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Saturday, December 14, 2013

bca project documentation

bca project documentation



BCA PROJECT # 2- Hospital Information System
FRONT END - VB6.0
BACK END - SQL SEVER 2000

FRONTEND - C # AND .NET FRAMEWORK 

BACKEND - SQL SERVER 2008

SYNOPSIS OF PROJECT  ONLINE AUCTION SYSTEM

FINAL REPORT WITH FULL DOCUMENTATION and SOURCE CODE  OF PROJECT  ONLINE AUCTION SYSTEM


Abstract

                                 

                                      This paper describes an architecture for differentiation of Quality of Service in heterogeneous wireless-wired networks. This architecture applies an “all-IP” paradigm, with embedded mobility of users. The architecture allows for multiple types of access networks, and enables user roaming between different operator domains. The overall 4G architecture discussed in this paper is IPv6-based, supporting seamless mobility between different access technologies. Mobility is a substantial problem in such environment, because inter-technology handovers have to be supported. In our case, we targeted Ethernet (802.3) for wired access; Wi-Fi (802.11b) for wireless LAN access; and W-CDMA - the radio interface of UMTS - for cellular access.The architecture is able to provide quality of service per-user and per-service An integrated service and resource management approach is presented based on the cooperative association between Quality of Service Brokers and Authentication, Authorisation, Accounting and Charging systems. The different phases of QoS-operation are discussed. The overall QoS concepts are presented with some relevant enhancements that address specifically voice services. In particular, EF simulations results are discussed in this context.

  

CONTENTS

1:INTRODUCTION

             1.1:WIRELESS COMMUNICATION

            

             1.2: GENERATIONS OF WIRELESS COMMUNICATION

 

2: AN ALL-IP 4G NETWORK ARCHITECTURE

 

3:PROVIDING QUALITY OF SERVICE

                         

           3.1: Service and Network Management in Mobile Networks

          

           3.2 :Implicit "Session" Signalling

 

4:END-TO-END QOS SUPPORT

                  

           4.1 :Registration and Authorisation

          

           4.2: Handover with QoS guarantees

         

           4.3: EF PHB resource provisioning

 

5:CONCLUSION

 

1:INTRODUCTION

 

             1.1 WIRELESS COMMUNICATION:

 

A wireless network is an infrastructure for communication “through the air”, in other words, no cables are needed to connect from one point to another. These connections can be used for speech, e-mail, surfing on the Web and transmission of audio and video. The most widespread use is mobile telephones. Wireless networks are also used for communication between computers. This note focuses on ways to set up wireless connections between computers. It gives a basic overview without becoming too technical. It will help to determine whether a wireless network might be a suitable solution. It also is a guide to more resources. Many links are to a document by Mike Jensen. The links used are examples; they are not preferred products.

 

           1.2 GENERATIONS OF WIRELESS COMMUNICATION:

 

1G: These first generation mobile systems were designed to offer a single service     that is speech.

 

2G: These second generation mobile systems were also designed primarily to offer speech with a limited capability to offer data at low rates.

 

3G: These third generation mobile systems are expected to offer high quality multimedia services and operative different environments. These systems are referred to as universal mobile telecommunication systems (UMTS) in Europe and international mobile telecommunication systems 2000(IMT2000) worldwide.

 

4G: This is user-driven, user controlled services and context aware applications. Compared to 3G ,4G has higher data rates and it has QOS which is the main criteria in 4G wireless commuication.

 

Availability of the network services anywhere, at anytime, can be one of the key factors that attract individuals and institutions to the new network infrastructures, stimulate the development of telecommunications, and propel economies. This bold idea has already made its way into the telecommunication community bringing new requirements for network design, and envisioning a change of the current model of providing services to customers. The emerging new communications paradigm assumes a user to be able to access services independently of her or his location, in an almost transparent way, with the terminal being able to pick the preferred access technology at current location (ad-hoc, wired, wireless LAN, or cellular), and move between technologies seamlessly i.e. without noticeable disruption. Unified, secure, multi-service, and multiple-operator network architectures are now being developed in a context commonly referenced to as networks Beyond-3G or, alternatively, 4G networks .

