WINGS ICT Solutions develops software solutions for smart cities and water management using technologies like NB-IoT, AI, and IoT. Their smart water management platform CATARACT uses sensors and analytics to monitor water quality and usage. Their assisted living solutions use environmental, health and home sensors in cities and homes to help monitor and support elderly populations. WINGS has experience piloting these solutions in cities like Paris, Madrid and Athens.
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Similar to Smart Water Management and Assisted Living Solutions for Smart Cities, powered by NB-IoT and Artificial Intelligence, WINGS ICT Solutions (20)
4. About WINGS: Scope
WINGS is a dynamic SME which focuses on the development of software for various vertical
sectors (namely, water, energy, smart cities, food safety, health, transportation, finance)
through advanced wireless, cloud/IoT, big data and security technologies.
5. About WINGS: Team
5 Technical Development Strategists
20 Solution Architects/Engineers
60 Software developers
7. Opportunity
Water presents opportunity,
with business and social value:
Global water control and
monitoring solutions market worth
$22.8 billion in 2017 with a
projection for $30.1 billion in 2021
[Source: GWI]
Value in the management of
potable, rain, waste water
Social value: public health, for all
human activity
Vital for econony: energy,
manufacturing, food, agriculture
etc.
8. WINGS and Water Pilots
Paris and Almada
PROTEUS Sensor, calibrated and
exploited by WINGS software,
which produces insights,
foresights, and suggested
actions
Proteus@Sense-City drink water
loop consists in 46m of above-
ground PVC pipes connected in
closed loop to a 1m3 water tank
Above ground sensor
deployment in Almada
9. CATARACT
WINGS Solution: “proaCtive mAnagemenT plAtform
foR smArt Connected waTer” (CATARACT) platform
Leverages on:
Commercial and R&D
based sensors
Standardized
communication technologies
Analytics and Artificial
Intelligence
Visualization and
customizable dashboards
10. 1. Water Metering and
Quality Control
2. Data Collection and
Transmission to the utility
center
3. Data analysis and
data correlation
Short range distance ( <25m ) Long range distance
a. Complex Event
Processing
b. Predictive Analytics
c. Data Correlation
a. Gateways (Arduino,
Raspberry)
b. Protocols (Modbus,
DNP3, IEC 870-5-104)
c. Technologies (NB-IoT,
LoRa/LoRaWAN,
Zigbee, Sigfox)
a. Physical (Flowrate,
Pressure, Conductivity,
Temperature)
b. Chemical (pH, Chlorine)
Communication
Technologies
Analytics
Automatic Metering
and Control Dashboard
4. Real time data monitoring,
data visualization
Use Cases &
Benefits
Uses Cases
Leakage
Disinfection
Intrusion
Contamination
Blockage
Overflow
Benefits
Public health
Optimized OPEX
Overall concept
11. NB-IoT
Revenue uplift of 2.2% for
operators thanks to the launch of
NB-IoT services (just for connectivity,
will be higher if moved up to the
value chain)
NB-IoT tests in COSMOTE Lab
Device prototyping
2400
2500
2600
2700
2800
2900
3000
3100
3200
3300
42 37 32 27 22
RLCUpLinkThroughput
(kbps)
Sent bytes
Using NB-IoT
Feeding CATARACT
12. Wider experience
WssTP is the European Technology Platform for Water
WssTP consists of 178 members and a network of more than 700
individuals from Industry, research, technology providers, policy makers
and water users
WINGS has an active and leading role in
WssTP Working Groups (WGs)
Water & ICT WG
Chapter leader in the "Water & ICT" roadmap
Water & Infrastructure WG
Water & Energy WG
Water & Agrifood WG
Awarded with WssTP Water Innovation SME
Award 2016
14. Opportunity
72%
45%
€3,000
to
€4,500
15%
of family members of elderly feel that the
presence of monitoring technology in their
relative’s home would give them greater
peace of mind
of customers with home automation
systems have never programmed them
of the total population of Europe
are people with disabilities
Average long term care fees per
month
Predict and
notify
Reducing
the cost
Automated home
environment adaptation
Support
15. Madrid
- Smart City Sensors & Environmental
Data: Temperature, Humidity, Pollen,
Pollution
Sendai, Tago-nishi
- Smart City Sensors & Environmental Data:
Temperature, Humidity, Pollen
- Wearable Devices: Health data, heart rate
& blood pressure
Athens
- Smart Home Sensors & Actuators:
Temperature, Humidity, Luminosity, LEDs,
Switches
WINGS and AAL Pilots
Madrid, Athens and Tago-nishi
16. Overall concept
1. Smart cities, Smart
Homes, Wearables
2. Data Collection
and Transmission
3. Data processing
& analysis
Methodologies
Machine Learning
Predictive
analytics
Complex Event
Processing
Technologies
Wi-Fi
Bluetooth
ZigBee
3G/4G
Sensing & Monitoring
Pollution, Pollen
Temperature, Humidity
Lumen/Luminosity
Weather, Traffic
Wearables (pulse rate,
heart rate)
Communication
Technologies Analytics Dashboard
4. Data monitoring &
visualization
Sensing and Actuation
Data sources
Protocols
REST
COAP
MQTT
AMQP
Environment
Health
IoT platform interoperability
Use cases
Mobile Apps
Environmental monitoring
Outdoor (Smart Cities)
Indoor (Smart Homes)
Smart Mobility
Health, Traffic,
environment, weather
Web Apps / Web UIs
Home, City
17. Wider experience
Best Demonstration booth award at
the EUCNC 2017, June 2017,
Oulou, Finland
Best Exhibit Award at IoT360
Summit, October 2014, Rome, Italy
Best Demonstration Stand Award in
Future Network and Mobile Summit
2013, July 2013, Lisbon, Portugal
Runner-up Demonstration Stand
Award in Future Network and
Mobile Summit 2012, July 2012,
Berlin, Germany