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DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications
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DOTNET 2013 IEEE MOBILECOMPUTING PROJECT Model based analysis of wireless system architectures for real-time applications

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To Get any Project for CSE, IT ECE, EEE Contact Me @ 09849539085, 09966235788 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org

To Get any Project for CSE, IT ECE, EEE Contact Me @ 09849539085, 09966235788 or mail us - ieeefinalsemprojects@gmail.com-Visit Our Website: www.finalyearprojects.org

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  • 1. MODEL-BASED ANALYSIS OF WIRELESS SYSTEM ARCHITECTURES FOR REAL-TIME APPLICATIONS ABSTRACT: We propose a model-based description and analysis framework for the design of wireless system architectures. Its aim is to address the shortcomings of existing approaches to system verification and the tracking of anomalies in safety-critical wireless systems. We use Architecture Analysis and Description Language (AADL) to describe an analysis-oriented architecture model with highly modular components. We develop the cooperative tool chains required to analyze the performance of a wireless system by simulation. We show how this framework can support a detailed and largely automated analysis of a complicated, networked wireless system using examples from wireless healthcare and video broadcasting. We proposed a model-based description and analysis framework for the design of wireless system architectures. Using AADL, the de facto standard formal architecture description language, we have demonstrated how a high level of modularity can be achieved in simulated wireless network systems. We showed that our framework can support detailed and largely automated analysis of complicated networked wireless systems. GLOBALSOFT TECHNOLOGIES IEEE PROJECTS & SOFTWARE DEVELOPMENTS IEEE FINAL YEAR PROJECTS|IEEE ENGINEERING PROJECTS|IEEE STUDENTS PROJECTS|IEEE BULK PROJECTS|BE/BTECH/ME/MTECH/MS/MCA PROJECTS|CSE/IT/ECE/EEE PROJECTS CELL: +91 98495 39085, +91 99662 35788, +91 98495 57908, +91 97014 40401 Visit: www.finalyearprojects.org Mail to:ieeefinalsemprojects@gmail.com
  • 2. EXISTING SYSTEM: In our previous working in a simulation and analysis framework for 3G broadcasting systems to address these challenges this flexible framework facilitates not only the analysis of individual network and system modules but also the end-to-end analysis of an entire system for providing multimedia broadcasting services. PROBLEM DESCRIPTION: However, the following two problems remain: 1) The description of system models and the behavior of the entire system have not been formally specified 2) The correctness of the input parameters of each module in the system and their compatibility across layers cannot yet be verified both rigorously and automatically. This leaves the system development process vulnerable to human errors in specification, simulation, and verification. PROPOSED SYSTEM: We propose a model-based description and analysis framework for the design of wireless system architectures. Its aim is to address the shortcomings of existing approaches to system verification and the tracking of anomalies in safety-critical wireless systems. We use Architecture Analysis and Description Language (AADL) to describe an analysis-oriented architecture model with highly modular components. We develop the cooperative tool chains required to analyze the performance of a wireless system by simulation. We show how this framework can support a detailed and largely automated analysis of a complicated, networked wireless system using examples from wireless healthcare and video broadcasting. AADL provides well-defined models of the hardware and software components used in embedded systems. These models have common standard semantics that are well understood among the research community, thereby facilitating the correct interpretation of the models. Our current analysis does not make use of all the predefined modeling components (processor, memory, and device) that AADL provides; we expect that the extensibility of AADL models will enable us to expand the coverage of our analysis to include specific hardware and software implementations in the future.
  • 3. HARDWARE & SOFTWARE REQUIREMENTS: HARDWARE REQUIREMENT:  Processor - Pentium –IV  Speed - 1.1 GHz  RAM - 256 MB (min)  Hard Disk - 20 GB  Floppy Drive - 1.44 MB  Key Board - Standard Windows Keyboard  Mouse - Two or Three Button Mouse  Monitor - SVGA SOFTWARE REQUIREMENTS:  Operating System : Windows XP  Application Server : ASP .NET Web Server  Front End : ASP .NET & C# .NET  Scripts : C# Script.  Database : SQL SERVER 2005
  • 4. MODULES: SERVER CLIENT MODULE: MODEL BASED ANALYSIS: ANALYSIS OF AADL: VIDEO APPLICATION MODEL: PERFORMANCE ANALYSIS: ARCHITECTURE DIAGRAM:
  • 5. AADL MODEL DIAGRAM:
  • 6. SYSTEM DESIGN: Data Flow Diagram / Use Case Diagram / Flow Diagram The DFD is also called as bubble chart. It is a simple graphical formalism that can be used to represent a system in terms of the input data to the system, various processing carried out on these data, and the output data is generated by the system. DATAFLOW DIAGRAM:
  • 7. SENDER - II RECEIVER (SINK) IP Address Browse a Video File ROUTER FIle Transfer IP Address Connecting.. Flle Receive Socket Connection Browse a received path End Connecting.. check no yes Start File Receiving yes no service time and delay calculated Detect Congestion File Received File Not Received check port #? yes FIle Transfer Failure no packet failure? packet reconfiguration (retansmission) SENDER - I IP Address Browse a Video File FIle Transfer Connecting.. check port #? yes no FIle Transfer Failure
  • 8. CLASS DIAGRAM:
  • 9. ACTIVITY DIAGRAM: RECEIVER Select a Receiving Path Connecting.. Browse VIDEO FILE RECEIVE IP Address Browse a Video File NO Yes Connecting.. socket coneection TRANSACTION FAILED ROUTER IP Address Client socket connection check NO File Not Received Start File Receiving Yes packet failure? Yes Connecting.. Congestion Detection packet reconfiguration Service Time and Delay calculated SENDER I NO FILE Receive FILE TRANSFER IP Address Browse a Video File NO Yes socket coneection TRANSACTION FAILED Connecting.. FILE TRANSFER SENDER II
  • 10. SEQUENCE DIAGRAM: SENDER RECEIVER ROUTER Socket Connection Socket Connection Start File Transfer Routing Bytes Received File Transferred Success Acknowledgement File Received Bytes Transferred Routing Finish packet loss packet retransmit Bytes Received by packets
  • 11. USE CASE DIAGRAM: SENDER RECEIVER IP Address Receiving Path socket connection Browse a File ROUTER Receive a File Packet Failure Packet Resending Delay and Service Time
  • 12. SYSTEM STUDY: FEASIBILITY STUDY The feasibility of the project is analyzed in this phase and business proposal is put forth with a very general plan for the project and some cost estimates. During system analysis the feasibility study of the proposed system is to be carried out. This is to ensure that the proposed system is not a burden to the company. For feasibility analysis, some understanding of the major requirements for the system is essential. Three key considerations involved in the feasibility analysis are ECONOMICAL FEASIBILITY TECHNICAL FEASIBILITY SOCIAL FEASIBILITY ECONOMICAL FEASIBILITY This study is carried out to check the economic impact that the system will have on the organization. The amount of fund that the company can pour into the research and development of the system is limited. The expenditures must be justified. Thus the developed system as well within the budget and this was achieved because most of the technologies used are freely available. Only the customized products had to be purchased. TECHNICAL FEASIBILITY This study is carried out to check the technical feasibility, that is, the technical requirements of the system. Any system developed must not have a high demand on the available technical resources. This will lead to high demands on the available technical resources. This will lead to high demands being placed on the client. The
  • 13. developed system must have a modest requirement, as only minimal or null changes are required for implementing this system. SOCIAL FEASIBILITY The aspect of study is to check the level of acceptance of the system by the user. This includes the process of training the user to use the system efficiently. The user must not feel threatened by the system, instead must accept it as a necessity. The level of acceptance by the users solely depends on the methods that are employed to educate the user about the system and to make him familiar with it. His level of confidence must be raised so that he is also able to make some constructive criticism, which is welcomed, as he is the final user of the system.
  • 14. SYSTEM TESTING The purpose of testing is to discover errors. Testing is the process of trying to discover every conceivable fault or weakness in a work product. It provides a way to check the functionality of components, sub assemblies, assemblies and/or a finished product It is the process of exercising software with the intent of ensuring that the Software system meets its requirements and user expectations and does not fail in an unacceptable manner. There are various types of test. Each test type addresses a specific testing requirement. TYPES OF TESTS Unit testing Unit testing involves the design of test cases that validate that the internal program logic is functioning properly, and that program inputs produce valid outputs. All decision branches and internal code flow should be validated. It is the testing of individual software units of the application .it is done after the completion of an individual unit before integration. This is a structural testing, that relies on knowledge of its construction and is invasive. Unit tests perform basic tests at component level and test a specific business process, application, and/or system configuration. Unit tests ensure that each unique path of a business process performs accurately to the documented specifications and contains clearly defined inputs and expected results. Integration testing Integration tests are designed to test integrated software components to determine if they actually run as one program. Testing is event driven and is more concerned with the basic outcome of screens or fields. Integration tests demonstrate that although the components were individually satisfaction, as shown by successfully unit testing, the combination of components is correct and consistent. Integration testing is specifically aimed at exposing the problems that arise from the combination of components.
