19-04-2011, 03:45 PM
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Abstract:-
The Voice-Over Internet Protocol (VoIP) technology allows the voice information to pass over IP data networks. This technology results in huge savings on the amount of physical resources required to communicate by voice over long distance. It does so by exchanging the information in packets over a data network.
The basic functions performed by a VoIP include – signalling, data basing, call connect and disconnect, and coding/decoding. The steps involved in originating and internet telephone call are the conversion of the analogue voice signal to digital format and compression/translation of the signal into internet protocol (IP) packets for transmission over the internet; the process is reversed at the receiving end. VoIP software’s like Vocal TEC or Net 2 Phone are available for the user. With the exception of phone to phone, the user must posses an array of equipment which should at minimum include VoIP software, an internet connection, and a multimedia computer with a sound card, speakers, a microphone and a modem.
The VoIP network acts as a gateway to the existing PSTN network. This gateway forms the interface for transportation of the voice content over the IP networks. Gateways are responsible for all call origination, call detection, analogue to digital conversion of voice, and creation of voice packets.
Introduction:-
The development of very fast, inexpensive microprocessors and special-purpose switching chips, coupled with highly reliable fibre-optic transmission systems, has made it possible to build economical, ubiquitous, high-speed packet-based data networks. Similarly, the development of very fast, inexpensive digital signal processors (DSPs) has made it practical to digitise and compress voice and fax signals into data packets. The natural evolution of these two developments is to combine digitised voice and fax packets with packet data, creating integrated data-voice networks. The voice-over-Internet protocol (VoIP) technology allows voice information to pass over IP data networks. Primarily, the cost savings that accrue from operating a single, shared network have motivated this convergence of telecommunications and data communications working in the diagram given below :
This short note offers a quick overview of voice communications using internet technology to carry the voice signal. The purpose is to assist a public policy decision
maker who wishes to understand some of the current debate regarding VoIP. The main
point is: the phrase voice over internet protocol (VoIP) is deceptively simple. VoIP
refers to dozens of activities that differ greatly in their quality, cost, and relationship to
traditional regulatory boundaries.
VoIP Technology in a Nutshell
Data communications over the Internet relies on dozens of protocols—rules defining the
required steps for a communications task. For example, part of the protocol for telephone
calls includes (1) waiting for dial tone before dialing and (2) the different sounds that
indicate that the called telephone is either ringing or busy. The internet protocol (IP) is
the basic protocol at the heart of the Internet. An IP message is the data communications
equivalent of a postcard—it carries the recipient’s and sender’s addresses, a block of data,and little else. Other protocols, such as TCP and HTTP, build on IP to create additional capabilities.
IP is a flexible building block—it has become the data communications equivalent of
2by4s and plywood—one can build anything using IP. IP is often used for communications that never touch the Internet—such as communications between a
computer and a nearby printer or communications within an organization’s private
network.
Naturally enough, one kind of data that can be carried by IP is digitally encoded voice.
Thus, voice over IP or VoIP. But, VoIP is not just one thing—it is many different things.
The differences arise from many sources, including the nature of the network used to
carry VoIP, the terminal equipment used to generate the VoIP signals, and the software
used to provide the VoIP connection.
Network Differences
Using VoIP over an unreliable network or a network with excessive delay results in poor
voice quality. In contrast, VoIP over an uncongested, minimal-delay network can
provide voice quality as good as (or even better than) that provided by traditional
telephone networks.
VoIP connections over the public Internet encounter a wide range of network conditions.
Sometimes such connections work well; other times they perform poorly.
VoIP over a network designed and operated to provide high-quality connections, such as
a corporate data network or a lightly used local area network, provides connections that
sound just as good as traditional telephone service. Similarly, if a telecommunications
carrier chooses to use VoIP in providing telephone service, the carrier can manage its
network so that voice quality matches that of traditional telephone service.
Terminal Equipment Differences
The terminal equipment used with VoIP connections affects the speech quality and
calling experience. At one extreme is the home computer with a microphone and
speakers. Generally speaking, these systems provide poor speech quality because of
problems with echoes and volume adjustment. Replacing the speaker and microphone
with a headset alleviates many of these problems.
The other extreme is a telephone designed to plug into an Ethernet local area network.
Cisco sells the Cisco IP Phone 7970G, shown in the figure below.
This unit is hearing aid compatible, and the dial pad meets ADA requirements.3 It can be
used as a PBX extension with no VoIP connection to the outside world, or it can connect
over a data network to other VoIP phones.
Between these two extremes is the integrated access device—an adapter that allows a
traditional phone to appear to a data network as a VoIP device.
Software Differences
VoIP software can be specialized for telephone-like conversations, or it may have a voice
capability that is only incidental to its primary purpose. AOL’s Instant Messenger
software has a talk button. Selecting the talk button with the mouse and clicking on it
begins the process of establishing a voice connection in parallel with an existing text chat
session. As far as I can tell, hardly anybody uses this capability of AOL Instant
Messenger but it may be a valuable option for individuals that have difficulty reading.
Microsoft sells a combined hardware/software product called Microsoft Sidewinder
Game Voice that provides both the ability to use voice commands to control computer
games and a voice communications capability among the players of a multiplayer game.
That voice capability permits groups of players to coordinate attacks on other players and
allows players to taunt their opponents.
The Cisco phone described above contains software that permits it to function like a
traditional telephone with voice mail, selectable ring tones, etc.
Gateways and Telephone Numbers
For many VoIP applications such as voice communications among the players of a
computer game, there is no need for connections to the traditional telephone network.
But VoIP applications that provide telephone service need the ability to connect to the
existing public switched telephone network (PSTN). The connecting points, which allow
traffic to flow between the VoIP network and the PSTN, are called gateways. Gateways
allow VoIP telephones to receive calls dialed to telephone numbers and permit VoIP
telephones to place calls to traditional telephones. That is, a gateway permits a telephone
number to be associated with a specific VoIP user. Gateway service is not a built-in
element of Internet service. Rather, gateway service is usually purchased separately from
suppliers such as Vonage or BellSouth.
Examples of Uses of VoIP
The discussion above provides some examples of VoIP use—such as that by computer
gamers to enhance their game playing or as part of AOL Instant Messenger.
Microsoft’s Windows Messenger software provides voice, video, whiteboard, program
sharing, file sharing, and text chat capabilities to users with compatible software and
connected by an appropriate network such as the public Internet or a private corporate
network. Windows Messenger is provided with the Windows XP operating system and is
also available for the Apple Macintosh. Thus, the vast majority of desktop computers
have installed on them software that provides voice communications over the Internet.
Hardly anybody uses those capabilities today.
Vonage provides a VoIP service that resembles traditional telephone service. However,
uses must “bring their own access.” That is, Vonage provides gateway service, but
Vonage’s customers must arrange for their own access to the public Internet.5 Calls are
carried over the public Internet from the user’s premises to the Vonage Gateway.
Vonage customers have phone numbers and can make calls to and receive calls from
traditional telephones.
In December 2003, Cox Cable began providing voice telephone service in Roanoke,
Virginia, using VoIP technology. In the Roanoke system Cox Cable provides the access
connection, using cable modems, as well as providing the gateway.6 The service
connects to the existing inside wiring in the home and is intended to appear to the
consumer as a direct substitute for the telephone service provided by the local telephone
company. The Cox Cable service uses the customer’s own telephones and provides
common telephone services such as call waiting, caller ID, and 911 service.