 

2 AN ALL-IP 4G NETWORK ARCHITECTURE:

 

The overall 4G architecture discussed in this paper is IPv6-based, supporting seamless mobility between different access technologies. Mobility is a substantial problem in such environment, because inter-technology handovers have to be supported. In our case, we targeted Ethernet (802.3) for wired access; Wi-Fi (802.11b) for wireless LAN access; and W-CDMA - the radio interface of UMTS - for cellular access (Fig. 1). With this diversity, mobility cannot be simply handled by the lower layers, but needs to be implemented at the network layer. An "IPv6-based" mechanism has to be used for interworking, and no technology-internal mechanisms for handover, neither on the wireless LAN nor on other technology, can be used. So, in fact no mobility mechanisms are supported in the W-CDMA cells, but instead the same IP protocol supports the movement between cells. Similarly, the 802.11 nodes are only in BSS modes, and will not create an ESS: IPv6 mobility will handle handover between cells. 1 The concepts that are presented in this paper have been developed and tested in controlled environments in the IST project Moby Dick [2] and are currently being refined.



 

This Figure depicts the conceptual network architecture, illustrating some of the handover possibilities in such network with a moving user. Four administrative domains are shown in the figure with different types of access technologies. Each administrative domain is managed by an AAAC system. At least one network access control entity, the QoS Broker, is required per domain. Due to the requirements of full service control by the provider, all the handovers are explicitly handled by the management infrastructure through IP-based protocols, even when they are intratechnology, such as between two different Access Points in 802.11, or between two different Radio Network Controllers in WCDMA. All network resources are managed by the network provider, while the user only controls its local network, terminal, and applications.

 

In Figure 1, the key entities are:

ü  A user - a person or company with a service level agreement (SLA) contracted with an operator for a specific set of services. Our architecture is concerned with user mobility, meaning that access is granted to users, not to specific terminals.

ü  A MT (Mobile Terminal) - a terminal from where the user accesses services. Our network concept supports terminal portability, which means that a terminal may be shared among several users, although not at the same time.

ü  AR (Access Router) - the point of attachment to the network, which takes the name of RG (Radio Gateway) - for wireless access (WCDMA or 802.11).

ü  PA (Paging Agent) - entity responsible for locating the MT when it is in "idle mode" while there are packets to be delivered to it [4].

 

ü  QoS Broker - entity responsible of managing one or more ARs/AGs, controlling user access and access rights according to the information provided by the AAAC System.

ü  AAAC System - the Authentication, Authorization, Accounting and Charging System, responsible for service level management (including accounting and charging). In this paper, for simplicity, metering entities are considered an integral part of this AAAC system.

ü  NMS (Network Management System) - the entity responsible for managing and guaranteeing availability of resources in the Core Network, and overall network management and control. This network is capable of supporting multiple functions:

ü  inter-operator information interchange for multiple-operator scenarios;

ü  confidentiality both of user traffic and of the network control information;

ü  mobility of users across multiple terminals;

ü  mobility of terminals across multiple technologies;

ü  QoS levels guaranties to traffic flows (aggregates), using, e.g. the EF Per Hop Behaviour (PHB);

ü  monitoring and measurement functions, to collect information about network and service usage;

 

3: PROVIDING QUALITY OF SERVICE

 

The design principle for QoS architecture was to have a structure which allows for a potentially scalable system that can maintain contracted levels of QoS. Eventually, especially if able to provide an equivalent to the Universal Telephone Service, it could possibly replace today's telecommunications networks. Therefore, no specific network services should be presumed nor precluded, though the architecture should be optimised for a representative set of network services. Also, no special charging models should be imposed by the AAAC system, and the overall architecture must be able to support very restrictive network resource usage. In terms of services, applications that use VoIP, video streaming, web, e-mail access and file transfer have completely different prerequisites, and the network should be able to differentiate their service. The scalability concerns favour a differentiated services (DiffServ) approach [5]. This approach is laid on theassumption to control the requests at the borders of the network, and that end-to-end QoS assurance is achieved by a concatenation of multiple managed entities. With such requirements, network resource control must be under the control of the network service provider. It has to be able to control every resource, and to grant or deny user and service access. This requirement calls for flexible and robust explicit connections admission control (CAC) mechanisms at the network edge, able to take fast decisionson user requests.