  • 15. Functional test Functional tests provide systematic demonstrations that functions tested are available as specified by the business and technical requirements, system documentation, and user manuals. Functional testing is centered on the following items: Valid Input : identified classes of valid input must be accepted. Invalid Input : identified classes of invalid input must be rejected. Functions : identified functions must be exercised. Output : identified classes of application outputs must be exercised. Systems/Procedures: interfacing systems or procedures must be invoked. Organization and preparation of functional tests is focused on requirements, key functions, or special test cases. In addition, systematic coverage pertaining to identify Business process flows; data fields, predefined processes, and successive processes must be considered for testing. Before functional testing is complete, additional tests are identified and the effective value of current tests is determined. System Test System testing ensures that the entire integrated software system meets requirements. It tests a configuration to ensure known and predictable results. An example of system testing is the configuration oriented system integration test. System testing is based on process descriptions and flows, emphasizing pre-driven process links and integration points.
  • 16. White Box Testing White Box Testing is a testing in which in which the software tester has knowledge of the inner workings, structure and language of the software, or at least its purpose. It is purpose. It is used to test areas that cannot be reached from a black box level. Black Box Testing Black Box Testing is testing the software without any knowledge of the inner workings, structure or language of the module being tested. Black box tests, as most other kinds of tests, must be written from a definitive source document, such as specification or requirements document, such as specification or requirements document. It is a testing in which the software under test is treated, as a black box .you cannot “see” into it. The test provides inputs and responds to outputs without considering how the software works. Unit Testing: Unit testing is usually conducted as part of a combined code and unit test phase of the software lifecycle, although it is not uncommon for coding and unit testing to be conducted as two distinct phases. Test strategy and approach Field testing will be performed manually and functional tests will be written in detail. Test objectives All field entries must work properly. Pages must be activated from the identified link. The entry screen, messages and responses must not be delayed. Features to be tested Verify that the entries are of the correct format
  • 17. No duplicate entries should be allowed All links should take the user to the correct page. 6.2 Integration Testing Software integration testing is the incremental integration testing of two or more integrated software components on a single platform to produce failures caused by interface defects. The task of the integration test is to check that components or software applications, e.g. components in a software system or – one step up – software applications at the company level – interact without error. Test Results: All the test cases mentioned above passed successfully. No defects encountered.
  • 18. 6.3 Acceptance Testing User Acceptance Testing is a critical phase of any project and requires significant participation by the end user. It also ensures that the system meets the functional requirements. Test Results: All the test cases mentioned above passed successfully. No defects encountered. Software Environment Features Of .Net Microsoft .NET is a set of Microsoft software technologies for rapidly building and integrating XML Web services, Microsoft Windows-based applications, and Web solutions. The .NET Framework is a language-neutral platform for writing programs that can easily and securely interoperate. There’s no language barrier with .NET: there are numerous languages available to the developer including Managed C++, C#, Visual Basic and Java Script. The .NET framework provides the foundation for components to interact seamlessly, whether locally or remotely on different platforms. It standardizes common data types and communications protocols so that components created in different languages can easily interoperate. “.NET” is also the collective name given to various software components built upon the .NET platform. These will be both products (Visual Studio.NET and Windows.NET Server, for instance) and services (like Passport, .NET My Services, and so on). THE .NET FRAMEWORK
  • 19. The .NET Framework has two main parts: 1. The Common Language Runtime (CLR). 2. A hierarchical set of class libraries. The CLR is described as the “execution engine” of .NET. It provides the environment within which programs run. The most important features are Conversion from a low-level assembler-style language, called Intermediate Language (IL), into code native to the platform being executed on. Memory management, notably including garbage collection. Checking and enforcing security restrictions on the running code. Loading and executing programs, with version control and other such features. The following features of the .NET framework are also worth description: Managed Code The code that targets .NET, and which contains certain extra Information - “metadata” - to describe itself. Whilst both managed and unmanaged code can run in the runtime, only managed code contains the information that allows the CLR to guarantee, for instance, safe execution and interoperability. Managed Data With Managed Code comes Managed Data. CLR provides memory allocation and Deal location facilities, and garbage collection. Some .NET languages use Managed Data by default, such as C#, Visual Basic.NET and JScript.NET, whereas others, namely C++, do not. Targeting CLR can, depending on the language you’re using, impose certain constraints on the features available. As with managed and unmanaged
  • 20. code, one can have both managed and unmanaged data in .NET applications - data that doesn’t get garbage collected but instead is looked after by unmanaged code. Common Type System The CLR uses something called the Common Type System (CTS) to strictly enforce type-safety. This ensures that all classes are compatible with each other, by describing types in a common way. CTS define how types work within the runtime, which enables types in one language to interoperate with types in another language, including cross-language exception handling. As well as ensuring that types are only used in appropriate ways, the runtime also ensures that code doesn’t attempt to access memory that hasn’t been allocated to it. Common Language Specification The CLR provides built-in support for language interoperability. To ensure that you can develop managed code that can be fully used by developers using any programming language, a set of language features and rules for using them called the Common Language Specification (CLS) has been defined. Components that follow these rules and expose only CLS features are considered CLS-compliant. THE CLASS LIBRARY .NET provides a single-rooted hierarchy of classes, containing over 7000 types. The root of the namespace is called System; this contains basic types like Byte, Double, Boolean, and String, as well as Object. All objects derive from System. Object. As well as objects, there are value types. Value types can be allocated on the stack, which can provide useful flexibility. There are also efficient means of converting value types to object types if and when necessary. The set of classes is pretty comprehensive, providing collections, file, screen, and network I/O, threading, and so on, as well as XML and database connectivity. The class library is subdivided into a number of sets (or namespaces), each providing distinct areas of functionality, with dependencies between the namespaces kept to a minimum.
  • 21. LANGUAGES SUPPORTED BY .NET The multi-language capability of the .NET Framework and Visual Studio .NET enables developers to use their existing programming skills to build all types of applications and XML Web services. The .NET framework supports new versions of Microsoft’s old favorites Visual Basic and C++ (as VB.NET and Managed C++), but there are also a number of new additions to the family. Visual Basic .NET has been updated to include many new and improved language features that make it a powerful object-oriented programming language. These features include inheritance, interfaces, and overloading, among others. Visual Basic also now supports structured exception handling, custom attributes and also supports multi-threading. Visual Basic .NET is also CLS compliant, which means that any CLS-compliant language can use the classes, objects, and components you create in Visual Basic .NET. Managed Extensions for C++ and attributed programming are just some of the enhancements made to the C++ language. Managed Extensions simplify the task of migrating existing C++ applications to the new .NET Framework. C# is Microsoft’s new language. It’s a C-style language that is essentially “C++ for Rapid Application Development”. Unlike other languages, its specification is just the grammar of the language. It has no standard library of its own, and instead has been designed with the intention of using the .NET libraries as its own. Microsoft Visual J# .NET provides the easiest transition for Java-language developers into the world of XML Web Services and dramatically improves the interoperability of Java-language programs with existing software written in a variety of other programming languages.
  • 22. Active State has created Visual Perl and Visual Python, which enable .NET-aware applications to be built in either Perl or Python. Both products can be integrated into the Visual Studio .NET environment. Visual Perl includes support for Active State’s Perl Dev Kit. Other languages for which .NET compilers are available include FORTRAN COBOL Eiffel Fig1 .Net Framework ASP.NET XML WEB SERVICES Windows Forms Base Class Libraries Common Language Runtime Operating System C#.NET is also compliant with CLS (Common Language Specification) and supports structured exception handling. CLS is set of rules and constructs that are supported by the CLR (Common Language Runtime). CLR is the runtime environment provided by the .NET Framework; it manages the execution of the code and also makes the development process easier by providing services. C#.NET is a CLS-compliant language. Any objects, classes, or components that created in C#.NET can be used in any other CLS-compliant language. In addition, we can use objects, classes, and components
  • 23. created in other CLS-compliant languages in C#.NET .The use of CLS ensures complete interoperability among applications, regardless of the languages used to create the application. CONSTRUCTORS AND DESTRUCTORS: Constructors are used to initialize objects, whereas destructors are used to destroy them. In other words, destructors are used to release the resources allocated to the object. In C#.NET the sub finalize procedure is available. The sub finalize procedure is used to complete the tasks that must be performed when an object is destroyed. The sub finalize procedure is called automatically when an object is destroyed. In addition, the sub finalize procedure can be called only from the class it belongs to or from derived classes. GARBAGE COLLECTION Garbage Collection is another new feature in C#.NET. The .NET Framework monitors allocated resources, such as objects and variables. In addition, the .NET Framework automatically releases memory for reuse by destroying objects that are no longer in use. In C#.NET, the garbage collector checks for the objects that are not currently in use by applications. When the garbage collector comes across an object that is marked for garbage collection, it releases the memory occupied by the object. OVERLOADING Overloading is another feature in C#. Overloading enables us to define multiple procedures with the same name, where each procedure has a different set of arguments. Besides using overloading for procedures, we can use it for constructors and properties in a class. MULTITHREADING: C#.NET also supports multithreading. An application that supports multithreading can handle multiple tasks simultaneously, we can use multithreading to decrease the time taken by an application to respond to user interaction. STRUCTURED EXCEPTION HANDLING
  • 24. C#.NET supports structured handling, which enables us to detect and remove errors at runtime. In C#.NET, we need to use Try…Catch…Finally statements to create exception handlers. Using Try…Catch…Finally statements, we can create robust and effective exception handlers to improve the performance of our application. THE .NET FRAMEWORK The .NET Framework is a new computing platform that simplifies application development in the highly distributed environment of the Internet. OBJECTIVES OF. NET FRAMEWORK 1. To provide a consistent object-oriented programming environment whether object codes is stored and executed locally on Internet-distributed, or executed remotely. 2. To provide a code-execution environment to minimizes software deployment and guarantees safe execution of code. 3. Eliminates the performance problems. There are different types of application, such as Windows-based applications and Web-based applications. 4.3 Features of SQL-SERVER The OLAP Services feature available in SQL Server version 7.0 is now called SQL Server 2000 Analysis Services. The term OLAP Services has been replaced with the term Analysis Services. Analysis Services also includes a new data mining component. The Repository component available in SQL Server version 7.0 is now called Microsoft SQL Server 2000 Meta Data Services. References to the component now use the term Meta Data Services. The term repository is used only in reference to the repository engine within Meta Data Services SQL-SERVER database consist of six type of objects, They are, 1. TABLE
  • 25. 2. QUERY 3. FORM 4. REPORT 5. MACRO TABLE: A database is a collection of data about a specific topic. VIEWS OF TABLE: We can work with a table in two types, 1. Design View 2. Datasheet View Design View To build or modify the structure of a table we work in the table design view. We can specify what kind of data will be hold. Datasheet View To add, edit or analyses the data itself we work in tables datasheet view mode.
