Internet Telephony

Current Problems and Solutions

• Current problems

  • Standard
    
    The biggest difficulty that is facing VON (Voice On the Net) technology is the interoperability between Internet telephony products and interworking with legacy PSTN-based systems and services. Currently, no two products are compatible. Users who want to make Internet phone call have to have the same kind of software. Standard development and adoption are the key to ensuring interoperability. At this time, the primary specification issues that have to be resolved are related to the codec format, the transport protocol, and directory services.

  • Quality
    
    Voice performance is measured by delay. Calls on the public switched telephone network usually exhibit 50- to 70-millisecond delay. That latency increases substantially on the Internet, where it typically ranges from 500 milliseconds (an eternity when it comes to voice traffic). So right now, some users still complain the quality when they use the Internet Telephony.

    Latency affects the pace of the conversation. Humans can tolerate about 250msec of latency before it has a noticeable effect. Today's Internet telephony products exceed this latency, so most connections sound like traditional calls routed over a satellite circuit (which are usable, but require some getting used to). Even today, the products are well suited to many applications.

  • Capacity
    
    The Internet is an open network of many different ISPs' networks. Consequently, there is no way to get network bandwidth, packet sequence and latency guarantees. One of the main parameters affecting the quality of service on the Internet is lost packets. Packet loss is a persistent problem, particularly with the increasing popularity, and therefore increasing load, of the Internet. Packet loss can occur for a number of reasons. Network congestion due to bandwidth limitation or traffic overload is the main reason. Inadequate network access links, especially local ISP connections to the Internet backbone, are already causing chronic bandwidth congestion.

    The heavy traffic loads are also straining the backbone infrastructure and leading to traffic collisions. The network overload also results in delays in packet transmission, with packets arriving too late at the receiver to be played back and are therefore, discarded. Congestion of routers and gateways also leads to packet discards. Error performance of underlying transmission paths is also an affecting factor with packet losses increasing dramatically on transcontinental links involving local ISPs and high error rate local networks. Finally, another reason for packet loss is the heavy loading of the servers leading to scheduling difficulties in multi-task operating systems. Current Internet telephony applications repair lost packets with silence, which leads to the speech clipping effects currently experienced by many Internet telephony users. Since comparatively large packets are used, even the loss of individual packets has a serious impact on the intelligibility of speech.

  • Social issues
    
    Regulation of Internet telephony is still largely a question mark. Traditionally, telephone service has been heavily regulated. In most countries, governments or government-sanctioned entities retain monopolies for provisioning telephone service. Moreover, even without the Internet, telephony service is deregulating in many countries around the world, although the deregulation process is time consuming and heavily political.

    Internet telephony has stirred fears from carriers throughout the globe, many of whom are reacting by seeking regulatory protection from the new technology. In the US, the America's Carriers Telecommunications Association (ACTA), a coalition of the smaller long distance carriers, filed a petition with the Federal Communications Commission (FCC).

    ACTA argues that the major reason Internet telephone calls are cheaper than traditional circuit-switched calls is the access charge exemption ISPs enjoy. Hence, they argue, the Internet-based providers have an "unfair" advantage in offering cut-rate long distance phone service. Fortunately for the Internet telephone industry, and the Internet industry itself, the FCC does not seem to agree.

• Solutions to current problems

  • Standard
    
    The ITU H.323 recommendation which was ratified in May of last year, defines the core technology for VON (Voice On the Net) applications. H.323 is based on the real-time protocol (RTP/RTCP) and is an extension of H.320 to include packet switched networks. H.323 is composed of a set of recommendations including G.729 specifications for audio codecs, ratified by the ITU in November 1995. The initial objective of the recommendation was to identify a voice compression algorithm that could transport voice with quality equivalent to 32 kbps ADPCM at only one-fourth of the bandwidth. The ratified standard compresses signals to 8 kbps while delivering 4 kHz speech bandwidth with toll quality. The adopted CS-ACELP algorithm meets stringent requirements and objectives such as toll quality under clean channel conditions, robust performance in the presence of random bit errors and detected erased frames. In fact, the algorithm delivers an exceptionally high level of voice quality with minimal delay and hopes are high that this state-of-the-art vocoder will be adopted by major vendors.

    H.323 also calls out T.120 for data conferencing. T.120 enables products from different vendors to interoperate without terminals assuming prior knowledge of the other systems. It specifies the network interfaces and wire formats, along with a data transmissions facility.

    As for the transport protocol, RTP is finding acceptance as the standard means of transporting time related applications over the Internet. RTP has been introduced as a new protocol layer to provide support for applications with real-time properties including timing reconstruction, loss detection, security and content identification. RTP provides a time-stamp and control mechanisms for synchronising different streams with timing properties.

    Since RTP does not address the issue of resource reservation or QoS control, it relies on the resource reservation protocol (RSVP) to provide these capabilities. Currently a draft standard protocol, the RSVP is part of various efforts to enhance the current Internet architecture with support for QoS flows to be able to handle real-time traffic more reliably. RSVP is a new signalling protocol to be implemented in Internet routers to provide for new classes of services by reserving paths for sessions on an end-to-end basis. This is achieved through three main functions, admission control, packet classification and packet scheduling. Each vendor has, however, its own strategy for performing these functions to provide the controlled load service at a first stage and the ultimate guaranteed service later. Although some vendors have already announced plans for providing telephony gateways with RSVP support, the reality is that after 13 consecutive revisions, RSVP specifications are still only a draft and testing of products and services for interoperability in public networks is still in the planning stages.