 

 

         3.1 Service and Network Management in Mobile Networks

 

Our approach for 4G networks and to service provisioning is based on the separation of service and network management entities. In our proposal we define a service layer, which has its own interoperation mechanisms across different administrative domains (and can be mapped to the service provider concept), and a network layer, which has its own interoperation mechanism between network domains. An administrative domain may be composed of one or more technology domains. Service definitions are handled inside administrative domains and service translation is done between administrative domains [6]. Each domain has an entity responsible for handling user service aspects (the AAAC system), and at least one entity handling the network resource management aspects at the access level (the QoS Broker). The AAAC system is the central point for Authentication, Authorization and Accounting. When a mobile user enters the network, the AAAC is supposed to authenticate him. Upon successful authentication, the AAAC sends to the QoS Broker the relevant QoS policy information based on the SLA of the user, derived from his profile. From then, it is assumed that the AAAC has delegated resource-related management tied to a particular user to the QoS Broker. However, two different network types have to be considered in terms of QoS:

     

    3.2 :Implicit "Session" Signalling

 

In this architecture, each network service being offered in the network is associated to a different DSCP code. This way, every packet has the information needed to the network entities to correctly forward, account, and differentiate service delivered to different packets. After registering (with the AAAC system) a user application can “signal” the intention of using a service by sending packets marked with appropriate DSCP. These packets are sent in a regular way in wired access networks, or over a shared uplink channel used for signalling in W-CDMA. This way of requesting services corresponds to implicit signalling, user-dependent, as the QoS Broker will be aware of the semantics of each DSCP code per each user (although typically there will be no variation on the meaning of DSCP codes between users). Thus QoS Broker has the relevant information for mapping user-service requests into network resources requirements and based on this information configures an access router.A novel concept of “session” is implemented: the concept of a “session” is here associated with the usage of specific network resources, and not explicitly with specific traffic micro-flows. This process is further detailed in section 4.

 



 

           3.3 Network services offer

 

Services will be ofered a the network operator independently on the user applications, but will be flexible enough to support user applications Each offered network service will be implemented with one of the three basic DiffServ per-hop behaviours (EF, AF, or BE), with associated bandwidth characteristics. Table 1 lists the network services used in the tests. The network services include support for voice communications (e.g. via S1) and data transfer services. Delay, delay jitter and packet loss rate are among the possible parameters to include in the future, but no specific control mechanisms for these parameters are currently used. The services may also be unidirectional or bi-directional. In fact, the QoS architecture can support any type of network service, where the only limit is the level of management complexity expressed in terms of complexity of interaction between the QoS Brokers, the AAAC systems and the AR that the network provider is willing to support.

4: END-TO-END QOS SUPPORT

 

Given the concepts described in section 3, the entities developed in the project can support end-to-end QoS, without explicit reservations at the setup time. Three distinct situations arise in the QoS architecture: i) registration, when a user may only use network resources after authentication and authorization, ii) service authorisation, when the user has to be authorised to use specific services; and iii) handover – when there is a need to re-allocate resources from one AR to another.



