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Surveillance issues in smart cities

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Smart cities seek to implement information and communication technologies (ICT) to improve the efficiency and sustainability of urban spaces while reducing costs and resource consumption.[1] In the context of surveillance, smart cities monitor citizens through strategically placed sensors around the urban landscape, which collect data regarding many different factors of urban living. From these sensors, data is transmitted, aggregated, and analyzed by governments and other local authorities to extrapolate information about the challenges the city faces in sectors such as crime prevention,[2][3][4] traffic management,[5][6] energy use [6] and waste reduction. This serves to facilitate better urban planning[7] and allows governments to tailor their services to the local population.[8][9]

Such technology has been implemented in a number of cities, including Santa Cruz, Detroit,[10] Barcelona, Amsterdam, and Stockholm. Smart city technology has developed practical applications in improving effective law enforcement, the optimization of transportation services,[11] and the improvement of essential infrastructure systems,[11] including providing local government services through e-Governance platforms.[12]

This constant and omnipresent transmission of data[7] from disparate sources into a single government entity has led to concerns being raised of these systems turning into ‘electronic panopticons’,[1] where governments exploit data-driven technologies to maximize effective surveillance of their citizens. Such criticism is drawn from privacy factors,[11] as the information sharing flows operate vertically between citizens and the government on a scale that undermines the concept of urban anonymity.[11]

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Resource consumption

Resource consumption

Resource consumption is about the consumption of non-renewable, or less often, renewable resources. Specifically, it may refer to:water consumption energy consumption electric energy consumption world energy consumption natural gas consumption/gas depletion oil consumption/oil depletion logging/deforestation fishing/overfishing land use/land loss or resource depletion and general exploitation and associated environmental degradation

Surveillance

Surveillance

Surveillance is the monitoring of behavior, many activities, or information for the purpose of information gathering, influencing, managing or directing. This can include observation from a distance by means of electronic equipment, such as closed-circuit television (CCTV), or interception of electronically transmitted information like Internet traffic. It can also include simple technical methods, such as human intelligence gathering and postal interception.

Sensor

Sensor

A sensor is a device that produces an output signal for the purpose of sensing a physical phenomenon.

Crime prevention

Crime prevention

Crime prevention is the attempt to reduce and deter crime and criminals. It is applied specifically to efforts made by governments to reduce crime, enforce the law, and maintain criminal justice.

Urban planning

Urban planning

Urban planning, also known as town planning, city planning, regional planning, or rural planning, is a technical and political process that is focused on the development and design of land use and the built environment, including air, water, and the infrastructure passing into and out of urban areas, such as transportation, communications, and distribution networks and their accessibility. Traditionally, urban planning followed a top-down approach in master planning the physical layout of human settlements. The primary concern was the public welfare, which included considerations of efficiency, sanitation, protection and use of the environment, as well as effects of the master plans on the social and economic activities. Over time, urban planning has adopted a focus on the social and environmental bottom-lines that focus on planning as a tool to improve the health and well-being of people while maintaining sustainability standards. Sustainable development was added as one of the main goals of all planning endeavors in the late 20th century when the detrimental economic and the environmental impacts of the previous models of planning had become apparent. Similarly, in the early 21st century, Jane Jacob's writings on legal and political perspectives to emphasize the interests of residents, businesses and communities effectively influenced urban planners to take into broader consideration of resident experiences and needs while planning.

Santa Cruz, California

Santa Cruz, California

Santa Cruz is the largest city and the county seat of Santa Cruz County, in Northern California. As of the 2020 census, the city population was 62,956. Situated on the northern edge of Monterey Bay, Santa Cruz is a popular tourist destination, owing to its beaches, surf culture, and historic landmarks.

Detroit

Detroit

Detroit is the largest city in the U.S. state of Michigan. It is also the largest U.S. city on the United States–Canada border, and the seat of government of Wayne County. The City of Detroit had a population of 639,111 at the 2020 census, making it the 27th-most populous city in the United States. The metropolitan area, known as Metro Detroit, is home to 4.3 million people, making it the second-largest in the Midwest after the Chicago metropolitan area, and the 14th-largest in the United States. Regarded as a major cultural center, Detroit is known for its contributions to music, art, architecture and design, in addition to its historical automotive background. Time named Detroit as one of the fifty World's Greatest Places of 2022 to explore.

Barcelona

Barcelona

Barcelona is a city on the coast of northeastern Spain. It is the capital and largest city of the autonomous community of Catalonia, as well as the second most populous municipality of Spain. With a population of 1.6 million within city limits, its urban area extends to numerous neighbouring municipalities within the Province of Barcelona and is home to around 4.8 million people, making it the fifth most populous urban area in the European Union after Paris, the Ruhr area, Madrid, and Milan. It is one of the largest metropolises on the Mediterranean Sea, located on the coast between the mouths of the rivers Llobregat and Besòs, and bounded to the west by the Serra de Collserola mountain range.

Amsterdam

Amsterdam

Amsterdam is the capital and most populous city of the Netherlands, with The Hague being the seat of government. It has a population of 921,402 within the city proper, 1,457,018 in the urban area and 2,480,394 in the metropolitan area. Located in the Dutch province of North Holland, Amsterdam is colloquially referred to as the "Venice of the North", for its large number of canals, now designated a UNESCO World Heritage Site.

