Bots against corruption: Exploring the benefits and limitations of AI-based anti-corruption technology

Countries have been developing and deploying anti-corruption tools based on artificial intelligence with hopes of them having positive capabilities. Yet, we still lack empirical analyses of these automated systems designed to identify and curb corruption. Hence, this article explores novel data on 31 bottom-up and top-down initiatives in Brazil, presented as a case study. Methodologically, it uses a qualitative analysis and draws on secondary data and interviews to assess the most common features, usages and constraints of these tools. Data collected are scrutinised under a new conceptual framework that considers how these tools operate, who created them for what purpose, who uses and monitors these tools, what types of corruption they are targeting, and what their tangible outcomes are. Findings suggest that in Brazil, AI-based anti-corruption technology has been tailored by tech-savvy civil servants working for law enforcement agencies and by concerned citizens with tech skills to take over the key tasks of mining and crosschecking large datasets, aiming to monitor, identify, report and predict risks and flag suspicions related to clear-cut unlawful cases. The target is corruption in key governmental functions, mainly public spending. While most of the governmental tools still lack transparency, bottom-up initiatives struggle to expand their scope due to high dependence on and limited access to open data. Because this new technology is seen as supporting human action, a low level of concern related to biased codes has been observed.


Introduction
Alice, Agata, Monica, Esmeralda, Iris, Rosie and Rui are, despite their names, non-humans.They were designed by humans to execute tasks previously reserved for humans; they can cross-check data faster and visualise and communicate them better, helping to identify or even predict anomalies related to different types of corruption in Brazil.They all are bots developed both bottom-up and top-down to work as anti-corruption tools to identify suspicious activities related to, for example, bid-rigging, fraud in contracts, cartel practices, the misuse of public money by congressional representatives, and sluggishness in the Supreme Court.These anti-corruption bots dig into data to increase accountability.By mapping these initiatives that have different levels of automation and functionalities, this paper aims to explore the benefits and limitations of using AI technology to fight corruption and improve integrity.In doing so, it questions what jobs these bots have been performing in the fight against corruption.
Like many tech buzzwords, bots and other applications of intelligent systems create great expectations for solving complex issues but attract a high level of distrust and generate debate.This is particularly the case with AI, still a vague concept that does not delineate specific technological advances and deals with subjective tasks classified as intelligent (Lanier & Weyl, 2020).Although no definition of AI has been agreed upon (Nilsson, 2009), the existing attempts have been criticised for being too anthropocentric since other forms of intelligence exist than human-specific (Koos, 2018;Wang, 2019).Yet AI is doubtlessly expected to extend the human and non-human limits of current performance in data processing and analysis, including being used as a powerful anti-corruption tool (Adam & Fazekas, 2021;Aarvik, 2019;Wirtz & Müller, 2019;Köbis et al., 2021Köbis et al., , 2022)).
Like the widely disputed concept of corruption, AI is an umbrella term.While corruption often has a hidden nature and encompasses a wide range of conducts and practices linked to the broad definition of misuse of entrusted power for private benefit (Johnston & Fritzen, 2020;Mungiu-Pippidi & Fazekas, 2020), AI includes, but is not limited to, different techniques, among them theorem proving, Bayesian networks, data mining, machine and deep learning, and functionalities such as representation, planning, reasoning, language, and image processing (Wang, 2019).As we can see, certain techniques overlap with tasks and their applications, adding complexity to attempts to capture all the features of AI.In the still incipient research of AI in the anti-corruption field, the ability to act autonomously, with or without human supervision, is what differentiates AI from 'classic' static and communication technologies, according to Köbis et al. (2021:3).
AI anti-corruption tools (henceforth, AI-ACT) are understood here as data processing systems driven by tasks or problems designed to, with a degree of autonomy, identify, predict, summarise, and/or communicate actions related to the misuse of position, information and/or resources aimed at private gain at the expense of the collective good.This type of application implies the analysis of a given Bots against corruption: Exploring the benefits and limitations… environment based on a set of predefined rules before acting.It currently has the potential to work both autonomously or collaboratively with other machines and/ or humans.This paper explores the most common features, affordances, and constraints of the initiatives of these emerging technologies that are already in use as anti-corruption tools.
So far, research on AI-ACT has attracted different fields and focused on the use of AI more in the private sector than in the public sector and by civil society, as noted by Neves et al. (2019).Overall, researchers have been discussing the potential of AI and other emerging digital technologies to fight corruption and/or improve accountability and transparency (Sturges, 2004;Bertot et al., 2010;Aarvik, 2019;Köbis et al., 2021Köbis et al., , 2022) ) without forgetting that they can provide new corruption opportunities (Adam & Fazekas, 2021).While scholars have explored the use of AI-ACT, mainly in audit activities (Ghedini Ralha & Sarmento Silva, 2012;Neves et al., 2019;Taurion, 2016), Köbis et al. (2022) investigated existing challenges regarding data, algorithms and human-machine interactions and discussed the risks of using this type of technology in reinforcing existing power structures.
In addition, some studies apply AI techniques to predict and explain corruption across countries (Lima & Delen, 2020) or in public contracts (López-Iturriaga & Sanz, 2018), to detect fraud, corruption, and collusion in international development contracts (Grace et al., 2016), and to identify self-reported experiences with corruption on Twitter by using unsupervised machine learning (Li et al., 2020).In turn, the development and use of AI-ACT regarding bottom-up initiatives remain scarce.ProZorro in Ukraine (Aarvik, 2019) and Rosie, the Brazilian bot created by Operação Serenata de Amor (Köbis et al., 2022;Mattoni, 2020;Savaget et al., 2019), are among the few civil society initiatives that have received academic attention.Even fewer studies have looked at the outcomes of emerging technologies from the bottom up.Freire et al. (2020) are among the few who have not only questioned the impact of bottom-up monitoring on public service performance but also provided evidence of the null effect of a crowdsourcing mobile phone application and a Twitter bot (Tá de Pé1 ), both developed by the NGO Transparência Brasil, to allow oversight of school construction projects in Brazilian municipalities.
Aiming to contribute to this growing literature, this article provides an empirical analysis of bottom-up and top-down AI-ACT initiatives using Brazil as a case study.The theory combines the frameworks provided by Köbis et al. (2021) and Wirtz and Müller (2019) to introduce a conceptual framework tailored to explore relevant features of AI-ACT.Accordingly, the paper examines not only actors who have developed and used the technologies and the data inputs and outputs and the ensemble techniques applied, but also their functionalities, the types of corruption under analysis, who audits the technology, and the preconditions and facilitators of success.Methodologically, the article uses qualitative analysis and draws on secondary data and interviews to map the development and uses of these tools in Brazil.The findings suggest that civil servants and the public are more likely to manufacture tools based on their specific goals without outsourcing the process of development of AI-ACTs to target corruption in key governmental functions, mainly in public spending.

