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Cisco TelePresenceApplication
Tomáš Horák, CCIE # 11783Systems EngineerEmail/XMPP: tohorak@cisco.com
Cisco Confidential 2© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Agenda
Cisco TelePresence
Traffic Characteristics
Inter-Company TelePresence
Application for education and research community
Cisco Confidential 3© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Endpoints InfrastructureCloud Services
Any to Any Interoperability
Complete Portfolio Scalable and
ComprehensiveReliable, Secure and Global Reach
Architecture
Experiences Solutions Applications
Cisco TelePresence PortfolioIntegrated Architecture
Cisco Confidential 4© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
CTS 1300
Profile Dual 65
C90
C60
HealthPresenceVirtual
Classroom
C40
CTS Series
Profile Series
Profile 65
Profile Dual 52
Profile 52
Profile 42
C20 Quick Set
MXP Edge
Live Desk Active Collaboration
Room
Collaboration
WebEx OneTouch
CTS1100
Exec Conf. Room
CTS500
Exec Office
EX90
Desktop Appliance
1700
Desktop Appliance
Movi
HD PC Mobility
9900 SeriesE20
IP Video Telephony
Te
leP
res
en
ce
Ex
ten
sio
ns
CTS 3010
CTS 3210
T3
CTS Series
T Series
T1
14, 18 seat configurations
6 Seats
6 Seats
2 Seats
T3
Custom
CTS Custom
Immersive PersonalMultipurpose Solution Platforms
Integrators
Vertical
Horizontal
Quick Sets
MXP
Cisco TelePresenceCombined Endpoint Portfolio
Cisco Confidential 5© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Architectural design for solutions and applications
Comprehensive integrated solutions
Call & Session Control
Media ServicesMedia Switching
Management
Comprehensive Cisco
TelePresence session
control via a complete
set of capabilities for
intra- and inter-
company
collaboration.
Network-delivered media
experiences such as
multipoint, recording,
streaming, transcoding,
video analytics and
tagging.
Any-to-any interoperability
via multiple capabilities.
Industry-leading
switching capabilities
for large and scalable
multipoint meetings
with security.
Complete management
with integrated
scheduling, network and
element management
and
reporting capabilities,
including ROI tools.
Cisco TelePresenceCombined Infrastructure Portfolio
Cisco Confidential 6© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Interoperability Cisco TelePresence Server - HD Interop – User Experience
Cisco Confidential 7© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Interoperability
Everyone, Everywhere
Simplicity
Quality
Intercompany
One ArchitectureCombining the best of both worlds
•Full native interoperability with backwards compatibility
•Extensive B2B options in addition to leading exchange platform•Integration with broader Cisco
Medianet platform
Feature ParityIntegrating features across portfolio
•One Button to Push simplicity•Adhoc flexibility
•Full support for industry-leading multipoint solutions with ActivePresence usability
•Webex and collaboration tools
InnovationLeading the industry forward
•Next gen multipoint solutions with both switching and transcoding
•Simplified call control•Absolute endpoint immersion •Driving industry standards
•New collaboration devices and tools
TelePresence Direction for the Future
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco ConfidentialPresentation_ID
TelePresenceTraffic Characteristics
Cisco Confidential 9© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Traffic CharacteristicsResolution
2,073,600 pixels per frame
x 3 colors per pixel
x 1 Byte (8 bits) per color
x 30 frames per second
= 1.5 Gbps per screen uncompressed !
1920 lines of Vertical Resolution (Widescreen Aspect Ratio is 16:9)1
08
0 lin
es o
f H
orizo
nta
l R
eso
lutio
n
Compressed to 4 Mbps per screen
> 99% compression ratio!