Stockholm

Stockholm

Stockholm is the capital and largest city of Sweden as well as the largest urban area in Scandinavia. Approximately 990,000 people live in the municipality, with 1.6 million in the urban area, and 2.5 million in the metropolitan area. The city stretches across fourteen islands where Lake Mälaren flows into the Baltic Sea. Outside the city to the east, and along the coast, is the island chain of the Stockholm archipelago. The area has been settled since the Stone Age, in the 6th millennium BC, and was founded as a city in 1252 by Swedish statesman Birger Jarl. It is also the county seat of Stockholm County. For several hundred years, Stockholm was the capital of Finland as well, which was then a part of Sweden. The population of the municipality of Stockholm is expected to reach one million people in 2024.

Law enforcement

Law enforcement

Law enforcement is the activity of some members of government who act in an organized manner to enforce the law by discovering, deterring, rehabilitating, or punishing people who violate the rules and norms governing that society. The term encompasses police, courts, and corrections. These three components may operate independently of each other or collectively, through the use of record sharing and mutual cooperation.

Panopticon

Panopticon

The panopticon is a design of institutional building with an inbuilt system of control, originated by the English philosopher and social theorist Jeremy Bentham in the 18th century. The concept is to allow all prisoners of an institution to be observed by a single security guard, without the inmates knowing whether they are being watched.

Law enforcement

The most discernible use of smart city technology for Government Surveillance arises in law enforcement, where critics consider the accumulation of intelligence through data collection strategies key to intelligence-based policing.[13] The technology available in smart cities includes extensive CCTV installations (such as in London and Dubai),[11][14] smart traffic sensors in New York[15] and crime prediction software in Santa Cruz, California.[2] This technology holds the potential to significantly improve the type and volume of information that may be relied upon by law enforcement authorities when dealing with crimes. Most policing technologies developed within smart cities appear to have shifted law enforcement from "disciplinary" to "actuarial",[13] with less focus on identifying individual criminals to ascribe guilt and a tendency to classify and manage groups based on levels of dangerousness.

Policing Techniques

Proactive policing

Main article: Proactive policing
Traffic Management is a major focus of proactive policing technologies.
Traffic Management is a major focus of proactive policing technologies.

Garland's culture of control theory has been used to describe the trend towards proactive policing in smart cities.[13] In Palestine, there have been proposals to introduce GPS-based tracking systems to cars for the purposes of law enforcement within a modern urban environment.[16] Here, the location and speed of every vehicle is recorded and transmitted to the local authority, with a fine issued if the speed of the car exceeds the limit for more than 10 seconds.[16] The technology also holds the potential to relay information regarding accidents and traffic jams,[16] allowing traffic to be rerouted. An extensive camera system in Amsterdam relays data regarding the traffic situation to a central control point,[5] allowing authorities to warn motorists of incidents ahead or adverse weather conditions.

Such technology has a combined preventative and deterrent effect on motorists committing traffic violations. By controlling the speed of vehicles, authorities may minimize one of the more common risk factors in vehicular crashes.[17] Similarly, by monitoring the location of vehicles through a mix of GPS and camera technology, authorities are able to react in real time to minimize heavy traffic incidents and therefore the likelihood of crashes.[5] Such technology also enables police and emergency authorities to respond instantly to accidents that may occur. The extended ‘reach’ of the ‘long arm of the law’ could thus improve traffic management and efficiency, reducing energy consumption and improving civilians’ safety.

There is criticism of the use of smart city technology for proactive policing. The constant monitoring of every vehicle's location couples with the panopticon-like concept of continuous law enforcement[11] and introduces a level of individualistic paternalism,[11] where citizens are deemed incapable of obeying traffic laws voluntarily. More controversially, GPS tracking and camera monitoring may be inappropriately suited to other high-risk behaviour (such as drunk driving and fatigue),[17] which are also major factors in traffic accidents. There are also implementation difficulties, as older vehicles lacking GPS equipment would not appear in data streams, severely reducing the accuracy of potential analyses. There is also the risk of arbitrariness within proactive policing. GPS-based speeding enforcement would hold an individual driving above the speed limit for 9 seconds innocent whilst exceeding the limit for 10 seconds would constitute an offence. Such arbitrary measures do not account for the differences in car performance and remove discretion from law enforcement. Extrapolating this lack of discretion across multiple areas of criminal law, with automatic enforcement being implemented as the norm, the potential for unfair outcomes and public dissatisfaction with such technology becomes evident, due to the relatively high risk of non-accountability by governments using these methods.[18]

Predictive policing

Main article: Predictive policing

Predictive techniques in policing are not new, as search warrants are a pre-existing example of authorities acting on the basis of suspicion and prediction in contemporary communities[19] In the context of smart cities, predictive policing is the use of data analytics to determine potential locations of future crime.[19] This data collection often occurs through smartphones carried around by urban populations. Through location-based services in smartphones, the movements of individuals can be tracked and scrutinized by authorities. This has the potential to be particularly effective in crowd control. By comparing the different velocities of individual smartphone users within a certain location, it is possible for law enforcement authorities to ascertain crowd density.[20] This allows for targeted crowd management and prediction of dangers related to excessive crowding.[20] Police are thus able to take appropriate action (such as information broadcasting) in order to reduce the threat of injuries from incidents (such as crowd stampedes), as well as crowd related crime (such as thefts) from occurring.[20]

This type of policing also allows for law enforcement agencies to ‘predict’ where, when or by whom a crime may occur in the future and respond accordingly. Big data analytical tools are used to identify patterns in crime,[19] allowing authorities to map high risk areas, times and days for certain types of crime. Through such software, police are also able to create profiles of potential criminals and associated behaviours.[19] Developments in technology within smart cities allow for the scope of predictions to be increased as well as the types of responses available to law enforcement bodies.