The theorisation of AI-based anti-corruption technology
The visionary work of pioneers including Warren S. McCulloch and Walter Pitts, Alan Turing, and John McCarthy, who is credited with coining the term 'artificial intelligence' during the Dartmouth Workshop in 1956, have influenced researchers, practitioners and investors from different fields, including the humanities (Frankish et al., 2014).Anti-corruption studies, however, lag in the rapid advances in AI and its applications.Discussions about how this emerging technology is being used and whether it has been helping win the fight against corruption are still emergent.This is not to say that no anti-corruption technological applications exist, among them AI-based tools in development, nor has the field of anti-corruption studies failed to recognise that the advancement of digital technology offers more opportunities for promoting integrity, creating transparency, and fostering accountability.On the contrary, as mentioned earlier, there are both empirical evidence and theoretical assertions that emerging technologies, such as crowdsourcing and whistleblowing platforms, transparency portals, e-governmental services, social media, blockchain and AI, to name just a few, have the potential to work as effective anti-corruption and pro-accountability tools (see Shim & Eom, 2008;Bertot et al., 2010;Davies & Fumega, 2014;Mattoni, 2020;Adam & Fazekas, 2021;Köbis et al., 2022).Sanchez-Graells (2021) is one of the few voices to stress that AI-ACT, at least at its current narrow stage, can promote incremental improvements but not the expected significant transformation in the fight against corruption in public procurement.
Attention has been devoted to understanding under which contexts technological interventions, including AI, are more or less likely to work (Adam & Fazekas, 2021;Freire et al., 2020), which types of constraints and resistance they may encounter among users, such as auditors and inspectors (Neves et al., 2019), and when information and communication technology (ICT) tools have a high or low impact (Peixoto & Fox, 2016) or can be used to engage in corruption (Adam & Fazekas, 2021).However, different from more traditional ICTs, AI-ACT remains to be explored in depth, starting from its conceptualisation, main functionalities, and ethical considerations based on empirical evidence.
When more broadly reviewing the literature on AI models applied to public management, Wirtz and Müller (2019) presented an AI framework identifying three layers: AI technology infrastructure, AI functionality, and AI applications and services.To them, the cornerstone is the technology infrastructure because it determines how data is acquired, processed, and embedded into the greater system of AI-controlled applications (Wirtz & Müller, 2019:1078).Their AI functional layer considers the connection and cooperation of specific parts of hardware and software, and the applications and service layer deals with the interconnection and interrelation of AI techniques converted into toolboxes and/or devices.In turn, Köbis et al. (2021) offer an applied analysis of anti-corruption by outlining in detail how AI-ACTs present different potentials and pitfalls.They separate bottom-up and top-down approaches Bots against corruption: Exploring the benefits and limitations… to highlight the potential of different actors, data inputs, algorithmic design, and institutional implementation involved in each of these approaches.Although the role of different actors and the importance of keeping humans in the loop are equally noted, developers and users are not separated, and little discussion appears concerning biases, transparency and auditing regarding the algorithms used against corruption in their work.
Thus, the framework presented next is an attempt to expand Köbis, Starke and Rahwan's work.It focuses on the differences between the bottom-up and top-down approaches.The bottom-up and top-down approaches are defined by who developed the initiative and not by who is using it.The framework introduced below uses an adapted version of Wirtz and Müller's layers to explore the human and nonhuman elements of the AI-ACTs.It is a framework developed to assess major elements of AI-ACTs in terms of their purposes, feasibility, performances, fairness and legitimacy.
Figure 1 illustrates the layers and the elements in both bottom-up and top-down approaches, defined here as the key components of an AI-ACT, along with examples of their applications, to better understand what job these technologies have been performing in combating corruption.
As illustrated in Fig. 1, AI-based initiatives enjoy a high degree of diversity regarding technical acuteness, scope, and capacity, and AI is in a permanent state of development, testing and improvement.Based on the processes, functionalities and actors involved in AI-ACT, we can identify three layers: (1) technology infrastructure, (2) functionality, and (3) human, as detailed next.To the discussion of this conceptual framework, we add a fourth layer: key preconditions and facilitators of performance.