Cisco Confidential 10© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
4,000 + 20% for Layer 2-4 overhead 4,800
704 + 20% for Layer 2-4 overhead 845
Audio 704 + 20% for Layer 2-4 overhead
Video 64 + 20% for Layer 2-4 overhead
Audio 304 + 20% for Layer 2-4 overhead
Video 64 + 20% for Layer 2-4 overhead442
SD Interoperability
WebEx OneTouch
922
Optional Add-On Features (kbps)
30fps Auto Collaborate
CTRS Recording in CIF
1080p 1080p 1080p 720p 720p 720p 720p
Best Better Good Best Better Good Lite
4000 3500 3000 2250 1500 1000 936
64 64 64 64 64 64 64
500 500 500 500 500 500 100
64 64 64 64 64 64 64
4628 4128 3628 2878 2128 1628 1164
4756 4256 3756 3006 2256 1756 1292
+ 20% for Layer 2-4 overhead
Single Screen Systems max bandwidth (kbps) Tx 5,554 4,954 4,354 3,454 2,554 1,954 1,397
includes Layer 2- 4 overhead Rx 5,707 5,107 4,507 3,607 2,707 2,107 1,550
Total Audio and Video (kbps)
Resolution
Motion Handling
6,307
Maximum Bandwidth Consumption Kilobits Per Seconds (kbps)
Auto Collaborate Audio channel (kbps)
11,707 9,007
Triple Screen Systems
Triple screen systems max bandwidth (kbps)
Single Screen Systems
11256 9756 7506 3756
4,507
5256
Auto Collaborate Video channel
Video per Screen (kbps)
Audio per Microphone (kbps)
15,307 13,507
Total Audio and Video (kbps)
includes Layer 2- 4 overhead
12756
Cisco TelePresence Traffic Characteristics Max Bandwidth Consumption Per Second
Not Applicable to 720p Lite
Cisco Confidential 11© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Traffic Characteristics Average Call vs. Max Consumption
Meg
ab
it
second
15Mbps
11Mbps
“Average Call” Bandwidth Consumption Per Second
Resolution 1080p 1080p 1080p 720p 720p 720p 720p
Motion Handling Best Better Good Best Better Good Lite
CTS-500/1X00 average bandwidth (Mbps) includes Layer 2- 4 overhead
4 Mbps 3.5 Mbps 3 Mbps 3 Mbps 2.5 Mbps 1.5 Mbps 1 Mbps
CTS-30X0/32X0 average bandwidth (Mbps) includes Layer 2- 4 overhead
11 Mbps 10 Mbps 8 Mbps 8 Mbps 6 Mbps 3 Mbps -
5 10
CTS-3010
BW Consumption v.s Time Graph
VBR Traffic
Cisco Confidential 12© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Traffic Characteristics Average Call vs. Max Consumption
Meg
ab
its
1 second
“Average Call” Bandwidth Consumption Per Second
Resolution 1080p 1080p 1080p 720p 720p 720p 720p
Motion Handling Best Better Good Best Better Good Lite
CTS-500/1000 average bandwidth (Mbps) includes Layer 2- 4 overhead
4 Mbps 3.5 Mbps 3 Mbps 3 Mbps 2.5 Mbps 1.5 Mbps 1 Mbps
CTS-3000/3200 average bandwidth (Mbps) includes Layer 2- 4 overhead
11 Mbps 10 Mbps 8 Mbps 8 Mbps 6 Mbps 3 Mbps -
Meg
ab
its
1 second
Total = 11 Megabits
Total = 15 Megabits
Max Consumption
11 Mbps
Average Call
15 Mbps
Cisco Confidential 13© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Traffic CharacteristicsRelation of Video Frames to Bytes Per Millisecond
15Mbps
Resolution 1080p 720p
Motion Handling Best Better Good Best Better Good Lite
CTS-1000 max bandwidth over one second (Mbps)
5,553 TX5,707 RX
4,953 TX5,107 RX
4,353 TX4,507 RX
4,353 TX4,507 RX
3,153 TX3,307 RX
1,953 TX2,107 RX
1,397 TX1,550 RX
CTS-3000 max bandwidth over one second (Mbps)
15,307 13,507 11,707 11,707 8,107 4,507
CTS-1000 mean rate per millisecond the router expects (Bytes)
688 TX713 RX
613 TX638 RX
538 TX563 RX
538 TX563 RX
388 TX413 RX
250 TX263 RX
250 TX263 RX
CTS-3000 mean rate per millisecond the router expects (Bytes)
1,913 1,688 1,463 1,463 1,013 563
33ms frame intervals
1 second
* Audio Traffic Not Included for Simplicity
Cisco Confidential 14© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Traffic CharacteristicsRelation of Video Frames to Packets
Frame #3
65KB
33ms 33ms 33ms33ms
Frame # 5
Frame # 2
6KB
Frame #4
25KB
Frame # 5
16KB
Application Layer
Network Layer
Frame # 1
16KB
RX Buffer
Resolution 1080p 720p
Motion Handling Best Better Good Best Better Good Lite
Average video frame sizeincludes Layer 3-4 overhead
16KB 14KB 13KB 9.4KB 6.3KB 4.3KB 4KB