Santa Cruz has been the site of a number of predictive policing experiments.[2]
Santa Cruz has been the site of a number of predictive policing experiments.[2]

Experiments conducted in response to a ‘predictive policing algorithm’ based on crime data in Santa Cruz, California, enabled police officers to identify the most likely time and place within a certain locality for a particular crime to be committed.[2] This allowed for targeted patrols to be made with a 4 percent decline in burglaries and 13 additional arrests being recorded within the first 6 months.[2] These figures are preliminary however, and do not account for unreported crime or crime that was prevented through increased police presence.

Although it is possible to envisage such law enforcement intervention as becoming the norm where smart city surveillance technologies have been adopted and implemented, predictive policing has raised a number of legal and non-legal controversies.[21] Firstly, the level of criminal activity in a particular area sufficient to warrant extra patrols is unclear when predicting the commission of offences. The point at which the probability of crime becomes statistically significant is one which legal scholars and courts alike have had trouble defining.[11] Within this framework, there is a degree of arbitrariness upon which the weight of the predictive data analysis must be considered, as high crime areas can only be defined with reference to “low levels of crime”.[11]

Further, in the United States, searches and arrests must be made on grounds of reasonable suspicion under the Fourth Amendment. This means that officers must be able to “point to specific and articulable facts” that “warrant the intrusion”, or make a predictive judgment that the person is in possession of an item that related to the commission of an offence. Similar protections, though not constitutionally based, exist in Australia[22] as well as the UK.[23] The latter was confirmed as binding by the European Court of Human Rights[24] on a number of European nations, which includes civil law states. The ability to formulate such “reasonable suspicion” on the basis of big data algorithms is controversial, with some critics arguing that in the absence of active police corroboration of predictive forecasts, there are insufficient grounds to warrant an arrest.[19] Further, the general nature of predictive forecasts is arguably incompatible with the acceptable standards outlined by the United States Supreme Court[19][25] with respect to specific individuals. Patterns of crime generated through data analytics are unlikely to generate the level of accurate predictive detail required for police officers to effect an arrest, when compared to informed tip offs.[19] While in the US, courts have allowed profiling to be used in stopping and searching persons in the right context,[19] notable judicial dissents[26] and academic research[19] highlight that profiling lacks probative value. In the UK, a House of Lords Report[27] recommended that such technology be prohibited from use by local authorities, unless they were tied to the investigation of serious criminal offenses. In addition, a major factor in Europe is that predictive policing technology must be exercised in accordance with legislation that is sufficiently clear on the scope of use (foreseeability) and affords persons adequate legal protection from arbitrary uses of predictive data algorithms.[13]

A data-driven stop and frisk program in New York was found to constitute racial profiling.
A data-driven stop and frisk program in New York was found to constitute racial profiling.

Non-legal controversies also arise over the passive discrimination that predictive policing programs can generate. In New York, a data-driven stop and frisk program was aborted after a US District Court found that the program constituted racial profiling.[28] Roughly 83% of persons stopped under the program were persons of colour.[11] This discrimination was masked through the noise generated by mass data analysis,[11] leading some academics to state that the number of factors within predictive policing algorithms may result in conflicting data and biased sampling.[11] The European Court of Human Rights has also acknowledged the disproportionate targeting of search powers against persons of colour in the UK,[24] highlighting the dangers of smart city technology in predictive policing.

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Data collection

Data collection

Data collection or data gathering is the process of gathering and measuring information on targeted variables in an established system, which then enables one to answer relevant questions and evaluate outcomes. Data collection is a research component in all study fields, including physical and social sciences, humanities, and business. While methods vary by discipline, the emphasis on ensuring accurate and honest collection remains the same. The goal for all data collection is to capture quality evidence that allows analysis to lead to the formulation of convincing and credible answers to the questions that have been posed. Data collection and validation consists of four steps when it involves taking a census and seven steps when it involves sampling.

Closed-circuit television

Closed-circuit television

Closed-circuit television (CCTV), also known as video surveillance, is the use of video cameras to transmit a signal to a specific place, on a limited set of monitors. It differs from broadcast television in that the signal is not openly transmitted, though it may employ point-to-point (P2P), point-to-multipoint (P2MP), or mesh wired or wireless links. Even though almost all video cameras fit this definition, the term is most often applied to those used for surveillance in areas that require additional security or ongoing monitoring.

Proactive policing

Proactive policing

Proactive policing is the practice of deterring criminal activity by showing police presence. It includes activities such as the use of police powers by both uniformed and plain-clothes officers, engaging the public to learn their concerns, and investigating and discovering offences and conspiracies to commit crimes so that the crimes cannot be committed. In contrast, responding to a complaint after a crime has been committed is reactive policing.

Tracking system

Tracking system

A tracking system, also known as a locating system, is used for the observing of persons or objects on the move and supplying a timely ordered sequence of location data for further processing. It is important to be aware of human tracking, further details are listed below.

