Event Management System 1. Introduction Event management System is a management science for planning and executing various events. The event includes any concert, function, occasion, etc. it deals with sub contracting various aspects of the event for e.g. Arrangement of Chairs etc. for commercial events advertisement is another important aspect. It includes all the kinds of media including print, television etc. The Event Management System also deals with Accounts planning for the events for maximum profits. 2. System Analysis 2.1 Problem Definition The Problem of the work can be defined as “Designing an Event Management System for appropriate Event scheduling and handling”. 2.2 Existing System Event management System deals with a lot of consultancy and sub-contracting services. It includes proper maintenance of such data in standard ERP model. Standard software like SAP doesn’t provide us with any Event management standard module. Hence it is not yet been scientifically standardized. Therefore there was a need of implementing such a system using software tools. Department of Computer Science, 1
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Event Management System
1. Introduction
Event management System is a management science for planning and executing various events. The event includes any concert, function, occasion, etc. it deals with sub contracting various aspects of the event for e.g. Arrangement of Chairs etc. for commercial events advertisement is another important aspect. It includes all the kinds of media including print, television etc. The Event Management System also deals with Accounts planning for the events for maximum profits.
2. System Analysis
2.1 Problem Definition
The Problem of the work can be defined as “Designing an Event Management System for appropriate Event scheduling and handling”.
2.2Existing System
Event management System deals with a lot of consultancy and sub-contracting services. It includes proper maintenance of such data in standard ERP model. Standard software like SAP doesn’t provide us with any Event management standard module. Hence it is not yet been scientifically standardized. Therefore there was a need of implementing such a system using software tools.
2.3 Proposed System
The proposed system is a compact Event Management System built to provide Event Management Companies and the consultancies with the facility to manage and plan the Events. It will be provided with a comparative platform of planned accounts and actual accounts. This will further more be working as an Event Management Index. It will store and manage the response of an Event as well as challenges in the event.
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Event Management System
2.4 Feasibility Analysis
It is proposed to establish a proper and secure channel of communication between the company persons via the Internet channel domain. Feasibility of proposed system is evaluated in three dimensions i.e., operational feasibility, economical feasibility and technical feasibility.
Operational feasibility
Since the user presumed to use this system are qualified so it is believed that they have proper knowledge of computers and Internet and hence they will be able to operate it in a fair manner.
Economical feasibility
Since we assume that the network on which our system will operate will be support TCP/IP protocol, hence the software needed are mainly C#. NET webserver1.1 and the Internet Explorer, which can be got very easily
Technical feasibility
As mentioned before the organization is assumed to have well equipped technical persons who are capable of operating the system also have necessary hardware and can download the software from the internet. Hence proposed solution is technical feasible.
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Event Management System
2.5 Use Case Diagram
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Event Management System
3. SYSTEM DESIGN
3.2 Hardware and Software Requirements
Software requirements:
Database: MS SQL Server2000 with Microsoft SQL Desktop Engine (MSDE) installed.
Framework: .NET Framework Version (1.1 only).
Platform: Windows XP/NT Server or Windows2000Server.
Components: Windows Components needs to be updated by Service Packs (XP/NT/S2K
service pack depending upon the system).
Web Server: IIS (present in windows 2000 only) or Web Matrix Server. The project is
tested on Web Matrix Server.
Technology: ASP.Net
Server Side Coding Tool: C#. Net
Library: MSIL
Assembly: System.dll
Browser: Internet Explorer6.0
Hardware Requirements:
1. Pentium or AMD processors with speed minimum 1GHz.
2. Minimum256MB RAM.
3. Accelerated Graphics Card.
4. Minimum 2GB Hard Disk.
5. Better performance with 82KB and above Cache Memory.
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Event Management System
3.3 Block Diagram
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Event Manager
Arrangers
Planning
expenditure
Income
resources
Actual event
Response
planning v/s result comparision
Advertisement
media (print)
electronic media
Event Management System
3.4 Data-Flow Diagram (DFD)
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Event Management System
3.5 Entity Relationship Diagram (ERD)
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Date Name
Event No
Charges
Area
Type
Responsibility
Event No
N
a
m
eEvent No
Deadliness
Date
Statement
Statement
Event no
Others
Ph
#
Address
Role
Ev
Expenditure
Physical Expenditure
Venue
Arrangers Employee
Consultants
Role
AddressName
Phone#
Event no
Media
DateAmount
Details
Advertising
Payment
Date Event occurred
Event No
Crowd
Duration
Charges
Response
Sl No
Event Management System
3.6 Table Designs
Event
Data type Key attributeEvent No Int PRIMARYEvent Name VarcharDate DatetimeEvent Type Varchar
Expenditure
Data type Key attributeEvent no Int FOREIGNDirect charges IntStatement Varchar
Physical expenditure
Data type Key attribute Event no Int FOREIGNDate Date timeCharges IntStatement Varchar
Venue
Data type Key attributeEvent no Int FOREIGNArea VarcharAddress Varchar Others Varchar
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TypeEvent
No
Event Management System
Arrangers
Data type Key attributeEvent no Int FOREIGNName VarcharResponsibility VarcharDeadlines Date time
Employee
Data type Key attributeSL.No IntName VarcharRole VarcharPhone no Varchar
Consultants
Data type Key attributeSL.No IntName VarcharRole VarcharAddress VarcharPhone no Varchar
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Event Management System
Event occurred
Data type Key attributeEvent no Int FOREIGNCrowd VarcharResponse VarcharDuration Varchar
Payment
Data type Key attributeEvent no Int FOREIGNDate Date timeAmount VarcharType Varchar
Advertising
Data type Key attributeEvent no Int FOREIGNDate Date timeMedia VarcharDetails Varchar
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Event Management System
3.7 Form Designs
4. System Implementation
About Programming Language Used
Introduction to .Net
. NET (dot-net) is the name Microsoft gives to its general vision of the future of
computing, the view being of a world in which many applications run in a
distributed manner across the Internet. We can identify a number of different
motivations driving this vision.
Firstly, distributed computing is rather like object oriented programming, in
that it encourages specialized code to be collected in one place, rather than
copied redundantly in lots of places. There are thus potential efficiency gains to
be made in moving to the distributed model.
Secondly, by collecting specialized code in one place and opening up a
generally accessible interface to it, different types of machines (phones,
handheld, desktops, etc) can all be supported with the same code. Hence
Microsoft’s ‘run any where’ aspiration.
Thirdly, by controlling real-time access to some of the distributed nodes
(especially those concerning authentication), companies like Microsoft can
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Event Management Systemcontrol more easily the running of its applications. It moves applications further in
the area of ‘services provided’ rather than ‘object owned’.
Interestingly, in taking on the .NET vision, Microsoft seems to have given
up some of this proprietary tendencies (whereby all the technology it touched
was warped towards its Windows operating system). Because it sees its future
as providing software services in distributed applications, the .NET framework
has been written so that applications on other platforms will be able to access
these services.
At the development end of the .NET vision is the .NET framework. This
contains the common language runtime; the common language runtime (CLR)
manages the execution of code compiled for the .NET platform. The CLR has
two interesting features. Firstly, its specification has been opened up so that it
can be ported to non-windows platforms. Secondly, any number of different
languages can be used to manipulate the .NET framework classes, and the CLR
will support them. This has led one commentator to claim that under. NET the
language one uses is a ‘lifestyle choice’.
Not all of the supported languages fit entirely neatly into the .NET
framework, however (in some cases the fit has been somewhat procrustean). But
the one language that is guaranteed to fit in perfectly is C#. This new language, a
successor to C++, has been released in conjunction with the .NET framework,
and is likely to be the language of choice for many developers working on .NET
applications.