The technology infrastructure layer
As noted by Wirtz and Müller (2019), technology infrastructure is the cornerstone of AI because it includes the input, processing and outputs of a wide range of data.The starting point is data acquisition, and this input is crucial for the quality of any expected outcome.The lack of digital, reliable, and consistent data, preferably in abundance and ready to be read by machines, will compromise the outputs.Processes can often be run with both high-and low-quality data, and can even identify patterns, relationships, dependencies, or hidden structures, the quality of which will be equally high or low.In addition, depending on how the data are processed, it is possible to identify in this layer the tasks that apply more or less advanced techniques and the subfields of AI, such as machine learning, natural language processing, and speech recognition and/ or computer vision.Depending on the techniques applied and the data available, not only can the output vary, but also its accuracy and robustness.This is because, after data are acquired and processed, they are embedded into the greater system of applications that can return different outcomes in different digital formats.In the anti-corruption field, common outputs are updatable dashboards, risk-tracking and reporting instant messages indicating, for example, the probability of risky tenders or a suspicious expenditure; search engines for network analysis indicating the relationship between individuals and organisations, and voice assistants or bots able to chat to offer information or retrieve or reject reports exposing corruption-related cases.

The functional layer
This layer encompasses and combines structures related to software and hardware able to execute their functions.However, it is more than a mere extension of the processes of data processing and embedding.The functional layer is concerned with the major purposes, i.e., the tasks it has been designed to execute, and/or the problems to be solved, and the efforts taken to achieve an aim.One could argue that it is a more subjective feature, but the functional layer works as an indicator of how autonomous a given initiative aims to be in terms of helping or replacing human action.The tasks can vary from information management and data storage to analytics and visualisation, to planning, communication, or even prediction, depending on the data available and the techniques applied.This is a different use of the concept compared to Wirtz and Müller (2019), who considered the functional layer as the moment when data are revised and analysed by a data processor connected to the inference engine able to draw conclusions and deduce potential courses of action.Although given tasks may overlap in bottom-up and top-down approaches, the functional layer allows AI-ACTs to act to improve both social and horizontal accountability mechanisms, i.e., mechanisms related to prevention, investigation and sanctioning coming from civil society or within governmental agencies.
Bots against corruption: Exploring the benefits and limitations…

The human layer
The human layer covers key actors, their roles and their ethical concerns when developing, using and testing the fairness and accuracy of AI-ACT.While AI-ACT can be developed and used by ordinary people, activists, and journalists to hold public officials and governments to account from below, the top-down approach is often used to improve horizontal accountability and internal control within and between governmental agencies.Top-down efforts are more likely to include using tools to better communicate with civil society, obtaining information and complaints, and scrutinising governmental workers who abuse their position and citizens who attempt to engage in fraud, graft or other spurious transactions involving the government.In addition, it is crucial to have systems we can verify and trust.In this sense, humans need to pursue transparency and accountability for machines.As noted, algorithmic bias is often inherited from the datasets used as inputs.Therefore, the presence of open data and open codes allows not only the free use and redistribution of the datasets but also the implementation of collaborative improvements and auditing to know what decisions have been made or influenced by an AI.However, the governmental technological apparatus deals with confidential and protected data and with authorities claiming security concerns and often refusing to share, exchange, or disclose certain types of data.Under special circumstances, it may be necessary to have sealed terms of agreements to access certain types of infrastructures, and thirdparty auditors and/or civil society organisations can act on behalf of those individuals who do not have the skills or interest in holding machines accountable.The most important thing is having codes that are as explainable and as easily accessible as possible for humans.

Key preconditions and facilitators of impact
Access to digital resources and technological skills are preconditions to developing and/or using AI-based tools, including ACTs, although reforms in the anti-corruption field seem to be submitted to stronger contextual constraints and limitations in terms of power relations and administrative capacities (Adam & Fazekas, 2021).In addition, as mentioned, corruption has a hidden nature, which, per se, creates issues to generate quality corruption databases.Corruption encompasses different types of conduct that are context-dependent and not always unlawful.Therefore, tools tend to be developed by design based on a corruption-related context and the quality, abundance, availability and accessibility of digital devices and specific datasets. 2To identify facilitators of AI-ACT impacts, it is necessary to go beyond the most common metrics used by developers, which are often linked to statistical measurements related to speed, probability and correct predictions (e.g., accuracy and sensitivity).Following Adam and Fazekas' (2021) approach, we consider the impacts on corruption promoted via administrative processes by automating and standardising administrative tasks that may eliminate potential corrupt interactions or facilitate corruption detection, via upward and downward transparency to offer more access to information and improve accountability mechanisms, and via collective actions since digital media often lower costs for spreading information, creating awareness and fostering engagement in anti-corruption actions.We, however, avoid distinguishing grand and petty corruption, as the authors do, because this dualism often deals with blurred or overlapping situations related to both financial sums and individuals' status or rank.Yet, the use of concepts like "success" should also be avoided as they can be seen as relative concepts that imply high levels of subjectivity that are hard to assess.Instead, impact is observed here through focal points linked to specific types of corruption, and from which tangible outcomes are achievable.

Research design
The AI-ACT framework and its core components, as introduced in Fig. 1, will be applied to analyse the key characteristics of the bots against corruption operating in Brazil (see Appendix).The framework allows the assessment of the mentioned layers to evaluate which types of corruption each initiative targets and how autonomous the Brazilian bots are regarding human participation.