Predictive policing

Predictive policing

Predictive policing is the usage of mathematics, predictive analytics, and other analytical techniques in law enforcement to identify potential criminal activity. A report published by the RAND Corporation identified four general categories predictive policing methods fall into: methods for predicting crimes, methods for predicting offenders, methods for predicting perpetrators' identities, and methods for predicting victims of crime.

Suspicion (emotion)

Suspicion (emotion)

Suspicion is a cognition of mistrust in which a person doubts the honesty of another person or believes another person to be guilty of some type of wrongdoing or crime, but without sure proof. Suspicion can also be aroused in response to objects that negatively differ from an expected idea. In the US, the courts use the term "reasonable suspicion" in connection with the right of the police to stop people on the street. The word comes from Middle-English via the Old French word "suspicion", which is a variation of the Italian word "sospetto".

Fourth Amendment to the United States Constitution

Fourth Amendment to the United States Constitution

The Fourth Amendment to the United States Constitution is part of the Bill of Rights. It prohibits unreasonable searches and seizures. In addition, it sets requirements for issuing warrants: warrants must be issued by a judge or magistrate, justified by probable cause, supported by oath or affirmation, and must particularly describe the place to be searched and the persons or things to be seized.

Supreme Court of the United States

Supreme Court of the United States

The Supreme Court of the United States (SCOTUS) is the highest court in the federal judiciary of the United States. It has ultimate appellate jurisdiction over all federal court cases, and over state court cases that involve a point of U.S. Constitutional or federal law. It also has original jurisdiction over a narrow range of cases, specifically "all Cases affecting Ambassadors, other public Ministers and Consuls, and those in which a State shall be Party." The court holds the power of judicial review, the ability to invalidate a statute for violating a provision of the Constitution. It is also able to strike down presidential directives for violating either the Constitution or statutory law. However, it may act only within the context of a case in an area of law over which it has jurisdiction. The court may decide cases having political overtones, but has ruled that it does not have power to decide non-justiciable political questions.

Discrimination

Discrimination

Discrimination is the act of making unjustified, prejudiced distinctions between people based on the groups, classes, or other categories to which they belong or are perceived to belong. People may be discriminated on the basis of race, gender identity, sex, age, religion, disability, or sexual orientation, as well as other categories. Discrimination especially occurs when individuals or groups are unfairly treated in a way which is worse than other people are treated, on the basis of their actual or perceived membership in certain groups or social categories. It involves restricting members of one group from opportunities or privileges that are available to members of another group.

Mass surveillance

Main article: Mass surveillance

The concept of smart cities is inherently tied to mass surveillance. The benefits derived from smart city technology are dependent on constant data flows captured and aggregated by sensors, cameras and tracking applications.[11] This persistence surveillance however, raises a number of privacy issues. Mass surveillance through big data acts in a manner that reduces urban anonymity,[11] due to the breadth of information and potential uses which can be extrapolated when multiple data streams are analysed together by a single governmental entity. Advocates of smart cities (such as Vint Cerf) state that this is akin to the level of privacy experienced in small towns.[29] In contrast, critics state that information sharing in smart cities has shifted from horizontal information flows between citizens to a vertical, unilateral process between citizen and government, reflecting concerns about panopticism.[11]

Data collection

Smart city applications often collate and analyse distinct sources of data in order to improve government services to operate more efficiently and effectively. Urban residents have few alternatives other than to subscribe to these services, particularly when making use of essential infrastructure, and thus indirectly and involuntarily consent to the sensors and surveillance technologies deployed throughout the urban environment through the mere act of residency.[11] In Amsterdam, wireless meters collect data about energy usage,[30] while the Mobypark app allows for the advertisement and renting of available parking spaces.[31] The information collected across these and over 70 other projects in Amsterdam is stored by the City of Amsterdam via a common IP infrastructure.[32] Considering that data from these services is accessible by a primary governmental body it allows for the possibility of data which is collected from these ‘distinct’ sources to be aggregated.[33]

Big data analysis

See also: Big data

Big data often refers to the use of data analysis and mapping algorithms generate valuable insights from seemingly disparate datasets.[34] The implications of applying such analysis to aggregated data sets are that they allow for a more holistic view of the needs of a particular community to be formed. Within smart cities, this data can be used as a reflexive tool when implemented within the urban ICT framework[35] allowing the Government to better meet the goals of smart cities – improved livability, efficiency and sustainability.[1] Such benefits were found in Barcelona, where tracking of residents commuting patterns led to a revamp and simplification of the city’s bus routes.[9] Combined with the implementation of smart traffic lights[36] that allow for central control, buses in Barcelona now run to a schedule that attempts to minimize the amount of time spent waiting at traffic lights.[37]

Big data analysis is not without flaws in its approach This is particularly true when applied to law enforcement, or where data is collected without the willing cooperation and consent of parties involved. Critics argue that there is an element of "mythology" surrounding big data that larger data sets offer deeper insights into urban issues with higher levels of accuracy and objectivity.[18]

Reliability

The increasing significance attributed to big data analytics, particularly within smart cities, gives rise to a situation where government bodies place an ‘almost faith-based’ reliance upon the veracity of results that have been predicted by analyzing surveilled data.[38]

