1Md. Alam Hossain, 1Mohammad Nowsin Amin Sheikh,2,*Shawon S. M.
Rahman, 1
Sujan Biswas, and 1Md. Ariful Islam Arman
1Dept. of Computer Science & Engineering, Jessore University of Science and
Technology, Jessore, Bangladesh
2Associate Professor, Dept. of Computer Science & Engineering, University of HawaiiHilo,
200 W. Kawili Street, Hilo, HI 96720, USA
ABSTRACT
Software Defined Networking (SDN) is a challenging chapter in today’s networking era. It is a network
design approach that engages the framework to be controlled or 'altered' adroitly and halfway using
programming applications. SDN is a serious advancement that assures to provide a better strategy than
displaying the Quality of Service (QoS) approach in the present correspondence frameworks. SDN
etymologically changes the lead and convenience of system instruments using the single high state
program. It separates the system control and sending functions, empowering the network control to end up
specifically. It provides more functionality and more flexibility than the traditional networks. A network
administrator can easily shape the traffic without touching any individual switches and services which are
needed in a network. The main technology for implementing SDN is a separation of data plane and control
plane, network virtualization through programmability. The total amount of time in which user can
respond is called response time. Throughput is known as how fast a network can send data. In this paper,
we have design a network through which we have measured the Response Time and Throughput comparing
with the Real-time Online Interactive Applications (ROIA), Multiple Packet Scheduler, and NOX.
KEYWORDS
Software Defined Networking, SDN, Quality of Service, QoS, Real-time Online Interactive Application,
ROIA, Network Operating System, NOX, CES, MPLSTE, Switch Capacity, Number of Queues Impact, QoE
Evaluation, Bandwidth Isolation.
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