C# is Microsoft’s latest object oriented programming language developed
for .NET platform & .NET is Microsoft’s latest platform technology for creating
web services. C# is a C++ based language & was developed to provide
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Event Management Systemportability for distributed applications over network & Internet. Application
development in .NET platform can be done in multiple languages including C#,
C++ & visual basic. Programmers developed in all these languages are complied
to Microsoft’s intermediate language (IL) & executed within common language
run time (CLR) .We explain the core elements of .NET & how web applications
are developed & run with this technology. NET is not a programming language it
is a virtual machine technology (similar to Java virtual machine technology) with
a framework that provides capability to run a verity of web applications. The .NET
framework class library provides set of classes that provides essential
functionality for applications build within the .NET environment. Web functionality,
XML support, database support, threading & distributed computing support is
provided by the .NET framework class library. All .NET code is translated to
Microsoft intermediate language & run with CLR .CLR is similar to Java virtual
machine (JVM) .The IL code is language independent & similar to Java byte code
.A single .NET application may consist of several different languages .Two very
important features of CLR are language interoperability & language
independence.
Introduction to C#
C# is a modern, object oriented language that enables programmers to quickly
build a wide range of applications for the new Microsoft .NET platform, which
provides tools & services that fully exploit both computing & communication.
Because of its elegant object oriented design .C# is a great choice for
architecting a wide range of components from high level business objects to
system level applications using simple C# language constructs, these component
can be converted into XML web services, allowing them to be invoked across the
internet, from any language running on any operating system. More than any
thing else, C# is designed to bring rapid development to the C++ programmer
without sacrificing the power & control that have been a hallmark of C & C++.
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Event Management SystemBecause of this heritage C# has a high degree of fidelity with C & C++.
Developers familiar with these languages can quickly become productive in C#
3.2.2 C# Features
C# is the new language with the power of C++ & the slickness of visual basic. It
cleans up many of the syntactic peculiarities of C++ without diluting much of its
flavor (thereby enabling C++ developers to transition to it with little difficulty). And
its superiority over VB6 in facilitating powerful OO implementation is without
question. C# with clean OO syntax & large class library (in conjunction with .NET
& the base class libraries) could be the ‘most productive mainstream language’ &
it is an ECMA standard language that offers the potential of being available
across many platform .For the serious developer wanting Microsoft’s most
productive & mainstream .NET language, C# is the choice.
Properties:
Properties will be a familiar concept to Delphi & Visual basic users. The
motivation is for the language to formalize the concept of getter/ setter methods,
which is an extensively used pattern, particularly in RAD (Rapid Application
developments) tools.
This is a typical code you must write in Java or C++:
Outsize (get size () +1);
Label.getfont (). Set bold (true);
The same code you would rite like this in C#:
Outsize;
Label.font.bold=true;
The code is immediately more readable by those who are using foot & label.
There is similar simplicity when implementing properties:
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Event Management SystemJava/C++:
Public int get size (){
Return size;
}
Public void set size (int value){
Size=value;
}
C#:
Public int size {
Get {return size;
}
Set {size = value;
}
}
Particularly for read/write properties, C# provides a cleaner way of handling this
concept .the relationship between a get & set method is inherent in C#, while has
to be maintained in Java or C++. There are many benefits of this approach. It
encourages programmers to think in terms of properties, whether that property is
more natural as read/write Vs read only, or whether it really a shouldn’t be a
property at all. If you wish to change the name of your property, you only have
one place to look (I’ve seen getters & setters several lines away from each
other). Comments only have to be made once, & won’t get out of sync with each
other .it is feasible that an IDE could help out here (& in fact I suggest they do),
but one should remember an essential principle in programming is to try to make
abstractions model our problem well space well. A language, which supports
properties, will reap the benefits of that better abstraction.
Indexers:
C# provides indexers allow objects to be treated like array, except that like
properties, each element is exposed with a get and/ or set method.
