M2M Enabled Private LTE Best Practices for Cost Takeout

5G LTE Architecture = Lowest Cost M2M Network
ENABLING THE BEGINNING
5G LTE ENABLEMENT OF ULTRA-LOW COST M2M NETWORKS
BEST PRACTICES FOR COST TAKEOUT
April 14, 2016
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M2M Agenda
Vision
Innovation
Strategy
Architecture
Models
Q&A
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Vi s i o n
The outlook for new M2M solutions is accelerating,
driven by worldwide support of open data business
models and new DC and Telecom infrastructures.
Data
Market News Accelerating M2M
2005
2007
2008
2009
2010
Lemko Corporation invents NFV
Apple iPhone Launched-sales hit $2B
Google Android OS Launched
Mobile Data Exceeds Voice Traffic
2G & 3G Networks Congested
2011-12 City of Chicago Creates Open Data Policy
2013 1000 Petabytes Per Month Data Traffic
2014 400M M2M Devices Sending Real-time Data
2015 300M Cellular Tablets with 3,00 Petabytes
per Month of Data Traffic
2016 Mobile World Congress announces TIP
2019 50B M2M devices connected

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Cities are releasing structured datasets
(JSON/RDF/CSV/XML) &
non-structured (HTML or
plain text) …
Unknown
Stored
Stranded
Accessible
Connected
Utilized
Analyzed
Available
Open (released)
Reused
Redistributed
Value
2020 Zettabytes of data to be exchanged
over telecom infrastructures
…non-discriminatory, non-proprietary,
license-free, processed data to build business.
City of Chicago Open Data Model
Time
 Past
 Present
 RightNowFuture
Volume
Value
1000
1000(2)
1000(3)
1000(4)
1000(5)
1000(6)
1000(7)
1000(8)
Metric Description
kB
kilobyte
MB
megabyte
GB
gigabyte
TB
terabyte
PB
petabyte
EB
exabyte
ZB
zettabyte
YB
yottabyte
(*) orders of magnitude
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In n o v a t io n
Traditional M2M roadblocks point to the need for
significant transformation utilizing Private LTE.
M2M Innovation
Traditional Roadblocks
1.
2.
3.
4.
M2M over Wi-Fi struggles with
security, capacity, offloading and
billing
M2M over Public Cellular is too
Expensive
M2M requires greater Uplink
flexibility
M2M requires multicasting as the
key M2M Use Case
Example of M2M over Wi-Fi
Adaptive and Breakthrough
M2M Innovations are not
enough…
M2M Needs Transformational
Innovation that comes with
Private LTE
Example of M2M over Public Cellular
VS
Adaptive Innovation
Example of M2M over Private LTE
VS
Breakthrough Innovation
Transformational Innovation
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St r a t e gy
The FCC created a nationwide non-exclusive licensing
scheme for 3.65/3.5 GHz enabling Private LTE and
forever changing how M2M could be deployed.
• Incumbent Access users
• Includes authorized federal and grandfathered Fixed Satellite
Service users currently operating in the 3.5 GHz Band.
• Users protected from harmful interference from Priority Access
and General Authorized Access users.
• The Priority Access tier
• Consists of Priority Access Licenses (PALs) that will be assigned
using competitive bidding within the 3550-3650 MHz portion of the
band.
• Each PAL is defined as a non-renewable authorization to use a 10
megahertz channel in a single census tract for three-years.
• Up to seven total PALs may be assigned in any given census tract
with up to four PALs going to any single applicant.
• Applicants may acquire up to two-consecutive PAL terms in any given
license area during the first auction.
• The General Authorized Access tier
• Is licensed-by-rule to permit open, flexible access to the band for the
widest possible group of potential users.
• General Authorized Access users are permitted to use any portion of
the 3550-3700 MHz band not assigned to a higher tier user and may
also operate opportunistically on unused Priority Access channels.
LTE
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St r a t e gy
Utilizing 3.65/3.5GHz, M2M changes Industrial
Internet connectedness with independence
from carrier control.
How 3.65/3.5 Changes M2M
 Speed of Deployment with nominal
application fees and minimal
regulatory delay
 Allows multiple entrants to provide
service
 Independent of Carrier Control
 Contention based protocol and
registration required to manage
interference
 Very Localized License Areas
1.
2.
December, 2012
FCC adopted a Notice of Proposed Rulemaking (NPRM)
that would make spectrum available for shared small cell
use in the 3550-3650 MHz band (3.5 GHz Band). The
March 13th workshop explored the concepts and
proposals raised in the NPRM.
3.5GHz Workshop
FCC Headquarters, Commission Meeting Room
March 13, 2013
Census Tracts
Database coordination
 Rules Support Private LTE
1.
