NEDAS Boston Presentations - July 13 2016
-
Upload
ilissa-miller -
Category
Technology
-
view
270 -
download
7
Transcript of NEDAS Boston Presentations - July 13 2016
EventProducedby:
Presenta(onOverviewInnova(ngtheFutureofIn-Building
Wireless
#NEDASBoston www.nedas.com
EventProducedby:
ThankYouEventSponsors
#NEDASBoston www.nedas.com
EventProducedby:
In-buildingMappingSolu(onwithReal-(me3DLoca(onInforma(on
Presentedby:
GreggToback
#NEDASBoston www.nedas.com
EventProducedby:
Improving Public Safety and coverage: In-building Mapping
NEDAS Boston Workshop Monday, July 11, 2016
#NEDASBoston www.nedas.com
EventProducedby:#NEDASBoston www.nedas.com
EventProducedby:
The Challenge: Traditional Indoor Mapping
• Requires users to manually note their position on a floor plan • Manual tapping often required • Limited number of data points available
• Accuracy is limited to screen resolution, end user “tapping” • Manual “stitching” of multiple screens for larger venues • Lack of 3D support
• Stairwells • elevators
#NEDASBoston www.nedas.com
EventProducedby:
The Challenge: In-building public safety
• S412E LMR Master with MA8100A available support for • Mapping P25p1 and P25p2 Bit Error Rate (BER)
• Recommended by Telecommunications Industry Association (TIA) for testing P25 receiver functionality
• P25p1 and P25p2 Modulation Fidelity mapping • Accurate mapping of VHF and UHF
#NEDASBoston www.nedas.com
EventProducedby:
The Challenge: LTE and FirstNet Public Safety
• Ensure In-Building operation of broadband LTE networks • Deliver LTE coverage data superposition of grids on top of floor plans • Support valuable LTE system performance. Optionally available on
several Anritsu Spectrum Analyzer models: • Interference Analyzer • LTE demodulation • Over-the-Air (OTA) coverage • RF Analysis
#NEDASBoston www.nedas.com
EventProducedby:
The Challenge: is cellular and Wi-Fi everywhere?
• Measure and plot available cellular and Wi-Fi network coverage • Deliver coverage data superposition of grids on top of floor plans • Support valuable cellular system performance. Optionally available on
several Anritsu Spectrum Analyzers: • Interference Analyzer • LTE demodulation • Over-the-Air (OTA) coverage • RF Analysis
#NEDASBoston www.nedas.com
EventProducedby:
The Solution: Anritsu MA8100A
• Anritsu integration of NEON capability and Android • Automatically collects geo-referenced test data using a
supported Anritsu spectrum analyzer • Automatically calculates indoor location – no manual
“check-in” • Remove data recording errors caused by “guestimating” • 3D virtualization: identify actionable data for coverage
improvement in stairways and elevators • Color-graded measurements are displayed and 2D and 3D
views
• Select only the wireless services you want to display or deliver
• Easily create an embedded video or .csv file of selected measurements, positions, signal strength and more
#NEDASBoston www.nedas.com
EventProducedby:
The equipment:
• Anritsu S412E LMR Master • Available up to 6 GHz Spectrum Analyzer and Vector Network Analyzer • Available LMR mobile radio signal analyzer supporting
• Narrowband FM, P25 Phase 1 and 2, DMR, NXDN, PTC, LTE. WiMAX and TETRA • Available LTE analyzer • Built-in Cable & Antenna analyzer
OR
• Compatible Anritsu Spectrum Analyzer • Contact Anritsu, your local representative or authorized Anritsu distributor, or visit
https://www.anritsu.com/en-us/test-measurement/products/ma8100a for a complete list of supported instruments
AND
• Anritsu-TRX NEON Signal Mapper bundle • Contact Anritsu, your local representative or authorized Anritsu distributor, or visit
https://www.anritsu.com/en-us/test-measurement/products/ma8100a for more information • Off the shelf Android Smart Phone or Tablet supporting KitKat (4.4.4) or later
#NEDASBoston www.nedas.com
EventProducedby:
UnderstandingPublicSafetyRequirementsandProcessesforIn-BuildingPublicSafetyCoverage
Presentedby:
TomChamberlain
#NEDASBoston www.nedas.com
EventProducedby:
Agenda
• History & Evolution of Public Safety Communication
• Two-way or Land Mobile Radio (LMR)