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Event Management SystemPublic class Skyscraper
{
Story [] stories;
Public story this [int index] {
Get {
Return stories [index];
}
Set {
if (value !=null ) {
Stories [index]=value;
}
}
}
Skyscraper empire State = new Skyscraper (…);
Empire State [102] = new story (“The top one”…);
Delegates:
A delegate can be thought of as a type- safe object oriented function pointer,
which is able to hold multiple methods rather than just one. Delegates handle
problems, which would be solved with function pointers in C++. And interfaces in
Java. It improves on the function pointer approach by being type safe & being
able to hold multiple methods. It improves on the interface approach by allowing
the invocation of a method without the need for inner-class adapters or extra
code to handle multiple method invocations. The most important use of delegates
is for event handling.
Events:
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Event Management System
C# provides direct support for events Although event handling has been a
fundamental part of programming since programming began, there has been
surprisingly little efforts made by most languages to formalize this concept, If you
look at how today’s mainstream frameworks handle events. We’ve got examples
like Delphi’s function pointers (called closures), Java’s inner class adapters & of
course, the windows API’s message system. C# uses delegates along with the
event keyword to provide a very clean solution to event handling .I thought the
best way to illustrate this was to give an example showing the whole process of
declaring, firing & handling an event.
Pointer arithmetic:
Pointer arithmetic can be performed in C# within methods marked with the
unsafe modifier. When pointer point to garbage collected objects, the complier
enforces the use of fixed word to pin the object. This is because garbage
collectors relay on moving objects around to reclaim memory, but if this happens
when you are dealing with raw pointers you will be pointing to garbage. The
choice of the word “unsafe “ will be chosen since it discourages developers from
using pointers unless they really need to.
Rectangular Arrays:
C# allows both jagged & rectangular arrays to be created. Jagged arrays are
pretty much the same as Java arrays. Rectangular arrays allow a more efficient
and accurate representation for certain problems .An example of such an array
would be:
Int [,] array = new int [3,4,5];
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Event Management SystemInt [1,1,1]=5;
Using jagged arrays;
Int [][][] array=new int [3][4][5];
Int [1][1][1];
In combination with struts, C# can provide a level of efficiency making it a good
choice for areas such as graphics & mathematics.
A sample C# program:
Hello world
File Hello .Cs
Using system;
Class Hello {
Static void Main (){
Console. Write Line (“Hello world “);
}
}
Uses the namespace System
Entry point must be called Main
O/p goes to the console
File name & class name need not be identical
Compilation (in the console window)
Csc Hellow .cs
Execution
Hello
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Event Management System
C# Advantages:
XML documentation generated from source code comments.(This is
coming in VB.NET with Whidbey (the code name for the next version
of Visual Studio & . NET), and there are tools which will do it with
existing VB.NET code already.)
Operator overloading = again, coming to VB.NET in Whidbey.
Language support for unsigned types (you can use them from VB.NET,
but they aren’t in the language itself).
Again support for these is coming to VB.NET in Whidbey.
The using statement, which makes unmanaged resource disposal
simple
Explicit interface in a base class can be re implemented separately in a
derived class. Arguably this makes the class harder to understand in
the same way that member hiding normally does.
Unsafe code this allows pointer arithmetic etc &can improve
performance in some situations. However, it is not to be used lightly,
as a lot of the normal safety of C# is lost (as the name implies). Note
that unsafe code is still managed code, i.e. it is complied to IL, JITted &
run with CLR.
Boxing & unboxing add performance overhead since they involve
dynamic memory allocation & runtime check.
Generics can make C# more efficient, type safe & maintainable.
Iterators help to create smaller & more efficient code.
Using attribute features to express how fields should be sear liased
into XML that means you con easily turn a class into XML & than
easily reconstruct it again.
Eliminates costly programming errors.
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Event Management System
Reduces ongoing development costs with built in support for
versioning.
C# can be programmable only in .NET framework as .NET framework has
not been designed for any other operating system than windows. It is not a
platform independent language.
