Tag Archives: Programmable City

Mark Maguire – Counter-terrorism in Airports/Cities

On February 25th 2015, Mark Maguire visited the Programmable City Project and delivered a seminar on counter-terrorist techniques that are increasingly becoming (or have become) techno-scientific processes.

The talk was extremely well received, and offers a detailed, critical and timely appraisal of current developments in counter-terrorism.


Seminar – Counter-terrorism in Airports/Cities: from techniques to techno-science

We are delighted to welcome Mark Maguire to The Programmable City project on Wednesday 25th February, 4-6pm in room 2.31, Iontas Building, Maynooth University. This is the fourth of our Programmable City seminars this academic year. Mark is a lecturer in Anthropology at Maynooth University. His research focuses on the areas of migration and security. He is concerned with exploring international migration through ethnographic research on everyday lives  and the technologies and processes of securitization, especially counter-terrorism, biometric security, affective computing and the detection of abnormal behaviour and ‘malintent’. Mark is author of Differently Irish (Woodfield Press 2004), which explores the lives of Vietnamese refugees and their families, and, with co-author Fiona Murphy, Integration in Ireland: the everyday lives of African migrants (Manchester 2012). Mark is co-Editor of Social Anthropology/Anthropologie Sociale.


Ben Williamson – Programmable Schools? Governing education through code in the smart city

On January 28th 2015, Ben Williamson visited the Programmable City Project and delivered a seminar on “Programmable Schools”. Ben is a lecturer in the School of Education at the University of Stirling. His current research focuses on learning analytics, policy labs, and the emergence of new forms of digital education governance and digital policy instruments. This presentation drew on the ESRC-funded Code Acts in Education project that Ben is currently leading. Continue reading

Seminar – Fast Cities: New Utopias of Smart Urbanism in India

We are delighted to welcome Ayona Datta to Maynooth on Monday 3rd November for the second of our Programmable City seminars this semester. Ayona Datta is Senior Lecturer in Citizenship and Belonging at the University of Leeds. Ayona’s research and writing focuses on the gendered processes of citizenship and the gendered politics of urban renewal and urbanization across the global north and south. Ayona is the author of The Illegal City: Space, law and gender in a Delhi squatter settlement (2012) and is editor of Translocal Geographies: Spaces, Places, Connections (2011).

The seminar will focus on the development of smart cities in India. In 2014, the newly elected Indian government announced an ambitious programme of building 100 new smart cities across India.  These cities are presented as the answer to the challenges of rural-urban migration, rapid urbanisation, and sustainable development in India. Ayona’s seminar will examine these claims by focussing on two Indian ‘smart cities’ being built from scratch.



Outsmarting the Smart City

In May 2014 Ubisoft released a new computer game called Watch Dogs. Having sold over 4 million copies in the first week of sales it is tipped to be the game of the year.  In the game, Chicago City is controlled by a central operating system (ctOS). The super computer gets a panoptic view of the city using data from cameras and sensor networks.  The information obtained is used to manage the city’s infrastructure and technology as well as to maintain a database of personal information about citizens and their activities.  In Watch Dogs, a disgruntled computer hacker finds a way to access and hack the ctOS, allowing him to hijack traffic lights, the power grid, bridges and toll gates, rupture water pipes, disable surveillance cameras and access personal information about fellow citizens. The motive for causing mayhem in the city is to find a gang who were involved in his sister’s death and ultimately take down the corrupt system that runs ctOS.  In this article, we take a look at some of the real dangers facing today’s cities from malicious hackers.

w_dog A Character Accesses City Infrastructure and Data in Watch Dogs

In terms of technology, Chicago, as presented in Watch Dogs is a smart city.  Data is fed into the central operating system and the infrastructure of the city adapts and responds accordingly. Although much of the game is fictional, Watch Dogs draws on existing technologies and echoes what is happening today.  For example, Rio de Janeiro has a large control centre which applies data analytics to social media, sensors and surveillance cameras in an attempt to predict and control events taking place in the city.  Its mission is to provide a safe environment for citizens. Other cities such as Santander and Singapore have invested in sensor networks to record a range of environmental and traffic conditions at locations across the cities.  Earlier this year, Intel and Dublin City Council announced that Dublin is also to get a sensor network for measuring city processes.  At present many of these projects are focusing on the technical challenge of configuring hardware, designing standards and collecting, storing and processing data from the city-wide sensor networks. Projects are using the data for a range of services to control the city such traffic management (guiding motorist to empty parking spaces), energy management (dimming street lights if no one is present) and water conservation (using sensors to determine when city parks need water).

The Internet of Things & Security

The roll out of such smart city technology is enabled through the Internet of Things (IoT) which is essentially a network of objects which communicate and transfer data without requiring human-to-human or human-to-computer interaction. The IoT can range from a pace maker sending patient information to a physician, to a fridge informing its owner that the milk is low. In the smart city, sensors automatically relay data to a control centre where it is analysed and acted upon.

rio_CC The Control Centre in Rio de Janeiro

While Watch Dogs raises important moral and ethical issues concerning privacy and the development of a big brother society via smart city technologies, it also raises some interesting questions about the security and reliability of the technology. In Watch Dogs, the main character can control the city infrastructure using a smart phone due to a security weakness in the ctOS.  In reality, we have recently seen objects in the IoT being compromised due to weaknesses in the hardware security. Baby monitoring webcams which were accessed by hackers and demonstrations of how insulin pumps can be compromised are cases which have received media attention.  Major vulnerabilities of the IoT, were seen in late 2013 and early 2014 when an orchestrated cyber attack saw 100,000 ‘things’ connected to the Internet hacked and used to send malicious spam emails. The hacked ‘things’ included smart TVs, fridges and media centres. Basic security misconfigurations and failures to alter default passwords left devices open to attack.

