Domain Description

           This project concentrates on pricing network service dynamically based on the level of service, usage and congestion allows the network resources to be used more effectively. We integrate the proposed Service dependent pricing scheme with dynamic pricing and service negotiation environment. This increases network resource utilization and avoid high call blocking rate. Users are able to maintain stable expenditure, and allowing user to migrate between services classes in response to price increase further stabilizes the individual service prices.

System Requirement Specification:-
DOMAIN     : TRANSACTION ON NETWORKING
SOFTWARE : Operating System:Windows XP, Platform: DOTNET, Protocol:UDP,
                  Back End :SQLSERVER
HARDWARE : Processor: Pentium-IV Speed: 1.8GHZ , RAM: 512 MB, HDD: 80 GB

                                        This paper aims to address of modeling video behavior captured in surveillance video for the applications of online normal behavior recognition and anomaly detection. A novel framework is developed for automatic behavior profiling and online anomaly sampling detection with out any manual labeling of the training data set. The frame work consists of the following key components: 1) A compact and effective behavior representation method is developed based on discrete scene event detection. The similarity between behavior patterns is measured based on modeling each pattern using Dynamic Bayesian Network (DBN). 2) The natural grouping of behavior patterns is discovered through novel spectral clustering algorithm with unsupervised model selection and future selection on the eigenvectors of a normalized affinity matrix. 3) A composite generative behavior model is constructed that is capable of generalizing from a small training set to accommodate variations in unseen normal behavior patterns.4) A runtime accumulative anomaly measure is introduced to detect abnormal behavior, where as normal behavior patterns are recognized when sufficient visual evidence has become available based on online Likelihood Ratio Test(LRT) method. This ensures robust and reliable anomaly detection and normal behavior recognition at the shortest possible time. The effectiveness and robustness of our approach is demonstrated through experiments using noisy and sparse data sets collected from both indoor and outdoor surveillances scenarios. In particular, it is shown that a behavior model trained using unlabeled data set is superior to those trained using same but labeled data set in detecting anomaly from an unseen video. The experiments also suggest that our online LRT-based behavior recognition is advantageous over the commonly used maximum Likelihood (ML) method in differentiating ambiguities among different behavior classes observed on line at their advantages and drawbacks

System Requirement Specification:-
DOMAIN      : TRANSACTION ON NETWORKING
SOFTWARE : Operating System: Windows xp, Platform: JAVA, Back end: MySql,
                   Protocol:UDP sp;
HARDWARE : Processor:Pentium-IV, Speed: 1.8 GHZ , RAM: 512 MB, HDD: 80 GB

         This project concentrates on pricing network service dynamically based on the level of service, usage and congestion allows the network resources to be used more effectively. We integrate the proposed Service dependent pricing scheme with dynamic pricing and service negotiation environment.

          This increases network resource utilization and avoid high call blocking rate. Users are able to maintain stable expenditure, and allowing user to migrate between services classes in response to price increase further stabilizes the individual service prices.

System Requirement Specification:-
DOMAIN      : NETWORK
SOFTWARE : Operating System: Windows xp, Platform: JAVA, Back end: MySql
HARDWARE : Processor: Pentium-IV Speed: 1.8 GHZ , RAM: 512 MB, HDD:80 GB

                  To provide security by combining the concept of both the Digital Signature and Asymmetric key (Public key) Cryptography. Here the Public key is send instead of Private key. The DNS security uses Message Digest Algorithm to encrypt the Message (text file) and PRNG (Pseudo Random Number Generator) Algorithm for generating Public and Private key. The message combines with the Private key to form a Signature using DSA Algorithm, which is send along with the Public key.

System Requirement Specification:-
DOMAIN     : TRANSACTION ON NETWORKING
SOFTWARE : Operating System: Windows xp, Platform: JAVA, Algorithm: DSA, 
                  Protocol: TCP/IP
HARDWARE : Processor: Pentium-IV, Speed: 1.8 GHZ , RAM: 512 MB, HDD: 80 GB

                The main aim of this project to remove the problems faced by the streaming media, the server sends a media file to clients with secure and with out packet loss. The objective of this project is to provide a quality of service to streaming media, which gives the solution of streaming media, faced problems. Securing and authenticating media files use cipher and ISMA standard specified RTP. Using this media file can be transfer with secure and without packet loss.            

