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LTE to replace WI-FI in Oil & Gas
Charles van Hulzen
Director Energy & Utilities
West Europe Enterprise Business
Charles.van.Hulzen@huawei.com
2
Oil & Gas Networking: The Digital Transformation
1. Why is WI-Fi difficult to implement in the Oil&Gas production industry
2. High Density Networking with LTE
3. Indoor Coverage
4. IoT
3
Huawei, A Global Company with Worldwide Expertise
190,000+ employees with
180+ nationalities worldwide
Argentina
Mauritius
Malaysia
Romania China
India
Hungary
Brazil
Mexico
Netherlands
UAE
Bahrain
Germany
Technical Support Center
R&D Center
Huawei Headquarters
Accounting Share Center
Supply Center & Hub
Training Center
Bidding Center (Planning)
Ranked 83 Fortune 500 (2017)
23 R&D centers, 45 training centers 16 regional headquarters, operations
in 180+ countries
Localized Operation Powered by Global Resources
4
Consumer Business
A brand loved by consumers
Carrier Business
Customers' best strategic partner
Enterprise Business
Enterprises' best innovation partner
A Global Leader of ICT Solutions
Focusing on Information Transmission, Storage, and
Distribution to Provide ICT Solutions and Services
Information Distribution and Presentation Information Transmission Information Storage
Data center infrastructure
Big Data analytics platforms
Cloud services
Smartphones
MBB & home devices
Wearable devices
Vehicle telematics
Mobile networks
Fixed networks
Carrier software
and core networks
Enterprise networks
M2M connection
management platforms
Serving global carriersServing hundreds of
millions of consumersFocusing on high-value
industries
Professional services
5
Oil & Gas Networking: The Digital Transformation
Why is WI-Fi difficult to implement in the Oil&Gas production industry
6
Refineries, FPSO and Rigs in large Terrains and Remote Areas
• Large
• Rural
• Steel
7
Current Situation with Wi-FI
Only Wireless communication in Office Area’s (non ATEX)
ATEX Zone
8
Only connectivity in the Office buildings
No ability to work with networked applications on premises
WI-FI should have to be expanded through the whole terrain
Capacity for inter networking is growing
Current Situation with Wi-FI
9
Possible WI-FI expansion
• Many Access Points
• Most of then ATEX
• Difficult to interconnect
• High Maintenance cost
10
For real time process support, the next generation networks need to have:
• Low-latency
• Ultra-reliable mobile networks to support critical communications.
• The current 4G network has:
• One size fits all topology
• Ability to provide different service levels
• All mobile users are treated the same
• Next generation networks introduced in phases
• Dedicated separate network build to support different network priorities
• No interference with commercial network users on the commercial mobile
network.
Ultra-reliable and Low-latency Communications
11
Comparison between Wi-Fi and LTE
Function LTE WIFI
Number of masts to cover full area 3-4 Masts 100 AP's 60-65 Masts
Maximum reach per transmitter >3km <200m Now no redundancy in radio coverage
Number of equipment to manage 2 Core, 3-4 Base stations, 600 CPE 100AP, 5 concentrators for roaming, 600 CPE
Maximum Mast length allowed 30m 16m if unlicenced(askAT for advise)
Maximum transmit power allowed per radio 10Watt 100mW for 2.4GHz. DFS needed for outdoor 5GHZ devices
WIFI Access for use of non LTE phones and tablets YES, Every CPE contains WIFI AP Yes
Private Network Yes No, Wi-Fi is unlicensed band
Communication for other equipment (VX9) Yes through eM100 PCIe module Yes, via PCIe WIFI module
Interference from others No, Private frequency licence (>2026)
Yes, incoming Ships with Wi-Fi in 2.4GHz, Radar switches off Wi-
Fi in 5GHz band (DFS), operated drones, Video cams etc all work
on the public WIFI frequency.
Security Yes, Simcard or SoftSIM, maximum safety Yes, WPA2. but hackable.