  • 26. QUERY: A query is a question that has to be asked the data. Access gathers data that answers the question from one or more table. The data that make up the answer is either dynaset (if you edit it) or a snapshot (it cannot be edited).Each time we run query, we get latest information in the dynaset. Access either displays the dynaset or snapshot for us to view or perform an action on it, such as deleting or updating.
  • 27. SAMPLE CODE: namespace ServerSource1 { partial class Form1 { /// <summary> /// Required designer variable. /// </summary> private System.ComponentModel.IContainer components = null; /// <summary> /// Clean up any resources being used. /// </summary> /// <param name="disposing">true if managed resources should be disposed; otherwise, false.</param> protected override void Dispose(bool disposing) { if (disposing && (components != null)) { components.Dispose(); } base.Dispose(disposing); } #region Windows Form Designer generated code
  • 28. /// <summary> /// Required method for Designer support - do not modify /// the contents of this method with the code editor. /// </summary> private void InitializeComponent() { this.openFileDialog1 = new System.Windows.Forms.OpenFileDialog(); this.openFileDialog2 = new System.Windows.Forms.OpenFileDialog(); this.panel2 = new System.Windows.Forms.Panel(); this.groupBox3 = new System.Windows.Forms.GroupBox(); this.groupBox2 = new System.Windows.Forms.GroupBox(); this.label3 = new System.Windows.Forms.Label(); this.txtIp = new System.Windows.Forms.TextBox(); this.groupBox1 = new System.Windows.Forms.GroupBox(); this.pictureBox3 = new System.Windows.Forms.PictureBox(); this.pictureBox4 = new System.Windows.Forms.PictureBox(); this.pictureBox5 = new System.Windows.Forms.PictureBox(); this.button2 = new System.Windows.Forms.Button(); this.label2 = new System.Windows.Forms.Label(); this.textBox2 = new System.Windows.Forms.TextBox(); this.label4 = new System.Windows.Forms.Label(); this.label1 = new System.Windows.Forms.Label(); this.pictureBox6 = new System.Windows.Forms.PictureBox(); this.lblError = new System.Windows.Forms.Label(); this.panel2.SuspendLayout();
  • 29. this.groupBox3.SuspendLayout(); this.groupBox2.SuspendLayout(); this.groupBox1.SuspendLayout(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox3)).BeginInit(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox4)).BeginInit(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox5)).BeginInit(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox6)).BeginInit(); this.SuspendLayout(); // // openFileDialog1 // this.openFileDialog1.FileName = "openFileDialog1"; // // openFileDialog2 // this.openFileDialog2.FileName = "openFileDialog2"; // // panel2 // this.panel2.BackColor = System.Drawing.Color.LightSalmon; this.panel2.BackgroundImageLayout = System.Windows.Forms.ImageLayout.Stretch; this.panel2.Controls.Add(this.groupBox3); this.panel2.Controls.Add(this.label4); this.panel2.Controls.Add(this.label1); this.panel2.Controls.Add(this.pictureBox6); this.panel2.Controls.Add(this.lblError);
  • 30. this.panel2.Location = new System.Drawing.Point(3, 1); this.panel2.Name = "panel2"; this.panel2.Size = new System.Drawing.Size(925, 668); this.panel2.TabIndex = 5; // // groupBox3 // this.groupBox3.Controls.Add(this.groupBox2); this.groupBox3.Controls.Add(this.groupBox1); this.groupBox3.Location = new System.Drawing.Point(24, 122); this.groupBox3.Name = "groupBox3"; this.groupBox3.Size = new System.Drawing.Size(514, 464); this.groupBox3.TabIndex = 8; this.groupBox3.TabStop = false; // // groupBox2 // this.groupBox2.BackColor = System.Drawing.Color.Transparent; this.groupBox2.Controls.Add(this.label3); this.groupBox2.Controls.Add(this.txtIp); this.groupBox2.Font = new System.Drawing.Font("Lucida Bright", 11.25F, System.Drawing.FontStyle.Bold, System.Drawing.GraphicsUnit.Point, ((byte)(0))); this.groupBox2.ForeColor = System.Drawing.Color.Cornsilk; this.groupBox2.Location = new System.Drawing.Point(42, 37); this.groupBox2.Name = "groupBox2"; this.groupBox2.Size = new System.Drawing.Size(428, 65);
  • 31. this.groupBox2.TabIndex = 20; this.groupBox2.TabStop = false; this.groupBox2.Text = "IPADDRESS"; // // label3 // this.label3.AutoSize = true; this.label3.Font = new System.Drawing.Font("Comic Sans MS", 12F, System.Drawing.FontStyle.Bold, System.Drawing.GraphicsUnit.Point, ((byte)(0))); this.label3.ForeColor = System.Drawing.Color.Black; this.label3.Location = new System.Drawing.Point(15, 25); this.label3.Name = "label3"; this.label3.Size = new System.Drawing.Size(155, 23); this.label3.TabIndex = 7; this.label3.Text = "Enter IpAddress :"; // // txtIp // this.txtIp.BackColor = System.Drawing.Color.Snow; this.txtIp.Font = new System.Drawing.Font("Rockwell", 13F, System.Drawing.FontStyle.Bold); this.txtIp.Location = new System.Drawing.Point(194, 24); this.txtIp.Name = "txtIp"; this.txtIp.Size = new System.Drawing.Size(185, 28); this.txtIp.TabIndex = 4; this.txtIp.TextAlign = System.Windows.Forms.HorizontalAlignment.Center; //
  • 32. // groupBox1 // this.groupBox1.BackColor = System.Drawing.Color.Transparent; this.groupBox1.Controls.Add(this.pictureBox3); this.groupBox1.Controls.Add(this.pictureBox4); this.groupBox1.Controls.Add(this.pictureBox5); this.groupBox1.Controls.Add(this.button2); this.groupBox1.Controls.Add(this.label2); this.groupBox1.Controls.Add(this.textBox2); this.groupBox1.Font = new System.Drawing.Font("Calibri", 14F, System.Drawing.FontStyle.Italic); this.groupBox1.ForeColor = System.Drawing.Color.Cornsilk; this.groupBox1.Location = new System.Drawing.Point(16, 166); this.groupBox1.Name = "groupBox1"; this.groupBox1.Size = new System.Drawing.Size(467, 252); this.groupBox1.TabIndex = 29; this.groupBox1.TabStop = false; this.groupBox1.Text = "file browsing - 1"; // // pictureBox3 // this.pictureBox3.Cursor = System.Windows.Forms.Cursors.Hand; this.pictureBox3.Image = global::ServerSource1.Properties.Resources.sender1; this.pictureBox3.Location = new System.Drawing.Point(510, 184); this.pictureBox3.Name = "pictureBox3"; this.pictureBox3.Size = new System.Drawing.Size(102, 141); this.pictureBox3.SizeMode = System.Windows.Forms.PictureBoxSizeMode.AutoSize;
  • 33. this.pictureBox3.TabIndex = 24; this.pictureBox3.TabStop = false; // // pictureBox4 // this.pictureBox4.Image = global::ServerSource1.Properties.Resources.Folder_02_june; this.pictureBox4.Location = new System.Drawing.Point(331, 120); this.pictureBox4.Name = "pictureBox4"; this.pictureBox4.Size = new System.Drawing.Size(74, 58); this.pictureBox4.SizeMode = System.Windows.Forms.PictureBoxSizeMode.StretchImage; this.pictureBox4.TabIndex = 22; this.pictureBox4.TabStop = false; this.pictureBox4.Visible = false; // // pictureBox5 // this.pictureBox5.Cursor = System.Windows.Forms.Cursors.Hand; this.pictureBox5.Image = global::ServerSource1.Properties.Resources._11; this.pictureBox5.Location = new System.Drawing.Point(112, 120); this.pictureBox5.Name = "pictureBox5"; this.pictureBox5.Size = new System.Drawing.Size(197, 58); this.pictureBox5.SizeMode = System.Windows.Forms.PictureBoxSizeMode.StretchImage; this.pictureBox5.TabIndex = 23; this.pictureBox5.TabStop = false; this.pictureBox5.Click += new System.EventHandler(this.pictureBox5_Click); //
