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Enablers for Smart Otaniemi
Smart Otaniemi seminar 13.6.2019 Seppo Horsmanheimo, Teemu Vesanen, Daniel
Pakkala and Helena Kortelainen VTT
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Technical enabler WPs in Otaniemi ecosystem
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• Common data platform for data
gathering and management
• Provision of connectivity and
5G / IoT communication
services for pilots
• Communication and data
platform specifications (link to
WP6 and WP7)
• Close collaboration with
national and international
projects (link to 5G-FORCE)
• Technical AI and Blockchain
enablers for flexibility markets
(link to WP4)
• Site energy consumption,
flexibility and generation
prediction and control with AI
(link to WP6)
• Estimating and predicting
district energy demand in EV
traffic (link to WP7)
• Seeking co-operation with
related initiatives & projects
• Operational reliability of the
energy supply is crucial for
industry and society
• Identification of technologies
for improving reliability
• Creating Asset Life Cycle
management framework and
methods to assess
affordability of solutions
• Seeking co-operation with
other pilots & developing
novel pilot cases
Platforms and
connectivity Enabling
technologies
Operational reliability in
smart energy systems
• Enable easy access to data from different sources
• Support the creation of new types services and applications across energy, building, transportation, and communication sectors
• Exploit the common data platform and 5G technology to enable cost-efficient and scalable data services
Shared vision
Enablers
• Otaniemi 5G test network for reliable and real-time connectivity offering 4G/5G and IoT services
• Research and business data platforms
• Research: sharing of monitored and analysed data across different industry sectors (in operation)
• Business: data quality management, privacy, protection, and ownership functions (in design)
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WP2 platform and connectivity (1 / 2)
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Distributed 5GTNEPC components
Centria UAS / YlivieskaTrial network
UniversityOulu
VTTOulu
VTT Espoo
Aalto University Espoo
FunetDWDM
1Gb
Funet IPRouter
1Gb
1Gb
Nokia EPCOulu / Rusko
1Gb
CWDM
Mux
CWDMMux
Willab
ODC / Oulu
Distributed 5GTNEPC components
CSC / Espoo
FunetDWDM
OpenEPCEPC simulator
= N/A or TBD
Nokia SNRDistributed 5GTNEPC components
VPN?
Tampere
Nokia / Tre
Helsinki UniversityKumpula
Nokia KaraporttiEspoo
10Gb
Funet IPRouter VPN?
NetAct / iOMS
TUAS/Turku
1Gb
= IP routed (L3)
= dedicated lightpath / VLAN (L2)
Funet IPRouter
1Gb (10Gb)
= VPN
TUTTampere
Self-sustained pico-eNodeB
WP2 platform and connectivity (2 / 2)
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Combined communication and energy
Enabling transition towards distributed prosumers-driven smart energy system.
Per site autonomous energy assistants
optimizing energy consumption and
production, based on:
• Preferences and feedback of
prosumer
• Energy markets and pricing
• Site/building level real-time energy
model
• Weather and outdoor conditions
Shared vision
System view of enablers
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WP3 Enabling technologies (1 / 2)
WP3 Enabling technologies (2 / 2)
• 24h ahead heat and electricity
demand forecast for Otakaari 4.
• Heat demand forecast:
• NRMSE is currently 2.3%
for 2017 data
• Electricity demand forecast:
• NRMSE is currently 4.2%
for 2017 data
• Local PV solar power generation
modelling and forecasting for
Sähkömiehentie 4.
• Modelling and training data
collection ongoing.
AI based forecasting models
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WP11 Operational reliability in smart energy systems
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• The research project´s concrete output, methods, tools and practical examples will be collected in an open access Lifecycle Management Guidebook.
Setting requirements
Reliability and safety
analysis
Validation of the requirements
Performance and maintainability
modelling
Life cycle cost analysis,
cost-benefit analysis,
risk analysis
Asset performance
improvements and upgrades
with the aid of digital
technologies
Operational reliability
assurance by predictive
methods and maintenance
support technologies
R-strategies for sustainable
re-use of valuable assets
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Supported the 1st phase pilots
• Remote inspection with drones: The pilot focuses on deploying drones for remote inspection of facilities used for flexible energy production, consumption, and storage.
• Remote monitoring of a self-sustained pico-eNodeB: The pilot implements outage-free power supply for pico-eNodeB and remote monitoring and control of the photovoltaic (PV) system with a battery.
• Smart EV charging: The pilot demonstrates new EV charging services to be deployed at work and home. The focus is on interactions between the consumer, charging point, aggregators, and TSO to support more detailed metering, demand response, and load balancing.
• Remote monitoring of heating, cooling and air conditioning (HVAC): The pilot implements a real-time multi-point metering system to monitor energy consumption of smart cooling and air conditioning systems in buildings.
Thank you for your attention Any questions?
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