Average bytes per video packetincludes Layer 3-4 overhead
1,100 Bytes
CTS-1000 average video packets per second (2 video channels)
873 pps 792 pps 682 pps 553 pps 373 pps 272 pps 262 pps
CTS-3000 average video packets per second (4 video channels)
1745 pps 1584 pps 1364 pps 1106 pps 747 pps 545 pps
Netw
ork
L
ayer
Ap
plica
tio
n
Layer
Cisco Confidential 15© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Serialization, Queuing, Shaping
CE-PE
Branch
ServiceProvider
De-Jitter Buffer, Decoding
Codec
Queuing, Shaping
Campus
Encoding, Packetization
Codec
Campus
Cisco TelePresence Traffic CharacteristicsOne-Way Latency, Jitter and Loss Targets & Thresholds
Policing, Queuing,
Propagation
PE-PE PE-CE
Serialization, Queuing, Shaping
Metric TargetThresholds Triggered Action on Threshold
1st 2nd 3rd 4th 1st 2nd
Latency 150 ms 250 ms 400 ms None None
Jitter 50 ms 85 ms 125 ms 165 ms 245 ms None None
Loss 0.05% 1% 10% Network Bar Change1. Reduce Quality
2. Drop Call
SLAs Only Relate to Network Flight TimeCodec Codec
CE PE PE CE
Cisco Confidential 16© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Application
L3 Classification
DSCPPHB RFC
Low-Latency / Transactional Data 18AF21 RFC 2597
Real-Time Interactive / TelePresence 32CS4 RFC 2474
VoIP Telephony 46EF RFC 3246
Operations / Administration / Management 16CS2 RFC 2474
IETF
High-Throughput / Bulk Data 10AF11 RFC 2597
Low-Priority / Scavenger Data 8CS1 RFC 3662
Network Control 48CS6 RFC 2474
Multimedia Streaming 26AF31 RFC 2597
Best Effort 0DF RFC 2474
Multimedia Conferencing 34AF41 RFC 2597
Broadcast Video 24CS3 RFC 2474
Call-Signaling 40CS5 RFC 2474
Cisco TelePresence Network DesignRFC 4594 Configuration Guidelines for DiffServ Classes
CS3
CS5
24
40
Cisco Confidential 17© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Traffic CharacteristicsSummary
Traffic
Characteristics
Multiple channels of 1080p (or 720p) resolution video and wide-band audio @ 30 frames/sec
Variable video frame sizes
Large packets, high packets/sec
Very low latency, jitter and loss targets and thresholds
Ultra-high bandwidth
Very low latency, jitter and loss SLA targets and thresholds
Highly-reliable, redundant
Latest generation switching and routing platforms and IOS queuing and shaping policies
End-to-end Quality of Service
Network
Requirements
Ba
nd
wid
th
Time
IP
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco ConfidentialPresentation_ID
Inter-Company TelePresence
Cisco Confidential 19© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Basic Intra-Enterprise Model
VRF Red
Enterprise A
(VPN Red) Site 2
VPN Service Provider
VRF Blue
CE
CE
CE
CE
Enterprise A
(VPN Red) Site 1
PE PE
PE PE
Signaling
MediaEnterprise B
(VPN Blue) Site 1Enterprise B
(VPN Blue) Site 2
TP-A1
TP-A2
TP-B1
TP-B2
CCM-A1CCM-A2
CCM-B1
CCM-B2
Cisco Confidential 20© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Preview The ICT Goal
CE
VPN Blue
TP-A1
TP-B1
CCM-A1
CCM-B1
CE
VPN Red
To Service Provider
To Service Provider
Call Setup
to
external
numbers
Medial Flow
Across
Multiple VPN
Ability to
reach external
CTS
Endpoints
Cisco Confidential 21© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Integration to ICT
Connecting
Businesses via
Service Provider(s)
External
Number
Dialing
End to End
Signaling & Media
over IP
Secure
Transport
over
Service
Provider(s)
Maintain
Intra-Enterprise
User Experience
Cisco Confidential 22© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Application Layer DL/Network/Transport Layers
Off-net SignalingAddress
Resolution
Signaling & Media
Security
End2End QoS
Assurance
Avoid peering
between
enterprises
SP Managed
Phone # to IP
mapping
TelePresence Endpoint Encryption
Inter-VPN Connectivity
NAT/Firewall Traversal
TelePresence Aware
Network Monitoring &
Troubleshooting tools
OAM
Internal QoS plus
SLA from SP
User Experience
Scheduling | External Number Dialing | E2E Secured IP Connectivity