Even though the programming type resembles to that of C++ many no. of
classes & their objects are required to be remembered.
Huge sets of over loaded functions are available which demand the user
to no each type for the application level.
The use of pointers is restricted in C#.
C# Applications:
Builder design pattern: The builder pattern allows a client object to
construct a complex object by specifying only its type & content. The client
is shielded from the details of the objects construction.
Remoting in C#.
C# component based development.
Reflection in C#: The ability to find out information about objects at run
time is called reflection. In reflection we can find out the objects class,
details of an objects method, & even create one dynamically at run time.
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Software Development Life Cycle
Software Test Life Cycle
REQUIREMENT GATHERING PHASE
TEST PLAN
DESIGN
CODING
TESTING PHASE
TEST CASES
FINAL TEST PLAN
MAINTAINANCE PHASE
Event Management System
Creating web based code components: There are times when you need
to explain the core structure & logic of your program, having an intention
to make it encapsulated & hidden at the same time.
DB access component: C# is said to be a component oriented language to
create a simple database access component.
Run time code generation.
Creating on line documents.
5. Testing
B. V-model:
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It is same as waterfall model but difference is that testing and development are
done simultaneously. It is the modified form of the Waterfall model.
SOFTWARE TESTING
What is testing?
The process of detecting & identifying defects, where a defect is any
variance between actual and expected results.
What is Software testing?
- Process of executing a program with the intent of finding errors.
- Confirming that a system performs its intended functions correctly.
- Establishing confidence that a system does what it is supposed to do.
Why Software testing?
To get adequate trust and confidence on the product. To meet the
organizational goals like meeting requirements satisfied customers, improved
market share, zero defects, etc.
Since the software can perform 100,000 correct operations per second, it
has the same ability to perform 100,000 wrong operations per second, if not
tested properly.
Approach to Software testing:
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Of varying impact (severity), of varying priority, etc. At different stages of
the development cycle. Using different types of testing.
3.1. Different categories of testing:
1. White Box and Black box testing
2. Dynamic and Static testing
3. Manual and Automated Testing
4. Verification and Validation Techniques.
White Box Testing: The software tester has SQL Server 2000 to the
program/code and examines it for errors. Also called clear box testing or
structural testing. E.g.: Unit Testing
Black Box Testing: The software tester only knows what the system is
supposed to do; he does not know how it works internally. He has to test on
the basis of expected outputs. E.g.: System Testing
Static Testing: Code is examined without being executed. E.g.: Code
inspections, Reviews, Walk-through.
Dynamic Testing: Code is executed and tested without, necessarily, being
examined. E.g.: Black Box testing.
Manual Testing: Testing activities performed by people without the help of
software testing tools. E.g.: Review, unit testing.
Automated Testing: Testing activities carried out with the help of software
Verification: Is a set of activities carried out to see whether we are we ‘building
the system right’?
E.g.: Set of white box testing activities
Validation: Is a set activities carried out to check whether we are ‘building the
right system’.
E.g.: Set of black box testing activities.
Testing Through Life Cycle:
1. Requirement Analysis Testing
2. Design testing
3. Unit testing
4. Integration testing
5. System testing.
A. Requirement Analysis Testing:
Objective: The objective of requirement analysis testing is to ensure software
quality by eradicating errors as earlier as possible in the development process,
as the errors noticed at the end of the software life cycle are more costly
compared to that of early ones, and there by validating each of the outputs.
Three basic issues can achieve the objective:
Correctness
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Event Management System Completeness
Consistency
B. Design Testing
Objective: The objective of the design phase testing is to generate complete
specifications for implementing a system using a set of tools and languages.
Design objective is fulfilled by five issues:
a) Consistency
b) Completeness
c) Correctness
d) Feasibility
e) Trace ability
C. Unit Testing
Objective: The main objective of unit testing is to ensure that the individual units
of a system work correctly in isolation, before they are eventually integrated.