• Public Safety Frequencies
• FirstNet
• Catalysts Driving Change for In-Building Public Safety
• Standards & Codes
• Responsible Stakeholders
• Process for In-Building Public Safety Compliance
• Public Safety DAS Options
• Factors to Consider
#NEDASBoston www.nedas.com
EventProducedby:
History & Evolution of Public Safety Communication
• 1852: First fire box was installed using telegraph technology
• 1896: National Fire Protection Association (NFPA)
• 1923: First two-way radio developed in Australia
• 1940s: Motorola two-way radio widely used in WWII
• 1950s: Two-way radio market shifted to Fire, Police and EMS
• 1973: First cellular phone call
• 1997: International Building Code published
• 1999: Wireless Communications and Public Safety Act was passed
#NEDASBoston www.nedas.com
EventProducedby:
Two-way or Land Mobile Radio (LMR)
• Half-duplex – User can talk, or listen, but not at same time
• Full-duplex – Users can talk and listen simultaneously
• Conventional Radios – Operate on fixed RF channels
• Trunked Radio System – Automatically picks the frequency channel using a protocol that defines a
relationship between the radios and the radio backbone which supports them
• Digital Trunked Systems – Allows simultaneous conversations on one physical channel managed by time
slots
• Simplex Channel System – Use a single channel to transmit and receive
#NEDASBoston www.nedas.com
EventProducedby:
Most Common Public Safety Frequencies
• Very High Frequency (VHF) – Low Band: 30 MHz to 50 MHz - Long range, large area coverage
– High Band: 152 MHz to 174 MHz - Medium range, medium area coverage
• Ultra High Frequency (UHF) - 450 MHz – 512 MHz
• 700 MHz: Public Safety’s largest band (24 MHz of dedicated spectrum)
• 800 MHz: Currently used by Public Safety
#NEDASBoston www.nedas.com
EventProducedby:
800 MHz Rebanding
• 2004 - FCC adopted a comprehensive plan to address a growing problem of harmful interference to 800 MHz public safety communication systems caused by high-density commercial wireless systems
#NEDASBoston www.nedas.com
EventProducedby:
800 MHz Rebanding
• Post Rebanding Reconfiguration
#NEDASBoston www.nedas.com
EventProducedby:
FirstNet
• Interoperable communications for first responders
• Network and capacity to support broadband for data
• Expand LTE to more rural areas of US
• 700 MHz (758-768 MHz and 788-798 MHz) – Guard bands at 768-769 MHz and 798-799 MHz to mitigate
interference from adjacent channels
• States can opt-in or opt-out of participation
• Leverage existing commercial carrier networks – Public/private partnership for RAN, eNodeB, small cells
#NEDASBoston www.nedas.com
EventProducedby:
Why is In-Building Public Safety a Hot Topic?
• 9/11 and other tragic events have increased awareness
• Green buildings offer tax incentives – REITs target LEED Certification for new buildings
– Low-E Glass for Heating/Cooling Efficiency = Blocking out RF Signals
• Building owners reduce legal liability
• Commitment to public safety as responsible citizens
• NFPA and ICC Codes are being adopted by local governments
• Mandated as a condition of getting a Certificate of Occupancy for new construction (OH,FL, ID, CO, MD, VA, NYC)
#NEDASBoston www.nedas.com
EventProducedby:
Standards & Codes
• NFPA 72 Ch 24 – Public safety radio communications enhancement system shall include automatic supervisory and trouble signals for malfunctions of the signal booster(s) and power supplies.
• Alarms include:
• Battery charger • Low battery
• Booster trouble • Power failure
• 2009 ICC IFC, SECTION 510 - All buildings shall have approved radio coverage for emergency responders within the building based upon the existing coverage levels of the public safety communication systems of the jurisdiction at the exterior of the building
• Exceptions: 1) An approved wired system may be permitted 2) Fire code official may determine it is not needed
• Per federal law (IFC 510, 2009), there must be strong radio reception in at least 95% of the space in a facility. To date, 30 states have adopted the legislation.
