Smart Cities Big Data - University College...
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Smart Cities & Big DataSmart Cities & Big DataHow We Can Make Cities More Resilient
Michael BattyMichael Batty
http://www.ComplexCity.info/http://www.casa.ucl.ac.uk/
March 2nd 2014
Centre for Advanced Spatial Analysis, University College LondonCentre for Advanced Spatial Analysis
[email protected]@jmichaelbatty
Faculty of Architecture & Town Planning Technion, Israel
If you wish to look at the PDF of this presentationI will make it available tonight
http://www.spatialcomplexity.info/files/2014/03/BATTY‐TECHNION1.pdf
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http://www.simulacra.info/
http://planefinder.net/
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http://planefinder.net/
http://planefinder.net/
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http://planefinder.net/
http://planefinder.net/
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Key Themes
• Changes: Big Data, Short Times, Fine Spatial Scales: The Next 5 Minutes or the Next 5 Years?
• How Do We Articulate Resilience in Urban Systems: Complexity, Redundancy, Robustness yet Fragility
• The London Oyster Card Data Set: Disruption
• Simpler Systems: Public Bikes as Exemplar
• Long & Short Term Flooding: Tyndall Cities Project
• Big Disruptions in Infrastructure: Olympics,Cross Rail
• Regional Breakdown: Phase Transitions
• Attempting a Synthesis: What Next for Planning?
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Changes: Big Data, Short Times, Fine Spatial Scales: The Next 5 Minutes or the Next 5 Years?
Big data is distorting or at least changing our attention span from longer to shorter time periods in which intervention takes place
This is because big data is largely but not exclusively based onmassive volumes – terabytes – over very short time spans –seconds – at very precise spatial scales – centimetres or less
The focus thus turns to issues such as disruption of systems for individuals over 5 minutes to 1 hour to 1 day rather than change for aggregate groups of populations from 1 year to 5 years to 50 years.
To an extent there is a general shift from equity to efficiency.
Of course big data is also being streamed incessantly without any potential end limit although systems will inevitably change and there is no guarantee that big data will tell us about change on any and every time scale.
Big data can also be traditionally collected data by manual means and a good working definition is anything that will not fit intoan Excel spreadsheet –– the population of Israel is big data and it might be collected from many sources, none of which are streamed in real time. This is getting to be big data.
Big data is also as unreliable as small data and perhaps more soand I will tell you of some problems in it as we go along.
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How Do We Articulate Resilience in Urban Systems: Complexity, Redundancy, Robust Yet Fragile
If our attention is shifted to the short term, the focus changesfrom issues of equity in aggregate populations to issues of efficiency in individual behaviours. The focus also shifts from ideal states to dynamic change.
It shifts to how systems are disrupted, and one of the very obvious ways is that the links between the parts that compose a system get fractured or broken in some way. In short, the very definition of a system as a set of interacting parts contains within it the seeds of its own destruction.
Networks and their robustness to fracture is of the essence.
Now in the popular science book Resilience written by Zolli and Healy in 2012, the reviewer in Time magazine had this to say of the ideas:
“In the 21st century, disruption is going to become the new normal in ways that we can’t even predict. All we can do is learn to bounce back better …”
In fact we now have quite a lot of science to help us in thinking this way and much of this grows out of the systems approach, its successor complexity theory, and of course its specific tools such as network science.
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A science of resilient systems is in the making depending on newnotions about systems as much as developments like big data.
It depends on notions such as how can networks remain robust while at the same time being fragile, how can they suddenly disrupt without any obvious slow and sure warnings, what bits of them can be attacked with little or nothing happening and what bits can be attacked with a lot happening.
This is the science of small worlds, tipping points, weak ties, key hubs, catastrophes, bifurcations, , order effects, infinite repercussions and so on. It is the science of phase transition, of complexity and most of all of redundancy in systems. It is the science of heart attacks, and societal collapse and much else besides. It is the science of how the flows and interactions, how social networks keep the city functioning.
There are many many examples particularly pertaining to transport but peel back the layers and same logics apply to everything from the financial crisis to the spread of epidemics.
My recent favourite example is the M25 orbital road which has not had one day free of closure in the last 3 years. Even more recently failures in the UK NHS due to systematic management breakdowns, not resources per se.