  • Quality
    
    Serveral ways are used to improve the quality:
    
    • improvements in protocols: RSVP
    • dedicated service lines with managed traffic loads
    • co-locating telephone access with backbone nodes
    • bigger routers
    • new network architechtures
    
    
  • Capacity
    
    Right now, the average routers hop number of trans-Atlantic call are 20 to 30. Since delay increase with each router hop, one solution is to increase routing speed rather than putting in more routers. People prefer the bigger routers is the solution to capacity. A gigarouter can handle at least 10 times more traffic than a conventional router.
    • Traditional routing: 500,000 - 1,000,000 packets per second
    • Gigarouting: 5,000,000 - 20,000,000 packets per second
    
    The per-packet cost of gigarouting is 3 to 4 times less than traditional routing.

  • Social issues
    
    Although there are a lot of society issues, people always encourage new technology. The trend of technology development can not be prevented by anything. More than 100 companies are involed in the develpment of Internet Telephony, including AT&T, MCI and Sprint. These long distance service giants do not regard the Internet Telephony technology as their threats but opportunities. Thinking about the supports from industry and keeping promises that encourage competitions in 1996, FCC deny the petition from ACTA and provides the offical support to Internet Telephony.

Future Developments

Right now, S.100 and other standards from the Enterprise Computer Telephony Forum are provided. They are important when building business communication platforms with integrated IP phone capability. Nearly 75% of U.S. companies already have or plan to incorporate intranets, according to Business Research Group (Newton, Mass.). So it can be forseen that in the near future, the Internet Telephony will work with Intranet together. It will come to most emploees' desk and everybody will familiar with them.

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Products

The Top VON Products of 1996 are:


	Internet Telephony	Points	URL
1	VocalTec Internet Phone	(1176)	http://www.vocaltec.com
2	TeleVox	( 316)	http://www.voxware.com
3	NetMeeting	( 314)	http://www.microsoft.com/netmeeting
4	Intel Internet Video Phone	( 216)	http://www.intel.com
5	CU-SeeMe, http://www.wpine.com	( 202)	http://www.wpine.com
6	CoolTalk	( 173)	http://www.netscape.com
7	WebPhone	( 169)	http://www.netspeak.com
8	FreeTel	( 135)	http://www.freetel.com
9	VDOPhone	( 111)	http://www.vdo.net
10	Net2Phone	( 107)	http://www.net2phone.com




• Internet Telephony Software

• Windows Clients

  • Speak Freely (John Walker)
    http://www.fourmilab.ch/netfone/windows/speak_freely.html
  • Internet Phone (VocalTec)
    http://www.vocaltec.com/
    
  • Powwow (Tribal Voice)
    
  • http://www.tribal.com/
    
  • Televox (Voxware)
    
  • http://www.voxware.com/
    
  • Internet Call
    
  • http://www.gathertalk.com/
    
  • Softphone (SilverSoft)
    
  • http://www.pak.net/
    
  • Webphone (Internet Telephone Company)
    
  • http://www.itelco.com/
    
  • Farsite (databeam)
    
  • http://www.databeam.com/Products/FarSite/
    
  • PGPfone (MIT)
    
  • http://web.mit.edu/network/pgpfone/
    
  • CoolTalk (Netscape/Insoft)
    
  • http://live.netscape.com/
    
  • Microsoft NetMeeting
    
  • http://www.microsoft.com/ie/
    
  • Internet Conference (Insitu)
    
  • http://www.insitu.com/
    
  • Precept Software, Inc.
    
  • http://www.precept.com/
    
  • IRIS Phone
    
  • http://alpha.acad.bg/
    
  
  

• Mac Clients

  • PGPfone (MIT)
    
  • http://web.mit.edu/network/pgpfone/
    
  
  

• Unix Clients

  • Nautilus Secure Phone
    
  • http://www.lila.com/nautilus/
    
  • Vat
    ftp://cs.ucl.ac.uk/mice/videoconference/vat/
    
  • Mtalk (Linux)
    
  • ftp://sunsite.unc.edu/pub/Linux/apps/sound/talk/
    
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References

• Telecommunications Magazine (International Edition)
  http://www.telecoms-mag.com/
  A good magazine worthy to be read every month.
  
  
• Pulver, Jeff, 1962-, "The Internet telephone toolkit", New York: J. Wiley & Sons, c1996, LCCN: 96017987.
  A easy read book on toolkit.
  
  
• Bezar, David D., "LAN times guide to telephony", Berkeley: Osborne McGraw-Hill, c1995, LC NO: TK6401 .B49 1995.
  An overview on Internet Telephony topic.
  
  
• Bucholtz, Chris, "Embracing Internet telephony", Telephony. V231 n24 Dec 9 1996. 4pp
  This paper introduces the development trends in this field.
  
  
• Low, C., "Internet telephony red herring", HP Laboratories Technical Report. n 96-98 Jun 1996. p 1-15.
  
  

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Last Modified: August 12, 1997