                The main motivation of the Securing and Authenticating Media Files System is to remove the streaming media faced problems. Such as network infrastructure that cannot accommodate a secure and real time nature of streaming content, components cannot adapt to varying network conditions and no standardized streaming formats. The securing and authenticating is an important field in the streaming media.                          This system is to provide the authenticated client only have the rights to access the media file, the server adapts a stream even though the network conditions automatically changed, adpts a stream to available bandwidth and without packet loss it sends the voluminous streams to client and the ISMA standardization provide the end-to-end security model.

                This System is used to remove the problems faced by the streaming media, the server sends a media file to clients with secure and with out packets loss. It provides a quality of service to streaming media, which gives the solution for streaming media faced problems. Securing and authenticating media files use the stream cipher and ISMA standard specified RTP. Using this media file can be transfer with secure and with out packet loss

System Requirement Specification:-
DOMAIN      : VIDEO STREAMING
SOFTWARE : Operating System: Windows xp, Platform: JAVA, Algorithm: ISMA,TOOL: JMF
HARDWARE : Processor: Pentium-IV Speed: 1.8 GHZ , RAM: 512 MB, HDD:80 GB

            The goal of a network monitoring system is to ensure proper system operation by watching for inconsistencies in user activities, system configuration, and resource status. In an enterprise-computing environment, one important functionality of a monitoring system is to guard system resources from misuse or intrusion. The system presents of a computing environment, such as network traffic, host level activities, system configuration, file system and user activites.
Mobile agent technology offers a new computing paradigm in which a Program, in the form of a software agent, can suspend its execution on a host computer; transfer itself to another agent-enabled host on the network, and resume execution on the new host. The use of mobile code has a long history dating back to the use of remote job entry systems in the 1960's. Today's agent incarnations can be characterized in a number of ways ranging from simple distributed objects to highly organized software with Embedded intelligence. As the sophistication of mobile software has increased over time, so too have the associated threats to security.
             The new phase of evolution is now under way that goes one step further, allowing complete mobility of cooperating applications among supporting platforms to form a large-scale, loosely coupled distributed system. Whether this evolutionary branch successfully propagates forward or eventually dies out remains to be seen.
Nevertheless, the technology is intriguing and offers a new paradigm for computing that cannot be summarily dismissed. The catalysts for this evolutionary path are mobile software agents � programs that are goal directed and capable of suspending themselves on one platform and moving to another platform where they resume execution. More precisely,
A software agent is a program that can exercise an individual or organization's authority, work autonomously toward a goal, and meet and interact with other agents. Possible interactions among agents include contract and service negotiation, auctioning, and bartering. Agents may be either stationary, always resident at a single platform, or mobile, capable of moving among different platforms at different times.
            The reader is referred to [0] for a more extensive introduction to the subject. This paper focuses mainly on the security issues that arise when mobility comes into play. A spectrum of differing shades of mobility exists, corresponding to the possible variations of relocating code and state information, including the values of instance variables, the program counter, execution stack, etc.

System Requirement Specification:-
DOMAIN      : MOBILE COMPUTING
SOFTWARE : Operating System: windows xp, Platform: JAVA
HARDWARE : Processor: Pentium-IV, Speed: 1.8 GHZ RAM: 512 MB HDD: 80 GB

                This paper describes a model for a real-time intrusion-detection expert system that aims to detect a wide range of security violations ranging from attempted break-ins by outsiders to system penetrations and abuses by insiders. The development of a real-time intrusion-detection system is motivated by four factors:
1) Most existing systems have security flaws that render them susceptible to intrusions, penetrations, and other forms of abuse; finding and fixing all these deficiencies is not feasible for technical and economic reasons;
2) Existing systems with known flaws are not easily replaced by systems that are more secure-mainly because the systems have attractive features that are missing in the more-secure systems, or else they cannot be replaced for economic reasons;
3) Developing systems that are absolutely secure is extremely difficult, if not generally impossible; and
Even the most secure systems are vulnerable to abuses by insiders who misuse their privileges.

System Requirement Specification:-
DOMAIN     NETWORKING SECURITY
SOFTWARE : Operating System: windows xp, Platform: JAVA
HARDWARE : Processor: Pentium-IV, Speed: 1.8 GHZ, RAM: 512 MB, HDD: 80 GB

             The project entitled Multi Task Editor aims to perform multiple tasks such as to displaying text, displaying images and manipulation of text. It provides the user to create the directory to the remote system and save the information without sharing the systems.  Additionally this editor has the options to perform shutdown and restart operations for the system. This is developed using java (Swing).