The following issues can achieve the objective:
a) Correctness
b) Completeness
c) Early testing
d) Debugging
D. Integration testing
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Event Management SystemObjective: Minimizing the errors, which include internal and external interface
errors.
E. Software Testing
Objective: Software once validated for meeting functional requirements must be
verified for proper interface with other system elements like hardware, databases
and people.
System testing verifies that all these system elements mesh properly and
the software achieves overall function/performance.
We carry out functionality testing, performance testing and other black box
testing to requirement as part of system testing.
Different Types of Testing:
- Reviews and walk-through
- Unit Testing
- Integration testing
- Functional testing
- System testing
- Acceptance testing
- Regression testing
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Event Management System- Usability testing
- Performance testing
- Security testing
Reviews: A group of persons (author need not be one among them) look for
errors, mistaken assumptions, lack of clarity and deviation from standard
practice. E.g.: Review of specifications, Project plans etc.
Walk-through: Similar to review and will be informal usually conducted by
the members of the group which will include the author. For E.g.: Improving
programming logic, Design approach etc.
Unit testing: Testing a single program, module, or unit of code. Validates that
the system performs as designed. Also called module testing or elements
testing.
Integration testing: Testing of related programs, modules, or units of code.
Validates that multiple parts of the system interact according to the system
design.
Functional testing: Functions are tested by feeding the input and examining
the output to the expected outputs. Functional tests are a type of black box
testing.
System Testing: Testing of entire system can include functional and non-
functional testing such as stress testing, validates the system as a whole.
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Event Management System Acceptance Testing: Testing the system behavior against customer’s
requirements. Customers undertake typical tasks to check their requirements,
done at the customer’s premises on the user environment.
Regression testing: Selective retesting to detect faults introduced during
modification of a system or system component to verify that modifications
have not caused unintended adverse effects. To verify that a modified system
or system component still meets its specific requirements.”
Usability Testing: Evaluates the ease of using and learning the system and
system user documents by the end users. Evaluates the effectiveness of
system functioning in supporting user tasks and ability to recover from user’s
errors.
Performance Testing: Specifically aimed at verifying that the system meets
the specified performance requirements like response time, transactional
throughput-depends on the target values specified in the contract. E.g.: 100
typical searches/min, 50 quotes/hour, 5 MB of files downloaded/sec etc,
number of concurrent users.
Security Testing: Verify how easily a system is subject to security violations
under different conditions and environments.
Some types of testing:
- Configuration Testing
- Installation Testing
- Load Testing
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Event Management System Software Testing Process/Steps:
1. Collect the documents from the project or from the leaders.
2. Writing the scripts.
3. Running the test.
4. Bug tracking mechanism.
5. Test reports.
a. Collect the documents from project leader:
Documents about the company include,
Design requirements
1. Its specification
2. Functional requirements
3. Functional specification
b. Write The Scripts:
The definition of scripts is to create the environment to run or
execute the test cases.
c. Running the Test:
After these two processes step is to run the type of application tested
d. Bug tracking mechanism:
Bug tracking mechanism is one in which the bug /errors are traced.
e. Test Reports:
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Event Management System
The test reports are the documents, which are used for reporting the bugs
or errors to the developer.
MANUAL TESTING
Manual testing is a testing activity performed by a test engineer without
the help of software testing tools.
E.g.: reviews, unit testing.
Writing the test cases does manual testing. Here, test case is defined as
writing the sequence of messages. Manual tester writes the test cases. After a
test case has been written for particular application then these test cases are
executed. It consists of actual result, expected result and the respected status of
the application. If that application is bug free then status is said to be passed.
Else if any application then it should be understood that it should be tested again.
Manual is done by the black box testing.