#NEDASBoston www.nedas.com
EventProducedby:
Standards & Codes
• NFPA & IFC codes are similar – IFC requires 95% coverage / NFPA requires 99/90% coverage
– IFC requires 24-hr backup power / NFPA requires 12-hr backup power
– IFC more common on west coast /NFPA is more widely recognized nationally
• NFPA72: “Fire Alarm Signaling Code” – 2010, 2013, 2016 editions cover DAS
• NFPA1221: “Standard for installation, maintenance, and use of emergency services communications systems”
– 2013 edition, section 9.6 on Two-Way Radio Communications Enhancement Systems covers DAS
#NEDASBoston www.nedas.com
EventProducedby:
Standards & Code Installation Changes
• NFPA72 & NFPA1221 codes on DAS requirements overlapped, causing confusion for AHJs and System Integrators
• NFPA72 is better known as the standard for DAS requirements in the public safety industry, but the logical place for DAS requirements is in NFPA1221
• NFPA1221 2016, Chapter 9, Section 9.6 – Feeder and riser coaxial cables shall be rated as plenum cables
– Riser coaxial cables shall be…routed through a 2-hr rated enclosure
– Connection between the riser and feeder…shall be made within 2-hr rated enclosure, and passage of the feeder cable in and out of the 2-hr-rated enclosure shall be fire-stopped to 2-hr ratings
#NEDASBoston www.nedas.com
EventProducedby:
Standards & Code Installation Changes
• NFPA1221 2016, Chapter 9, Section 9.6.5 • Interference and Degradation
– No System capable of operating on frequencies or causing interference…shall be installed without prior coordination and approval of the AHJ
– The building manager/owner shall suspend and correct installations that degrade the performance of the public safety radio system
– Systems that share infrastructure with non-public safety services shall ensure that the coverage and performance of the public safety channels are not degraded…regardless of the amount of traffic carried by the non-public safety services
• Critical areas – Including fire command centers, fire pump rooms, exit stairs, exit passageways,
elevator lobbies, standpipe cabinets, sprinkler sectional valve locations, and other areas deemed critical by the AHJ, shall be provided with 99% floor area radio coverage
#NEDASBoston www.nedas.com
EventProducedby:
Standards & Code for Compliance Testing
• NFPA1221 • Instructions in Coverage Test
– How to divide the area into grids
– How to take signal samples inside the grids
– Maximum allowable # of grids to fail the coverage metrics of the amount of traffic carried by the non-public safety service
• Instructions on Acceptance Test – Random walk test, especially including the critical areas
– Simulated heavy traffic load of non-public services, to ensure the performance of the public safety services
EventProducedby:
Responsible Stakeholders
• Local license holder: Police, Fire, EMS
• OEMs: repeaters, passives, antennas, & coaxial cable
• System Integrators: RF testing, design & installation
• Building owners (REITs)
• FCC
• Local AHJ (Authority Having Jurisdiction)
#NEDASBoston www.nedas.com
EventProducedby:
Public Safety DAS Options
Type of DAS depends on building size, power levels required, frequencies, and if additional capacity is needed
Radiating Cable aka “Leaky Coax” • Common in confined space areas: subways, tunnels, some buildings
#NEDASBoston www.nedas.com
EventProducedby:
Passive vs Active iDAS
Passive DAS • Fed with public safety repeaters
• Amplifiers (repeaters) are in one location
• RF distributed over coax to antennas throughout building or area
Active DAS • Fed with public safety repeaters
• Optical fiber distribution system
• Distributed amplifiers
• Low power and high power solutions depending on coverage and capacity requirements
#NEDASBoston www.nedas.com
EventProducedby:
Basic Passive DAS Configuration
Macro tower
iDAS Antennas
Donor antenna
Coax
Coax
Repeater
#NEDASBoston www.nedas.com
EventProducedby:
Passive DAS Overview
Donor antenna
Coax