Country context
Brazil is used as a case study for four reasons.First, although corruption scandals are present in all branches at the federal, state, and local levels, the country has been inching towards accountability (Power & Taylor, 2011).Second, the overall use of technology by both public administration and civil society has been growing rapidly in the country and is proving to be an important source of development (Malaquias et al., 2017).Third, the digital divide between individuals is rapidly decreasing among Brazilians, although we know digital illiteracy still poses challenges regarding access to technology (Nishijima et al., 2017).Finally, Brazil is a rich source of empirical data as it has been developing a considerable range of both bottom-up and top-down AI-based anti-corruption initiatives, especially at the national level (Carvalho, 2020;Dalben, 2020;Digiampietri et al., 2008;Ghedini Ralha & Sarmento Silva, 2012;Neves et al., 2019;Savaget et al., 2019).
In the mid-1980s, Brazil started adopting incremental anti-corruption reforms that resulted in institutional and legal advances, often driven by corruption scandals and domestic and international pressure.To fight corruption and maladministration, the country became more open and digital.As Da Ros and Taylor (2022: 55) note, a variety of laws have enhanced data accessibility in Brazil, including the 1991 Archives Law that determined the state as responsible for preserving and making available documents to the public, laws that required active transparency, the timely reporting of public spending and budget disclosures in open transparency portals, Bots against corruption: Exploring the benefits and limitations… and the 2011 Access to Information Law allowing the public to request information and receive it in electronic and open formats if the request specifies it.
Other critical areas, such as campaign finance, public procurement, court procedures and administrative sanctions, have been regulated, and public information on these topics has become more transparent and available in organised digital databases.Even if these advances did not eliminate multiple issues related to data secrecy and accessibility, they set a high bar for transparency (Da Ros & Taylor, 2022), although the enactment of the General Data Protection Law (Law 13,709/2018) has been promoting data access reconsiderations.Additionally, in the past decade, governmental agencies have been investing in training and innovation, including launching public contests to promote best practices and tools, hackathons to design anti-corruption proofs of concept together with tech-savvy citizens, and setting up innovation labs to develop such proofs of concept, including AI-ACTs.However, Brazil still lags in its provisions on AI regulation and governance.The Brazilian AI Strategy, launched in 2021, seems more like a protocol of intent than an actual plan of action, and a recent survey showed that 72% of 263 governmental agencies consulted do not use AI-based tools (TCU, 2022).

Data collection and analysis
Although this article does not provide an exhaustive list of initiatives, the 31 cases, 23 of which were developed by governmental agencies, one outsourced to IBM, and seven created by civil society, were selected based on functionalities that have digital anti-corruption features at their core.Thus, we did not list a series of AI-based tools, among them the Court of Accounts' Geocontrole, which uses satellite images to recognise, for example, mines and dam-reservoirs, and to check if their activity is irregular, and the Revenue Service's travellers control system, which includes facial recognition and a geoprocessing tool to identify a predefined list of passengers of interest associated with, for example, smuggling and drug trafficking to be selected for inspection (Jambreiro Filho, 2019). 3he selection criteria for cases were that they must: use any AI element according to the definition presented in the introduction, be operative in 2020, and have anticorruption elements as their core functional layer.Cases that were still prototypes or were initiatives that had not been implemented in daily practice by 2021 were not included, such as the project MARA. 4 Apart from the Bem-Te-Vi tool that selects analysts and justices to evaluate procedures at the Superior Labour Court based on their expertise and lack of declared conflict of interests regarding previous similar cases, we did not include any tools developed by the Brazilian judiciary, which is investing heavily in AI-based solutions to better manage court procedures but without the primary goal of curbing corruption (for a detailed list of the 64 AI-projects in 47 courts, see Salomão, 2020).
Tables 1 and 2 list the selected tools, their main sources of data and their goals, ordered by the year they were officially launched.
Two types of data sets were used to select the top-down initiatives: 1) open public data related to the development and use of anti-corruption AI-based technology retrieved from a catalogue5 on algorithmic transparency in the Brazilian federal executive launched in 2021 by the NGO Transparência Brasil (2021a, 2021b), and 2) searchable databases of requests and answers about the use of AI made through the Access to Information Law (LAI) in two platforms, one run by the federal government and the other by the NGO. 6The bottom-up initiatives were mapped within the scope of the BIT-ACT (Bottom-Up Initiatives and Anti-Corruption Technologies) project conducted at the University of Bologna, based on desk research and expert interviews.
After the selection of initiatives, extra basic information was complemented through desk research.Bottom-up initiatives were collected on platforms such as GitHub, where open-source projects are often made available and are open for collaboration, and on messaging apps such as Telegram and Discord, where collaborators interact and exchange technical information.Documents published online and official presentations delivered by the developers, detailing the technology used by governmental and civil society initiatives that are available online, were used to analyse the cases of bottom-up and top-down initiatives.Other relevant or missing data regarding inputs, data process, outputs and accountability of top-down initiatives were collected through the Access to Information Law via formal requests submitted to each department responsible for the initiatives.
The initial response to a request for information submitted to the Federal Police mentioning one initiative (Watson) and requiring data regarding any other AI-ACT stated that no contract was in place regarding the use of AI or ML against corruption.After an appeal was filed, along with links to three initiatives, based on videos and reports available online in which the use of AI tools was detailed by the Federal Police, partial access was granted, with incomplete answers regarding the three initiatives listed in the request.The Federal Police argued that such information could compromise their investigative and operational capacity and did not supply, for example, details of a tool named Delphos that had been developed by the forensics team to use language processing to cross-check data on people and companies to make diagnoses and suggest actions. 7The Court of Accounts of the State of 1 3 Bots against corruption: Exploring the benefits and limitations… Rio de Janeiro (TCE-RJ) did not grant even general information on data inputs and outputs, nor the software used for its tool named Iris, as it was classified as sensitive information.The fact that different agencies responded to the full questionnaire submitted via the ACT while others did not suggests a lack of standards, processes, and regulatory frameworks regarding the transparency of this type of information in public bodies.The data collected were then complemented by 13 in-depth interviews with experts (2), developers of these types of technology who are governmental workers (4), and ordinary tech-savvy citizens (7) involved in the case of grassroots initiatives.One written and 12 online interviews were conducted in Portuguese between June 2020 and March 2021.The interviewees were pseudonymised.All the interviewees were technical developers and they were asked about how they became interested in digital anti-corruption tools and their views on the current uses, limitations and challenges of these technologies.Those who created AI-ACTs were asked to explain their tools in terms of inputs, processing, outputs, and the main functionalities and to detail the process of their development.In addition, topics such as potential bias and fairness of AI were approached.MAXQDA 2020 was used for the analysis of the interviews, which employed a coding scheme that followed a deductive strategy and drew on the analytical framework outlined in the previous section, which guided the data collection and analysis of all the materials used in this exploratory research.However, since the interviews were conducted to complement the data already collected on the AI-ACTs, their analysis was limited to identifying certain traits and topics repeated by the respondents.