         4.1 :Registration and Authorisation

 

The Registration process (Figure 2) is initiated after a Care of Address (CoA) is acquired by the MT via stateless auto-configuration, avoiding Duplicate Address Detection (DAD) by using unique layer-2 identifiers [7] to create the Interface Identifier part of the IPv6 address. However, getting a CoA does not entitle the user to use resources, besides registration messages and emergency calls. The MT has to start the authentication process by exchanging the authentication information with the AAAC through the AR. Upon a successful authentication, the AAAC System will push the NVUP (network view of the User Profile) to both the QoS Broker and the MT, via the AR. Messages 1 to 4 on Figure 2 detail this process. The same picture shows how each network service is authorized (messages 5 to 8). The packets sent from the MT with a specific DSCP implicit signal the request of a particular service, such as a voice call (supported by network service S1, as in Table 1). If the requested service does not match any policy already set in the AR (that is, the user has not established a voice call before, e.g.), the QoS attendant/manager at the AR interacts with the QoS Broker that analyses the request and authorises the service or not, based on the User NVUP (Network View of the User Profile) and on the availability of resources. This authorisation corresponds to a configuration of the AR (via COPS [10]) with the appropriate policy for that user and that service (e.g. allowing the packets marked as “belonging” to voice call to go through, and

configuring the proper scheduler parameters, as we will see in section 4.3). After that, packets with authorised profile will be let into the network and non-conformant packets will restart the authorization process once more, or will be discarded.

 

          4.2: Handover with QoS guarantees

 

One of the difficult problems of IP mobility is assuring a constant level of QoS. User mobility is assured in our network by means of fast handover techniques in conjunction with context transfer between network elements (ARs - old and new – and QoS Brokers).

When the quality of the radio signal in the MT to the current AR (called “old AR”, AR1) drops, the terminal will start a handover procedure to a neighbouring AR (called “new AR”, AR2) with better signal and from which it has received a beacon signal with the network prefix advertisement. This handover has to be completed without user perception, when making a voice call, e.g.. For achieving this, the MT will build its new care-of-address and will start the handover negotiation through the current AR, while still maintaining its current traffic. This AR will forward the handover request to both the new AR and to the QoS Broker.



              

  4.3: EF PHB resource provisioning

 

Building an all-IP architecture based on a Differentiated Services introduces a problem of how to create per-domain services for transport of traffic aggregates with a given QoS. Per-domain services support data exchange by mixing traffic of different applications, therefore different aggregates are required to support delay-sensitive traffic, delay tolerant traffic, inelastic, elastic, as well as network maintenance traffic (e.g. SNMP, DNS, COPS, AAAC etc.). As applications generate traffic of different characteristics in terms of data rates, level of burstiness, packet size distribution and because the operator needs to protect the infrastructure against congestion, it is very important that aggregate scheduling will be accompanied by:

ü  per-user rate limitation performed in the ingress routers (ARs) based on user profile,

ü  dimensioning and configuration of network resources to allow for a wide range of user needs and services,

ü  resource management for edge-to-edge QoS.

                                



The basic evaluation criteria was the queuing delay and the delay jitter of EF PDB for flow S1. The SFQ algorithm exhibits the worst performance of all schedulers, especially for medium and high traffic loads on a link. A better performance exhibits the SFQ algorithm at a very low load, but it applies to average delays only. PRI, PRIs and WFQ algorithms produce comparable results. For the Moby Dick architecture we are now considering to recommend PRIs, due to its simplicity when compared to WFQ.



The PRIs limitation has yet another advantage – rate limitation does not have influence on traffic characteristics when traffic level remains within limits, and the limits can be dynamically changed without inducing abrupt delay shift. For WFQ and SFQ algorithms dynamic change of bandwidth assigned for service class changes the service rate for this class, and can cause a transient increase of delay jitter.

5 CONCLUSION:

We presented an architecture for supporting end-to-end QoS. This QoS architecture is able to support multi-service, multi-operator environments, handling complex multimedia services, with per user and per service differentiation, and integrating mobility and AAAC aspects. The main elements in our architecture are the MT, the AR and the QoS Brokers. We discussed the simple interoperation between these elements and depicted the overall QoS concept. With our approach, very little restrictions are imposed on the service offering. This architecture is currently being evolved for large testing in field trials across Madrid and Stuttgart. Being an architecture specially targeted to support real time communications over packet networks, the network elements configuration must be well dissected. The simulation study summarized in the paper was a valuable input to the QoS Broker implementation and policies design, providing simple heuristics to properly configure the access routers to achieve the best possible performance. The schedulers configuration on the core routers was also determined through the results of this simulation study. This architecture still has some shortcomings, though, mostly due to its diffserv orientation. Each domain has to implement its own plan for mapping between network service and a DSCP, and thus, for inter domain service provision, it is essential a service/DSCP mapping between neighbouring domains. Furthermore, an adequate middleware function is required in the MT, to optimally mark the packets generated by the applications and issue the proper service requests, which requires extensions in current protocol stacks.