System Requirement Specification:-
DOMAIN     : WINDOWS APPLICATION
SOFTWARE : Operating System: windows xp, Platform: JAVA
HARDWARE : Processor:Pentium-IV Speed: 1.8 GHZ RAM: 512 MB HDD: 80 GB

                 The aim of this project is to enable persistent data storage for an Internet application in the local machine. The utility when implemented for intranet can also relieve the overhead of maintaining a database in an application server, which is costly and difficult to manage over the network. At the same time, the utility can be used as a means of having a local database thereby avoiding the overhead of maintaining a remote DBA.                                                                                                                                                                With the existing systems, database has to be in the middle tire where the Internet application is deployed. This is very costly, as deploying agency will be billing a huge amount for the usage of database. More over user is not having full control over the database and it is not possible to do DBA level Administrations. So data consolidation is not possible.
                  Today's advancement in the field of data formatting with a clear separation between presentation and data has made the I.T industrialists to rethink on the existing solutions and proposing a new system wherein actual data is saved in the application tier in file formats like XML.                                                                                                                         Here we are saving the information in XML files, which will be residing in the application tire. XML supports an elegant way of storing the data in a tag format as per the specifications. This is very efficient since storing the data into a flat file like XML file will be very quick. This completely avoids the need for having a database in the server. The data will be downloaded as XML files and will be parsed for the data and is then migrated to the local database.

System Requirement Specification:-
DOMAIN      : NETWORKING SECURITY
SOFTWARE : Operating System: windows xp, Platform: JAVA/J2EE, DB: PointBase,
                            Server: Weblogic,API: SAX,DOM
HARDWARE : Processor:Pentium-IV, Speed: 1.8 GHZ, RAM: 512 MB, HDD: 80 GB

                 An ad-hoc mobile network is a collection of mobile nodes that are dynamically and arbitrarily located in such a manner that the interconnections between nodes are capable of changing on a continual basis. The primary goal of such an ad-hoc network routing protocol is correct and efficient route establishment between a pair of nodes so that messages may be delivered in a timely manner. Multicasting is to send single copy of a packet to all of those of clients that requested it, and not to send multiple copies of a packet over the same portion of the network, nor to send packets to clients who don�t want it.                          
                   The Adhoc Multicast Routing Protocol (AMRoute) presents a novel approach for robust IP Multicast in mobile ad-hoc networks by exploiting user-multicast trees and dynamic logical cores. It creates a bi-directional, shared tree for data distribution using only group senders and receivers as tree nodes. Unicast tunnels are used as tree links to connect neighbors on the User-multicast tree. Thus AMRoute does not need to be supported by network nodes that are not interested/capable of multicast, and group State Cost is incurred only by group senders and receivers. Also, the use of tunnels as tree links implies that tree structure does not need to change even in case of a dynamic network topology, which reduces the signaling traffic and packet loss. Thus AMRoute does not need to track network dynamics; the underlying Unicast protocol is solely responsible for this function.
                     AMRoute does not require a specific Unicast routing protocol; therefore, it can operate seamlessly over separate domains with different Unicast protocols. We have tried to overcome the transient loops in the mesh creation. Also we have implemented the Dynamic core migration technique by using a timer which periodically changes the current core node, so that the efficiency of the protocol can be improved.

System Requirement Specification:-
DOMAIN      : WIRELESS NETWORKING
SOFTWARE : Operating System: windows xp, Platform: JAVA, Algorithm: SHA
HARDWARE : Processor: Pentium-IV,Speed: 1.8 GHZ ,RAM: 512 MB, HDD: 80 GB

                 This software is developed for all types of users who requires the secure transmission or storage of data in any kind of media or network. Since the data transmission on the inter net or over any networks are vulnerable to the hackers attack. We are in great need of encrypting the data. By addition our net transmission in INDIA is very low and hence we are in need to develop the software that encrypts as well as compress the data in order to achieve the maximum output of our effort.
                       This program uses TCP/IP Protocol for data transfer and ports for streaming communication between Client to Client or Client to Server. The need for this software can be categorized in two categories: Encryption and Decryption, Compression.
Modules
� Compression
� Decompression
� Encryption
� Decryption

System Requirement Specification:-
DOMAIN     : NETWORKING SECURITY
SOFTWARE : Operating System: windows xp, Platform: JAVA
HARDWARE : Processor: Pentium-IV, Speed: 1.8 GHZ, RAM: 512 MB, HDD: 80 GB