Findings and discussion
Since the Revenue Service first launched its pioneering AI-based tools ContÁgil and Aniita, in 2009 and 2012, respectively, to automate and standardise administrative tasks conducted by its inspectors, other AI-ACT initiatives have emerged.Brazil has created a web of accountability between governmental agencies whose attributes compete with and complement each other regarding oversight, and investigative and sanctioning tasks (Power & Taylor, 2011).The governmental agencies investing more in AI-ACT as part of this web of accountability include the already mentioned Revenue Service, the Federal Court of Accounts (Tribunal de Contas da União), the Office of the Comptroller General (Controladoria Geral da União, CGU), and the Administrative Council for Economic Defence (CADE).The Federal Police, as mentioned before, are less open about how they use AI-ACT, although we know they have been using it.The judiciary has been investing in AI-based tools to speed up administrative proceedings.
Most of the tools analysed here target corruption in key governmental functions, such as public expenditure, public revenue, and court procedures and practices, as Tables 3, 4 and 5 below illustrate.AI-ACTs developed by law enforcement agencies are limited to specific areas that are part of their main tasks and responsibilities.For example, the Revenue Service is responsible for the intake of the government's revenue, including the customs department, and, therefore, 1 3 Bots against corruption: Exploring the benefits and limitations…  three of its tools mapped by this study focus on curbing fraud in clearance procedures.Courts of accounts are responsible for auditing the accounts and overseeing the implementation of budgets, and these agencies have been investing in AI to help their inspectors check cases of non-compliance with public procurement rules and mismanagement of public funds.The same applies to the CADE and the Social Benefit Service (INSS), whose innovative technologies fit with their attributions, i.e., curbing cartel practices and benefit frauds, respectively.Public spending is the focal point of most of the bottom-up initiatives analysed, although their tools cover areas outside the scope of governmental initiatives such as the construction of schools and the purchase of food for schools, and congressional representatives' expenditures, as detailed in Table 3, While most tools developed by civil society aim to impact corruption by improving upward accountability and transparency and promoting collective actions by creating awareness, most governmental tools automate and standardise administrative tasks under their prerogative.Governmental tools, therefore, are more likely to be designed to enhance efficiency, productivity and performance, and to support decision-making in risk identification and monitoring.Bottom-up initiatives aim to engage the public and interact with them; hence, they often publish their findings on social media, while governmental tools are more likely to be for government use.Three governmental tools, however, are improving downward transparency; they use automated systems to assist the public, a task that would often be performed by humans (see Table 4).In two of these cases, AI has been used by governmental agencies to improve government-public interaction via chatbots on social media: TCU's Zello (on Twitter and Telegram) and CGU's Cida (initially on Facebook and later Telegram).While Zello offers automated access to procedures and clearance certificates when names are provided, Cida offers to help the user report a denunciation, complaint, request, suggestion, greeting or even a request to simplify a public service to the ombudsmen at the federal executive.The third governmental tool designed to promote downward transparency and improve accountability is FARO, which deploys AI to evaluate elements of the public's denunciations and complaints, decide whether to open investigative procedures and keep complainants informed about decisions taken.
Cida is a chatbot that engages and interacts with the public and is a crowdsourcing tool once it collects data provided by them.Curiously, the CGU does not consider Cida an AI-based tool, as they made explicit in their response to the request to access information for this study.Tá de Pé, equally not considered AI by its creators, was designed to crowdsource data via a chatbot, but only information related to the delayed construction of schools and nurseries may, in the end, be related to misuse or mismanagement of public money.This calls attention to the fact that Brazil has few crowdsourcing tools or digital channels dedicated to receiving accusations of corruption.However, tools dedicated to identifying and monitoring criminal investigations and court procedures exist, among them those related to unlawful conduct intended to secure benefits for oneself or another.Overall, all the tools have key weaknesses related to limited access to databases and lack of use, which is more salient in bottom-up AI-ACTs.Governmental tools offer limited auditability, which may increase the risk of bias and unfairness.Bots against corruption: Exploring the benefits and limitations… Most unusually, in-house solutions predominate, with both the public and civil servants developing their tech tools using the knowledge and skills of those with IT backgrounds.Among the sample analysed, only one tool, Watson from the Federal Police, was outsourced to IBM.Often, cases were developed by a small group of people or by just one person.In governmental initiatives, civil servants are encouraged to develop and maintain the AI-ACTs mainly by participating in tech meetings and innovation challenges, with taxpayers ultimately financing them.Bottom-up tools have been created by activists, concerned citizens or media outlets.Sources of funding, therefore, vary from crowdfunding, public and private grants, subscriptions, and/or ads, in the case of media outlets.The following subsections shed light on specific tools following layer-by-layer analysis according to the proposed theoretical framework.