BIBLIOGRAPHY

 

IEEE NETWORKS (NOV-DEC 2004)

 

1.      www.indiainfo.com

 

2.      www.mobyclick.org

 

3.      www.draft-ietf-mobileip.txt

 

4.      IEEE SPECIAL ISSUE ON IP BASED MOBILE TELECOMMUNICATIONS NETWORK (AUG 2000)

 

5.      www.cgarcia/articulos/artQOS

 

6.      delson.org/4g mobile/docs/4g_intro.htm

 

BCA MCA Bsc B tech CS information technology final year project




BCA Project Can be submitted by - BE, BCA, MCA, B TECH Computer Science Final Year students. IGNOU BCA, IGNOU MCA, SMU BCA, SMU MCA, B.Tech / B.E in Computer Science or Information technology, MTech, MS, BSC-IT as final year project.


7.7.1 Running your application:
Before you can run your application on the Android Emulator, you must create an Android Virtual Device (AVD). An AVD is a configuration that specifies the Android platform to be used on the emulator. You can read more in The bca project documentation  Free download MCA projects in VB,NET with complete source code document, but if you just want to get started, follow the simple guide below to create an AVD.
If you will be running your applications only on actual device hardware, you do not need an AVD — see Developing On a Device for information on running your applicaiton.



bca project documentation

7.7.2 Creating an AVD:
With ADT 0.9.3 and above, the Android SDK and AVD Manager provides a simple graphical interface for creating and managing AVDs. (If you're using ADT version 0.9.1 or older, you must use the android tool to create your AVDs—read The bca project documentation  AVD guide to Free download MCA MSc projects in C#.net with complete source codeTo create an AVD with the AVD Manager:
Select Window > Android SDK and AVD Manager, or click the Android SDK and AVD Manager icon (a black device) in the Eclipse toolbar.
In The bca project documentation  Virtual Devices panel, you'll see a list of existing AVDs. Click New to create a new AVD.
Fill in the details for the AVD.
Give it a name, a platform target, an SD card image (optional), and a skin (HVGA is default).
Click Create AVD.
Your AVD is now ready and you can close the AVD Manager. In The bca project documentation  next section, you'll see how the AVD is used when launching your application on an emulator.
For more information about AVDs, read the Free download MCA projects in JAVA with complete source code documentation.

bca project documentation  Free download MCA projects in PHP with  Complete source code,

7.7.3 Running your application:
Note: Before you can run your application, be sure that you have created an AVD with a target that satisfies your application's Build Target. If an AVD cannot be found that meets The bca project documentation  requirements of your Build Target, you will see a console error telling you so and the launch will be aborted.
To run (or debug) your application, select Run > Run (or Run > Debug) from the Eclipse main menu. The bca project documentation  ADT plugin will automatically create a default launch configuration for the project.
When you choose to run or debug your application, Eclipse will perform the following:
Compile The bca project documentation  project (if there have been changes since the last build).
Create a default launch configuration (if one does not already exist for the project).
Install and start The bca project documentation  application on an emulator or device (based on the Deployment Target defined by the run configuration).
By default, Android application run configurations use an "automatic target" mode for selecting a device target. For information on how automatic target mode selects a deployment target, see  Free download BSc CS IT projects in PHP,JAVA, ASP.NET with  source code  below.
If debugging, the application will start in The bca project documentation  "Waiting For Debugger" mode. Once the debugger is attached, Eclipse will open the Debug perspective.
To set or change the launch configuration used for your project, use The bca project documentation  launch configuration manager. See Free download MCA projects in ASP.NET with documentation for more projects


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