  • 34. // button2 // this.button2.BackColor = System.Drawing.Color.PeachPuff; this.button2.Cursor = System.Windows.Forms.Cursors.Hand; this.button2.Font = new System.Drawing.Font("Rockwell", 12F, ((System.Drawing.FontStyle)((System.Drawing.FontStyle.Bold | System.Drawing.FontStyle.Italic))), System.Drawing.GraphicsUnit.Point, ((byte)(0))); this.button2.ForeColor = System.Drawing.Color.Orange; this.button2.Location = new System.Drawing.Point(290, 23); this.button2.Name = "button2"; this.button2.Size = new System.Drawing.Size(99, 32); this.button2.TabIndex = 10; this.button2.Text = "BROWSE"; this.button2.UseVisualStyleBackColor = false; this.button2.Click += new System.EventHandler(this.button2_Click); // // label2 // this.label2.AutoSize = true; this.label2.Font = new System.Drawing.Font("Cooper Black", 14.25F, System.Drawing.FontStyle.Regular, System.Drawing.GraphicsUnit.Point, ((byte)(0))); this.label2.ForeColor = System.Drawing.Color.Black; this.label2.Location = new System.Drawing.Point(25, 34); this.label2.Name = "label2"; this.label2.Size = new System.Drawing.Size(248, 21); this.label2.TabIndex = 7;
  • 35. this.label2.Text = "Browse a Video rar File :"; // // textBox2 // this.textBox2.BackColor = System.Drawing.Color.Snow; this.textBox2.Font = new System.Drawing.Font("Rockwell", 12F, ((System.Drawing.FontStyle)((System.Drawing.FontStyle.Bold | System.Drawing.FontStyle.Italic)))); this.textBox2.ForeColor = System.Drawing.SystemColors.WindowText; this.textBox2.Location = new System.Drawing.Point(29, 61); this.textBox2.Name = "textBox2"; this.textBox2.ReadOnly = true; this.textBox2.Size = new System.Drawing.Size(425, 26); this.textBox2.TabIndex = 4; // // label4 // this.label4.AutoSize = true; this.label4.BackColor = System.Drawing.Color.Transparent; this.label4.Font = new System.Drawing.Font("Jokerman", 18F, System.Drawing.FontStyle.Bold, System.Drawing.GraphicsUnit.Point, ((byte)(0))); this.label4.ForeColor = System.Drawing.Color.DarkGreen; this.label4.Location = new System.Drawing.Point(226, 63); this.label4.Name = "label4"; this.label4.Size = new System.Drawing.Size(498, 35); this.label4.TabIndex = 30; this.label4.Text = "Wireless Multimedia Sensor Networks";
  • 36. // // label1 // this.label1.AutoSize = true; this.label1.BackColor = System.Drawing.Color.Transparent; this.label1.Font = new System.Drawing.Font("Jokerman", 18F, System.Drawing.FontStyle.Bold, System.Drawing.GraphicsUnit.Point, ((byte)(0))); this.label1.ForeColor = System.Drawing.Color.DarkGreen; this.label1.Location = new System.Drawing.Point(146, 28); this.label1.Name = "label1"; this.label1.Size = new System.Drawing.Size(655, 35); this.label1.TabIndex = 8; this.label1.Text = "Compressed-Sensing-Enabled Video Streaming for"; // // pictureBox6 // this.pictureBox6.BorderStyle = System.Windows.Forms.BorderStyle.Fixed3D; this.pictureBox6.Image = global::ServerSource1.Properties.Resources.orange_server_md; this.pictureBox6.Location = new System.Drawing.Point(598, 200); this.pictureBox6.Name = "pictureBox6"; this.pictureBox6.Size = new System.Drawing.Size(283, 302); this.pictureBox6.SizeMode = System.Windows.Forms.PictureBoxSizeMode.AutoSize; this.pictureBox6.TabIndex = 13; this.pictureBox6.TabStop = false; // // lblError
  • 37. // this.lblError.AutoSize = true; this.lblError.BackColor = System.Drawing.Color.Transparent; this.lblError.Font = new System.Drawing.Font("Papyrus", 14.25F, System.Drawing.FontStyle.Bold, System.Drawing.GraphicsUnit.Point, ((byte)(0))); this.lblError.ForeColor = System.Drawing.SystemColors.ControlText; this.lblError.Location = new System.Drawing.Point(159, 610); this.lblError.Name = "lblError"; this.lblError.Size = new System.Drawing.Size(66, 30); this.lblError.TabIndex = 27; this.lblError.Text = "status"; // // Form1 // this.AutoScaleDimensions = new System.Drawing.SizeF(6F, 13F); this.AutoScaleMode = System.Windows.Forms.AutoScaleMode.Font; this.ClientSize = new System.Drawing.Size(932, 669); this.Controls.Add(this.panel2); this.Name = "Form1"; this.Text = "SERVER - 1"; this.Load += new System.EventHandler(this.Form1_Load); this.panel2.ResumeLayout(false); this.panel2.PerformLayout(); this.groupBox3.ResumeLayout(false); this.groupBox2.ResumeLayout(false); this.groupBox2.PerformLayout();
  • 38. this.groupBox1.ResumeLayout(false); this.groupBox1.PerformLayout(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox3)).EndInit(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox4)).EndInit(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox5)).EndInit(); ((System.ComponentModel.ISupportInitialize)(this.pictureBox6)).EndInit(); this.ResumeLayout(false); } #endregion private System.Windows.Forms.Label label3; private System.Windows.Forms.TextBox txtIp; private System.Windows.Forms.GroupBox groupBox2; private System.Windows.Forms.Panel panel2; private System.Windows.Forms.Label lblError; private System.Windows.Forms.OpenFileDialog openFileDialog1; private System.Windows.Forms.OpenFileDialog openFileDialog2; private System.Windows.Forms.GroupBox groupBox1; private System.Windows.Forms.PictureBox pictureBox4; private System.Windows.Forms.PictureBox pictureBox5; private System.Windows.Forms.PictureBox pictureBox6; private System.Windows.Forms.Button button2; private System.Windows.Forms.Label label2; private System.Windows.Forms.TextBox textBox2; private System.Windows.Forms.PictureBox pictureBox3; private System.Windows.Forms.Label label1;
  • 39. private System.Windows.Forms.GroupBox groupBox3; private System.Windows.Forms.Label label4; } } ROUTER: using System; using System.Collections.Generic; using System.ComponentModel; using System.Data; using System.Drawing; using System.Linq; using System.Text; using System.Windows.Forms; using System.Net.Sockets; using System.Net; using System.IO; namespace RouterSource { public partial class Form1 : Form { int rnno, rndnumber; double tcalc; double tstart; double tend; double f, s, cf, cs, wst, wst1; string f1, f2, f3, f4, f5, f6, f7, f8, f9, f10; string s1, s2, s3, s4, s5, s6, s7, s8, s9, s10; public Form1() {
  • 40. InitializeComponent(); } ReceiverCode obj = new ReceiverCode(); ReceiverCode1 obj1 = new ReceiverCode1(); private void Form1_Load(object sender, EventArgs e) { backgroundWorker1.RunWorkerAsync(); backgroundWorker2.RunWorkerAsync(); } //First Vedio File Routing public void Routing() { tstart = Convert.ToDouble(DateTime.Now.Millisecond); rndnumber = randomnumber(); //rndnumber = 4; label14.Visible = true; label14.Text = "Processing..."; if (rndnumber == 2) { tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f1 = Convert.ToString(tcalc); label1.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox8.Image = RouterSource.Properties.Resources.greenpacket1; System.Threading.Thread.Sleep(1000); string rStr = Path.GetRandomFileName(); rStr = rStr.Replace(".", ""); // For Removing the .
