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Class #14. Chapter 14 - Convergence of Voice, Video, and Data. Convergent Systems Objectives. In this section, you will learn to: Identify terminology used to describe applications and other aspects of converged networks Describe several different applications available on converged networks
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Class #14 Chapter 14 - Convergence of Voice, Video, and Data
Convergent Systems Objectives In this section, you will learn to: • Identify terminology used to describe applications and other aspects of converged networks • Describe several different applications available on converged networks • Outline possible VoIP implementations and examine the costs and • benefits of VoIP • Explain methods for encoding analog voice or video signals as • digital signals for transmission over a packet-switched network • Identify the key signaling and transport protocols that may be • used with VoIP • Understand Quality of Service (QoS) challenges on converged net-works and discuss techniques that can improve QoS
Terminology • Voice over IP (VoIP) - the use of any network (either public or private) to carry voice signals using TCP/IP. • Voice over frame relay (VoFR) - the use of a frame-relay network to transport packetized voice signals • Voice over DSL (VoDSL) - the use of a DSL connection to carry packetized voice signals • Fax over IP (FoIP) - uses packet-switched networks to transmit faxes from one node on the network to another.
Voice Over IP (VoIP) • The use of packet-switched networks and the TCP/IP protocol suite to transmit voice conversations. • Reasons for implementing VoIP may include: • To improve business efficiency and competitiveness • To supply new or enhanced features and applications • To centralize voice and data network management • To improve employee productivity • To save money
VoIP and Traditional Telephones • Techniques for converting a telephone signal from digital form include: • Using an adapter card within a computer workstation. • Connecting the traditional telephone to a switch capable of accepting traditional voice signals, converting them into packets, then issuing the packets to a data network. • Connecting the traditional telephone to an analog PBX, which then connects to a voice-data gateway to convert the signals.
VoIP and IP Telephones • Popular features unique to IP telephones include: • Screens on IP telephones can act as Web browsers, allowing a user to open HTTP-encoded pages and, for example, click a telephone number link to complete a call to that number. • IP telephones may connect to a user’s personal digital assistant (PDA) through an infrared port, enabling the user to, for example, view his phone directory and touch a number on the IP telephone’s LCD screen to call that number. • If a line is busy, an IP telephone can offer the caller the option to leave an instant message on the called party’s IP telephone screen.
Vidoeconferencing • The real-time transmission of images and audio between two locations. • Video streaming - the process of issuing real-time video signals from a server to a client. • Video terminals - devices that enable users to watch, listen, speak, and capture their image. • Multipoint control unit (MCU) - also known as a video bridge, provides a common connection to several clients. Also known as a conferencing server.
Unified Messaging • A service that makes several forms of communication available from a single user interface. • The goal of unified messaging is to improve a user’s productivity by minimizing the number of devices and different methods she needs to communicate with colleagues and customers.
VoIP Over Private Networks cont’d • Characteristics that make a business particularly well-suited to running VoIP over a private network include: • A high number of telephone lines (for example, more than 100) • Several locations that are geographically dispersed across long distances (for example, over a continent or across the globe) • A high volume of long-distance call traffic between locations within the organization • Sufficient capital for upgrading or purchasing new CPE, connectivity equipment, LAN transmission media, and WAN links • Goals for continued network and business expansion
VoIP Over Public Networks • To carry packet-based traffic, common carrier networks incorporate the following: • Access service - provides endpoints for multiple types of incoming connections. • Media gateway service - Translates between different Layer 2 protocols and interfaces. • Packet-based signaling - Provides control and call routing. • Signaling gateway service - Translates packet-based signaling protocols into SS7 signaling protocol and vice versa. • Accounting service - Collects connection information, such as time and duration of calls, for billing purposes. • Application service - Provides traditional telephony features to end-users.
Cost-Benefit Analysis • The major costs involved in migrating to and supporting a converged network include: • Cost of purchasing or upgrading CPE, connectivity devices and transmission media for each location • Cost of installation services and vendor maintenance • Cost of training technical employees and other staff • Recurring cost of new or expanded connections • Cost of transmitting voice and data, if part of the connection fees are usage-based
Cost-Benefit Analysis, cont. • Potential economic gains of converged network can be estimated by taking into account the following: • Bypassing common carriers to make long-distance calls, thus avoiding tolls • Consolidating traffic over the same connections, which leads to reducing or canceling PSTN or leased-line connections • Providing employees with more efficient tools and means of communication • Increased productivity for mobile employees
Waveform Codecs • G.711 - known as a waveform codec because it obtains information from the analog waveform, and then uses this information to reassemble the waveform as accurately as possible at the receiving end. • G.723 - uses a form of PCM known as differential pulse code modulation (DPCM). In DPCM, the codec samples the actual voice signal at regular intervals. • DPCM codecs - work well with human speech because, within very short time spans, our speech patterns are predictable. • Adaptive differential pulse code modulation (ADPCM) G.726 - in this codec, not only do the nodes base predictions on previously-transmitted bits, but they also factor in human speech characteristics to recreate wave-forms. • Vocoder G.729 - Apply sophisticated mathematical models to voice samples, which take into account the ways in which humans generate speech. reduces its throughput requirements by suppressing the transmission of signals during silences. • Can operate over an 8-Kbps channel. • Requires only moderate DSP resources and results in only moderate delays. • Hybrid Codecs (G.728) Incorporate intelligence about the physics of human speech to regenerate a signal. Hybrid codecs use lower bandwidth than waveform codecs, but provide better sound quality than vocoders.
Convergent Systems Summary • VoIP can improve efficiency and competitiveness, supply new or enhanced features and applications, and centralize voice and data network management. • Fax over IP (FoIP) is commonly implemented according to either the ITU T.37 or T.38 standard. • Call centers are good candidates for converged networks. • Codecs convert analog voice signals into digital form.
Assignments • Review Questions (chap14) 1-25
End of Class Quiz • What is the difference between VoIP and Internet Telephony? • On a private VoIP, what device determines how a call should be routed? • What is 1 drawback to the store-and-forward method of FoIP? • What type of device is required for multiple clients to tap into the same video stream issued from one video server? • When you view a video on the Web, what type of video service are you using?
