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Table of Content
Introduction: what is a Media Gateway ? Operation principles Related standard Performance issues Problems in performance measurements Experiment environment Tests and results Others: quick market analysis Conclusion
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What is a media Gateway ?
Media Gateway :translation unit between disparate telecommunications networks such as PSTN Next Generation Networks 2G, 2.5G and 3G radio access networks PBX
Media Gateways enable multimedia communications across Next Generation Networks over multiple transport protocols such as ATM and IP
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Operation principles
A couple translating and linking different protocols and technologies: Gatekeeper or Media Gateway Controller (MGC)
deals with the signaling Media Gateway (MG)
deals with the data/voice
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Related standards : signaling protocols Signaling protocol between an MGC and gateways :
ITU-T Rec. H.323. This is employed where all network elements (NEs) have software intelligence.
SIP (Session Initiation Protocol, Ref. 2) is used when the end devices have software intelligence and the network itself is without such intelligence.
MGCP (media gateway control protocol) is another gateway control protocol.
MEGACO (ITU-T Rec. H.248, Ref. 13) is a gateway control protocol applicable when end devices are without software intelligence and the network has software intelligence.
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Related standards : voice codecs
The terminals may have different capabilities. That’s why we need a negotiation about terminal compatibility.
PCM, ADPCM, LPC, AMR, A-CECP,G.7xx H.245 is used to negotiate service
capabilities between terminals and gateway controllers
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Related standards : terminations on a GW Terminations are logical entities on a GW:
Analog telephone line Digital telephone (64 Kbps) T1 trunk line (1.544 Mbps) E1 (2.048 Mbps) RTP (VoIP)
Example of Cisco T1 card interface (RJ48 port)
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Performance analysis
Reference Paper A Study of IP Network Impairments Impact on
Media Gateway Performance Sherry Wang, Luis Nieto, Edward Zielinski Next Generation Networks, Bell-Labs, Lucent Technologies
Ask one question : Can voice quality be guaranteed in a connectionless and
best effort data network ?
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Performance issues
A GW involves many complex processes: packetization / depacketization of voice frames jitter smoothing delay error treatment (lost packets)
If Quality of Service (QoS) engineered IP network is available, the GW is a bottleneck
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Problems in performance measurements Voice quality is defined as the qualitative and quantitative
measurement of the sound and conversation quality. Subjective !
Mean Opinion Score (MOS) Gives a subjective opinion score expensive in terms of time and human efforts
Perceptual Speech Quality Measurement (PSQM)
defined by ITU-T Recommendation P.861 Repeatable Objective Reasonably inexpensive
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More about PSQM
PSQM compares an original voice signal to a received copy of this signal
PSQM measures the dissimilarity of the received signal to the original signal from human auditory perceptions.
A lower PSQM score implies higher similarity between two signals (good !). The score of zero corresponds to equality of two signals to the human ear (excellent !).
Big PSQM score -> bad !
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Experiment environment
Performance measurement tools (acts as2 terminals)
IPNetwork
(can simulateImpairments)
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Experiment environment
G.711 vocoder was used through out this study The choice of the number of voice frames per IP
packet is a trade off between a fast delivery and network bandwidth efficiency. In this study, 10ms voice frame per RTP packet was used as recommended by the manufacture.
An adaptive jitter buffer was used to accommodate jitter smoothing and reduce delay at the same time.
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Tests
1st: Analog communication: only switch 2nd: Analog and IP communication (using
switches and gateways) in ideal IP network condition
3rd: 2 with impaired IP network Delay Jitter Packet Loss
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Theory for IP Network Delay Impact (on Voice Quality) The end-to-end delay or the speech latency
can be summarized as a function of gateway performance g IP network hop behavior h
• Dpkt is packet-processing delay• Th is transmission delay• Qh is queuing delay• Ph is propagation delay
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Theory 2
The hop behavior is replaced by a fixed delay D(i) generated by the IP network emulator.
D(i) is a constant in ith test, i = 1, 2...
• N is the number of frames per packet –constant in this study-• f is the frame size
C was measured at approximately 26.5msthat is about 6ms in switch and about 10ms in each gateway
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Results for IP Network Delay Impact (on Voice Quality)
D(i) was selected from 10ms to 70ms with 10ms increments.
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Theory for IP Network Delay Variation Impact (on Voice Quality) Quality is affected by not only the end-to-end delay,
but also the delay variation = jitter gateway jitter: J(di, ji)
where di is a probabilitydistribution ji is an average jitter value in ms for the ith test.
A uniform distribution and an Internet distribution were used.
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Theory 2
An adaptive jitter buffer is used in a gateway to effectively smooth out jitter without introducing too much delay
Speech latency is affected if Jitter exceeds buffer capacity Jitter triggers buffer adaptations frequently
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Theory of IP Network Packet Loss Impact Voice quality, in terms of intelligibility, is
directly affected by packet loss. Two types of packet loss can occur: Single-packet loss: occasional bit error on the
transmission facility Consecutive packet losses: due to traffic
congestion We will see which one is worst
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Others: Market analysis
Cisco Systems is the leader for general VoIP network equipment
Huawei is the current market leader for media gateway port shipments for 2005
With a projected increase of over 300% in the next 5 years and a total world market of over $8.7 Billion, demand for Media Gateways signal the accelerating transition from PSTN to VoIP
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Conclusion
The network delay affects only the conversation quality, not the voice quality This is achieved through an optimal selection of a jitter buffer size
and a packet drop rate in a gateway The burst packet loss is more detrimental to voice quality than
the single-packet loss What is missing in this presentation:
Codec comparison and their echo cancellation capability
From a network-service provider’s perspective, simple system configurations and consistent parameter settings are desirable features of a gateway and of other network components for a speedy VoIP network deployment.
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