In the absence of critical insight however, reliance on data alone has little support, as seen in the legal doctrine of reasonable suspicion.[19] Traditionally, decisions to apprehend or search an individual in sole reliance upon personal “hunches” were deemed to fail the legal standard of reasonable cause.[19] In this regard, it is difficult to see how data-driven hunches can be considered more reliable.[19] Both elicit assumptions being made based on inferences drawn from observable data, which can be falsified or otherwise inaccurate, undermining the integrity of the process.[39]

Critics of the increasing role played by data-based surveillance for the purposes of law enforcement foresee that such reliance could lead to issues in prosecuting individuals based on a probability-based crime system.[19] Furthermore, such a system holds the potential for conclusions to be drawn by attributing weighting to certain characteristics of an individual – an approach which could inadvertently mask any discriminatory agendas held by law enforcement bodies potentially targeting certain minorities.[40] Adding to the potential for discrimination, many big data algorithms often create new categories that exceed the scope of regulations designed to prevent against the unfair or discriminatory use of data.[39]

Outside law enforcement, critics argue that smart cities facilitate a shift to e-governance platforms, often at the expense of physical interactions with citizens.[41] While e-governance can improve service delivery and expand the ability to collect data from a single platform,[12] such processes may be at the expense of competitiveness and based merely on a technology push for more data sources and aggregation mechanisms.[32] As a result, the desire for increased surveillance undermines a fundamental aim of most smart cities to improve efficiency and effectiveness, as the citizens’ desire for certain ICT applications is ignored at the expense of further data aggregation. An example of this controversy has arisen in the UK, where proposals for a Scottish identity card were met with public outcry,[42] while similar cards have been implemented in Southampton[8] with little trouble, as many city services are provided in exchange for data collection.

Privacy and autonomy

In some situations, privacy may be lessened by surveillance.
In some situations, privacy may be lessened by surveillance.

The normalization of the collection and aggregation of big data[11] by Governments raises issues of privacy and autonomy. Much of the concern surrounds the inconvenience and inability for citizens to opt out of new technologies where they form part of essential government services, as there are few alternatives.[11] Should an individual wish to appear “off the grid” they are forced to employ a range of tedious measures (such as paying in cash only and not utilizing a mobile phone) in order to reduce their data footprint.[43] Despite this, such tactics would only minimize and not eliminate their collectable data.[43]

Privacy concerns are raised where the data collected may be capable of linking to or identifying an individual,[44] particularly when collated from multiple information sources. The storage of data by governments remains opaque, while the potential for cross-sharing data across government services often means that data is accessible by parties that the provider did not intend to share the data with.[11] By mere participation as a member of an urban community, particularly through the use of essential urban services and infrastructure, an individual is placed at risk of having their data shared amongst multiple platforms and users. While individually such data may not identify the person providing it, when combined with other data in the set, such data may be considered as personally identifiable information (PII), and thus fall under strict privacy laws.[44] The constantly evolving uses of smart cities technology do not often fit neatly into privacy law frameworks,[44] which may be extremely broad, like in Australia,[45] where a discussion paper published by the Australian Law Reform Commission confirmed that anonymised data may still be PII.[45] Similar regimes exist in the United States[46] and the European Union (see: Data Protection Directive). In Europe, Government technology that interferes on privacy must be based on a "pressing social need" or otherwise "necessary in a democratic society" and be proportional to the legitimate aims espoused.[47] This means that authorities implementing smart cities regimes are at risk of violating privacy laws if appropriate safeguards are not taken. The European Court of Human Rights has held that surveillance mechanisms (including those implemented in smart cities technologies) can violate the right to privacy, especially where domestic legislation does not define the scope or manner of surveillance.[48] Conversely, individuals may find that their data has been used illegally in the implementation of smart cities technology. As much smart city technology is based on open platforms that are often outsourced[11] to private citizens and corporations, there are massive risks that PII may be unlawfully shared to third parties. Compounded with the relative opaqueness of data storage by governments, critics argue that individual privacy can be curtailed massively through residence in a smart city with little recourse for individuals.[11]

Government surveillance is arguably driven by paternalistic desires to protect citizens,[11] however the individualistic and tailor-made benefits delivered by smart city technology may reduce autonomy. This holds particularly true in light of the shift towards predictive policing that occurs within the smart city environment. Whilst nobly intended, such unilateral actions by a Government may be seen as oppressive[11] – with the omnipotent role assumed by the Government seen as giving rise to that of a panoptic institution.[11] Modern cities are increasingly valuing privacy and digital security, as evidenced by the latest “The Economist Safest Cities Index 2015”,[49] where a Digital Security metric was incorporated alongside traditional measures of safety such as Personal Security and Health.

Panopticism

See also: Panopticism and Panopticon
Elevation, section and plan of Jeremy Bentham's Panopticon penitentiary, drawn by Willey Reveley, 1791
Elevation, section and plan of Jeremy Bentham's Panopticon penitentiary, drawn by Willey Reveley, 1791

The English philosopher Jeremy Bentham created a circular prison design, known as the Panopticon, whereby prisoners knew that they were capable of being observed at any time without their knowledge – thus affording the prison officers a position of omnipresence.[50]

The French philosopher Michel Foucault re-conceptualized the notion of a panopticon as a metaphor for a ‘disciplinary society’, wherein power relations (and imbalances) can be defined and reinforced.[51] In such a society power is seen to approach its ideal form by increasing the number of people who can be controlled.[51]