Even mature internet technologies such as those used in ecommerce websites are vulnerable to hacking. In May this year e-bay’s web servers were hacked leading to the loss of user data.  Security flaws with the OpenSSL cryptography standard (used to transmit data securely on the Internet) came to light in April 2014 with the ‘Heartbleed’ bug. A vulnerability enabled hackers to access the short term memory of servers to capture information such as passwords or credit card details of users who recently interacted with the server.  All technologies which can send and receive data are vulnerable to attack and misuse unless strict security protocols are used and kept up-to-date. Unfortunately, as the examples here highlight, it seems that the solutions to security issues are only provided after a problem or a breech has been detected.  This is because it’s often an unknown bug in the code or poor coding practice which provides a way for hackers to access systems remotely.  There is a reluctance to invest in thorough testing of technologies for such weaknesses. Development companies seem prepared to risk cyber attacks rather than invest in the resources required to identify problem areas.

Hacking the Smart City

The fact that all systems connected to the Internet appear vulnerable to cyber attacks is very worrying when considered in the context of smart cities.  Unlike personal webcams, TVs and fridges, the technology of smart cities forms part of a complex and critical infrastructure which is used to calibrate and control a city.   While governments and city authorities are generally slow to publicise attacks on their technological infrastructure, the Israeli government has acknowledged that essential services that run off sensors, such as water, electricity and banking, have been the target of numerous hacking attacks. For example, in 2013, the traffic management system for a main artery in the port city of Haifa, was hacked, causing major traffic problems that lasted for several hours. Such malicious hijacking of technology is inconvenient for citizens, costs the city financially and could also have fatal consequences. Last year, it was demonstrated that it was relatively easy to hack the traffic light system in New York City. By sending false signals regarding the traffic flow at particular junctions, the algorithm used to control the traffic light sequence could be outsmarted and fooled into thinking that a particular junction was busy and therefore adjust the green time of traffic lights in a particular direction.

City technology is built on legacy systems which have been incrementally updated as technology has changed.  Security was often not considered in the original design and only added after. This makes such legacy systems more vulnerable for exploiting. For example, many of the traffic light coordination systems in cities date from the 1980s when the main security threat was physical interference.  Another problem with the city technology is the underlying algorithms which can be purely reactive to the data they receive. If false data is supplied then the algorithm may produce undesirable consequences. While the discussion here has focused on sensors embedded in the city, other sources of data, such as social media are open to the same abuse.  In March 2014, the twitter account of The Associated Press was hacked and a message reporting of an attack on President Barrack Obama was posted.  This led to $136 billion being wiped of the NY stock exchange within seconds.  This is an example of humans using bad data to make a bad decision.  If the human cognition process is unable to interpret bad data, what hope do pre-programmed computer algorithms have?

As cities continue to roll out technologies aimed at enhancing the lives of citizens, they are moving towards data driven forms of governance both for long term and short term actions.  Whatever type of sensor is collecting data, there is a danger that data can be biased, corrupt, played, contained errors or even be faked through hacking. It is therefore imperative for city officials to question the trustworthiness of data used in decision making.  From a technical point of view, the data can be made safe by calibrating the sensors regularly and validating their readings against other sensors.  From a security perspective, the hardware needs to be secured, maintained and updated to prevent malicious hacking of the device.  Recognising the threat which has been highlighted by Watch Dogs, the US Centre for Internet Security (CIS) issued a Cyber Alert regarding the game stating that ‘CIS believes it is likely that a small percentage of Watch Dog players will experiment with compromising computers and electronic systems outside of game play, and this activity will likely affect SLTT (State, Local, Tribal and Territorial) government systems and Department of Transportation (DOT) systems in particular.

In other domains, such as the motor industry there is a move to transfer functions from the human operator to algorithms. For example, automatic braking, parking assistance, distance based cruise control and pedestrian detection are becoming mainstream in-car technologies in a slow move towards vehicles which drive themselves. It is likely that managing the city will follow the same pattern and incrementally the city will ‘drive’ itself and could ultimately be completely controlled by data-driven algorithms which react to a network of sensors.  Although agencies such as the CIS give some advice to minimise the risk of Cyber Attacks on cities, it seems that hacking of the smart city infrastructure is inevitable. The reliance of cities on software and the risks associated with this strategy are well known (Dodge & Kitchin, 2004; Kitchin, 2014).  The problem is compounded by the disappearance of the analogue alternative to smart city technologies (Townsend, 2013).  This could lead to prolonged recovery from attacks and bugs due to the total reliance on technology to run cities. Cities therefore need to consider the security risks connected to deploying and using sensors to control a city and make decisions. It is also essential that control loops and contingency plans are in place to allow a city to function during a data outage just as contingency plans are made for handling the loss of other essential services such as power and water.


Dodge, M., & Kitchin, R. (2004). Flying through code/space: The real virtuality of air travel. Environment and Planning A, 36(2), 195–211.

Townsend, A. (2013). Smart cities: Big data, civic hackers, and the quest for a new utopia. New York: W.W. Norton & Co.

Kitchin R. (2014). The real-time city? Big data and smart urbanism. GeoJournal, 79(1), 1–14.

ERC Video for the Programmable City Project

This video introduces the Programmable City. In the video Rob Kitchin outlines the aims and objectives of the project and highlights the importance of the support received from the European Research Council (ERC). Each researcher on the Programmable City team also briefly discusses their work. The video was made by the Programmable City team in order to promote the project and the ERC.