intelligent urban water systems jin wang the university of western australia 16-09-2014
TRANSCRIPT
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Intelligent Urban Water Systems
Jin WangThe University of Western Australia16-09-2014
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INDUSTRY CONTEXT AND PROBLEM ENVIRONMENT
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CRC for Water Sensitive Cities • CRCWSC researches urban water reform required to
transform our cities into liveable, sustainable and productive cities.
• Our research over the next nine years will guide capital investments of more than $100 Billion by the Australian water sector and more than $550 Billion of private sector investment in urban development over the next 15 years.
© CRC for Water Sensitive Cities 2012
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Smart Water Metering
Customers – empowerment, informed behaviourPolicy – billing bands, future investment, planningEnvironmental – reduce water use, carbon footpr.Operational – reduce OHS costs, delay/avoid new
infrastructure
Smart meter = asset (install, maintain)
Smart metering = discovery of knowledge to support decision making
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Intelligent Urban Water Systems
GoalTo develop techniques for utilizing sensor data to optimize the efficiency and safety of urban water systems
Areas1. Data mining of patterns from smart water meters2. Optimization of pumping from multiple alternative
sources of water 3. Optimizing sensor selection and placement for
meeting information goals e.g. detecting leaks in pipeline systems.
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Smart Water Meter Data
Raw data demo: Raw data
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RESEARCH AIMS AND QUESTIONSINDUSTRY AIMS AND QUESTIONS
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Data mining
Data mining is the process of discovering interesting patterns and knowledge from large amounts of data
Modes of enquiry: • explore (what)• explain (how)• predict• plan
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Data mining = searching for interesting patterns in data in order to:
• Characterize and discriminate categories • Identify frequent patterns, associations and
correlations• Predict future behaviour using classification and
regression• Discover clusters in labelled and unlabelled data• Analyse outliers and detect anomalies
[Data Mining, Han, Kamber & Pie (2006)]
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Data mining example- characterize and discriminate• Example from smart metering
– Continuous flow patterns were prevalent in the Kalgoorlie sample with 84% ( 157 / 188 ) of households having at least one day of continuous flow. Continuous flows accounted for 10% (3 / 29 megalitres) of all water used by houses in the sample population.
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Data mining example-identify frequent patterns, associations and correlations
• Example from smart metering
– For meter 99 on 50 / 170 days recorded water use was relatively high, totaling 15 megalitres (30 %) of 99’s overall water use. This high water use occurred most frequently on Mondays and Fridays, between 6am and 12 noon on those days.
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Q 1 : What types of water use occur in Kalgoorlie? Karratha? Perth? Melbourne? Brisbane? (explore)
Industry problem:Discover “unknown unknowns” of water useAre the assumptions behind water saving campaigns correct? What are the new opportunities for customer engagement?
Approach:Build a conceptual data model for water-use activities using (only) hourly observations
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Q 2: Identify temporal patterns of peak demands and the activities behind them (explain + plan)
Industry problem:Infrastructure planning: delay or avoid $M upgrades by engaging with customers to modify or reduce their use e.g. offset their watering schedules
Approach:Data mining models to automatically query temporal patterns in populations
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Q 3 : Identify “inefficient” garden watering activities. How much / when is water is used this way? (explain)
Industry problem:Target and engage a small number of significant customers e.g. those with “inefficient” watering habits. Are all inefficient garden users also high overall water users? Is highly inefficient garden use prevalent or isolated users?
Approach:Searching for relatively rare patterns
(eg 1 hour per 168 hours in a week, needle in haystack)
Searching for complex temporal patterns (e.g. every Mo,Tu,Sa at 2am, every even day of the month at 3am, twice a week on different days, during summer but not winter)
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CASE STUDY
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Case Study 1: Kalgoorlie-Boulder WA238 properties (of 13,800) 14 months
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Raw Data
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Q 1 : What types of water use occur in Kalgoorlie? (explore)
Research Contribution: a conceptual data model for water-use activities using (only) hourly observations
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Findings (1): Anomalies are interesting
One-off exceptions on accounted for 31% of all water use
94% of users have continuous flows (leaks)
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Findings (2): Temporal patterns are interesting
Regular high use on Mon, Wed, Fri but only in summer
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Case Study 2: Karratha WA100 households, 111 days
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• Q: Is water demand related to land size? A: Possibly yes (work in progress)
Q 2: Identify temporal patterns of peak demands and activities behind them (explain + plan)
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Q 2: Identify temporal patterns of peak demands and activities behind them
Q: Would adjusting a few customers’ recurrent habits achieve smoothed demand peaks? A: Possibly yes (work in progress)
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Q 2: Identify temporal patterns of peak demands and activities behind them
Q: Would adjusting a few customers’ irrigation habits achieve smoothed demand peaks? A: Possibly yes (work in progress)
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Q 3: Identify “inefficient” garden watering activities. How much water is used this way? When? (explain)
• “Intentions to save water are shaped by attitudes, beliefs, habits and routines, personal capabilities and contextual factors”[Russell S, Fielding K (2010) Water demand management research: A psychological perspective. Water Resources Research 46(5)]
• Human behaviour (calendar patterns) are complex• Human behaviours are non-stationary• Problem: how to detect habit patterns?• Aim: reliable, automatic generation of evidence for
decision making
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Finding patterns – where is the irrigation?
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Water Use Habits (Irrigation Patterns 1)
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Water Use Habits (Irrigation Patterns 2)
IrrigationActual use136 kLBudget 12 kL
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INDUSTRY IMPACT AND BENEFITS
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Industry Benefits (1): Water Use Sig Patterns
• Kalgoorlie trial was a response to safety for meter readers (OHS)
• Independent report: “Smart meters have reduced water use in Kalgoorlie-Boulder by reducing the average duration of leaks [using] … suspected leak letters…. saved an estimated 13,713 kL in 2012/13
• There remains significant scope to leverage the information provided by smart meters
• Targeted customer engagement is critical”‘Intelligent networks - Smart Metering and Data Logging Programs Evaluation’, Report for Water Corporation by Marsden Jacob Associates Pty Ltd, January 2014
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Industry Benefits (2): Water Use Habits
• Ranked list of customers for engagement• Identified potential for savings from inefficient
irrigation – just the excess (53%)• Configurable, automatic search supports
evidence-based decision-making• Answers new queries: – All high irrigators = all high water users ?
• Answers new queries: – What are the temporal patterns for peak demand? Is
there scope to adjust ? (delay infrastructure)
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Summary
• Developed a novel model of water use signature patterns for medium-resolution smart metering
• Pattern discovery and description is automated, making the approach scalable for large user populations over long time periods.
• Novel way to identify calendar habit patterns• Supportive industry partnership – ongoing
work towards technology transfer
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© CRC for Water Sensitive Cities 2012