  • 41. label36.Text = rStr; pictureBox18.Image = RouterSource.Properties.Resources.okicon; label1.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f2 = Convert.ToString(tcalc); label2.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox9.Image = RouterSource.Properties.Resources.greenpacket2; System.Threading.Thread.Sleep(1000); string rStr1 = Path.GetRandomFileName(); rStr1 = rStr1.Replace(".", ""); // For Removing the . label35.Text = rStr1; pictureBox19.Image = RouterSource.Properties.Resources.okicon; label2.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f3 = Convert.ToString(tcalc); label3.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox10.Image = RouterSource.Properties.Resources.redpacket3; pictureBox20.Image = RouterSource.Properties.Resources.closeicon; label3.Text = "Failure"; Application.DoEvents();
  • 42. System.Threading.Thread.Sleep(2000); label3.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox10.Image = RouterSource.Properties.Resources.greenpacket3; System.Threading.Thread.Sleep(1000); string rStr2 = Path.GetRandomFileName(); rStr2 = rStr2.Replace(".", ""); // For Removing the . label34.Text = rStr2; pictureBox20.Image = RouterSource.Properties.Resources.okicon; label3.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f4 = Convert.ToString(tcalc); label4.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox11.Image = RouterSource.Properties.Resources.greenpacket4; System.Threading.Thread.Sleep(1000); string rStr3 = Path.GetRandomFileName(); rStr3 = rStr3.Replace(".", ""); // For Removing the . label33.Text = rStr3; pictureBox21.Image = RouterSource.Properties.Resources.okicon; label4.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend;
  • 43. f5 = Convert.ToString(tcalc); label5.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox12.Image = RouterSource.Properties.Resources.redpacket5; pictureBox22.Image = RouterSource.Properties.Resources.closeicon; label5.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label5.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox12.Image = RouterSource.Properties.Resources.greenpacket5; System.Threading.Thread.Sleep(1000); string rStr4 = Path.GetRandomFileName(); rStr4 = rStr4.Replace(".", ""); // For Removing the . label32.Text = rStr4; pictureBox22.Image = RouterSource.Properties.Resources.okicon; label5.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f6 = Convert.ToString(tcalc); label9.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox13.Image = RouterSource.Properties.Resources.greenpacket6; System.Threading.Thread.Sleep(1000); string rStr5 = Path.GetRandomFileName(); rStr5 = rStr5.Replace(".", ""); // For Removing the . label31.Text = rStr5;
  • 44. pictureBox23.Image = RouterSource.Properties.Resources.okicon; label9.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f7 = Convert.ToString(tcalc); label10.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox14.Image = RouterSource.Properties.Resources.redpacket7; pictureBox24.Image = RouterSource.Properties.Resources.closeicon; label10.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label10.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox14.Image = RouterSource.Properties.Resources.greenpacket7; System.Threading.Thread.Sleep(1000); string rStr6 = Path.GetRandomFileName(); rStr6 = rStr6.Replace(".", ""); // For Removing the . label30.Text = rStr6; pictureBox24.Image = RouterSource.Properties.Resources.okicon; label10.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f8 = Convert.ToString(tcalc);
  • 45. label11.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox15.Image = RouterSource.Properties.Resources.greenpacket8; System.Threading.Thread.Sleep(1000); string rStr7 = Path.GetRandomFileName(); rStr7 = rStr7.Replace(".", ""); // For Removing the . label29.Text = rStr7; pictureBox25.Image = RouterSource.Properties.Resources.okicon; label11.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f9 = Convert.ToString(tcalc); label12.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox16.Image = RouterSource.Properties.Resources.greenpacket9; System.Threading.Thread.Sleep(1000); string rStr8 = Path.GetRandomFileName(); rStr8 = rStr8.Replace(".", ""); // For Removing the . label28.Text = rStr8; pictureBox26.Image = RouterSource.Properties.Resources.okicon; label12.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f10 = Convert.ToString(tcalc);
  • 46. label13.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox17.Image = RouterSource.Properties.Resources.greenpacket10; System.Threading.Thread.Sleep(1000); string rStr9 = Path.GetRandomFileName(); rStr9 = rStr9.Replace(".", ""); // For Removing the . label37.Text = rStr9; pictureBox27.Image = RouterSource.Properties.Resources.okicon; label13.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; label14.Text = "FINISH !"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); RoutingRefresh(); } else { if (rndnumber == 3) { tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f1 = Convert.ToString(tcalc); label1.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox8.Image = RouterSource.Properties.Resources.greenpacket1; System.Threading.Thread.Sleep(1000); string rStr10 = Path.GetRandomFileName(); rStr10 = rStr10.Replace(".", ""); // For Removing the .
  • 47. label36.Text = rStr10; pictureBox18.Image = RouterSource.Properties.Resources.okicon; label1.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f2 = Convert.ToString(tcalc); label2.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox9.Image = RouterSource.Properties.Resources.greenpacket2; System.Threading.Thread.Sleep(1000); string rStr11 = Path.GetRandomFileName(); rStr11 = rStr11.Replace(".", ""); // For Removing the . label35.Text = rStr11; pictureBox19.Image = RouterSource.Properties.Resources.okicon; label2.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f3 = Convert.ToString(tcalc); label3.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox10.Image = RouterSource.Properties.Resources.greenpacket3; System.Threading.Thread.Sleep(1000); string rStr12 = Path.GetRandomFileName(); rStr12 = rStr12.Replace(".", ""); // For Removing the .
  • 48. label34.Text = rStr12; pictureBox20.Image = RouterSource.Properties.Resources.okicon; label3.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f4 = Convert.ToString(tcalc); label4.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox11.Image = RouterSource.Properties.Resources.redpacket4; pictureBox21.Image = RouterSource.Properties.Resources.closeicon; label4.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label4.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox11.Image = RouterSource.Properties.Resources.greenpacket4; System.Threading.Thread.Sleep(1000); string rStr13 = Path.GetRandomFileName(); rStr13 = rStr13.Replace(".", ""); // For Removing the . label33.Text = rStr13; pictureBox21.Image = RouterSource.Properties.Resources.okicon; label4.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend;
  • 49. f5 = Convert.ToString(tcalc); label5.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox12.Image = RouterSource.Properties.Resources.redpacket5; pictureBox22.Image = RouterSource.Properties.Resources.closeicon; label5.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label5.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox12.Image = RouterSource.Properties.Resources.greenpacket5; System.Threading.Thread.Sleep(1000); string rStr14 = Path.GetRandomFileName(); rStr14 = rStr14.Replace(".", ""); // For Removing the . label32.Text = rStr14; pictureBox22.Image = RouterSource.Properties.Resources.okicon; label5.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f6 = Convert.ToString(tcalc); label9.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox13.Image = RouterSource.Properties.Resources.greenpacket6; System.Threading.Thread.Sleep(1000); string rStr15 = Path.GetRandomFileName(); rStr15 = rStr15.Replace(".", ""); // For Removing the . label31.Text = rStr15;
  • 50. pictureBox23.Image = RouterSource.Properties.Resources.okicon; label9.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f7 = Convert.ToString(tcalc); label10.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox14.Image = RouterSource.Properties.Resources.redpacket7; pictureBox24.Image = RouterSource.Properties.Resources.closeicon; label10.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label10.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox14.Image = RouterSource.Properties.Resources.greenpacket7; System.Threading.Thread.Sleep(1000); string rStr16 = Path.GetRandomFileName(); rStr16 = rStr16.Replace(".", ""); // For Removing the . label30.Text = rStr16; pictureBox24.Image = RouterSource.Properties.Resources.okicon; label10.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f8 = Convert.ToString(tcalc);
  • 51. label11.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox15.Image = RouterSource.Properties.Resources.greenpacket8; System.Threading.Thread.Sleep(1000); string rStr17 = Path.GetRandomFileName(); rStr17 = rStr17.Replace(".", ""); // For Removing the . label29.Text = rStr17; pictureBox25.Image = RouterSource.Properties.Resources.okicon; label11.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f9 = Convert.ToString(tcalc); label12.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox16.Image = RouterSource.Properties.Resources.greenpacket9; System.Threading.Thread.Sleep(1000); string rStr18 = Path.GetRandomFileName(); rStr18 = rStr18.Replace(".", ""); // For Removing the . label28.Text = rStr18; pictureBox26.Image = RouterSource.Properties.Resources.okicon; label12.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f10 = Convert.ToString(tcalc);
  • 52. label13.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox17.Image = RouterSource.Properties.Resources.greenpacket10; System.Threading.Thread.Sleep(1000); string rStr19 = Path.GetRandomFileName(); rStr19 = rStr19.Replace(".", ""); // For Removing the . label37.Text = rStr19; pictureBox27.Image = RouterSource.Properties.Resources.okicon; label13.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; label14.Text = "FINISH !"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); RoutingRefresh(); } else { if (rndnumber == 1 || rndnumber == 4) { tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f1 = Convert.ToString(tcalc); label1.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox8.Image = RouterSource.Properties.Resources.greenpacket1; System.Threading.Thread.Sleep(1000); string rStr20 = Path.GetRandomFileName(); rStr20 = rStr20.Replace(".", ""); // For Removing the .
  • 53. label36.Text = rStr20; pictureBox18.Image = RouterSource.Properties.Resources.okicon; label1.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f2 = Convert.ToString(tcalc); label2.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox9.Image = RouterSource.Properties.Resources.greenpacket2; System.Threading.Thread.Sleep(1000); string rStr21 = Path.GetRandomFileName(); rStr21 = rStr21.Replace(".", ""); // For Removing the . label35.Text = rStr21; pictureBox19.Image = RouterSource.Properties.Resources.okicon; label2.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f3 = Convert.ToString(tcalc); label3.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox10.Image = RouterSource.Properties.Resources.greenpacket3; System.Threading.Thread.Sleep(1000); string rStr22 = Path.GetRandomFileName(); rStr22 = rStr22.Replace(".", ""); // For Removing the .