Macro tower
Repeater
Antennas
Passive DAS - Coax distributes RF • Repeater - only active component • Ideal solution for smaller venues or portions of buildings <150K sq. ft • Limited growth or expansion capability #NEDASBoston www.nedas.com
EventProducedby:
Typical Venues for Passive DAS
• Areas where cell sites are not overloaded • Low capacity buildings • Small coverage requirements
Big box stores
Small office buildings
Rural - Community hospitals
#NEDASBoston www.nedas.com
EventProducedby:
Basic Active DAS Configuration
Remotes
Head End
Antennas
Repeater
Coax
Fiber
Coax
#NEDASBoston www.nedas.com
EventProducedby:
Donor antenna Macro tower
Active DAS - Hybrid Fiber Cable • Repeater • Distributed amplifiers • Ideal solution for large venues • Scalable • Higher cost than passive DAS
Connections • Coax from RF Source to DAS headend • Fiber from headend to remotes • Coax from remotes to antennas
Active DAS Overview
DAS headend and repeater
Coax
Fiber
Remotes
Antennas
#NEDASBoston www.nedas.com
EventProducedby:
Typical Venues for Active DAS
• High capacity requirements
• Large area
Large Hospitals
College Campuses
Large Buildings
Malls
Stadiums and Arenas
Casinos
#NEDASBoston www.nedas.com
EventProducedby:
Process for In-Building DAS Deployments
1. Identify AHJ – Determine AHJ requirements and standards (NFPA72, IFC, ICC) 2. Site Survey / Baseline testing - Initial survey of floor plans, equipment locations, impairments 3. Preliminary Design - RF link budgets, initial antenna and cable layouts, BOMs… 4. Statement of Work -Project requirements are clearly defined 5. RF Survey / CW testing - Perform interference & propagation measurements 6. Update design - Revise preliminary design & BOM based on results 7. Pre-Construction Survey - Installer walk-thru to validate cable routes & equip. locations 8. Final Design - Revise based on changes to installation design if necessary 9. Order Equipment - Order equipment 10. Installation - Install cables, antennas and active equipment 11. Commissioning - Verify RF & optical cable performance (if applicable); set system gains; test 12. System Acceptance – Post install walk through with AHJ Fire Marshall to demonstrate
compliance. Customer obtains Certificate of Occupancy from AHJ
EventProducedby:
Factors to Consider
• Maintenance & Monitoring – System testing often required
• Complete System Redundancy
• Interference! Know your system and what is in your building!
#NEDASBoston www.nedas.com
EventProducedby:
Downlink Video of Interference Caused by DAS
#NEDASBoston www.nedas.com
EventProducedby:
Potential Interference with Public Safety
#NEDASBoston www.nedas.com
EventProducedby:
7ThingsThatNeedtoHappentoGetDASintotheMiddleprise
Moderatedby:ScoPGregory
#NEDASBoston www.nedas.com
EventProducedby:
LargeVenues,Airports,CampusStadia,Conven(on,Subway
Residen(alSOHO
#NEDASBoston www.nedas.com
EventProducedby:
ViabilityofPrivateLTENetworks
Presentedby:
ChrisPorto
#NEDASBoston www.nedas.com
EventProducedby:
Private LTE Network Ecosystem
• Expected to surpass $800 Million in global investments by the end of 2016, private LTE networks are increasingly becoming the preferred approach to deliver mobile broadband services in the critical communications industry. Fueled by large-scale rollouts in the public safety, energy and other sectors, the market is further expected to grow at a CAGR of 32% between 2016 and 2020.
• By the end of 2020, the North America region will account for over 35% of all private LTE investments worldwide. However, largely driven by South Korea's rollout plans for public safety, railway and maritime LTE networks, the Asia Pacific region will continue to retain a strong position in the market
• Several companies, such as TEN (Texas Energy Network) and INET (Infrastructure Networks) in the United States, have strategically deployed private LTE networks in remote, oil-rich areas, to exclusively provide mobile broadband services to energy companies.