An excellent example of all of this is the forest fire and let me tell you how such a fire works. Imagine a grid of trees widely spaced – a tree catches fire due to a lightening strike but burns out. As the trees get closer together, those adjacent to one another burn but only when 59% of the area of the forest is full of trees, does the entire forest burn down. This is the percolation limit – absolutely critical for breakdown.
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The London Oyster Card Data Set
Ok let me begin to illustrate these ideas with some examples. which involve big data and networks. Our Oyster card data set involves all tap in and tap outs by unique ID number with location and time for every person over a 6 month period
7 million a day, 40 million a week, 160 million a month, nearly 1 billion for every half year. This is very big data – simply to explore it takes a lot of computer time
It is very good data in that we can begin to get a very detailedsense of how people travel over time – the routiness of travel but there are a lot of holes in the data too.
Tube, Overground and National Rail Networks in Londonwhere Oyster cards can be used
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Roth C., Kang S. M., Batty, M., and Barthelemy, M. (2011) Structure of Urban Movements: Polycentric Activity and Entangled Hierarchical Flows. PLoS ONE 6(1): e15923. doi:10.1371/journal.pone.0015923
Animation over 24 hours of speeded up position/time of tubes: How can we match this supply of vehicles from the API queries
to the demand from the Oyster card data?
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The left image shows the effect of the bus strike on 22nd May 2012, while the image on the right shows a normal day.
Tuesday 22nd May 2012, 09:00 Wednesday 23rd May 2012, 09:00
The effect of a bus strike
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Disruption caused by closing Liverpool Street in terms of the graph of the tube network
Closing Green Park –shifts in betweenness centrality
Bank & Monument Stations: •5 Lines and 2 Modes•60k Entries/Exits Weekdays•35k Entries/Exits Weekends
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Particular Events: Weekdays, Saturdays and Sundays
2am 4am 6am 8am 10am 12pm 2pm 4pm 6pm 8pm 10pm 12am 2am 4am−100
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Entry at Arsenal (10 Mn. Intervals)
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Nightlife
WorkTourism?
Events
Circle and District line part closure
From Edgware Road to Aldgate/Aldgate East
19th July 201207:49 to 12:04
1234022 Oyster Cards with regular patternduring disrupted time
period travelled
Disruption on the Circle and District Lines
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London Underground and Rail Network
Geographic form
Increased Travel TimeGreater than 2SD above mean increase on usual
travel time for that Oyster CardSize equal to proportion of users that regularly travel from station
during time period, and travelled that during disruption
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Origin ChangesLocations from where individuals changed
from their usual origin station
Destination ChangesLocations from where individuals changed
their usual destination station
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Complete Switch to BusLocations from where users replaced usual journey with a bus-only journey
Partial Switch to BusLocations from where users replaced a part of usual journey with a bus journey
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Total Proportion DisruptedProportion of all 79103 users identified as
being disrupted from usual patterns
Upton Park 0.79Dagenham East 0.77Dagenham Heathway 0.76
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Simpler Systems: Public Bike as Exemplars
World‐wide case study from Ollie O’Brien:100 cities, 3 years of data
Docking station statusJourney records
Looking at cultural behaviourEach docking station shown by a circle
Blue = empty, Purple = ~50% full, Red = fullNormally two graphs
Weekday (normally Wednesday)Weekend (normally Saturday)
Live versions at http://bikes.oobrien.com/Let us look at the big map first of all schemes, then we will
go live and look at Tel‐Aviv, I hope, then London
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The Barclays Cycle Hire London Project
BCH commenced operations in July 2010 with 5,000 bicycles and 315 docking stations distributed across the City of London and parts of eight London boroughs.[10] The coverage zone spans approximately 17 square miles (44 km2), roughly matching the Zone 1 Travelcard area.
