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VCON PacketAssistTM Architecture

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Ensure that multimedia traffic does not unnecessarily clog the network. Quality of Service (QoS) ... Ensure users get the best possible audio and video quality ... – PowerPoint PPT presentation

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Title: VCON PacketAssistTM Architecture


1
VCON PacketAssistTM Architecture
2
Common IP Video Deployment Inhibitors
  • Bandwidth Management
  • Ensure that multimedia traffic does not
    unnecessarily clog the network
  • Quality of Service (QoS)
  • Ensure users get the best possible audio and
    video quality at a given data rate

PacketAssistTM
A
A
V
V
3
Adaptive Bandwidth Adjustment
Video
Audio
  • Automatically adapts to network capacity
    performance
  • Adjusts the video data rate dynamically
  • Affects both the outbound and inbound data
    streams
  • Optimizes conference quality while minimizing
    odds of network saturation

4
QoS via Differentiated Services
Router Priority Queues
Inbound Stream
Outbound Stream
  • VCON supports both IP Precedence and Diff-Serv
    standards
  • Customize personal, group or global priorities
    from MXM console

Best Effort packets (email, internet browsing,
etc)
Prioritized packets (audio, video, etc)
5
IP Precedence -vs- DiffServ
IP Precedence
DiffServ
1
0
1
1
0
1
1
1
0
DiffServ Code Point
  • 0-7 priority assignments
  • Different treatment by switches and routers as
    packets flow through the network
  • Default precedence values for audio, video and
    RTCP packets can be changed
  • Traffic aggregated into Per Hop Behaviors (PHBs)
  • Assured Forwarding - high reliability
  • Expedite Forwarding - low latency

6
QoS Benchmark Test
384K conference with IP Precedence enabled
256K link
384K conference without IP Precedence enabled
Resulting Throughput (bps)
  • 97 greater video throughput with IP Precedence
    enabled
  • Throughput samples taken each minute - result
    averaged over 20 minutes

Video
Audio
With IP Precedence
Without IP Precedence
Note VCON lab test
7
The Multi-Hop Router Effect
8
The Multi-Hop Router Effect
VCON PacketAssist corrects for these anomalies
9
Overhead Prediction
IP Overhead
  • Overhead from IP taken into account during call
    establishment
  • As a result, a 384K call should actually consume
    384K of bandwidth on the network
  • Especially valuable for network links with fixed
    bandwidth (ie. - CIR frame relay)
  • Overhead varies based on the conference data rate

Video
Audio
10
Firewall Port Synchronization
Ports configured for H.323 traffic
Full H.323 port range
65535
5000
4800
1024
Firewall
  • Firewall is configured so that H.323 traffic can
    only flow over a limited range of ports (ie.
    4800-5000)
  • VCON endpoint configured to use this same port
    range
  • This feature can also be used for traffic
    filtering and shaping based on specific ports

Configuration performed remotely from the MXM
server
11
NAT IP Address Mask
Private (non-routable) IP Address 10.0.0.5
Public (routable) IP Address 192.100.100.155
Header
Payload
NAT
  • H.323 control packets usually place the source IP
    address in both the header and the payload
  • The NAT changes the header marking when it
    translates the IP address. However, it does not
    change the payload.
  • This feature allows the user to manually enter
    their public IP address into the endpoint
    configuration

12
Maximum Packet Size Adjustment
  • Allows the administrator to change the default
    packet size for H.323 video streams (VCON
    endpoints)
  • Useful for mixed voice/video-over-IP deployments
  • In some network environments, the large default
    packet size (1500 bytes) for video can choke out
    voice traffic in the routers
  • Useful for networks with IP at the edge and ATM
    in the backbone
  • Can achieve reduced ATM overhead if the IP packet
    size is aligned with the ATM cell size

Configuration performed remotely from the M XM
server
13
QoS - Lip Sync Delay Adjustment
0
  • User can select the amount of audio latency to
    control lip sync
  • Affects the incoming stream from the remote site
  • Corrects for poor lip sync in the remote endpoint

Lip Sync Delay
- 1000ms
1000ms
Video
Video
Delay Adjustment
Audio
Audio
14
End-to-End IP Video Policy and QoS Architecture
Bandwidth limits Class of service Policy
services Least cost routing
MXM
IP Precedenceor DiffServ
IP Network/Internet
Firewall port synchronization NAT IP address mask
Adaptive B/W adjustment Packet ordering Packet
duplication control Jitter correction Lip sync on
RTP timestamp Lip sync delay adjustment Overhead
prediction Max packet size adjustment
15
Asymmetric Network Transmission
  • Examples
  • xDSL
  • Cable Modem
  • Satellite
  • UnbalancedIP Network

Upstream - 400 kbps
Downstream - 1.5 Mbps
  • Automatically adjusts the upstream and downstream
    data rates independently
  • Ideal for new last mile network topologies or
    complex IP networks

16
Thank You!
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