Easy programmable from the Core Yes Yes, Layer 2 (Devices can be configured separately with a tool)
Max Handovertime from stations <30ms ?
Amount of handovers per minute small (only few accesspoint) very large (many accesspoints)
Maximal througput per CPE 50Mbps 10Mbps (depending on distance to AP)
Manageable with HP Openview SNMP Yes via MIPS Yes via MIPS
Maintenance Few sites to maintain 100 sites to be managed.
Speed moving objects (AGV’s Boats, Drones Can handle upto 100 km/h ( with 5G even faster) Can not reach >30km/h
Redundancy network Operator frequencies 3 channels on 2.4GHz, auto switch over to 5GHz
Reliability High many disturbances
Availability High High - Medium
Lifetime Sysytem Prepared for future Wifi will be replaced in time
Roadmap
New functionality can be easily added (eg Voice over LTE, Video,
broadband data)
If throughput higher, less channels can be used. 8.2.11n vs
802.11g
CPE Stability Doppler effect compensation specialy designed for moving objects No compensation
12
Oil & Gas Networking: The Digital Transformation
Introduction of LTE Networking for critical Communication
13
Operator LTE Network at a refinery
Operator
Basestation
Operator
Basestation
Operator
Basestation
Operator
Basestation
Operator
Basestation
Operator Core
14
Private LTE Network at a refinery
Operator
Basestation
Operator
Basestation
Dual APN
Basestation
Dual APN
Basestation
Dual APN
Basestation
Company Core
Operator Core
Company
Cloud
15
Handover and Security
• On Premises Calls and Data through company network
• Handover within Company network
• Secured applications allowed to work
• Off Premises Calls and Data through
operator network
• Handover within Operator network
• Secured applications Not Allowed to Work
16
On and off premises applications have to be decided by the Oil Companys. Some adaption may have
to be made through joint innovation program.
After the basic network topology :
• The mechanism to define the traffic routing will be defined.
• The current 4G radio network gets higher QoS assigned to the Client Sim cards .
• This will provide the routing of the connectivity. The routing from the devices to the dedicated
company Core (UGW) will be done by connecting only the Client assign SIM cards to an APN.
All traffic in this APN can be controlled and in this way routed to the on premises UGW that
will allow the local breakout.
Simcard with Dual APN
1 Client APN with prio
2. Operator APN
Prioritizing and Security
17
How to connect devices to LTE Company network
tablets (iPad)
(ATEX proof) laptops
LTE tablets
Laptops(with LTE dongle or miniPCI card)
Trad
itio
nal
WIF
ILT
E-lic
en
sed
Multiple Access Point
Company WIFI network
Wi-Fi
Company WIFI
Mobile Operator base station
Company Core
Mobile operator core
Operator LTE
Oil & Gas Company
Internal networkCompany private network
Mobile Operator network with local breakout
Sig
na
ling
da
ta tra
ffic
internet4G/5G
ATEX Zone Non ATEX Zone
Wi-Fi
Wi-Fi
Wi-Fi
Wi-Fi
LTE
Non ATEX Zone
tablets (iPad)LTE
4G/5G
Wi-Fi
LTE
18
For the solution, a normal operator frequency is used allowing all current devices to
be connected to the network.
ATEX
NON ATEX
All Devices
19
• Foundation of the network must be found in the core part of the solution
• RAN will be seen as a NaaS.
• The RAN part is decoupled and on every location the best possible RAN solution
can be selected to optimal serve the business.
• Local Breakout is defined to serve low latency
• All traffic generated on the premises will not be routed through the central core of
the operator but will stay local High Security
• A virtual dedicated RAN network will be included that is created within the
existing 4G (5G) network of the operator
• The traffic generated by the client devices will be routed to the on premises
Huawei vUGW supported by a security gateway to secure the traffic
New global standard of mobile enterprise service
20
Oil & Gas Networking: The Digital Transformation
Indoor High Speed LTE Coverage
21
LTE networks evolving to 5G, can be used to replace high density WIFI networks to
enable always on and seamless integration with mobile Phones, tablets and PC’s
on complete private sites and campus.