TelePresence ICT Enablement
Cisco Confidential 23© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Address Resolution Function
Phone number to IP Address/Domain Lookup
Provided by SBC
Expands as the number of media endpoints grow
Impractical for an enterprise to maintain
Best managed by SP
Address
Resolution
SP Managed
Phone # to IP
mappingSession Border Controller
Cisco Confidential 24© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Session Border Services
Usually a Service Provider Function
VPN Aware
Terminates Signaling/Media path
NAT/Firewall Traversal
Topology/Address Hiding
Encrypted Signaling/Media Passing
Address Resolution
Session Border Controller
Signaling & Media
Security
TelePresence Endpoint Encryption
Inter-VPN Connectivity
NAT/Firewall Traversal
Off-net Signaling
Avoid peering
between
enterprises
Cisco Confidential 25© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Topology Hiding Solution
Insertion of SBC in SP
SBC as a B2BUA terminating both Media & Signaling
No direct signaling exchange between enterprises
All topology & identities shown belong to SBC
Source DestinationSIP Trunk SIP Trunk
Virtual IP Address: Media and Signaling
RTPRTP
SourceDestination
Demarcation Point
Cisco Confidential 26© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
SBC – Media Flow
1.1.1.103.3.3.20
2.2.2.10 5.5.5.10
First Packet
Destination: 2.2.2.10
Port 16384
1.1.1.10 2.2.2.10
Port 16384 opened 5.5.5.10 3.3.3.20
Port 34567 opened
First Packet
Destination: 5.5.5.10
Port 34567
Payload
Switched
Source: 2.2.2.10
Destination: 1.1.1.10
Port 16384
Source: 5.5.5.10
Destination: 3.3.3.20
Port 34567
VPN Green VPN Red
Through SBC Signaling Intelligence, endpoints
have been previously told the destination is the
routable respective IP address within the VPN
Cisco Confidential 27© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
SBC – Media Flow
B2BUA
Firewall Traversal
Symmetrical Media RTP Connections
Accepts one Rx connection from each endpoint – UDP port opened on firewall
Establishes one Tx connection with each endpoint using the same UDP port as Rx
Media Relay Flow Through
Relays media traffic received to the destination
Reconstructs RTP header with new source IP address
Payload untouched
Topology Hiding
Endpoints do not communicate with each other directly
Each RTP connection is terminated on the SBC
RTP header reconstruction enables topology hiding
Cisco Confidential 28© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
SBC – VPN Awareness
VRF aware
Resides within each VPN
One routable IP address for each VPN
Allow private IP address overlapping
Signaling/Media connections from multiple MPLS/VPN
Direct communication only with the SP owned SBC
Topology Hiding
SBC enables inter-VPN flow
Cisco Confidential 29© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
CUBE Protection Function
Resides within the Enterprise DMZ
Relays SIP messages between Enterprise and SP
Single point of contact for external Signaling
Accepts external call requests from the SP
Prevents direct port opening to CUCM
CUBE
SIP Trunk
SIP Trunk
DMZ
SBC
Cisco Confidential 30© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
ICT Architecture Illustration
VRF Red
VPN Service
Provider
VRF Blue
CE
CE
Enterprise A
(VPN Red) Site 1
PE
PE
Signaling
MediaEnterprise B
(VPN Blue) Site 1
TP-A1
TP-B1
CUCM-A1
CUCM-B1
SP Service
PE
Enterprise/SP Demarcation
Customer Choice of ICT Capable SP
Static Signaling Link to the SP
Simple Dial Plan
Dynamic Media Ports through NAT/FW
Future Extendable NNI link for Multi-SP Inter-Company TelePresence
Cisco Confidential 31© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Customer Access
Cisco TelePresence Exchange System High Level Architecture Overview
Media Sub-System
CTMS
Pool
Routing /
Switching
Session
BorderRouting /
Switching
Media Sub-System
CTMS
Pool
Routing /
Switching
Session
Border
East Coast West Coast
Control
