No full-text available
To read the full-text of this research,
you can request a copy directly from the authors.
OVERVIEW OF WIRELESS NETWORK CONTROL PROTOCOL IN SMART PHONE DEVICES
Abstract
The computer network connection without wire or any cable is referring as wireless network. These wireless local area networks are popular for its worldwide applications. It has covered wide scale wireless local area network. The large scale systems to all applicable areas make large numbers of wireless termination and covering very much area. To reduce the complexity associated with server management, Information Technology organizations begins the process of centralizing servers. It used with architecture principles of centralized management requirement for network to scale, network architecture needs to be able to support enhanced services in addition to just raw connectivity, distributed processing is required both for scalability ability and services, network support continuously increase the level of throughputs etc. Wireless LAN product architectures have evolved from single autonomous access points to systems, consisting of a centralized Access Controller and Wireless Termination Points. The basic goal of centralized control architectures is to move access control, including user authentication and authorization, mobility & radio management, from one access point to centralized controller. The Wireless network Control Protocol allows for access and control of large-scale wireless local area networks. It can allows management of these networks, Control and Provisioning of Wireless Access Points In computer networking, a wireless access point is a device that allows wireless devices to connect to wired network using Wi-Fi, Bluetooth or related standards. The WAP usually connects to a router via a wired network, and can relay data between the wireless devices such as computers or printers and wired devices on the network.
ResearchGate has not been able to resolve any citations for this publication.
This document specifies an increase in the permitted initial window for Transmission Control Protocol (TCP) from one segment to roughly 4K bytes. This document discusses the advantages and disadvantages of such a change, outlining experimental results that indicate the costs and benefits of such a change to TCP.
In the course of reviewing the MTU Discovery protocol for possible elevation to Draft Standard, a specific operational problem was uncovered. The problem results from the optional suppression of ICMP messages implemented in some routers. This memo outlines a modification to this practice to allow the correct functioning of MTU Discovery.
This document provides a taxonomy of the architectures employed in the existing IEEE 802.11 products in the market, by analyzing Wireless LAN (WLAN) functions and services and describing the different variants in distributing these functions and services among the architectural entities.
This document defines the standard algorithm that Transmission Control Protocol (TCP) senders are required to use to compute and manage their retransmission timer. It expands on the discussion in section 4.2.3.1 of RFC 1122 and upgrades the requirement of supporting the algorithm from a SHOULD to a MUST.
This document specifies the incorporation of ECN (Explicit Congestion Notification) to TCP and IP, including ECN's use of two bits in the IP header. We begin by describing TCP's use of packet drops as an indication of congestion. Next we explain that with the addition of active queue management (e.g., RED) to the Internet infrastructure, where routers detect congestion before the queue overflows, routers are no longer limited to packet drops as an indication of congestion. Routers can instead set the Congestion Experienced (CE) codepoint in the IP header of packets from ECN-capable transports. We describe when the CE codepoint is to be set in routers, and describe Ramakrishnan, Floyd, Black Proposed Standard [Page 1] draft-ietf-tsvwg-ecn-04 Addition of ECN to IP June 2001 modifications needed to TCP to make it ECN-capable. Modifications to other transport protocols (e.g., unreliable unicast or multicast, reliable multicast, other reliable unicast transport protocols) could be considered as those protocols are developed and advance through the standards process. We also describe in this document the issues involving the use of ECN within IP tunnels, and within IPsec tunnels in particular. One of the guiding principles for this document is that, to the extent possible, the mechanisms specified here be incrementally deployable. One challenge to the principle of incremental deployment has been the prior existence of some IP tunnels that were not compatible with the use of ECN. As ECN becomes deployed, noncompatible IP tunnels will have to be upgraded to conform to this document. This document is intended to obsolete RFC 2481, "A Proposal to add Explicit Congestion Notification (ECN) to IP", which defined ECN as an Experimental Protocol for the Internet Communit...
Configuration and Provisioning for Wireless Access Points (CAPWAP)
- B O'hara
- P Calhoun
- J Kempf
O'Hara, B., Calhoun, P., and J. Kempf, "Configuration and
Provisioning for Wireless Access
Points (CAPWAP)
- M Allman
- V Paxson
- W Stevens
Allman, M., Paxson, V. and W. Stevens, "TCP Congestion
Control", RFC 2581, April 1999.
- M Mathis
- J Mahdavi
- S Floyd
Mathis, M., Mahdavi, J., Floyd, S.
"TCP Selective
Acknowledgment Options",, October 1996.
- J Mogul
- S Deering
Mogul, J. and S. Deering, "Path MTU Discovery", RFC
1191, November 1990.
- M Degermark
- B Nordgren
- S Pink
Degermark, M., Nordgren, B. and S. Pink, "IP Header
Compression", RFC 2507, February 1999.
BIOGRAPHIES: 1Prof P.L.Ramteke is working as a Associate Professor & Head at Information Technology Department. He is expertise in modeling and simulation
- C Bormann
Bormann, C., "Robust Header Compression (ROHC) over
PPP", RFC 3241, April 2002.
BIOGRAPHIES:
1Prof P.L.Ramteke is working as a Associate
Professor & Head at Information Technology
Department. He is expertise in modeling and
simulation, Mobile technology and software
Engineering.
Choudhary is Professor & Heat at IT Departnet at JDIT's College of Engineering & Technology, Yavatmal.He is Ph.D. Supervisor & expert in Data Mining
- Dr
- D N Prof
Dr. Prof.D.N.Choudhary is Professor & Heat at IT
Departnet at JDIT's College of Engineering &
Technology, Yavatmal.He is Ph.D. Supervisor &
expert in Data Mining, Mobile Computing.