• To alleviate large-scale infrastructure investments, several European countries are pairing dedicated private mobile core platforms with commercial LTE networks to deliver prioritized mobile broadband services to public safety subscribers.
• Conventional LMR industry players are leveraging partnerships with established LTE infrastructure OEMs such as Ericsson, Nokia, Huawei and Samsung, to offer end-to-end private LTE network solutions.
*Source – Signals and Systems Telecom http://www.snstelecom.com/private-lte
#NEDASBoston www.nedas.com
EventProducedby:
4G-LTE Network Extension for Coverage and Capacity
Persistent Telecom’s nanoLTE systems are standards-based, feature-rich, 4G small cell solutions. Each independent cell site is managed locally by a powerful LTE software platform which provides all of the same features available in commercial networks. Suitable for outdoor macro network extension and in-building small cell solutions
#NEDASBoston www.nedas.com
EventProducedby:
The nanoLTE™ antennas and hot spots are interconnected over Ethernet and controlled by PTI’s virtualized network platform. The platform server contains the following virtual server nodes:
• Mobile Switching Center (MSC) • Base Station Controller (BSC) • Operations Maintenance Console (OMC)
• Short Message Service Center (SMSC) • Asterisk PBX • Wireless Security Policy Server The MSC manages all of the handsets in the area, processes voice calls and SMS text messages. The Asterisk PBX provides features including voice mail, conference-calling, caller ID, call forwarding, etc. The Security Server detects authorized and un-authorized cell phone activity and provides for alerts, logs and event tracking for security personnel. To enable interoperation between nanoLTE™ sites, a private Wi-Max network can be installed creating a high speed wireless backbone. For security, military grade AES encrypted systems protect these links.
Persistent Telecom Small Cell as a Service Architecture
#NEDASBoston www.nedas.com
EventProducedby:
In building 4G/LTE network extension
• Persistent Telecom has developed a virtualized mobile network platform that can be deployed to manage small cell, in-building solutions.
• Small cells are installed leveraging existing Ethernet wires, (in the same way Wi-Fi hot spots are connected) no need to install new wires.
• When compared to DAS, small cell deployments reduce costs by an order of magnitude.
• Small cell networks are low power transmitters, requiring very little electricity.
• PTI’s small cell installations are software defined and managed by a single computer requiring minimal space, power and cooling.
• Small cell networks are easily upgraded, simply connecting the next generation radio cells to the same Ethernet cabling.
• PTI’s small cell networks can include numerous features for enhanced security or emergency use during crisis situations.
• Optional: PTI’s virtualized network platform can
support business continuity with the addition of a satellite uplink for backhaul of voice, data and text.
PTI Server on site runs software that includes MSC, BSC, SMS and security.
PTI Server off site runs software that routes all voice, data and text to carriers. Includes billing and all call detail.
#NEDASBoston www.nedas.com#NEDASBoston www.nedas.com
EventProducedby:
Outdoor 4G LTE Network Extension
• With nanoLTE™ commercial carriers
can expand outdoor coverage and capacity with autonomous cell sites; while enjoying an order of magnitude lower cost.
• nanoLTE™ cell sites include all of the call processing and features located on site (autonomous) running on a single low energy computer.
• For remote sites “off the grid” a local nanoLTE™ node, coupled with satellite backhaul, provides broadband data access and cached media content without having to backhaul all s ignal ing and user data to a centralized commercial NOC.
• nanoLTE™ sites can include legacy SMS text messaging, GPRS, EDGE and 3G radios – all on managed on the same software platform
#NEDASBoston www.nedas.com
EventProducedby:
LeveragingWirelessInternetforBusinessCon(nuity
Presentedby:
MaryStanhope
#NEDASBoston www.nedas.com
EventProducedby:
Who is Global Capacity?
Global Capacity is a data network service provider with a unique marketplace of networks delivering and all on-net experience leveraging interconnection to over 266 providers.
Our Market
Our Promise Connectivity Made Simple
Our Delivery
Data Connectivity Market ▪ $329 Billion: Global market
▪ $86 Billion: US market
The leading marketplace of networks
#NEDASBoston www.nedas.com
EventProducedby:
The connected building
• Today,businessneedtobemoreofeverythingo moredecentralizedo moreautomatedo moreefficient
• Asbuildingsgetsmarter,everythinggetsmoreconnected.
