Smarter Water Management Through Sensor Based Networks · 2016-03-29 · 6500+ staff over 55...
Transcript of Smarter Water Management Through Sensor Based Networks · 2016-03-29 · 6500+ staff over 55...
Smarter water management through
sensor-based networks
Dr Ian Oppermann
Director ICT Centre
With Thanks to Dr. Matt Dunbabin and the Autonomous Systems Lab
Australia is a big country with a small population (2.833/km2)
89% of people live in urban areas.
The rest don’t.
Australia is a dry country and water is a major issue
Australia is a major exporter of primary produce and so water
Some other interesting points
A National Broadband Network will be rolled out in
Australia and will connect all Australian premises
with fibre or wireless services
Total value is A$43Bn (Eur 29Bn)
CSIRO : Smarter water management through sensor-based networks
6500+ staff over 55 locations
CSIRO today: a snapshot
160+ active licences of CSIRO innovation
20+ spin-off companies in six years
Ranked in top 1% in 14 research fields
One of the largest & most diverse in the world
Australia’s national science agency
Building national prosperity and wellbeing
CSIRO : Smarter water management through sensor-based networks
Leveraging CSIRO domain knowledge for ICT
Most Trusted brand in Australia
Strength in ICT
• World’s 4th Computer
• The Dish –moon landing images
• WLAN patent
• Focal Plane array for ASKAP
• 6Gbps millimetre-wave wireless
• Brain Atlas for Alzheimers
• High resolution Imaging of
Centaurus A
• Robotic Colonoscopy Simulator
CSIRO : Smarter water management through sensor-based networks
CSIRO : Smarter water management through sensor-based networks
The business of drinking water
An example from the State of Queensland
Single treated & bulk water supplier for SEQ managing • 24 dams • 53 weirs • 46 water treatment plants
CSIRO : Smarter water management through sensor-based networks
1,852,642 km2
Our Goal
Real-time, distributed water quality monitoring
More with Less : Smarter asset management for growing water demand
Infrastructure optimisation
Catchment / storage utilisation
Selective off-take
Improved Understanding
Real-time, high-resolution
information
Process understanding
Modelling / forecasting
Decision support tools
Mission : Provision of high-quality drinking water
CSIRO : Smarter water management through sensor-based networks
Paradigm Shift
“Real Time” Water Quality Monitoring
• 1 Sample / day (week)
• Labour intensive
• Weather dependant
• Bad temporal resolution
• 1 Sample every 2 hours
• High cost
• Bad spatial resolution
• 1 Sample / minute
• Low cost
• Robust (redundancy)
• High spatial resolution
• High temporal resolution
CSIRO : Smarter water management through sensor-based networks
Proof of Concept
Lake Wivenhoe wireless sensor network
• Storage scale sensor network • 45 Floating nodes
• 70 Catchment nodes (includes cattle)
• 4 Gateways
• Water nodes • Temperature in the water column
• Advanced energy management using solar
• Marine safety
• Terrestrial nodes • Soil moisture
• Microclimate
• Backbone for animal monitoring
• Cattle collars • GPS tracking
• Energy efficient localisation algorithm
• Contact logging
CSIRO : Smarter water management through sensor-based networks
Live system – Lake Wivenhoe and Brisbane
Statistics (without multimedia) • 1.1 million measurements / day (Wivenhoe) • 229 million measurements total (Wivenhoe) • 395 million measurements total (All operational networks)
CSIRO : Smarter water management through sensor-based networks
Robust real-time, energy aware sensor nodes
• Continuous operation under solar power
• Adaptive energy management
• Software-based energy management techniques
• Low-power listening (90% energy savings)
• Adaptive sensor duty cycling (provisional patent)
• Reprogramming over the air
CSIRO : Smarter water management through sensor-based networks
Real-time Interaction
• Intuitive user interfaces • Web service
• Handheld devices
• Two way data communication
• Real-time information retrieval
• Field and remote access
CSIRO : Smarter water management through sensor-based networks
Mobile sensing platform
Depth selectable
profiling arm
Electric trolling
motors
Solar panels (300 W)
Laser scanner
16 ft catamaran
Sensors Temperature Dissolved oxygen pH Turbidity Methane Wind Light Fluorescence
CSIRO : Smarter water management through sensor-based networks
Impact 1: Understanding the impacts of livestock
CSIRO : Smarter water management through sensor-based networks
Impact 2 : Environmental impact of hydro-power
CSIRO : Smarter water management through sensor-based networks
Impact 3: Storage-scale mapping of CH4 emissions
CSIRO : Smarter water management through sensor-based networks
Impact 4: Understanding processes at storage scale
Using iSnet mobile sensing technology,
managers obtained information that
resulted in significant cost savings on a
new dam upgrade.
CSIRO : Smarter water management through sensor-based networks
Summary
Our goal is real time understanding of water system at
Storage Scale
• Real-time observation, configuration, control and
integration
• Smart sensor nodes
• Robotic mobile sensing platforms
• Integration software frameworks
• Data processing, visualisation and management systems
• Provides information for
• Improving cost effectiveness of water treatment processes
• Ensuring safe, secure delivery to end users
• Foundations for quantitative assessment of carbon
emissions
• Future reporting requirements
• Successful 120 node end-to-end pilot trial operating
since 2009 with 395 million measurements to date
CSIRO : Smarter water management through sensor-based networks