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In the Trenches VOIP@Dartmouth

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In the Trenches VOIP_at_Dartmouth Peter Kiewit Computing Center Dartmouth at a Glance Campus is roughly 1 mile square Geographically Rural Around 7000 extensions 50% ... – PowerPoint PPT presentation

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Title: In the Trenches VOIP@Dartmouth


1
In the TrenchesVOIP_at_Dartmouth
  • Peter Kiewit Computing Center

2
Dartmouth at a Glance
  • Campus is roughly 1 mile square
  • Geographically Rural
  • Around 7000 extensions
  • 50 faculty/staff, 50 residential
  • Around 120 buildings

3
Where we were-Voice Environment-2003
  • Ericsson MD 110 PBX
  • 1500 digital phones
  • 4500 analog extensions
  • Distributed Architecture-LIMs(line interface
    modules)
  • Main switchroom(35 of active extensions)
  • 34 LIM distributed among 5 locations

4
Where we are-Dual System Environment
  • Cisco (Call Mgrs) solution integrated with Legacy
    PBX(MD110)
  • Faculty/Staff 100 VOIP-3100 extensions
  • Resident Students(all analog) on legacy PBX-3700
    extensions
  • Emergency services(analog) on Legacy PBX-around
    500 extensions.

5
Where we are going100 VOIP Summer 2005
  • Faculty/Staff on full featured VOIP phones
  • Residents on Analog over VOIP Gateways
  • All greenfield installations on full featured
    VOIP phones, faculty/staff or residential

6
How We Got Here
  • Legacy PBX presented problems
  • Costly upgrade/forklift on the horizon
  • Upgrade path expensive with move to licensed
    price plan.
  • Vendor essentially pulled out of North American
    market, support difficult
  • Telephony use at time of decision relatively
    pedestrian(mostly analog)
  • VM system no longer supported
  • Revenue generation no longer a reality

7
How We Got Herecontinued
  • Budget Realities made convergence of
    Voice/Video/Data operations attractive
  • Cost to support separate operations for Voice,
    Video and Data network high
  • Newly Upgraded network made convergence possible
  • Aggressive Campus growth in 5 year plan placed
    pressure on a long term direction

8
Business Case
  • Upgrade/Replacement of existing System to cost
    close to 2 million(pbx, copper plant and
    Voicemail system)
  • Greenfield installation costs began at 50,000
    for remote lim voice infrastructure
  • Total Cost for Dartmouth VOIP installation 1.4
    million, system can support 20,000 extensions.

9
Business CaseContinued
  • Convergence of Voice/Video/Data operations saved
    400,000 annually
  • Telecom, Network Services, CATV staffing in 2003-
    23 positions, Compensation 1,400,000
  • Converged Network Services Current Staffing- 12,
    compensation 970,000
  • ROI on headcount savings alone is 4 years!!!

10
Conditions for Success
  • Dartmouth Telephony/Network effort highly
    centralized
  • Legacy Telephony deployment not feature intensive
  • Most users did not understand how to use the old
    Telephone and Voicemail system.
  • Old system cost prohibitive for departments to
    take advantage of better services

11
Common Objections we were prepared for
  • VOIP does not have the features of a PBX
  • VOIP is not as reliable
  • My phone always worked when the power went out
  • You did not give us enough time to prepare

12
Objections we were not prepared for
  • Cant separate the IP in VOIP from the
    Internet, confusion led to concerns over
    privacy,spam and reliability.
  • Users could be passionate about their phones,
    especially cordless

13
VoIP Reality at Dartmouth
  • Convergence and Integration
  • Legacy forms and features preserved
  • Just like the old system if you prefer
  • Devices - telephones, laptops, hand-helds, etc.
  • Features
  • One number - many devices, or various groupings
  • Dartmouth dial-tone from anywhere on the Internet
  • Wireless platforms available across campus, voice
    anywhere, anytime.
  • Future data, voice, and video integrated across
    applications
  • Unified messaging E-mail ltgt Telephone, Text ltgt
    Speech
  • Video telephones
  • Cell phone and wireless phone in-one

14
Path to Completion
  • Step 1-Build confidence in technology
  • Pilot and Seed with Key personnel
  • Install Core infrastructure with small production
    deployments
  • Get the Money People on board
  • Package Technology as necessary for convergence
    savings
  • Get the right Deal!!!
  • Get Support at the Executive Level(PAF)
  • Public announcement of support from Presidents
    office

15
Installation Plan
  • Publicize the new technology
  • Spend time on discovery-meeting with all
    departments to review telephony needs
  • Train Prior to installation
  • Classroom training, not mandatory
  • 2 active systems allowed for us to work at our
    pace

16
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17
Faculty/Staff VOIP design Deciding Factors
  • Like-for-Like design
  • Analog phones replaced with single line VOIP sets
  • Digital phones replaced with multi-line VOIP
    sets
  • All ancillary equipment replaced (headsetsetc)
  • POE only provided for VOIP communication jacks
  • 60 minute UPS backup for all VOIP switches

18
Residential VOIP designdeciding factors-Why
Analog?
  • Most Students use cordless phones today
  • In VOIP model, cost is in the phones. Unknown
    Abuse cost-recovery not attractive
  • Data Closets in Resident Halls lacking
  • Power back-up and security an issue
  • Life Safety Concerns

19
Life Safety-E911
  • College E911 environment
  • We supply PSAP with database of phone
    numbers/locations
  • We pulse out ANI to PSAP
  • POE only supplied to VOIP data jacks to
    discourage movement
  • Residential extensions hardwired to insure
    integrity of 911 database
  • Cisco Emergency Responder being installed

20
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21
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22
Network Enhancementsfor Production VOIP
  • Core Network installed in a mesh topology.
    Routers all have dual supervisors/power supplies
  • QoS enabled system-wide to insure integrity of
    Voice Services
  • Layer III routing enabled to VOIP edge switches
  • UPS backup for all closets and core

23
Gotchas from Cisco
  • Beware of the upsell
  • New technology for them causing best practice
    design to change a fast pace
  • QoS and layer III routing set-ups required
    network upgrade as subscriptions for phones per
    uplink changed dramatically
  • Gateway boards required Hybrid mode in routers
  • Bottom line, get a contract guaranteeing that
    design flaws are the vendors responsibility.

24
What went right
  • The phones rang, message lights lit and folks
    could make calls
  • Logistics of cut went well, work at night made
    cutover almost transparent
  • Building by building cut allowed us to change
    tactics on the fly.
  • Users from old Analog world loved the new
    features and ease of VOIP sets
  • 95 of campus thrilled

25
What went Wrong
  • Not enough time spent in training to explain
    subtle differences
  • Reception features of new system not adequate
    with software in GR at cutover.
  • Lack of a consistent phone type led to complaints
  • Privacy panels on desks made placement of phones
    difficult, extending cutover

26
Lessons Learned
  • Train staff prior to cutover or hire in-house
    expertise.
  • Make training mandatory and more detailed
  • Spend more time on discovery phase with main
    call points(reception)
  • Triage necessary with upgrades

27
Conclusion
  • For years the promise of cost savings has driven
    the advancement of networks on college campuses.
  • Convergence of communications services is
    finally delivering on that promise, both
    technically and fiscally. It is no longer a
    question of ifbut when.
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