• Anditallridesonreliable,scalablenetworkconnecGonsfrombusinessbuildingstohighdemanddesGnaGons.
#NEDASBoston www.nedas.com
EventProducedby:
Demand for the connected building
• ITcabinetsarenolongerfoundinofficeclosets;eventhesimplestservicessuchasInternet,email,andstoragehavemovedtothecloudinthird-partyandprivatedatacenters.
• LeveraginganinterconnecGontoamarketplaceofnetworks,buildingownersandmanagementcompaniescanprovidetenantswithdirectconnecGvitytohigh-demandlocaGons,includinginternet,datacentersandcloudbusinessapplicaGons.
• ThiscriGcalconnecGvityisvitaltosupporGngthemission-criGcalneedsandenablingtheeffecGveoperaGonoftoday’sdata-driventenants.
#NEDASBoston www.nedas.com
EventProducedby:
The importance of network continuity
• NosinglewiredconnecGoncandeliver100%upGme.ThequesGonisn’t“whether”but“when”eachofyourremotesiteswillloseconnecGvity
• WithGghtbudgetsandlimitedstaff,networkadministrators,CTOs,andCIOsareseekinganetworkconGnuitysoluGonthattheycantrustaswellasafford.
#NEDASBoston www.nedas.com
EventProducedby:
$26.5 Billion
In revenue is lost to Internet downtime each
year
60% Of network
downtime is a result of human
error 1 Minute
Of downtime could cost nearly
$2000 14 Hrs
American companies
average hours of Internet downtime
#NEDASBoston www.nedas.com
EventProducedby:
Backup network service provides
• AvoidanceofdisrupGonfromdisasters• RedundantconnecGvityforuninterruptedaccesstoyourcompany’svirtual,offsiteandcloudassets
• InsurancepolicyforbusinessconGnuity
#NEDASBoston www.nedas.com
EventProducedby:
Wireless network backup provides
• Wirelessnetworkbackupfurtherprovideso Trulydiverserouteandtechnologyaccesso BeXeraccessinsurancethantwolandlinesoluGonso CompeGGvefixedpricedbackupsoluGon
• WirelessservicesusedformanagedfailoverprovidethediverseconnecGvitybusinessesneedtorunwithoutinterrupGon
#NEDASBoston www.nedas.com
EventProducedby:
The winning service solution
• TwoconcurrentconnecGvityservicesdeliveredtocustomersitetodeliverInternetserviceso Wirelineupto10Mbpso Wireless4GLTE
• Whenserviceisinterrupted,wirelessservicewillacGvatetoprovideanalwaysoninternetexperience
#NEDASBoston www.nedas.com
Managed Wireless Failover
• Highlights
o ManagedFailover-ProtecGonagainstnetworkdisrupGonswithimmediateandseamlessfailoverforanyofyourGlobalCapacityInternetservices
o NaGonalCoverage-ReliablenaGonwide4GLTEWirelessfootprintprovidesdiverseconnecGvityindependentofwirelineservices
o ServiceFlexibility-ConGnuityofbusiness-criGcalapplicaGonswithconnecGvitysupporGngdownloadspeedsupto10MbpswithnodatausagelimitaGons
o ProfessionalInstallaGon-Ourexperiencedteamcompletesasitesurvey,verifieswirelessstrength,andcompletesequipmentinstallaGon,configuraGonandtesGng
o NOCSupport-24/7/365proacGvemonitoringoftheavailabilityofyournetwork
Wireless Internet Backup option with managed failover service across a nationwide 4G LTE wireless footprint
Wireless Backup option provides the diverse connectivity businesses need to run without interruption
TwoconcurrentconnecGvityservicesdeliveredtocustomersite• PrimaryService-GlobalCapacityIPbasedservice• BackupService-Wireless4GLTEserviceCustomerPremiseEquipment(CPE)includes:• CradlepointwirelessdemarcaGon• CiscodedicateddualWANRouter
#NEDASBoston www.nedas.com
EventProducedby:
Managed Wireless Failover
• Highlights
o ManagedFailover-ProtecGonagainstnetworkdisrupGonswithimmediateandseamlessfailoverforanyofyourGlobalCapacityInternetservices
o NaGonalCoverage-ReliablenaGonwide4GLTEWirelessfootprintprovidesdiverseconnecGvityindependentofwirelineservices
o ServiceFlexibility-ConGnuityofbusiness-criGcalapplicaGonswithconnecGvitysupporGngdownloadspeedsupto10MbpswithnodatausagelimitaGons
o ProfessionalInstallaGon-Ourexperiencedteamcompletesasitesurvey,verifieswirelessstrength,andcompletesequipmentinstallaGon,configuraGonandtesGng
o NOCSupport-24/7/365proacGvemonitoringoftheavailabilityofyournetwork
Wireless Internet Backup option with managed failover service across a nationwide 4G LTE wireless footprint
Wireless Backup option provides the diverse connectivity businesses need to run without interruption
TwoconcurrentconnecGvityservicesdeliveredtocustomersite• PrimaryService-GlobalCapacityIPbasedservice• BackupService-Wireless4GLTEserviceCustomerPremiseEquipment(CPE)includes:• CradlepointwirelessdemarcaGon• CiscodedicateddualWANRouter
#NEDASBoston www.nedas.com
EventProducedby:
Benefits of a Connected Building
Back Up / Data Storage
Global Enterprise Offices
Unified Communications/ Voice over IP
Business Applications / Cloud Providers
Aconnectedbuildingenablesbuildingownersandmanagementcompaniesto:• Increasechoice,compeGGveness,speedofaccess,business
conGnuityandvaluefortenants• EliminatecomplexconnecGvitydecisionsfrombusiness
decisions• Providetenantswithhigh-speedconnecGvitytoInternet,
over2,500datacentersandcloudbusinessapplicaGons
• Deliverredundant,efficientaccesstomission-criGcalapplicaGonsandservices
• GainacompeGGveadvantageovertheirrealestatecounterparts
• Decreaseserviceturn-upGmeandsimplifythemovingandbuild-outprocessfortenants
Simplified business continuity to Business destinations
Internet Peering
EventProducedby:
Global Capacity Facts
• GlobalCapacityisadatanetworkserviceproviderwithauniquemarketplaceofnetworksdeliveringandallon-netexperience.
• Foundedin2006throughaseriesofstrategicacquisiGonso 2015–AcquiredNetworkServicesBusinessofMegaPath(formerlyCovad)
o PrivatelyheldPivotalGroup
• RobustDigitalOneMarketplacePlaiormo Servicesover22,000customersinTechnology,Retail,Healthcare,andFinanceo Ubiquitouscoveragefrom1830CentralOfficesand38Datacenters
o Processesover2.4millionpricequotes/month,represenGngover$9billionannualizednetworkspend
o MaintainslocaGondataandpricingdataformorethan40millionvalidatedsitesfrom266carriersglobally
o ConnecGvitytoover9.6MillionU.S.commercialaddresses
#NEDASBoston www.nedas.com
EventProducedby:
MediaPartners
#NEDASBoston www.nedas.com
EventProducedby:
PlaGnumAnnualSponsors
#NEDASBoston www.nedas.com
EventProducedby:
GoldAnnualSponsors
#NEDASBoston www.nedas.com
EventProducedby:
SilverAnnualSponsors
#NEDASBoston www.nedas.com
EventProducedby:
September 15, 2016 - NEDAS Webinar Series - Webinar # 3 presented by JMA Wireless October 25, 2016 - NEDAS Toronto Symposium at Chateau Le Jardin Conference & Event Venue November 29, 2016 - NEDAS Washington D.C. Fall Symposium at Nationals Stadium December 6, 2016 - NEDAS Webinar Series - Webinar # 4 presented by Perfect-10 Wireless
SAVETHEDATE!
#NEDASBoston www.nedas.com
EventProducedby:
ThankYou!
#NEDASBoston www.nedas.com