Data inputs, processing and outputs
Datasets used as inputs vary, but often bottom-up tools rely on open data and topdown on both open and protected data.Portals with information on e-procurement (e.g., ComprasNet), business ownership and previous sanctions have been used as main inputs by governmental initiatives.Some initiatives combine open public and private data.The bot Rosie, for example, processes public open databases made available by the Lower Chamber and Revenue Services and private open databases on Google, Foursquare, and Yelp to calculate distances and average prices.Interviewees highlighted how Brazil is advanced in active transparency regarding public data and has well-established legislation for access to information, especially in the federal sphere.They complained, though, that not all types of data are accessible or available, not even by law enforcement agencies, that not all systems are yet able to communicate among themselves, and that the level of partnership among public agencies is still low.Even the codes are not easily accessed, apart from code exchanges between the Federal Court of Accounts and the CGU.One great exception is the bot Alice, created in 2015 by CGU to help auditors curb corruption in public procurement, embezzlement, graft, and anti-competitive practices by analysing bid submissions, contracts and calls.One year after its inception, an agreement was signed to share the code with the TCU, which improved it by adding ML techniques (a random forest classifier) to the existing regular expressions (regex) to mine data daily from the Federal Official Gazette and the ComprasNet portal (Interviewee 8).
Considerable variation in data processing among the existing tools was observed, indicating a wide range of architectures that vary from web scraping to descriptive statistics to a more complex analysis that mixes different types of processing features.For example, Iris, from the Court of Accounts of the State of Rio de Janeiro (TCE-RJ), applies a multicriteria model based on an analytical hierarchy process to establish relationships and dependencies.It uses data mining, deep learning, and image processing to calculate risk factors for the auditors at the TCE.Among the processes in place, Iris uses Google services to transform addresses into geographic codes to generate aerial and street-level images of the companies participating in bidding processes.Based on these images, a model applying a convolutional neural network (CNN, or ConvNet) evaluates the probabilities of each being a ghost company, using the Google library and model (Tensor Flow and Inception v3, respectively) for deep learning.Although it was developed in-house, it deployed 'ready-to-use' tutorials, scripts and libraries.
To identify cases of benefit fraud, Dataprev developed a tool based on data mining and statistical analyses with protected governmental datasets using Python and SAS Miner.It uses techniques such as deep learning by applying CNN and a sample of 3,000 to 6,000 benefits with which to train the algorithm.The Revenue Service's Sisam, in turn, learns both from inspected and non-inspected import declarations to calculate approximately 30 types of potential errors in each import declaration (Interviewee 1).It is a set of Bayesian networks programmed in Java whose conditional probability tables have been replaced by smoothing hierarchies to identify possible false descriptions of goods, missing licences, and wrong preferential tax claims that help inspectors decide which imports and exports to check.
For data processing, however, not all initiatives use ML or vision recognition.Some use less sophisticated techniques, such as automated data mining and crosschecking data using descriptive statistics and filters to highlight risks and anomalies.Projeto Cérebro (the Brain Project) and the CADE, created in 2015, do this to help flag cases of anti-competitive practices, such as fraudulent bidding and contracts, price-fixing, and group boycotts.Python and R are the most frequently employed programming languages, and the use of libraries (collections of already prewritten codes users can use to optimise tasks) could be found in the Revenue Service with the use of Java, even though Python is currently the most deployed language.RobOps, in turn, was programmed in C + + and the OPS website mixes Vue and Bootstrap on its frontend, employs NET Core and Node.js to collect the data, and uses an API.NET on its backend.As the initiative depends on volunteers, this allows those collaborating to use whichever programming language they prefer.
In terms of outputs, although initiatives like Sisam and Bem-Te-Vi already deliver full written reports using natural language, a clear preference for dashboards was observed, followed by instant messages to communicate findings.For example, while Cérebro provides only a dashboard, Alice's daily findings on incoherent public bids are sent daily by email to auditors and can be visualised on a dashboard, allowing auditors to take preventive action in the time window between the bid notice, the submission of the bid and the bidding award/contract signature.In the case of civil society initiatives, social media are used to make their findings visible and attract support from people, mainly using bots to invite them to help with their findings.This is the case for Rui Barbot, which identifies procedures at the Supreme Court that have been waiting to be heard for months and years, and Rosie, the AI that analyses Brazilian congresspeople's expenses and spots suspicious spending, both of which post automated tweets.OPS uses a more conventional website with a searchable dashboard, and the YouTube and Telegram channels to publicise findings and engage users.

