOGRAPHY
• VB Black Book• Mastering VB• Visual Basic in 21 Days • SQL/PLSQL - Ivan Bayross• www.vbtutor.net • www.google.co.in • www.wikipedia.com