  • 54. label34.Text = rStr22; pictureBox20.Image = RouterSource.Properties.Resources.okicon; label3.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f4 = Convert.ToString(tcalc); label4.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox11.Image = RouterSource.Properties.Resources.greenpacket4; System.Threading.Thread.Sleep(1000); string rStr23 = Path.GetRandomFileName(); rStr23 = rStr23.Replace(".", ""); // For Removing the . label33.Text = rStr23; pictureBox21.Image = RouterSource.Properties.Resources.okicon; label4.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f5 = Convert.ToString(tcalc); label5.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox12.Image = RouterSource.Properties.Resources.redpacket5; pictureBox22.Image = RouterSource.Properties.Resources.closeicon; label5.Text = "Failure"; Application.DoEvents();
  • 55. System.Threading.Thread.Sleep(2000); label5.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox12.Image = RouterSource.Properties.Resources.greenpacket5; System.Threading.Thread.Sleep(1000); string rStr24 = Path.GetRandomFileName(); rStr24 = rStr24.Replace(".", ""); // For Removing the . label32.Text = rStr24; pictureBox22.Image = RouterSource.Properties.Resources.okicon; label5.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f6 = Convert.ToString(tcalc); label9.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox13.Image = RouterSource.Properties.Resources.redpacket6; pictureBox23.Image = RouterSource.Properties.Resources.closeicon; label9.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label9.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox13.Image = RouterSource.Properties.Resources.greenpacket6; System.Threading.Thread.Sleep(1000); string rStr25 = Path.GetRandomFileName(); rStr25 = rStr25.Replace(".", ""); // For Removing the . label31.Text = rStr25;
  • 56. pictureBox23.Image = RouterSource.Properties.Resources.okicon; label9.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f7 = Convert.ToString(tcalc); label10.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox14.Image = RouterSource.Properties.Resources.greenpacket7; System.Threading.Thread.Sleep(1000); string rStr26 = Path.GetRandomFileName(); rStr26 = rStr26.Replace(".", ""); // For Removing the . label30.Text = rStr26; pictureBox24.Image = RouterSource.Properties.Resources.okicon; label10.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f8 = Convert.ToString(tcalc); label11.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox15.Image = RouterSource.Properties.Resources.greenpacket8; System.Threading.Thread.Sleep(1000); string rStr27 = Path.GetRandomFileName(); rStr27 = rStr27.Replace(".", ""); // For Removing the . label29.Text = rStr27;
  • 57. pictureBox25.Image = RouterSource.Properties.Resources.okicon; label11.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f9 = Convert.ToString(tcalc); label12.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox16.Image = RouterSource.Properties.Resources.greenpacket9; System.Threading.Thread.Sleep(1000); string rStr28 = Path.GetRandomFileName(); rStr28 = rStr28.Replace(".", ""); // For Removing the . label28.Text = rStr28; pictureBox26.Image = RouterSource.Properties.Resources.okicon; label12.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; f10 = Convert.ToString(tcalc); label13.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox17.Image = RouterSource.Properties.Resources.greenpacket10; System.Threading.Thread.Sleep(1000); string rStr29 = Path.GetRandomFileName(); rStr29 = rStr29.Replace(".", ""); // For Removing the . label37.Text = rStr29;
  • 58. pictureBox27.Image = RouterSource.Properties.Resources.okicon; label13.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; label14.Text = "FINISH !"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); RoutingRefresh(); } } } pictureBox69.Enabled = true; pictureBox70.Enabled = true; send(); } //Second Vedio File Routing public void Routing1() { tstart = Convert.ToDouble(DateTime.Now.Millisecond); rndnumber = randomnumber1(); //rndnumber = 1; label15.Visible = true; label15.Text = "Processing..."; if (rndnumber == 2) { tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s1 = Convert.ToString(tcalc);
  • 59. label25.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox47.Image = RouterSource.Properties.Resources.greenpacket1; System.Threading.Thread.Sleep(1000); string rStr30 = Path.GetRandomFileName(); rStr30 = rStr30.Replace(".", ""); // For Removing the . label47.Text = rStr30; pictureBox36.Image = RouterSource.Properties.Resources.okicon; label25.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s2 = Convert.ToString(tcalc); label24.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox46.Image = RouterSource.Properties.Resources.greenpacket2; System.Threading.Thread.Sleep(1000); string rStr31 = Path.GetRandomFileName(); rStr31 = rStr31.Replace(".", ""); // For Removing the . label46.Text = rStr31; pictureBox37.Image = RouterSource.Properties.Resources.okicon; label24.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s3 = Convert.ToString(tcalc);
  • 60. label23.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox45.Image = RouterSource.Properties.Resources.redpacket3; pictureBox35.Image = RouterSource.Properties.Resources.closeicon; label23.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label23.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox45.Image = RouterSource.Properties.Resources.greenpacket3; System.Threading.Thread.Sleep(1000); string rStr32 = Path.GetRandomFileName(); rStr32 = rStr32.Replace(".", ""); // For Removing the . label45.Text = rStr32; pictureBox35.Image = RouterSource.Properties.Resources.okicon; label23.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s4 = Convert.ToString(tcalc); label22.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox44.Image = RouterSource.Properties.Resources.greenpacket4; System.Threading.Thread.Sleep(1000); string rStr33 = Path.GetRandomFileName(); rStr33 = rStr33.Replace(".", ""); // For Removing the . label44.Text = rStr33; pictureBox34.Image = RouterSource.Properties.Resources.okicon;
  • 61. label22.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s5 = Convert.ToString(tcalc); label21.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox43.Image = RouterSource.Properties.Resources.greenpacket5; System.Threading.Thread.Sleep(1000); string rStr34 = Path.GetRandomFileName(); rStr34 = rStr34.Replace(".", ""); // For Removing the . label43.Text = rStr34; pictureBox33.Image = RouterSource.Properties.Resources.okicon; label21.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s6 = Convert.ToString(tcalc); label20.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox42.Image = RouterSource.Properties.Resources.greenpacket6; System.Threading.Thread.Sleep(1000); string rStr35 = Path.GetRandomFileName(); rStr35 = rStr35.Replace(".", ""); // For Removing the . label42.Text = rStr35; pictureBox32.Image = RouterSource.Properties.Resources.okicon;
  • 62. label20.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s7 = Convert.ToString(tcalc); label19.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox41.Image = RouterSource.Properties.Resources.redpacket7; pictureBox31.Image = RouterSource.Properties.Resources.closeicon; label19.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label19.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox41.Image = RouterSource.Properties.Resources.greenpacket7; System.Threading.Thread.Sleep(1000); string rStr36 = Path.GetRandomFileName(); rStr36 = rStr36.Replace(".", ""); // For Removing the . label41.Text = rStr36; pictureBox31.Image = RouterSource.Properties.Resources.okicon; label19.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s8 = Convert.ToString(tcalc); label18.Text = "Processing..";
  • 63. Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox40.Image = RouterSource.Properties.Resources.greenpacket8; System.Threading.Thread.Sleep(1000); string rStr37 = Path.GetRandomFileName(); rStr37 = rStr37.Replace(".", ""); // For Removing the . label40.Text = rStr37; pictureBox30.Image = RouterSource.Properties.Resources.okicon; label18.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s9 = Convert.ToString(tcalc); label17.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox39.Image = RouterSource.Properties.Resources.greenpacket9; System.Threading.Thread.Sleep(1000); string rStr38 = Path.GetRandomFileName(); rStr38 = rStr38.Replace(".", ""); // For Removing the . label39.Text = rStr38; pictureBox29.Image = RouterSource.Properties.Resources.okicon; label17.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s10 = Convert.ToString(tcalc); label16.Text = "Processing..";
  • 64. Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox38.Image = RouterSource.Properties.Resources.greenpacket10; System.Threading.Thread.Sleep(1000); string rStr39 = Path.GetRandomFileName(); rStr39 = rStr39.Replace(".", ""); // For Removing the . label38.Text = rStr39; pictureBox28.Image = RouterSource.Properties.Resources.okicon; label16.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; label15.Text = "FINISH !"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); RoutingRefresh(); } else { if (rndnumber == 3) { tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s1 = Convert.ToString(tcalc); label25.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox47.Image = RouterSource.Properties.Resources.greenpacket1; System.Threading.Thread.Sleep(1000); string rStr40 = Path.GetRandomFileName(); rStr40 = rStr40.Replace(".", ""); // For Removing the . label47.Text = rStr40;
