Portable Automated PBX System
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Date
2013
Journal Title
Journal ISSN
Volume Title
Publisher
Uva Wellassa University of Sri Lanka
Abstract
Voice over Internet Protocol (VoIP) technology lets you to use the Internet to make and receive
telephone calls. VoIP is available in a wide range of services such as free VoIP services. For
VoIP, a broadband Internet connection, plus a traditional phone and an adapter or a VoIP-
enabled phone; or VoIP software on your computer is required.
Lot of benefits can be obtained from the VoIP; such as it reduces travel and training, helping
employees stay connected to each other, reduce phone charges and have a single network for
voice and data therefore it simplifies the managing and reduce costs. Access phone system's
features at home or at client offices, in airports and hotels anywhere with a broadband
connection.
Since the phone calls are made over the Internet Protocol, the base price for VoIP is often less
than that of traditional phone lines and also it is adding new dimensions and altering business
communications in a big way. Succinctly stated, VoIP converts analog voice signals into digital
data packets to facilitate two-way transmission of conversations in real time (James A, 2010).
However equipments used to implement VoIP networks are costly. Therefore customers need to
spend more money for a branded Private Branch Exchange (PBX) system. Existing systems are
lack of mobility and portability since they are massively large to use as portable devices.
Therefore this research project was aimed to develop a system to implement portable, low cost
and automated PBX system to be used within a Local Area Network (LAN).
Methodology
System was implemented to use in Linux environment. dyanmips and dynagen servers were
used to manage the VoIP by including Analog to Digital Signal conversion and vice versa.
First one Linux distribution was installed in flash memory chip to create a portable device. Then
dynamips and dynagen servers were installed to the Linux distribution. Next, branded router
image was implemented and configured to run on the dynamips and dynagen servers to connect
with the LAN.
In the next phase of the project, separate accounts were created for each device to manage and
transfer VoIP telephony services in the configured router. Initially the system was tested with
the Software phones to check the routing. After that Analog Telephone Adapter (ATA) was
configured with the system to manage the Analog phones to take calls within a LAN by using
Session Initiation Protocol (SIP). Finally the completed system was tested for both Software
phones and the Analog phones.
Figure 1 depicts the main system flow of the implementation mainly with six modules. Call
Route System (CRT) is the place where the server (Cent OS (Linux), dynamips/dynagen and
Router) was configured. Main system configurations were configured and included in the CRT
module. Graphical User Interface (GUI) for the system router was configured in the GUI
module. All the GUI configurations can be implemented with this module. This module
provides the facility to monitor the overall system health. GUI module provides the user
friendly environment.
Digital/Analog module was used to convert Analog data to Digital data and Digital data to
Analog data. Analog Call Invoker/Receiver and Digital Call Invoker/Receiver modules were
used in the system to connect Analog Telephones and Digital Telephones respectively.
Therefore with this proposed system it is possible to use both Analog and Digital phones to
receive and invoke a call.
Description
Keywords
Computer Science, Science and Technology, Technology, Automated, Software Developing