Currently there are some 8,000 'Boris Bikes' and 570 docking stations in the BCH scheme, which has been used for over 19 million journeys to date
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As yet no records of demand from people logging on, so no management capabilities, but could happen probably from an App based software but maybe from the server
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http://oobrien.com/vis/bikes/
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The Website: Real Time Visualisation of Origins and Destinations Activity http://bikes.oobrien.com/london/
Your can play back the last couple of days from the animator formany of the cities where the data is captured online
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Initial Analyses
Flows – Origins and Destinations
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Thre are quite a few visualisations on Vimeo which have been developed by James Cheshire and Martin Austwick where they have used shortest routes methods to figure out bike paths
http://vimeo.com/19982736 And one from Jo Wood at City University http://vimeo.com/33712288
Long & Short Term Flooding: The Tyndall Cities Project
We have been involved in a large consortium project led by Newcastle Civ Eng to look at an integrated assessment of climate change in Greater London
MoSeS
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http://www.casa.ucl.ac.uk/movies-weblog/GoogleEarth.mov
Flooding from our 3D Virtual London Model
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Shifts in Traffic Accessibility if all Bridges across the Thames are Inoperable as far West as Hammersmith
Big Disruptions/Additions in Infrastructure: The Olympics games Regeneration of East London and Cross Rail
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The Impact of Additional Employment and Population at the Olympic Games Site in East London
Absolute Gains in Population (left) in East London but Relative% Gains in Population in West London (right)
M. Batty (2012) Urban Regeneration as Self‐Organisation, Architectural Design, 215, 54‐59
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Cross Rail: The High Speed Rail Line from Maidenhead to Stratford – 30 trains an hour each way
Regional Breakdown: Phase Transitions
My last example shifts scale massively to the entire country. Weare working on a problem essentially in the regional economic geography of the UK – or at least England, Wales and Scotland examining how prosperous cities are with scale.
This is called allometry of city sizes – the idea is that as cities grow they generate economies of scale and to cut a long story short, their per capita income grows with size. This is called superlinearity – in short their metabolism get faster with size – the pace of life gets faster, congestion gets greater and crime gets greater per capita as does income, inventiveness and so on
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I cant go into this in any detailed but to do this we need to construct cities from the ground up – to define them – the work done in the US for MSAs indicates that for every doubling of city size, income more than doubles going up by 215% or so.
In the UK we have not found this – incomes do not go up superlinearly but linearly and this we believe is due to many factors – it may well be that the UK urban system is much more integrated than the US – more global and it may be that policy, historical path dependence of how the country has developed and so on is key – we don’t know but we need to define proper defintions of cities and this we are using percolation theory to do this – let me give you a sense of how we can break up the regional system from the UK network
log pop
log access
A Theory of City Size, Science, 21 June 2013: Vol. 340, 1418‐1419
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
![Page 39: Smart Cities Big Data - University College Londonspatialcomplexity.blogweb.casa.ucl.ac.uk/files/2014/03/BATTY-TECHNION1.pdfchange for aggregate groups of populations from 1 year to](https://reader033.fdocuments.in/reader033/viewer/2022060303/5f08c7547e708231d423aded/html5/thumbnails/39.jpg)
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
![Page 40: Smart Cities Big Data - University College Londonspatialcomplexity.blogweb.casa.ucl.ac.uk/files/2014/03/BATTY-TECHNION1.pdfchange for aggregate groups of populations from 1 year to](https://reader033.fdocuments.in/reader033/viewer/2022060303/5f08c7547e708231d423aded/html5/thumbnails/40.jpg)
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What we do is we decrease the distance threshold for places to connect with one another systematically, starting from any integrated system –where we show the top ten clusters in terms of size
This reveals the splits in the system eventually giving us cities
Attempting a Synthesis: What Next for Planning?
Ok a longish talk I know but basically my point is that big data is changing our focus – and in some senses planning needs to respond –
The danger is that we shift too radically – big data gives is the opportunity to develop new more focussed tools for dealing with short terms changes but this does not negate long term change, our traditional focus
In some senses, this enriches our ability to understand, manage and intervene.
There is also a warning – we need to embrace these new technologies before they embrace us and work with many groups of people – other disciplines that are moving in on these domains
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I could say a lot more but I won’t –
Just let me give you my coordinates and remind you that this power point as a PDF is on one of our blogs at
http://www.spatialcomplexity.info/files/2014/03/BATTY‐TECHNION1.pdf
M. Batty, CASA, UCL, 90 Tottenham Court Road,
London WC1E 6BT
[email protected]://www.complexcity.info/
@jmichaelbatty