3
Bots against corruption: Exploring the benefits and limitations…

Main tasks and actions
No cases of automated decision-making without human supervision were identified among the 31 initiatives analysed.The tools offer data collection, data storage, analytics, and visualisation features, along with communication features with different degrees of automation.Prediction is still underdeveloped, although the tools present risk rates.Hence, even if the initiatives use different databases and offer a different array of outputs, from dashboards to automatic email messages to chatbots and Twitter bots, they all serve to invite humans to act.In addition, they apply rules to verify and track transactions and procedures, based on what type of conduct is and is not allowed.According to the interviewees, the rules for the anti-corruption algorithms created by those developing codes are often based on existing legal norms and on common practices used to circumvent these same norms.Rosie, for example, holds the Lower Chamber accountable but not the Senate because the former has clearer formal written regulations of how representatives can spend their quota for parliamentary activity.Concerning congressional members' expenditures, for example, the Lower Chamber does not allow representatives to pay for meals for others, and alcoholic beverages are forbidden.To Interviewee 3, clear rules like these allowed Rosie to be programmed to identify potential suspicions of illicit expenditures when the bot finds receipts listing beer and wine, and more than one full-course meal.Part of the limitation of AI-ACTs has to do with access to data and a high level of dependence on legal norms and breach of norms to classify an act as suspicious.

Developers, users and accountability
As already noted, outsourcing anti-corruption tools is not a common feature of the initiatives under analysis.Developers are often tech-savvy civil servants, activists and citizens who want to create something useful with their tech skills.Users of these tools, in turn, can be internal or external.Apart from the two chatbots (Zello and Cida), all top-down initiatives are developed for internal use, to support civil servants' work.Some initiatives use human action to train algorithms, such as Agata, designed for generating textual analysis with learning and developed by the TCU, which applies an active ML process based on keywords most searched for by auditors.Agata asks the auditor to say whether the result was what the person was looking for and learns by considering the context in which the word is being used.The process was constructed as a game in which the user gained 'agatas' (agate stones) to engage them.
Bottom-up initiatives are more likely to be designed for external users (Tá de Pé, Dados JusBR).The OPS's RobOps, however, uses bots' findings as a starting point for human accounting, conducted by the initiative's volunteers.Interviewee 7 highlights how, in the case of the OPS, a considered decision was made not to rely mostly on machines, as the initiative considers human action as key to fighting corruption from below.The interviewees made it clear that developers perceive resistance among users, especially civil servants.Interviewee 8 said that auditors had complained that their email boxes were overloaded with Alice's messages and the lack of staff in the TCU did not allow them to check all the alerts made by the bot.In the Federal Revenue Service, initially, inspectors had a low level of trust in the outcomes offered by Sisam.Despite the initial scepticism, those using Sisam started relying on it once they realised the number of its correct predictions had improved.Table 6 summarises the main categories and codes that emerged from the interviews regarding the human layer of AI-ACTS.
As Table 6 illustrates, not only the resistance to AI-ACT among users had been observed as an issue to overcome.The lack of full transparency regarding the architecture and algorithms in the case of top-down initiatives, sometimes with the argument of security reasons, generates doubts regarding how auditable these tools are.While civil society initiatives tend to be open-source projects, governmental initiatives are treated as sensitive, although the degree of secrecy varies.Overall, this study found that classified information is less related to the databases deployed than to the algorithms, i.e., the set of rules used in calculations to highlight risks and suspicious cases.By law, even if the codes are not open, they could be audited by both internal and external control agencies.In practical terms, however, civil society is kept completely out of the process of holding these tools and their developers accountable.
Risk of bias was observed, not only because of the low level of transparency or the use of closed codes but because of the quality of data input.Iris, for example, relies on Google Street View, which tends to be outdated.Bottom-up initiatives can face issues related to bias.Rui, in turn, monitored procedures that were not randomly selected but listed by a team of journalists who selected classifiers.Unfortunately, the risk of bias is not an issue treated as a priority by the developers interviewed for this article.Interviewee 8, for example, participated in the creation of at least two AI-ACTs.When asked if he had any concerns about biases or if he thought about how a certain audit trail could offer a risk of bias, the answer was a long pause followed by 'No'.Overall, interviewees acknowledge that academic discussions on this aspect take place, although they are not engaged with them and the discussions do not guide their work.

Tangible outcomes
It was observed that the AI-ACTs analysed in this article focus on administrative processes by speeding up tasks, assisting decisions and supporting investigations.ContÁgil, for example, uses techniques such as clustering, outlier detection, and topic discovery functionalities that are mainly related to attempts to identify fiscal fraud and money laundering.They proved to be extremely useful in the anti-corruption probe Operation Car Wash (Lava Jato) by identifying the complex network of intermediaries and shell companies and linking them to politicians, top-level civil servants and businessmen. 8