                 SIP IMPLEMENTATION FOR VOIP
� Based on peer to peer relationship.
� Based on request/response model(Similar to HTTP).
� Each transaction consists of a request that invokes particular method and on the server at least one response.
SIP functionality
� User Location, User Availabilities, User Capabilities, Session Setup, Session Management

System Requirement Specification:-
DOMAIN      : NETWORK SECURITY
SOFTWARE : Operating System: windows xp, Platform: JAVA, Protocol:SIP
HARDWARE : Processor:Pentium-IV Speed: 1.8 GHZ, RAM: 512 MB, HDD: 80 GB

            VIRTUAL PRIVATE NETWORK - IPsec provides encryption and authentication services at IP
Dedicated IPsec gateway machines can be installed.
IPsec can also run on routers, on firewall machines.
Two protocols are used
ESP (Encapsulating Security Payload) provides encryption plus authentication
IKE (Internet Key Exchange) negotiates connection parameters, including keys, for ESP
Our implementation has three main parts:
KLIPS (kernel IPsec)
Pluto (an IKE daemon)
Modules Packet handler

System Requirement Specification:-
DOMAIN     : NETWORKING SECURITY
SOFTWARE : Operating System:windows xp, Platform: JAVA
HARDWARE : Processor: Pentium-IV, Speed: 1.8 GHZ, RAM: 512 MB, HDD: 80 GB

                  In this paper we analyze three mechanisms for providing Endpoint Admission Control: virtual-queue making, random-early marking and tail drop. For each scheme, we analyze the probing duration necessary to guarantee the required QoS (Quality of Service) and achieve high link utilization. Our main conclusion is that very few probe packets have to be sent when early marking is used (eg: 5KB), whereas tail drop requires a large number of probe packets (eg: 1KB). Very few probe packets have to be sent when virtual queue marking is used, Virtual queue marking strategy is based on virtual queue, router maintain the state of a virtual queue, which correspond to a buffer of size B. Arriving packets are queued in the real queue but a counter which tracks of the content of the virtual queue is incremented by one for each arriving packet

System Requirement Specification:-
DOMAIN      : TRANSACTION ON NETWORKING SECURITY
SOFTWARE : Operating System: Windows XP , Platform: DOTNET
HARDWARE : Processor:Pentium-IV, Speed: 1.8 GHZ , RAM: 512 MB, HDD: 80 GB

               In this paper we analyze three mechanisms for providing Endpoint Admission Control: virtual-queue making, random-early marking and tail drop. For each scheme, we analyze the probing duration necessary to guarantee the required QoS (Quality of Service) and achieve high link utilization.
              Our main conclusion is that very few probe packets have to be sent when early marking is used (eg: 5KB), whereas tail drop requires a large number of probe packets (eg: 1KB). Very few probe packets have to be sent when virtual queue marking is used, Virtual queue marking strategy is based on virtual queue, router maintain the state of a virtual queue, which correspond to a buffer of size B. Arriving packets are queued in the real queue but a counter which tracks of the content of the virtual queue is incremented by one for each arriving packet

System Requirement Specification:-
DOMAIN     : TRANSACTION ON NETWORKING SECURITY
SOFTWARE : sOperating System: windows xp ,Platform: JAVA
HARDWARE : Processor: Pentium-IV,Speed: 1.8 GHZ ,RAM: 512 MB , HDD: 80 GB

                  To provide security by combining the concept of both the Digital Signature and Asymmetric key (Public key) Cryptography. Here the Public key is send instead of Private key. The DNS security uses Message Digest Algorithm to encrypt the Message (text file) and PRNG (Pseudo Random Number Generator) Algorithm for generating Public and Private key. The message combines with the Private key to form a Signature using DSA Algorithm, which is send along with the Public key.

System Requirement Specification:-
DOMAIN     : TRANSACTION ON NETWORKING
SOFTWARE : Operating System: Windows xp, Platform: JAVA, Algorithm: DSA,
                   Protocol: TCP/IP
HARDWARE : Processor: Pentium-IV,Speed: 1.8 GHZ , RAM: 512 MB, HDD: 80 GB

                The aim of the project is to develop an application that summarizes the Technical Paper.

System Requirement Specification:-
DOMAIN      : NETWORKING SECURITY
SOFTWARE : Operating System: windows xp, Platform: JAVA
HARDWARE : Processor: Pentium-IV,Speed: 1.8 GHZ , RAM: 512 MB,HDD: 80 GB