2.
3.
Reduces speculation and “warehousing”
Great for connected cities, smart buildings or
enterprises to rapidly deploy M2M enabled
broadband
The power levels in urban areas suitable for
in-building or localized coverage
https://www.fcc.gov/news-events/events/2013/03/35-ghz-workshop
“The goal of the workshop was to bring together top innovators and thinkers”
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St r a t e gy
Enterprises can now be their own M2M
operator, deploying private applications and
devices over any Data Center infrastructure.
Transformational
• Deploy a typical M2M Network in
less than 4 hours
• Operate Carrier Grade Private LTE
Network without Carrier
involvement
• Support multiple M2M instances
and workloads with simple GUI
and no touch provisioning
M2M
M2M Inside Any DC
CFO
wants “Lowest Cost M2M
Network” in the world
GPO
drives new “strategic IT
partners” to participate in M2M
infrastructure and applications
CISO
secures LTE enabled M2M
“behind existing IT firewalls”
CIO
“innovate using M2M” across
IoT, Industrial Internet, Smart Building
uses cases to grab stranded data and
create high value managed services
DC Manager
supports “simple,
scalable architecture” that virtually
eliminate unplanned outages
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A r c h it e c t u r e
5G M2M LTE is a coreless network architecture
that can be easily integrated with complex IT
specifications.
M2M Network Specs
•
•
•
•
•
•
Multimedia Network (MBMS)---Broadcast
Services, point-to-multipoint, unidirectional
downlink transmissions from cell to M2M
Sensors (e.g. M2M Service Areas)
Bursty Network Traffic---Low latency,
unpredictable, asymmetric based traffic,
high velocity streaming
Flexible Backhaul---No carrier Ethernet
needed, pick lowest cost available option
Reduced Hops & Latency---M2M
deployed on Network Edge as Layer 7
application
Fast Attach---Fast connection set-up, data
transfers and connection release times for
network originated M2M applications
Network Operations Savvy---$1 Per
Gigabyte or less M2M Costs, mirrors Wi-Fi
economics (new best practice benchmark
for M2M affordability)
M2M Architecture
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•
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•
•
•
•
No Core---No Centralized Core, No
Remoted Core, No Cloud Core, No Backhaul
P2P, Flat, Distributed---Virtualized EPC
with MME, PGW, SGW, HSS, PCRF & IMS
Simplicity over Complexity---Reduce
unplanned outages
Minimal Hardware Dependencies---Real
HetNet architecture, any eNodeB, any LTE
CPE, any LTE SIM, any LTE Sensor, any
LTE Actuator (100% COTS)
Implementation---Support Greenfield to
Brownfield M2M from lab to field
Advanced Triggering Options--- SMS, SIP,
IMS, Cell Broadcast, HSS and
connected/non-connected states
Uplink Throttling—No-to-Low-to-High
Mobility with Low-to-High Data Rates (HDR)
(enabling use case driven bidirectional M2M
services for devices with non-std. usage
patterns)
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A r c h it e c t u r e
Enterprises can leverage this new M2M
architecture for Lab-to-Field deployments and
indoor/outdoor portability.
M2M Architecture
Traditional M2M
Less Complex & More Secure
Lemko Replaces Traditional
Quick-Deploy-Platform
Lemko M2M is a flat, fully virtualized
distributed M2M architecture
that minimizes the number
of network elements (hops) and
enables in-band Mesh networking
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Mo d e ls
M2M embedded IT coreless solutions” on-theedge” delivering all-you-can-eat Private LTE data
services at $1Gbyte.
$10 Gbyte (Carrier Public Pricing)
Public
Services
Beyond here is too costly
Private
Services
Software
X
M2M
Embedded
IT Coreless
Solutions
Hardware
$1 Gbyte (wireline Internet Pricing)
Edge
Network
Core
Mobility (No-Low-Medium-High )
Data Rates (Low - High )
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Questions
Q& A
Abstract
By implementing a 5G LTE architecture now, ultralow cost M2M deployment is realistic. Architecture
drives strategy when it comes to M2M
deployments. By utilizing LTE 5G architectures, a
new utility based M2M Opex model is available
that mirrors Wi-Fi economics and avoids the
traditional barriers of consumer grade
networks. What was once considered “not
achievable” by traditional M2M service providers is
here now as M2M Enabled Private LTE. This
presentation will outline the best practice
benchmarks for M2M affordability and answer the
how to questions associated with deploying
Internet Economics that support Layer 7 M2M
traffic. Layer 7 traffic requires low latency/high
velocity streaming so M2M can unlock stranded
data with remote access to Industrial Internet
infrastructures.