Multi Operator Neutral Host Innovation Showcase
James Bodyand
MONeH Consortium
PNO Private Network Operator
LTE (& 5G) networks are SO MUCH better than WiFi!
But how can a ‘non-operators’ deploy and manage LTE that real people can use?
My objective is to…...
...make setting up and using a Private LTE Network as easy as deploying a WiFi Access point…..
Drivers for Change
Big problems are becoming less...
Software Based Networks
The Demise of Proprietary Hardware Platforms
Cloud based infrastructure offers● Greatly reduced cost● Shortened deployment times● Massive scalability● Rapid development/evolution
AND
Open Source - which *is* scalable, reliable and supportable!
Spectrum
Spectrum used to be MAJOR Gating Factor for MNO entry
● Smart Shared Spectrum Management○ LSA/DSA○ Secondary use on
non-interference basis● Licence free operation (MuLTEFire)● Operator Spectrum Leasing
Cost/Availability of Spectrum directly linked to power levels/cell size
Licensed Shared Access (US)
Dynamic Shared Access
SAS - Spectrum Access System
Cells report
● Location● Operating Parameters● What they can hear
SAS issues Lease
Like DHCP, but with blocks of spectrum rather than IP addresses
Spectrum - Detailed View● DECT Guard Band (2 x 3.5 MHz) - 1800 MHz (Band 3) - Secured Today (UK/NL)
● Sub-licenced LTE 800 (2 x 30 MHz) - 800 MHz (Band 20) - Applied for secondary use on non-interference basis
● TDD Bands - due for imminent release - some if not all as Licenced Shared Access (LSA) or Dynamic Spectrum Access (DSA)○ 2300 MHz (Band 40) - Release imminent○ 3400 MHz (Band 42) - Release imminent in EU, Available in US○ 3500 MHz (Band 43) - Release imminent in EU, Available in US
● Licence Free [MuLTEfire] (Band 46) - 5200 MHz (775 MHz - shared with WiFi) - Available today, but no support yet in User Equipments
● 700 MHz Band (Band 28) (2 x 30 MHz + 20 MHz SDL) - Release 2018
Identity and Authentication
The Subscriber Identity Module (or SIM)The SIM contains network-specific information used to authenticate and identify subscribers on the network.
● ICCID - integrated circuit card identifier● IMSI - International Mobile Subscriber Identity ● Authentication Key([s] (Ki), ● Local Area Identity (LAI) ● Plus carrier-specific data such as the● SMSC (Short Message Service Center)
number, ● Service Provider Name (SPN), ● Service Dialing Numbers (SDN),● Advice-Of-Charge parameters and ● Value Added Service (VAS) applications
Multi-IMSI SIMsNormally SIMs contain ONE IMSI and associated crypto key variables
More sophisticated SIMs (such as those from Truphone®) contain multiple IMSIs (and possibly multiple sets of crypto keys)
At any time only ONE IMSI is active
Multiple user profiles (and phone numbers) can be mapped concurrently to the active IMSI
Further SIM DevelopmentMulti-IMSI/Multi-Crypto Key Variable SIMs allow authentication to be carried out by different Home Subscriber Servers (HSS)
The signalling channel (always on and always free) can be used for independant comms between SIM and mobile network core
SIM Socket - micro web browser on SIM
Apps running on SIM independant of handset
SIM based Blockchain!
IMS - IP Multimedia Subsystem
●
●
IMS =
SIP
+
DIAMETER
Other ObstaclesCommercial and Procedural
Challenges
The Dangerous Demo..!
TAD Summit History
The Challenge
● Following TAD Summit 2013 (Bangkok) it became apparent that in order to demo most of the TADS apps, some form of underlying network would be required
● ‘Bet you can’t do that!’
● ‘Bet we CAN!’
Accomplishments
● 2014 (Istanbul) - First iteration - Truphone, Canonical, Telestax and Metaswitch
● 2015 (Lisbon) - added multiple network apps and demonstrated massive scalability/refactoring
● 2016 (Lisbon) - introduced RAN (using software defined radios
TAD Summit 2017 - Dangerous Demo
The Objectives
● All existing components from previous Demos, PLUS:
● Add PRODUCTION READY 4G Radio Access Network (Accelleran)
● Add live IMS (SIP and DIAMETER) exchange with Public Mobile Networks
● Show full Multi Operator Neutral Host operation using audience phones as part of demo!