  • 65. pictureBox36.Image = RouterSource.Properties.Resources.okicon; label25.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s2 = Convert.ToString(tcalc); label24.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox46.Image = RouterSource.Properties.Resources.greenpacket2; System.Threading.Thread.Sleep(1000); string rStr41 = Path.GetRandomFileName(); rStr41 = rStr41.Replace(".", ""); // For Removing the . label46.Text = rStr41; pictureBox37.Image = RouterSource.Properties.Resources.okicon; label24.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s3 = Convert.ToString(tcalc); label23.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox45.Image = RouterSource.Properties.Resources.greenpacket3; System.Threading.Thread.Sleep(1000); string rStr42 = Path.GetRandomFileName(); rStr42 = rStr42.Replace(".", ""); // For Removing the . label45.Text = rStr42;
  • 66. pictureBox35.Image = RouterSource.Properties.Resources.okicon; label23.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s4 = Convert.ToString(tcalc); label22.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox44.Image = RouterSource.Properties.Resources.redpacket4; pictureBox34.Image = RouterSource.Properties.Resources.closeicon; label22.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label22.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox44.Image = RouterSource.Properties.Resources.greenpacket4; System.Threading.Thread.Sleep(1000); string rStr43 = Path.GetRandomFileName(); rStr43 = rStr43.Replace(".", ""); // For Removing the . label44.Text = rStr43; pictureBox34.Image = RouterSource.Properties.Resources.okicon; label22.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s5 = Convert.ToString(tcalc);
  • 67. label21.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox43.Image = RouterSource.Properties.Resources.greenpacket5; System.Threading.Thread.Sleep(1000); string rStr44 = Path.GetRandomFileName(); rStr44 = rStr44.Replace(".", ""); // For Removing the . label43.Text = rStr44; pictureBox33.Image = RouterSource.Properties.Resources.okicon; label21.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s6 = Convert.ToString(tcalc); label20.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox42.Image = RouterSource.Properties.Resources.greenpacket6; System.Threading.Thread.Sleep(1000); string rStr45 = Path.GetRandomFileName(); rStr45 = rStr45.Replace(".", ""); // For Removing the . label42.Text = rStr45; pictureBox32.Image = RouterSource.Properties.Resources.okicon; label20.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s7 = Convert.ToString(tcalc);
  • 68. label19.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox41.Image = RouterSource.Properties.Resources.greenpacket7; System.Threading.Thread.Sleep(1000); string rStr46 = Path.GetRandomFileName(); rStr46 = rStr46.Replace(".", ""); // For Removing the . label41.Text = rStr46; pictureBox31.Image = RouterSource.Properties.Resources.okicon; label19.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s8 = Convert.ToString(tcalc); label18.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox40.Image = RouterSource.Properties.Resources.greenpacket8; System.Threading.Thread.Sleep(1000); string rStr47 = Path.GetRandomFileName(); rStr47 = rStr47.Replace(".", ""); // For Removing the . label40.Text = rStr47; pictureBox30.Image = RouterSource.Properties.Resources.okicon; label18.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s9 = Convert.ToString(tcalc);
  • 69. label17.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox39.Image = RouterSource.Properties.Resources.greenpacket9; System.Threading.Thread.Sleep(1000); string rStr48 = Path.GetRandomFileName(); rStr48 = rStr48.Replace(".", ""); // For Removing the . label39.Text = rStr48; pictureBox29.Image = RouterSource.Properties.Resources.okicon; label17.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s10 = Convert.ToString(tcalc); label16.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox38.Image = RouterSource.Properties.Resources.greenpacket10; System.Threading.Thread.Sleep(1000); string rStr49 = Path.GetRandomFileName(); rStr49 = rStr49.Replace(".", ""); // For Removing the . label38.Text = rStr49; pictureBox28.Image = RouterSource.Properties.Resources.okicon; label16.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; label15.Text = "FINISH !"; Application.DoEvents(); System.Threading.Thread.Sleep(2000);
  • 70. RoutingRefresh(); } else { if (rndnumber == 1 || rndnumber == 4) { tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s1 = Convert.ToString(tcalc); label25.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox47.Image = RouterSource.Properties.Resources.greenpacket1; System.Threading.Thread.Sleep(1000); string rStr50 = Path.GetRandomFileName(); rStr50 = rStr50.Replace(".", ""); // For Removing the . label47.Text = rStr50; pictureBox36.Image = RouterSource.Properties.Resources.okicon; label25.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s2 = Convert.ToString(tcalc); label24.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox46.Image = RouterSource.Properties.Resources.greenpacket2; System.Threading.Thread.Sleep(1000); string rStr51 = Path.GetRandomFileName(); rStr51 = rStr51.Replace(".", ""); // For Removing the .
  • 71. label46.Text = rStr51; pictureBox37.Image = RouterSource.Properties.Resources.okicon; label24.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s3 = Convert.ToString(tcalc); label23.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox45.Image = RouterSource.Properties.Resources.greenpacket3; System.Threading.Thread.Sleep(1000); string rStr52 = Path.GetRandomFileName(); rStr52 = rStr52.Replace(".", ""); // For Removing the . label45.Text = rStr52; pictureBox35.Image = RouterSource.Properties.Resources.okicon; label23.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s4 = Convert.ToString(tcalc); label22.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox44.Image = RouterSource.Properties.Resources.greenpacket4; System.Threading.Thread.Sleep(1000); string rStr53 = Path.GetRandomFileName(); rStr53 = rStr53.Replace(".", ""); // For Removing the .
  • 72. label44.Text = rStr53; pictureBox34.Image = RouterSource.Properties.Resources.okicon; label22.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s5 = Convert.ToString(tcalc); label21.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox43.Image = RouterSource.Properties.Resources.redpacket5; pictureBox33.Image = RouterSource.Properties.Resources.closeicon; label21.Text = "Failure"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); label21.Text = "Reconfigure..."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox43.Image = RouterSource.Properties.Resources.greenpacket5; System.Threading.Thread.Sleep(1000); string rStr54 = Path.GetRandomFileName(); rStr54 = rStr54.Replace(".", ""); // For Removing the . label43.Text = rStr54; pictureBox33.Image = RouterSource.Properties.Resources.okicon; label21.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend;
  • 73. s6 = Convert.ToString(tcalc); label20.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox42.Image = RouterSource.Properties.Resources.greenpacket6; System.Threading.Thread.Sleep(1000); string rStr55 = Path.GetRandomFileName(); rStr55 = rStr55.Replace(".", ""); // For Removing the . label42.Text = rStr55; pictureBox32.Image = RouterSource.Properties.Resources.okicon; label20.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s7 = Convert.ToString(tcalc); label19.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox41.Image = RouterSource.Properties.Resources.greenpacket7; System.Threading.Thread.Sleep(1000); string rStr56 = Path.GetRandomFileName(); rStr56 = rStr56.Replace(".", ""); // For Removing the . label41.Text = rStr56; pictureBox31.Image = RouterSource.Properties.Resources.okicon; label19.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend;
  • 74. s8 = Convert.ToString(tcalc); label18.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox40.Image = RouterSource.Properties.Resources.greenpacket8; System.Threading.Thread.Sleep(1000); string rStr57 = Path.GetRandomFileName(); rStr57 = rStr57.Replace(".", ""); // For Removing the . label40.Text = rStr57; pictureBox30.Image = RouterSource.Properties.Resources.okicon; label18.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend; s9 = Convert.ToString(tcalc); label17.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox39.Image = RouterSource.Properties.Resources.greenpacket9; System.Threading.Thread.Sleep(1000); string rStr58 = Path.GetRandomFileName(); rStr58 = rStr58.Replace(".", ""); // For Removing the . label39.Text = rStr58; pictureBox29.Image = RouterSource.Properties.Resources.okicon; label17.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; tend = tstart - Convert.ToDouble(DateTime.Now.Millisecond) / 1000; tcalc = tend;
  • 75. s10 = Convert.ToString(tcalc); label16.Text = "Processing.."; Application.DoEvents(); System.Threading.Thread.Sleep(2000); pictureBox38.Image = RouterSource.Properties.Resources.greenpacket10; System.Threading.Thread.Sleep(1000); string rStr59 = Path.GetRandomFileName(); rStr59 = rStr59.Replace(".", ""); // For Removing the . label38.Text = rStr59; pictureBox28.Image = RouterSource.Properties.Resources.okicon; label16.Text = "Success"; Application.DoEvents(); System.Threading.Thread.Sleep(1000); label8.Text = Convert.ToString(tcalc) + " (milli seconds)"; label15.Text = "FINISH !"; Application.DoEvents(); System.Threading.Thread.Sleep(2000); RoutingRefresh(); } } } pictureBox69.Enabled = true; pictureBox70.Enabled = true; send1(); } public void RoutingRefresh() { } public void RoutingRefresh1()