In this regard, the development of smart cities and the resulting increase in the surveillance capacity of the Government gives rise to conditions which mirror that of the disciplinary society described by Foucault. To this end, the development of smart cities are seen by its critics to foreshadow a larger societal shift - particularly the role adopted by the Government - towards mass surveillance, paternalism, discipline and punishment as a means to attain social order,[51] particularly in the United States, where the “Internet of Things” is being used to collect increasingly specific data.[11] The commodification of surveillance in exchange for services has tended to normalise data collection and create indifference to panoptic developments in technology.[52] One of the major issues with Panopticism in the Smart Cities context is that the 'surveillance gaze' is mediated by the selective biases of the operators of any application or technology, as was shown by a study on the use of CCTV cameras in the UK, where the "usual suspects" tended to be targeted more frequently.[13] In Durban, this panoptic "gaze" extends based on CCTV operator intuition due to a normalisation of the characteristics of criminals.[53] Compounding these issues, digitally based panopticism usually views the "visibility" of undesirable characteristics as the problem, and often fails to adequately address matters that are invisible to the surveillance gaze.[53]

Police state

See also: Surveillance state

If a shift toward mass surveillance came to fruition, it could give rise to the development of an electronic police state as a result of the increased surveillance capabilities and law enforcement activities. This represents a distinct narrowing of the purpose of surveillance to that of maintaining social order via improved law enforcement. Van Brakel argues that these changes have already taken place, and that the focus of police has gradually moved towards "front-loading" their intelligence systems with relevant knowledge that can be later sorted and used,.[13] Supporting this institutionalised shift, the House of Lords in the UK argued in 2009 that an advantage of surveillance activities is the ability for the government to provide a more tailored approach to governance,[27] and by extension, law enforcement.

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Mass surveillance

Mass surveillance

Mass surveillance is the intricate surveillance of an entire or a substantial fraction of a population in order to monitor that group of citizens. The surveillance is often carried out by local and federal governments or governmental organizations, such as organizations like the NSA, but it may also be carried out by corporations. Depending on each nation's laws and judicial systems, the legality of and the permission required to engage in mass surveillance varies. It is the single most indicative distinguishing trait of totalitarian regimes. It is also often distinguished from targeted surveillance.

Big data

Big data

Big data primarily refers to data sets that are too large or complex to be dealt with by traditional data-processing application software. Data with many entries (rows) offer greater statistical power, while data with higher complexity may lead to a higher false discovery rate. Though used sometimes loosely partly because of a lack of formal definition, the interpretation that seems to best describe big data is the one associated with large body of information that we could not comprehend when used only in smaller amounts.

E-governance

E-governance

Electronic governance or e-governance is the application of information technology for delivering government services, exchange of information, communication transactions, integration of various stand-alone systems between government to citizen (G2C), government-to-business (G2B), government-to-government (G2G), government-to-employees (G2E) as well as back-office processes and interactions within the entire governance framework. Through e-governance, government services are made available to citizens through IT. The three main target groups that can be distinguished in governance concepts are government, citizens, and businesses/interest groups.

Data aggregation

Data aggregation

Data aggregation is the compiling of information from databases with intent to prepare combined datasets for data processing.

Privacy

Privacy

Privacy is the ability of an individual or group to seclude themselves or information about themselves, and thereby express themselves selectively.

Autonomy

Autonomy

In developmental psychology and moral, political, and bioethical philosophy, autonomy is the capacity to make an informed, uncoerced decision. Autonomous organizations or institutions are independent or self-governing. Autonomy can also be defined from a human resources perspective, where it denotes a level of discretion granted to an employee in his or her work. In such cases, autonomy is known to generally increase job satisfaction. Self-actualized individuals are thought to operate autonomously of external expectations. In a medical context, respect for a patient's personal autonomy is considered one of many fundamental ethical principles in medicine.

Data Protection Directive

Data Protection Directive

The Data Protection Directive, officially Directive 95/46/EC, enacted in October 1995, is a European Union directive which regulates the processing of personal data within the European Union (EU) and the free movement of such data. The Data Protection Directive is an important component of EU privacy and human rights law.

Necessary in a democratic society

Necessary in a democratic society

"Necessary in a democratic society" is a test found in Articles 8–11 of the European Convention on Human Rights, which provides that the state may impose restrictions of these rights only if such restrictions are "necessary in a democratic society" and proportional to the legitimate aims enumerated in each article. According to the Council of Europe's handbook on the subject, the phrase is "arguably one of the most important clauses in the entire Convention". Indeed, the Court has itself written that "the concept of a democratic society ... prevails throughout the Convention". The purpose of making such claims justiciable is to ensure that the restriction is actually necessary, rather than enacted for political expediency, which is not allowed. Articles 8–11 of the convention are those that protect right to family life, freedom of religion, freedom of speech, and freedom of association respectively. Along with the other tests which are applied to these articles, the restrictions on Articles 8–11 have been described as "vast limitations", in contrast to American law which recognizes nearly unlimited right to freedom of speech under the First Amendment.

Panopticon

Panopticon

The panopticon is a design of institutional building with an inbuilt system of control, originated by the English philosopher and social theorist Jeremy Bentham in the 18th century. The concept is to allow all prisoners of an institution to be observed by a single security guard, without the inmates knowing whether they are being watched.

Jeremy Bentham

Jeremy Bentham

Jeremy Bentham was an English philosopher, jurist, and social reformer regarded as the founder of modern utilitarianism.