Plane
Media
Plane
SIP Trunk
Physical Access
SIP Line
Customer A Customer B Customer C Customer …
CUCM CTS-Man
Hosted Controller
CUCM CTS-Man
Cisco
TelePresence
Exchange
System
CTX
Scheduling
Middleware
Scheduling Portal
Admin Portal
CTX Deployment
Application
Plane
IVR
PoolIVR
Pool
MSE
Pool
MSE
Pool
VCSc
TMS VCSc
Cisco Confidential 32© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
VPN/WAN Provider –
Topology Hiding NAT/Firewall Traversal Secure Connection Inter-VPN Reachability
Application Requirements –
Secure Signaling & Media Authentication Platform Security
Enterprise Campus –
Topology Hiding DoS Prevention NAT/Firewall Traversal
CTS Security Overview
Service Provider
PE
PE
Signaling
Media
Cisco Confidential 33© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
CTS – Application Requirements
Secure Signaling & Media
Content Encryption
Authentication
Between CTS and Signaling devices (ie., CUCM)
Hub by hub media path authentication
Platform Security
Access to the device (ie., Web Interface/CLI)
Configuration Encryption
Cisco Confidential 34© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
CTS Secure Signaling & Media Overview
Signaling Encryption
Already Handled on Transport Layer
Media Encryption
Hop by Hop Layer 4 & Layer 5 Connection Encryption
Required between each layer 4 hops
No end to end security if the chain is broken
Application Layer Security
Audio/Video Packets over SRTP
SRTP = Authenticated +Encrypted RTP
S-Description in SDP (Key Exchange)
Transport Layer Security (TLS)
Authenticated + Encrypted TCP
RFC 4346
Transport Layer Security Datagram TLS (DTLS)
Purely for Key Exchange
RFC 4347
Cisco Confidential 35© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
CTS – Enterprise Campus Security
Topology Hiding (Protection)
Identity & Topology should not be visible/detectable from outside
Allows private IP addresses
DoS Prevention (Protection)
Servers accept requests on wide open ports
CUCM, CTMS and other servers should be protected from attacks
Prevention provided by Firewall and DMZ
NAT / Firewall Traversal (Enablement)
Retain CTS Application Requirements while using NAT / Firewall
Cisco Confidential 36© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Nature of NAT
Modifies Source/Destination IP addresses
Modifies Source/Destination Port numbers
SIP Signaling with external device
SBC only needs reachability to the DMZ without concerning NAT
Media Flow with external endpoints
Actual IP address/port number used are different from SDP offer
NAT device can’t read encrypted SDP offers
NAT device might not correct the SDP offer
NAT Traversal enabled on SBC
SDP offer is ignored
NAT’d IP address & port number learned from RTP packets received
NAT Traversal for ICT
Cisco Confidential 37© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
NAT Traversal Illustration
1.1.1.10 3.3.3.20
2.2.2.10 5.5.5.20
Green Customer Red Customer
CE+NAT CE+NAT
10.10.10.10 10.10.10.20
Signaling SIP SDP Exchange
SDP
+ My IP = 10.10.10.10
+ My UDP port = 16384
SDP
+ My IP = 10.10.10.20
+ My UDP port = 16384
First Packet
SRC: 10.10.10.10/16384
Media UDP Packet Flow
First Packet
SRC: 1.1.1.10/1000
First PacketSRC: 10.10.10.20/16384
DST: 1.1.1.10/1000
Payload
Switched
DST: 3.3.3.20/3000
First Packet
SRC: 3.3.3.20/3000
DST: 10.10.10.10/16384DST: 10.10.10.20/16384
Cisco Confidential 38© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Firewall support
Signaling for ICTOnly between CUCM and SBC
Sever ports are static
Media for ICTBetween endpoints and/or CTMS
Range of dynamic ports allowed (a CUCM configuration)
Specified in SDP/SIP exchange
SolutionSignaling – Static configuration
Media – Bidirectional dynamic port opening
Cisco Confidential 39© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Firewall Traversal – Media Flow
1.1.1.103.3.3.20
2.2.2.10 5.5.5.10
First PacketDST: 2.2.2.10/16384
1.1.1.10 2.2.2.10
Port 16384 opened
5.5.5.10 3.3.3.20