Team Members
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Telet Research Architectural Model
Confidential 23
Products
Confidential
Product Summary
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Mode Band Product
TDD
B42 E1010
B43 E1011
B48/CBRS E1012
B38/41 E1013
B40 E1014
FDD
B7 E1020
B3 E1021
B1 E1022
Other bands on request
Confidential
Local Area “E1000 Series” eNB
• Accelleran Local Area Outdoor “E1000”• Single Cell 24dBm (250mW) per port (2x2 MIMO)• Band Support
• TDD 38, 40, 41, 42, 43, 48(CBRS)
• FDD 1, 3, 7
• Integrated GNSS• PoE Injector – 56V DC• Dimensions – 270mm(L) x 200mm(W) x 65mm(H)• 2.8 Kgs• Up to 64 active users• IP67
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Confidential
Optional Embedded EPC
• Embedded 4G EPC functionality• MME• S-GW• P-GW• PCRF• HSS
• SGi interface over the backhaul
• Different configurations/scenarios possible: external HSS, external P-GW,….
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Confidential
Neutral Host
• Neutral Host on Single Cell Local Area “E1000” based on• GWCN (via embedded EPC functionality)• MOCN (via multiple S1 interfaces to different EPCs)
• Neutral Host on Multicarrier Local Area eNB “E4000” (Q3-2018)• MORAN
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Confidential
OAM
• TR-069• WebGUI• SAS• SNMP, CLI or others on request
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Field Cases
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Many markets served by 1 single device
RuralCommunitie
s
RemoteIndustria
l
Public
Safety
SpecialEvent
s
DisasterRecover
y
Military
Transportation
IOT
Smart Cities
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Regulated and Standardised LTE Superior to WiFi, Wimax, …
Small Form Factor - Low Power - Outdoor
Flexible and Easy InstallE1000 product fit
!
Agriculture
Confidential
“E1000” Rural Trial
• Tower mounted B43 Local Area Outdoor “E1011” at 48m height with a 17 dBi panel antenna with downtilt and fixed CPEs
• 21dBm power configuration
• Solid, reliable, error-free throughput (achieved max theoretical value) with up to 5Km cell radius (cell capable of supporting up to 14.3Km with PRACH 0)
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Confidential
“E1000” Ultra-Dense Suburban Trial
• Household mounted B43 Local Area Outdoor “E1011” at 6m height with a 13 dBi dual-pol antenna and fixed CPEs in ultra-dense suburban deployment
• 21dBm power configuration
• Solid, reliable, error-free throughput (achieved max theoretical value) with up to 300m cell radius (capacity constrained scenario)
• Ongoing trial with SON interference management and capacity & coverage optimisation
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+32 473 95 95 54
www.accelleran.com
https://www.linkedin.com/company/accelleran
@accelleran
Next Generation HSS
IntroductionSumma Networks
• Join venture between Voiceworks (MVNO, Netherlands-Germany) and Almira Labs (Software developers, Spain)
• Build industry-leading cloud-based HSS/HLR solution
• Extend portfolio with new products (like PCRF, P-GW, Routing engine, VoLTE in a box…)
• Become the preferred solution for M2M/IoT carrier networks• Be one of the pillars of the Software Only Telecom carrier, which will
happen within the next… 10 years?
Developed by a carrier, for carriers
+ HSS LTE/IMS and HLR in one
+ Carrier-grade
+ 3GPP Release 13
+ EIR, roaming control, AAA
+ Flexible licensing model
+ Virtualized, Cloud deployable
+ Development Framework, API
An HSS for everyone. No carrier left behind.
