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FINAL YEAR PROJECTS IEEE PROJECTS 2013-2014 CONTACT: 9940098300, 9500075001 E-Mail:zebrosprojects@gmail.com
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : zebrosprojects@gmail.com mob: 99400 98300,9500075001
ZEBROS PROJECTS SWITCHED ETHERNET-BASED REAL-TIME NETWORKED CONTROL SYSTEM WITH MULTIPLE-CLIENT–SERVER ARCHITECTURE ABSTRACT This system experimentally verifies that a multiple client–server architecture based on switched Ethernet can be used as a real-time communication standard for possible applications in factory automation, by observing the effects of packet delays, network congestion, and packet loss on the performance of a networked control system (NCS). The NCS experimental setup used in this research involves real-time feedback control of multiple plants connected to one or more controllers over the network. A multi-client–multi server (MC–MS) architecture on a local area network (LAN) was developed using user datagram protocol as the communication protocol. In the singleclient–single-server (SC–SS) system, as the Ethernet link utilization increased over 82%, the average packet delays and steady-state error of a dc motor speed-control system increased by 2231% and 304%, respectively. As the link utilization increased beyond the threshold, employing an additional server in the NCS reduced average packet delays and also overcame the negative effects of Ethernet’s flow control mechanism. The MC– MS architecture is tested with artificially generated random packet loss. The standard deviation of steady-state error (SSE) at 80%utilizationwith packet loss is found to be 70.2% less than SC–SS and 200% less than multi-client–single server architecture. The MC–MS architecture remained stable till 70% of control or measurement packet loss.
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : zebrosprojects@gmail.com mob: 99400 98300,9500075001
ZEBROS PROJECTS DESCRIPTIONS In this system, a similar switched Ethernet network is used. Although previous researchers, found a switched network to be more effective than conventional Ethernet, in this system we present an in-depth experimental analysis by comparing three types of switched network architecture under varying network load and packet loss conditions. It is found that MC–MS architecture performed better with the lowest packet delays and standard deviation of SSE. The performance of a network is measured in various factors such as average delay, throughput, channel capacity, stability, and fairness. It is important to differentiate these performance measures with respect to different types of networks. For example, in a real-time system, average delay and network load may be the most important performance measures whereas in a non-real-time system, throughput and channel capacity may be more important. The performance measures studied in this research are average delay (Tav), and Ethernet link utilization. It is worthwhile to clarify that in a switched Ethernet network, the load on the network translates to the communication load on the link between a client, switch and a server. This network load is amply accounted through the Ethernet link-utilization parameter. Throughput is defined as the amount of bandwidth available for a network application during a given time and this is complementary to the measured link utilization.
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : zebrosprojects@gmail.com mob: 99400 98300,9500075001
ZEBROS PROJECTS BLOCK DIAGRAM
CONTACT: ZEBROS PROJECTS PHONE: 9940098300, 9500075001 ADVANTAGES
Low cost
High speed
Low power consumptions
Less noise
APPLICATIONS
Industrial applications
Wind mills applications
ZEBROS PROJECTS SOFTWARE BASED
HARDWARE BASED
Networking
VLSI
Data Mining
Mat lab
Grid Computing
Robotics
Network Security
Embedded
Image Processing
Bio Medical
Web Applications
Power Systems
Mobile Computing
Power Electronics
Software Engineering
Java with Embedded
Cloud Computing
Android
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : zebrosprojects@gmail.com mob: 99400 98300,9500075001
ZEBROS PROJECTS What is IEEE? The Institute of Electrical and Electronics Engineers or IEEE (read eye-triple-e) is Incorporated in the State of New York, United States. It was formed in 1963 by the merger of the Institute of Radio Engineers (IRE, founded 1912) and the American Institute of Electrical Engineers (AIEE, founded 1884). A membership organization comprised of engineers, scientists and students that sets standards for computers and communications. It is a nonprofit organization with more than 365,000 members in around 150 countries. The IEEE describes itself as "the world's largest technical professional society -promoting the development and application of electro technology and allied sciences for the benefit of humanity, the advancement of the profession, and the well-being of our members." Why IEEE based projects?
It grantees for standard It assured latest solution for problems It delivers new patented technologies at an ever-increasing pace
It access world-class technical information provided by the IEEE and cut down your research time.
OUR FEATURES
24*7 Call Support Project Execution through Remote System 20 Days Technical classes taken by Corporate Trainer Unlimited Project & Technical Support through your academic Project software Installation support
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : zebrosprojects@gmail.com mob: 99400 98300,9500075001
ZEBROS PROJECTS PROJECT SUPPORT 0th Review
Abstract Existing System Disadvantages Proposed System Advantages Objective System Requirements System Architecture 2nd Review
Use case Diagram Class Diagram Collaboration Diagram Sequence Diagram Activity Diagram Testing & test cases Partial Code Screenshot for First two module Review Document Explanation Final Review
1st Review
Literature Survey Module List Module Description Data Flow Diagram Level DFD Module Wise DFD Problem Definition Review Document Explanation 3rd Review
Conclusion References Future Enhancement 65% code (Executable Format) Required Software Review Document Explanation
Complete Code with Enhancement Final Document (University Standard Format) Complete Explanation for Project Concept & Code
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : zebrosprojects@gmail.com mob: 99400 98300,9500075001