Port 34567 opened
First PacketDST: 5.5.5.10/34567
VPN Green VPN Red
X
SRC: 2.2.2.10
DST: 1.1.1.10/16384
Second Packet
DST: 2.2.2.10/16384SRC: 5.5.5.10
DST: 3.3.3.20/34567
Unknown source
Rejected
Payload
Switched
© 2010 Cisco and/or its affiliates. All rights reserved. Cisco ConfidentialPresentation_ID
Application for education and research community
Cisco Confidential 41© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Active Collaboration Room OverviewAn Interactive Experience for Team Brainstorming
A new Telepresence Experience
Up to 15 participants per room (depending on café table configuration) can participate freely in brainstorming, design work and other collaboration exercises
Collaborate globally with colleagues anywhere, anytime
Interoperable with all other Cisco TelePresence rooms, video conferencing and Cisco WebEx participants
Cisco Confidential 42© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Active Collaboration Room Design
Cisco Telepresence CTS 1300 captures entire room
with one video stream. Voice-activated switching
automatically captures whoever is speaking
Electronic Whiteboard shared
with remote participants through
WebEx
Steelcase café-height seating allows
participants to move freely and
change postures while still remaining
on camera.
Flexible: 0 or 3 café-height tables
provides for 6 or 15 participants per
room
Interoperability allows remote users to effectively
participate using any Cisco Telepresence System,
standards-based video conferencing systems, or Cisco
Webex
Cisco WebEx combined with video
conferencing enables maximum
participation from remote
participants.
Ceiling-mounted video projector
allows for extremely large content
display
Cisco 40” or 52” LCD displays may be
used for smaller rooms
Steelcase Media:scape furniture
enables rapid transition from
presenter to presenter
Cisco Confidential 43© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Solution Components
Value Add Options
Cisco Components
• WebEx
• Adds multi-party interactivity
for smartboard and remote
participants
• HFR codec
-Adds 30fps graphics
• Interoperability and Recording
-Cisco Telepresence Server
-Cisco Telepresence Content
Server
• Digital Signage
-Cisco DMS Player and LCD
displays
3rd-party AV Components
• Document Camera
• Wolfvision VZ-32 Visualizer
Standard Template Configuration
Cisco Components
• CTS-1300
• CTS-3200 camera lenses for
additional depth of field
• Cisco 52” LCD display
(for small room configurations)
Steelcase Furniture
• Media:scape table
• Integrated VGA matrix switch
• Dimensions: 60”D x 84”W x 38”H
• Café height tables
• 36” Diameters
• Café Height
• VGA, USB and power cabling
3rd-party AV Components
• Projection
• Projector(s)
• Smartboard
• Smart Technologies
• Gowire USB sharing cable
• Ceiling Audio
• Clock Audio microphones
• ClearOne Mixer
• JBL Speakers
Cisco Confidential 44© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Classroom of the FutureMaking Borderless Education a Reality
Brings together teachers and students in any location
Immersive experience for comprehension and interactivity
Deliver material with maximum flexibility and recording capabilities
Ability to scale educational organizations globally
Custom installation of Cisco TelePresence with multimedia technologies for classrooms of any size
Available now
Cisco Confidential 45© 2010 Cisco All rights reserved.Cisco TelePresence Network Recommendations
Cisco TelePresence Recording StudioSimple, High Quality Video Recording
Captures Audio, Video, and Data
Press Record
Pause or Stop
Web orTelePresence Playback
Distribute Content by Email
Publishto DMS for Broad Distribution
Digital Signs
Web
Cisco
TelePresence
Room
Smart Phone
Simple: One-button-to-push
High-quality: Recording at 1080p
Medianet application integration
User-driven creation and distribution
Any to Any: Streaming to Web
Schedule in Groupware
Recommended