What are doing in MONEH project
• Allowing Subscribers to attach to our HSS• Giving access to IMS Network for data connection
Kamailio as an IMS Core• Rock-Solid SIP-Proxy
– Talking SIP since 2001 (aka “SER” – the SIP Express Router)
• OpenIMS-Core by the Fraunhofer Institute– Standards compliant
– Focused on Test-Beds and R&D
– Also based on SER (Started in 2004)
• OpenIMS-Core and Kamailio merged in 2010
Kamailio as an IMS Core (2)
• Great foundation for all “pure” SIP-Components:– Proxy-CSCF, Interrogating-CSCF, Serving-CSCF– And all other “SIP-only” Components
• Diameter Servers (no SIP involved!):– HSS, Charging, S6a Concentrator
• Applications:– Telephony Services (Call-Forwarding, Barring,
SMS, …)
Kamailio as an IMS Core (3)Kamailio Deployments worldwide:
• Biggest, known deployment: 1&1 in Germany, with more than 4 Mio subscribers
• Other big deployments: Truphone, Flowroute, and many, many more
• IMS Deployments:
– Currently ~200.000 subscribers (native VoLTE, OTT App on 3 continents)
– Various Lab deployments and PoC
Hospital Update
Deployment Cases
Rural Not SpotsResolving the Digital Divide
The Chalke Valley - AONB
Defining the ‘Not-spot’● Not-Spots – areas where there is currently no coverage available● Partial Not-Spots - areas which have coverage from some but not all of the 4
major mobile networks
Technology and Band Signal Threshold
2G - GSM [900/1800 MHz] -93 dBm
3G - UMTS [2100 MHz] -103 dBm
4G - LTE [800 MHz] -115 dBm
5G IoT - IoT-NB [800 MHz] -135 dBm
Note: Signal thresholds measured outside buildings
Minimal Rural Village Coverage
Metro Underground
NetworksMulti Role Communications on a
single private network
Characteristics● Owned by Transport Operator● Multiple Services
○ Metro Staff○ Emergency Services○ General Public
● Network based Apps (MEC)○ Passenger Flows○ Security Tracking○ Directions to travellers○ Personalised adverts
High Altitude Pseudo
SatellitesWide area coverage for users with conventional phones in
remote regions
● Solar powered drones with 4G/5G communications payload
● Mission profile: 3 months - 4 years at 55,000 ft altitude
● Flying above weather, yet low and slow enough to work with off-the-shelf user equipments○ Project Arquilla (Yeovil, UK)○ Zephyr (Farnborough, UK)○ Sunfleet Communications
Networks
Questions
Fixed Telephony
1999● BIG Switches are the
norm● Nortel, Avaya, Ericsson,
Siemens● Signalling System 7
(SS7)● Integrated Services
Digital Networks (ISDN)
Fixed Telephony
1999
● BIG Switches are the norm● Nortel, Avaya, Ericsson, Siemens● Signalling System 7 (SS7)● Integrated Services Digital Networks
(ISDN)
● Voice over IP is new and exciting!
Fixed Telephony
1999
● BIG Switches are the norm● Nortel, Avaya, Ericsson, Siemens● Signalling System 7 (SS7)● Integrated Services Digital Networks
(ISDN)
● Voice over IP is new and exciting!
● Mark Spencer starts Asterisk
Fixed Telephony
1999
● BIG Switches are the norm● Nortel, Avaya, Ericsson, Siemens● Signalling System 7 (SS7)● Integrated Services Digital Networks
(ISDN)
● Voice over IP is new and exciting!
● Mark Spencer starts Asterisk
Mobile Telephony● 2G Networks widespread and
making HUGE profits● First 3G Network deployments● Investment required to start a
MNO is HUNDREDS of millions● First MVNOs introduced
Fixed Telephony
2017
● BIG ISDN Switches are gone● Nortel, Avaya, Ericsson, Siemens gone● Signalling System 7 (SS7) - creaking and
vulnerable
● Voice over IP is a commodity
● Asterisk (and other Open Source Projects) are widespread
● Number of fixed User Equipments declining
Fixed Telephony
2017
● BIG ISDN Switches are gone● Nortel, Avaya, Ericsson, Siemens gone● Signalling System 7 (SS7) - creaking and
vulnerable
● Voice over IP is a commodity
● Asterisk (and other Open Source Projects) are widespread
● Number of fixed User Equipments declining
Mobile Telephony● Mobile communications dominate
marketplace● 4G Networks deployed, 5G starting● Many new MVNOs, very few new MNOs● First MVNOs introduced
● Data traffic (driven by apps) dominates traffic
● Multi-sensor, location aware, touch screen graphical terminals with multi-band capability and massive power efficient processors
● The first PNO(s)