Testing
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Event Management System
All the projects are subjected to vigorous testing before they are actually
approved or accepted. The test cases that were considered for the project
were
i) User leaving a blank field: In all the forms validation rules are used
to ensure that no \form is submitted without filling all the respective
fields. Whenever the user leaves a field blank the form doesn’t get
submitted.
ii) User trying inserting ambigues values in the foreign keys: the
system is meant to help the users to link the primary and the
secondary data. Hence if the user inserts wrong key value he will
not be permitted to submit the form.
iii) No date field in any of the forms is in user’s control: Because an
user can manipulate with the date and thus it may cause a huge
manipulation on overall accounts, all the transactions are made
with respect to the current date.
iv) All the pages are secured: all the pages were needed to provide
security. Hence all the pages are protected by sessions, which is
generated at the time of log in. Hence a user cannot access it
without log in.
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Event Management System
6. Future Enhancement
Future Scope of the Project:
The event management system is a means of appropriately handling and managing the events and all the related and the associated data. The system can be made online in future to maintain all the global events. No cost estimation is included in the current module. In future cost estimation module can be integrated along with the fuzzy based technique through which the costs of an new event can be judged from the existing events from the database.
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Event Management System
7. Conclusion
The event management system used over here is implemented in .Net platform, which is a next generation solution for all the Microsoft related products. Therefore the solution is futuristic. It is been tested manually for all the possible test cases. Hence the system is a reliable and stable system. The reports are easier to use and import and the solution can easily be integrated with the Internet. The project is an attempt to provide a prototype for what an event management system can be! Therefore more commercial aspects are needed to be validated for the system to be a commercially viable one.
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Event Management System
9. Bibliography
C# and .Net platform
By Andrew Troelsen.
Inside C#
By Tom Archer.
Fundamentals of database Systems
By Ramez Elmasri ans S. B. Navathe
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Event Management System
Source Code
using System;using System.Drawing;using System.Collections;using System.ComponentModel;using System.Windows.Forms;
namespace Event_Management_System{
/// <summary>/// Summary description for PhysicalExpenditure./// </summary>public class PhysicalExpenditure : System.Windows.Forms.Form{
//// Required for Windows Form Designer support//InitializeComponent();
//// TODO: Add any constructor code after InitializeComponent call//
}
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Event Management System
/// <summary>/// Clean up any resources being used./// </summary>protected override void Dispose( bool disposing ){
if( disposing ){
if(components != null){
components.Dispose();}
}base.Dispose( disposing );
}
#region Windows Form Designer generated code/// <summary>/// Required method for Designer support - do not modify/// the contents of this method with the code editor./// </summary>private void InitializeComponent(){
this.label1 = new System.Windows.Forms.Label();this.label2 = new System.Windows.Forms.Label();this.label3 = new System.Windows.Forms.Label();this.label4 = new System.Windows.Forms.Label();this.txtstatement = new System.Windows.Forms.TextBox();this.txteventno = new System.Windows.Forms.TextBox();this.txtcharges = new System.Windows.Forms.TextBox();this.btnsubmit = new System.Windows.Forms.Button();this.btnviewall = new System.Windows.Forms.Button();this.btnview = new System.Windows.Forms.Button();this.btnupdate = new System.Windows.Forms.Button();this.btndelete = new System.Windows.Forms.Button();this.groupBox1 = new System.Windows.Forms.GroupBox();this.dtdatetime = new System.Windows.Forms.DateTimePicker();this.dataGrid1 = new System.Windows.Forms.DataGrid();this.groupBox1.SuspendLayout();((System.ComponentModel.ISupportInitialize)
this.groupBox1.Controls.Add(this.btnsubmit);this.groupBox1.Controls.Add(this.label1);this.groupBox1.Controls.Add(this.label2);this.groupBox1.Controls.Add(this.label3);this.groupBox1.Controls.Add(this.txtcharges);this.groupBox1.Controls.Add(this.txteventno);this.groupBox1.Controls.Add(this.txtstatement);this.groupBox1.Controls.Add(this.label4);this.groupBox1.Font = new System.Drawing.Font("Microsoft Sans