Current high density WIFI Campus LTE
High Density Networking LTE replaces WIFI indoor
2.4GHz 5GHz
22
Indoor Coverage “LampSite”
LampSite is an industry-leading in-depth
radio coverage solution that supports
indoor multimode deployment in large- to
medium-sized sites such as office
buildings, venues, and transportation hubs
and semi-enclosed sports stadiums.A LampSite base station consists of a baseband unit
(BBU), Pico Remote Radio Unit (pRRU), and RRU
HUB (RRU HUB).
23
LampSite Captures Traffic in Indoor Hot Zone: Flexible Cell Split Traffic
Pulse and Smooth Evolution
• Real-time traffic monitoring
• Dynamic capacity adjustment
• Dynamic share of baseband resource
• Reduce initial investment
Capacity evolution Management Automatic Tide-effect Traffic Management
Cell Split
24
Indoor Coverage through LampSite
[Shenzhen, China, March 6, 2018] Huawei has released its next generation
small cell product, the 5G LampSite, which is the first multi-band indoor 5G
Small Cell product to support both 5G NR and 4G LTE. The 5G LampSite can
utilize CAT6A Ethernet or optical fiber cables laid out during 4G LampSite
deployments to realize transitioning to 5G without complex engineering
implementation or changing radio network planning.
25
26
Oil & Gas Networking: The Digital Transformation
IoT
27
eLTE-U for broadband IoT
• LTE@Unlicensed 2.4/5.8GHz
• 2~3 times of WiFi coverage
• 50ms latency
• 100 Mbps data throughput
• Anti-interference for reliable
connection
Service Engine
Private LTE-U
MiniPCIe
SCADA systemManufacturing execution system
ERP
Enterprise resource planning
Private LTE-IoT for
narrowband IoT
• Narrowband IoT@Unlicensed sub
GHz
• Maximum 10km coverage
• Maximum 10 years battery life
• Massive connections
• E2E encryption
Private LTE-U
AirNode
Private LTE-IoT
AirNode
Private LTE-U
DAU
Private LTE-IoT
Module
Private LTE-IoT
DAU
PADCamera Sensor and Controller Concentrator
Open API
Standard Integrateable Module
OneAir/eLTE, Broadband & Narrowband Connections
28
IoT Cloud IoT Cloud
Gas Detection
IoT W
earable
IoT Architecture with data aggregation Layer
Security
Detection
Data aggregation
IoT Cloud
Policy Rules
Retail
29
IP network
independent connectivity solution
3GPP
(NB-IoT/eMTC/LTE)
ISM – 868MHz(LoRa or Private LTE-IoT)
Gateway Platform flexible for all access technologies
Mo
nit
ori
ng
Dat
a m
inin
g
Pro
cess
co
ntr
ol
An
alyt
ics
Apps
Water MeterPower Meter Gas Meter Energy Meter
Process monitoring
Temp/
humidity
Smog Air quality
HART
Huawei gateway
Platform(ATEX proof) tablets
(ATEX proof) laptops
workstations
30
Huawei Intelligent Video Surveillance as IoT
Inefficient
Tired
Complex
On-duty
Detection
Target
Object Tracking
Abandoned
Object
Detection
Boundary
Intrusion
Detection
No streaming video , Only Triggers
31
In Summary
LTE and 5G, connectivity drivers for High speed networking and IoT
Copyright©2017 Huawei Technologies Co., Ltd. All Rights Reserved.The information in this document may contain predictive statements including, without limitation, statements regarding the future financial and operating results, future product
portfolio, new technology, etc. There are a number of factors that could cause actual results and developments to differ materially from those expressed or implied in the predictive
statements. Therefore, such information is provided for reference purpose only and constitutes neither an offer nor an acceptance. Huawei may change the information at any time
without notice.
THANK YOUCharles.van.Hulzen@huawei.com
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