Michel Foucault

Michel Foucault

Paul-Michel Foucault was a French philosopher, historian of ideas, writer, political activist, and literary critic. Foucault's theories primarily address the relationship between power and knowledge, and how they are used as a form of social control through societal institutions. Though often cited as a structuralist and postmodernist, Foucault rejected these labels. His thought has influenced academics, especially those working in communication studies, anthropology, psychology, sociology, criminology, cultural studies, literary theory, feminism, Marxism and critical theory.

Commodification

Commodification

Within a capitalist economic system, commodification is the transformation of things such as goods, services, ideas, nature, personal information, people or animals into objects of trade or commodities. A commodity at its most basic, according to Arjun Appadurai, is "anything intended for exchange," or any object of economic value.

Solutions

In seeking a middle ground between the societal benefits afforded by big data and the resulting loss of privacy and autonomy, academics have proposed a number of solutions.[11] Deakin argues that “smart cities” are not simply those that utilize ICT, but where such intelligence is tailored to meet the needs of citizens through community and environmental drivers.[54] Komninos refers to the three layers of intelligence in smart cities[32] as the artificial intelligence of smart city infrastructure, the collective intelligence of the city’s institutions and the intelligence of the city’s populations. By integrating these layers in the implementation process, smart cities may be able to overcome the issues of government opacity that plague them. One of the issues with establishing a legal framework for smart city technology is determining whether to take a technology-specific or technology-neutral approach.[55] Many technologies have developed too rapidly to be covered by a single technology-specific regime, while a technology-neutral approach risks being too ambiguous to encourage use or development of the regulated technology.[55] Further, most applications are too benign to be regulated, while other more controversial technologies tend to be enabled by the creation of legislation, such as the Regulation of Investigatory Powers Act 2000, which established scenarios where police were able to carry out surveillance, with or without authorisation.[13] A challenge to these laws is currently pending in the European Court of Human Rights,[56] reinforcing the difficulty of establishing a suitable legal regime. One potential legal solution in the UK has been the development of the tort of misuse of private information,[57] which the English Court of Appeal held could potentially be breached by data collection, for which damages may be claimed.[58]

Studies conducted by Deakin and Campbell in 2005 identified three types of interaction between citizens and smart cities.[59] They concluded that citizens desire accessible and reliable information and seamless and responsive governments during transactions.[59] Further, any consultation with the community needed to be transparent and based on democratic engagement and accountability.[59] Bennett Moses et al. hold that the success of data-driven technologies is based on technical, social and normative dimensions.[18] This means that smart city technologies must satisfy citizens of their effectiveness, have a major beneficial impact that encourages uptake and align with generally acceptable ethics and values.[18]

Access

A potential solution to bridge the divide between the competing benefits and costs of big data surveillance is to turn the management of personal information into a ‘joint venture’.[60] Increasing awareness of how, where and why data is collected by the Government establishes the groundwork for a non-adversarial approach to the use of data within smart cities.[60]

Barcelona is a city that has embraced smart city technology while maintaining public access.
Barcelona is a city that has embraced smart city technology while maintaining public access.

This process minimizes perceptions of secrecy,[11] and cities that invest in multiple points of access, such as Barcelona with its Open Government platform[61] have seen growth in the use of smart city applications.[62]

Furthermore, this process has developed to allow individuals to access their own data in a usable format,[60] as seen through Barcelona’s Open Data project.[63] In this way autonomy is regained both in relation to awareness of how an individual is affected by the collection of data as well as participation in the actual application of this data to generate information, as new technologies are developed.

Accountability

In addition to general awareness of the intended purpose of data collection ‘before the fact’, accountability processes ‘after the fact’ are also required.[11] A potential measure is for responsible parties to be notified where some sort of discriminatory decision is made, thus allowing appropriate action to be taken.[64] In data-driven processes, particularly in the fields of law enforcement, it is difficult to attribute responsibility to a single body or source, as often the information is derived from a number of different locations.[13] Further, opacity is often essential to predictive policing technologies, as transparency may encourage potential offenders to alter their behaviour to avoid detection.[18]

Transparency processes however remain crucial to ensure that a panoptic view or electronic police state cannot be imposed, as it allows for a review of how decisions are made in relation to them and what criteria this is based upon. Accountability is particularly relevant in the implementation stage

Implementation

The implementation stage of smart city technology is considered to be crucial, as the applications and platforms must be grounded in the “social capital, environmental and cultural attributes of the communities they represent”.[65] Paskaleva notes that e-governance platforms are particularly suited to democratically generating community support where residents are able to participate in the decision making and implementation process.[12] Confirming this, studies by Deakin et al. highlight that community backlash to smart city technology is minimized where e-government services are co-designed by governments and communities.[59] An example of collaboration at an extreme level was seen in Bletchley Park, where the Nazi Enigma cypher was decoded in what is often referred to as the first smart city.[32] More recently, citizen participation has been encouraged in Edinburgh,[66] where citizens are invited to ICT ‘taster’ sessions in local venues, enabling them to learn about the planning, development and design of new smart city technologies.[65] Such partnerships incorporate elements of democracy[65] and highlight how digitally inclusive decision making generates the requisite level of trust to support the implementation of smart city technology. Trust acts as an empowering and engaging mechanism for citizens according to Finch and Tene.[11] This empowerment intelligence allows citizens to upskill[32] and assist in the development of innovative smart city networks, addressing areas not contemplated by authorities. In Hong Kong, such development takes place in the Cyberport Zone,[67] while in Amsterdam, “Smart Citizens Labs”[68] are designed for interaction between citizens and government. These mechanisms have resulted in large levels of enthusiasm for smart city technology,[12] as evidenced by the numerous crowd-sourced Amsterdam Smart City projects to date.[69]

Kista has implemented smart city technology using the Triple Helix Model with positive outcomes.
Kista has implemented smart city technology using the Triple Helix Model with positive outcomes.