  • 76. { } //Random Select For File Transaction public int randomnumber() { Random rn = new Random(); rnno = rn.Next(1, 4); return rnno; } //Random Select For File Transaction public int randomnumber1() { Random rn = new Random(); rnno = rn.Next(1, 4); return rnno; } private void backgroundWorker1_DoWork(object sender, DoWorkEventArgs e) { obj.StartServer(); } private void backgroundWorker2_DoWork(object sender, DoWorkEventArgs e) { obj1.StartServer1(); } private void timer1_Tick(object sender, EventArgs e) { if (ReceiverCode.Rout == "Start") {
  • 77. timer1.Enabled = false; Routing(); ReceiverCode.Rout = ""; } } private void timer2_Tick(object sender, EventArgs e) { if (ReceiverCode1.Rout1 == "Start") { timer2.Enabled = false; Routing1(); ReceiverCode1.Rout1 = ""; } } public void send() { try { IPAddress[] ipAddress = Dns.GetHostAddresses(txtIp.Text); IPEndPoint ipEnd = new IPEndPoint(ipAddress[0], 5656); Socket clientSock = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.IP); clientSock.Connect(ipEnd); //clientSock.Send(ReceiverCode.send ); clientSock.Send(ReceiverCode.send); System.Threading.Thread.Sleep(1000); clientSock.Close(); }
  • 78. catch (Exception ex) { if (ex.Message == "A connection attempt failed because the connected party did not properly respond after a period of time, or established connection failed because connected host has failed to respond") { MessageBox.Show("No Such System Available Try other IP"); } else { if (ex.Message == "No connection could be made because the target machine actively refused it") { MessageBox.Show("File Sending fail. Because Client not running."); } else { MessageBox.Show("File Sending fail." + ex.Message); } } } } public void send1() { try { IPAddress[] ipAddress = Dns.GetHostAddresses(txtIp.Text); IPEndPoint ipEnd1 = new IPEndPoint(ipAddress[0], 5654); Socket clientSock1 = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.IP); clientSock1.Connect(ipEnd1);
  • 79. //clientSock.Send(ReceiverCode.send ); clientSock1.Send(ReceiverCode1.send1); System.Threading.Thread.Sleep(1000); clientSock1.Close(); } catch (Exception ex) { if (ex.Message == "A connection attempt failed because the connected party did not properly respond after a period of time, or established connection failed because connected host has failed to respond") { MessageBox.Show("No Such System Available Try other IP"); } else { if (ex.Message == "No connection could be made because the target machine actively refused it") { MessageBox.Show("File Sending fail. Because Client not running."); } else { MessageBox.Show("File Sending fail." + ex.Message); } } } } //CHART private void pictureBox70_Click(object sender, EventArgs e) { //Routing();
  • 80. //Routing1(); f = Convert.ToDouble(Convert.ToDouble(f1) + Convert.ToDouble(f2) + Convert.ToDouble(f3) + Convert.ToDouble(f4) + Convert.ToDouble(f5) + Convert.ToDouble(f6) + Convert.ToDouble(f7) + Convert.ToDouble(f8) + Convert.ToDouble(f9) + Convert.ToDouble(f10)) / 10; s = Convert.ToDouble(Convert.ToDouble(s1) + Convert.ToDouble(s2) + Convert.ToDouble(s3) + Convert.ToDouble(s4) + Convert.ToDouble(s5) + Convert.ToDouble(s6) + Convert.ToDouble(s7) + Convert.ToDouble(s8) + Convert.ToDouble(s9) + Convert.ToDouble(s10)) / 10; if (f < s) { cs = f; cf = s; } else { cs = s; cf = f; } Chart c = new Chart(); c.val = new double[3]; c.val[0] = Convert.ToDouble(cf); c.val[1] = Convert.ToDouble(cs); //c.val[2] = Convert.ToDouble(55); c.txt = new string[2]; c.txt[0] = Convert.ToString(""); c.txt[1] = Convert.ToString(""); //c.txt[2] = "logesh"; c.ShowDialog(); } //SERVICE TIME
  • 81. private void pictureBox69_Click(object sender, EventArgs e) { f = Convert.ToDouble(Convert.ToDouble(f1) + Convert.ToDouble(f2) + Convert.ToDouble(f3) + Convert.ToDouble(f4) + Convert.ToDouble(f5) + Convert.ToDouble(f6) + Convert.ToDouble(f7) + Convert.ToDouble(f8) + Convert.ToDouble(f8) + Convert.ToDouble(f10)) / 10; s = Convert.ToDouble(Convert.ToDouble(s1) + Convert.ToDouble(s2) + Convert.ToDouble(s3) + Convert.ToDouble(s4) + Convert.ToDouble(s5) + Convert.ToDouble(s6) + Convert.ToDouble(s7) + Convert.ToDouble(s8) + Convert.ToDouble(s9) + Convert.ToDouble(s10)) / 10; wst = (1 / f) * 100; wst1 = (1 / s) * 100; ServiceTime st = new ServiceTime(f1, f2, f3, f4, f5, f6, f7, f8, f9, f10, wst, s1, s2, s3, s4, s5, s6, s7, s8, s9, s10, wst1); st.ShowDialog(); } private void panel3_Paint(object sender, PaintEventArgs e) { } } class ReceiverCode { IPEndPoint ipEnd; Socket sock; public ReceiverCode() { IPHostEntry ipEntry = Dns.GetHostEntry(Environment.MachineName); IPAddress IpAddr = ipEntry.AddressList[0]; ipEnd = new IPEndPoint(IpAddr, 5655); sock = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.IP); sock.Bind(ipEnd); } public static string receivedPath;
  • 82. public static string curMsg = "Stopped"; public static string Rout = ""; public static string FileSize = ""; public static string MsgStatus = ""; public static byte[] send; public void StartServer() { try { curMsg = "Starting..."; sock.Listen(100); curMsg = "Running and waiting to receive file."; Socket clientSock = sock.Accept(); byte[] clientData = new byte[13000 * 5000]; int receivedBytesLen = clientSock.Receive(clientData); curMsg = "Receiving data..."; send = new byte[receivedBytesLen]; Array.Copy(clientData, send, receivedBytesLen); Rout = "Start"; clientSock.Close(); curMsg = "Reeived & Saved file; Server Stopped."; StartServer(); } catch (Exception ex) { curMsg = "File Receving error."; } } }
  • 83. class ReceiverCode1 { IPEndPoint ipEnd1; Socket sock1; public ReceiverCode1() { IPHostEntry ipEntry = Dns.GetHostEntry(Environment.MachineName); IPAddress IpAddr = ipEntry.AddressList[0]; ipEnd1 = new IPEndPoint(IpAddr, 5659); sock1 = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.IP); sock1.Bind(ipEnd1); } public static string receivedPath; public static string curMsg = "Stopped"; public static string Rout1 = ""; public static string FileSize = ""; public static string MsgStatus = ""; public static byte[] send1; public void StartServer1() { try { curMsg = "Starting..."; sock1.Listen(100); curMsg = "Running and waiting to receive file."; Socket clientSock1 = sock1.Accept(); byte[] clientData1 = new byte[13000 * 5000]; int receivedBytesLen1 = clientSock1.Receive(clientData1); curMsg = "Receiving data..."; send1 = new byte[receivedBytesLen1];
  • 84. Array.Copy(clientData1, send1, receivedBytesLen1); Rout1 = "Start"; clientSock1.Close(); curMsg = "Reeived & Saved file; Server Stopped."; StartServer1(); } catch (Exception ex) { curMsg = "File Receving error."; } } } }
  • 85. CONCLUSION: We proposed a model-based description and analysis framework for the design of wireless system architectures. Using AADL, the de facto standard formal architecture description language, we have demonstrated how a high level of modularity can be achieved in simulated wireless network systems. This approach also allows tool chains for analyzing the performance of wireless systems to be formally derived from the simulated behavior of the system. By examining example applications of time critical wireless networked systems to healthcare and video broadcasting services, we showed that our framework can support detailed and largely automated analysis of complicated networked wireless systems.
  • 86. REFERENCES: [1] OPNET Technologies, http://www.opnet.com, 2012. [2] C. Atici and M.O. Sunay, “High Data-Rate Video Broadcasting over 3G Wireless Systems,” IEEE Trans. Broadcasting, vol. 53, no. 1, pp. 212-223, Mar. 2007. [3] N.H. Vaidya, J. Bernhard, V.V. Veeravalli, P.R. Kumar, and R.K.Iyer, “Illinois Wireless Wind Tunnel: A Testbed for Experimental Evaluation of Wireless Networks,” Proc. ACM SIGCOMM Workshop Experimental Approaches to Wireless Network Design and Analysis, pp. 64-69, Aug. 2005. [4] W.J. Jeon, K. Kang, R.H. Campbell, and K. Nahrstedt, “Simulation Framework and Performance Analysis of Multimedia Broadcasting Service over Wireless Networks,” Proc. Int’l Conf. Distributed Systems (ICDCS ’09), pp. 93-100, June 2009. [5] N. Medvidovic and R.N. Taylor, “A Classification and Comparison Framework for Software Architecture Descripton Languages,” IEEE Trans. Software Eng., vol. 26, no. 1, pp. 70-93, Jan. 2000. [6] SAE International, Standard AS 5506, Architecture Analysis and Design Language (AADL), SAE, Nov. 2004. [7] P.H. Feiler, B. Lewis, and S. Vestal, “The SAE Architecture Analysis & Design Language (AADL) A Standard for Engineering Performance Critical Systems,” Proc. IEEE Int’l Symp. Intelligent Control (ISIC ’06), pp. 1206-1211, Oct. 2006. [8] N. Bhushan, C. Lott, P. Black, R. Attar, Y.-C. Jou, M. Fan, D. Ghosh, and J. Au, “CDMA2000 1xEV-DO Revision A: A Physical Layer and MAC Layer Overview,” IEEE Comm. Magazine, vol. 44, no. 2, pp. 37-49, Feb. 2006. [9] D.R. Pauluzzi and N.C. Beaulieu, “A Comparison of SNR Estimation Techniques for the AWGN Channel,” IEEE Trans. Comm., vol. 48, no. 10, pp. 1681-1691, Oct. 2000.
  • 87. [10] A. Konrad, B.Y. Zhao, A.D. Joseph, and R. Ludwig, “A Markov- Based Channel Model Algorithm for Wireless Networks,” ACM Wireless Networks, vol. 9, no. 3, pp. 189-199, May 2003. [11] S.A. Khayam and H. Radha, “Constant-Complexity Models for Wireless Channels,” Proc. IEEE INFOCOM, pp. 1-11, Apr. 2006. [12] J. Daemen and V. Rijmen, The Design of Rijndael: AES – The Advanced Encryption Standard. Springer- Verlag, 2002. [13] W.J. Ebel and W.H. Tranter, “The Performance of Reed-Solomon Codes on a Bursty-Noise Channel,” IEEE Trans. Comm., vol. 43, no. 234, pp. 298-306, Feb.-Apr. 1995. [14] K. Kang, Y. Cho, and H. Shin, “Energy-Efficient MAC-Layer Error Recovery for Mobile Multimedia Applications in 3GPP2 BCMCS,” IEEE Trans. Broadcasting, vol. 53, no. 1, pp. 338-349, Mar. 2007. [15] K. Kang and L. Sha, “An Interleaving Structure for Guaranteed QoS in Real-Time Broadcasting Systems,” IEEE Trans. Computers, vol. 59, no. 5, pp. 666-678, May 2010.
  • 88. CLOUING DOMAIN: WIRELESS NETWORK PROJECTS

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