The Triple Helix Model for Smart cities, combining university, industry and government[35] in the development process is regarded as a potential benchmark for smart city development and implementation. Kourtit et al. advance that this model implements the knowledge generated from collaboration to tailor smart city applications to market needs.[70] Empirical studies conducted on smart cities in the Netherlands compared the level of ICT penetration to the city’s level of smartness under the Triple Helix Metric, finding a strong positive correlation. A live example of the Triple Helix Model in practice can be seen in the Kista Science City business cluster in Stockholm.[71] Underpinned by the Stokab Model of government provisioned dark fibre,[72] more than 1000 companies[73] including multinational Ericsson,[74] the Royal Institute of Technology (KTH) and Stockholm University reside in Kista,[73] which has grown to become the largest corporate area in Sweden. The success of Kista highlights the usefulness of the Triple Helix Model in Smart City implementation and provides a potential platform for cities seeking to introduce smart city technology in a manner that optimizes resident uptake.

Anonymity

When considering the potential for privacy law breaches, particularly within the smart cities context containing a vast scope of data that is available to the Government, data may often need to be de-identified to maintain privacy.[11] Whilst this may make it difficult to reconcile data collected from multiple services, it could still allow for the useful collection and aggregation of data for defined purposes. The E-CAF system (Common Assessment Framework),[75] where a database of all children assessed by government services (including police, social services and schools) is maintained by the UK Government, highlights how anonymity is fading due to data-driven technologies.[13] The system allows authorities to predict which children will commit crime in the future and allow them to intervene, based on a number of risk factors and profiling.[13] It is evident that citizens captured by the database as children will no longer be "anonymous" members of society. Given the potential Government presumption that parties unwilling to share their information are inherently suspicious,[13] the difficulty of maintaining anonymity in modern smart cities is clearly quite high.

Discover more about Solutions related topics

Collective intelligence

Collective intelligence

Collective intelligence (CI) is shared or group intelligence (GI) that emerges from the collaboration, collective efforts, and competition of many individuals and appears in consensus decision making. The term appears in sociobiology, political science and in context of mass peer review and crowdsourcing applications. It may involve consensus, social capital and formalisms such as voting systems, social media and other means of quantifying mass activity. Collective IQ is a measure of collective intelligence, although it is often used interchangeably with the term collective intelligence. Collective intelligence has also been attributed to bacteria and animals.

Regulation of Investigatory Powers Act 2000

Regulation of Investigatory Powers Act 2000

The Regulation of Investigatory Powers Act 2000 (c.23) is an Act of the Parliament of the United Kingdom, regulating the powers of public bodies to carry out surveillance and investigation, and covering the interception of communications. It was introduced by the Tony Blair Labour government ostensibly to take account of technological change such as the growth of the Internet and strong encryption.

Kista

Kista

Kista is a district in the borough of Rinkeby-Kista, Stockholm, Sweden. It has a strategic position located in between Sweden's main airport, the Stockholm-Arlanda International Airport and central Stockholm, and alongside the main national highway E4 economic artery. Kista comprises residential and commercial areas, the latter in the highly technological telecommunication and information technology industry. There are large research efforts in this entire area, which therefore is dubbed Kista Science City. It is the research park of KTH Royal Institute of Technology.

Ericsson

Ericsson

Telefonaktiebolaget LM Ericsson, commonly known as Ericsson, is a Swedish multinational networking and telecommunications company headquartered in Stockholm. The company sells infrastructure, software, and services in information and communications technology for telecommunications service providers and enterprises, including, among others, 3G, 4G, and 5G equipment, and Internet Protocol (IP) and optical transport systems. The company employs around 100,000 people and operates in more than 180 countries. Ericsson has over 57,000 granted patents.

Common Assessment Framework

Common Assessment Framework

The Common Assessment Framework (CAF) is the common European quality management instrument for the public sector. It is a free tool to assist public sector organisations to improve their performance. The CAF helps the organisations to perform a self-assessment with the involvement of all staff, to develop an improvement plan based on the results of the self-assessment and to implement the improvement actions. The model "is based on the premise that excellent results in organisational performance, citizens/customers, people and society are achieved through leadership driving strategy and planning, people, partnerships and resources, and processes. It looks at the organisation from different angles at the same time, the holistic approach of organisation performance analysis." On 7 September 2011, 2382 public sector organisations from 43 different nationalities or from the EU institutions were registered as CAF users in the CAF Database.

Source: "Surveillance issues in smart cities", Wikipedia, Wikimedia Foundation, (2023, March 28th), https://en.wikipedia.org/wiki/Surveillance_issues_in_smart_cities.

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Further Reading

Closed-circuit television

Surveillance

Mass surveillance

Facial recognition system

Automatic number-plate recognition

Gunfire locator

Smart city

Domain Awareness System

Mass surveillance in China

Dataveillance

Hyper-surveillance
See also
References
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