ContÁgil can perform in one hour what a human
Bots against corruption: Exploring the benefits and limitations… inspector would take a week to do and can cross multiple internal and external datasets and build network graphs indicating the level of relationship among people and companies (Jambreiro Filho, 2019).
Rosie identified over 3,000 suspicious expenditures in three months and its creators organised a sprint to formalise requests for investigation in the Lower Chamber.They reported 629 doubtful reimbursements against 216 representatives.Irregular spending on alcoholic beverages and the submission of expense receipts showing the equivalent of the consumption of 12 kg of food in a single meal were reported.Politicians went public to apologise and promised to pay the money back.The OPS Institute claim that their civic audits, conducted with the help of their bots but involving human action, resulted in saving 6.2 million reals (around 1.2 million USD).Both Rosie's and RobOps' accounts on Twitter, however, do not attract as many retweets and likes as their creators would like.The same happens with the Twitter bot of Tá de Pé.The Dados JusBR webpage has a few users, but its monitoring resulted in a report showing that the level of transparency and accessibility of prosecutors' earnings across the states is extremely low; their work and findings gained visibility after being published in the most important Brazilian media outlets in May 2022.These initiatives, however, struggle to convince people to use their tools and to engage the public in collective actions to promote transparency, increase accountability and, hence, fight corruption.
Most developers, however, keep looking at accuracy rates to measure the efficiency of their tools, even knowing that the generated alerts may overflow email boxes or be ignored by those who are expected to act.In this regard, for example, Dataprev's tool to detect irregularities in social benefits offers 85% accuracy.Alice, in turn, had 88.27% accuracy during the test phase and, later, during further auditing, 73.91%, but it has already helped auditors to curb irregular public hiring throughout the country.Thanks to the bot, in Goiás state, two calls for tenders for a construction project were suspended, and in Roraima state, a governmental agency was forced to redo the bid notice.Alice has verified irregular tenders at the Minister of Foreign Affairs and for restorations with resources from the Institute for National Historic and Artistic Heritage (Iphan).
Yet, a point of attention needs to be the current high level of expectation deposited in the AI-ACTs and what solutions they can offer.The creator of project FARO, Fernando Sola (2021), made a statement at a public event broadcast on YouTube and his perspective shows a certain degree of frustration: 'When we started the work, our expectation was this: how cool, I'm going to do an AI to decide whether a complaint is suitable or not [for further examination].We are going to have many people free to do other things.The reality is not like that.The reality is that in some cases we can do very well, give good and effective grades for these complaints, and say whether they can be investigated or not and in others we need someone to make that decision.Now, I see AI much more as an aid in most cases than as an entity making decisions practically alone' (Fernando Sola, 2021).Based on all the findings discussed here, Sola's testimony can be seen as a summary of the current stage of expectations and opportunities created by and the limitations of AI-ACTs, at least in Brazil.In addition, the impacts of AI applications on corruption are hard to measure 1 3 Bots against corruption: Exploring the benefits and limitations… because they often have indirect effects, such as automating and standardising administrative tasks that could reduce human interaction and potential corrupt exchanges.At the same time, they increase the capacity to process and find suspicious transactions.

Conclusion
This exploratory study not only confirms that, as noted by the existing literature, Brazil is a rich source of empirical data on AI-based initiatives but also acknowledges how they remain understudied, regarding anti-corruption tools.
The proposed analytical framework proved to be useful in providing an overall panorama of a wide range of techniques, functionalities and types of corruption being targeted by AI-ACTs in place in the country.One of the main positive findings is that AI-ACTs were designed to fight corruption in key governmental functions, although these tools are more likely to be tailored for specific areas.
The Brazilian cases indicate that most AI-ACTs operating in the country are related to public spending and focused on public procurement auditing, mainly due to the type of digital data available and the fact that many courts of accounts are developing these tools.Indeed, the type of corruption being combated, even indirectly by automating procedures or increasing transparency, depends on who developed and uses the AI-ACT.In the case of top-down initiatives, each tool's focal point is linked to the formal roles of the governmental law enforcement agency deploying it.Despite a prevalence of tools to identify risks and monitor public spending, the focal point of bottom-up initiatives tends to be wider.They vary from exposing corruption procedures against politicians and delays in the Supreme Court to misuse of public money by congressional representatives to crowdsourcing information related to delays in the construction of schools.
The predominance of in-house developed tools shows how tech-savvy civil servants and the public are increasingly engaging with digital data and contributing to data-driven efforts to fight corruption.Improvements in the quality and easier access to technology and the large volume and variability of digital data, mainly open and public data, can be seen as the drivers behind the current "AI spring" in anti-corruption in Brazil.Most AI-ACTs have been designed to support human action in examining suspicious cases rather than creatively spotting new types of corruption and solving problems on their own.This feature often brings out issues such as understaffed agencies and overburdened citizens becoming overloaded with information and pays less attention to suspicious findings spotted by the bots.This proved to be the case in the Federal Court of Accounts, as previous studies had also noted.And the bottom-up initiatives analysed here experience decreased engagement over time.
Even if the bots we have now are more likely to be efficient in showing where humans should be paying attention than in decision-making, there is a low level of accountability of the algorithms and, hence, a high risk of bias.Due to the lack Bots against corruption: Exploring the benefits and limitations… of transparency of the top-down initiatives, there is no information on whether the automated systems are replicating already existing bias and discriminatory patterns.Bottom-up initiatives, in turn, tend to use open codes but have a high dependence on open data, which is not always available or accessible, compromising their accuracy and scope.Past cases and existing legal norms are the basis for classifying certain acts as suspicious, which means that algorithms may be reproducing a prevailing bias.This limits the scope of initiatives and makes it more difficult to capture non-illicit acts, i.e., those that do not deviate from the formal norms but capitalise on abuses of collective trust and result in injustices and particularism.
Little information is available on AI-ACT outcomes regarding measurable impacts on corruption, although the findings suggest that some resulted in positive results, such as misused public money being paid back and supported audits and criminal investigations.More research on both the impacts and the new measurements for calculating outcomes is needed.How AI-ACTs should be held accountable, who controls and oversees them, and what types of structures of power and bias they are subjected to are questions that are also worth addressing.What triggers the creation of such initiatives, how AI has been used and rejected, and whether they are working to serve its main purposes in the fight against corruption are crucial topics for future research.If we want better anti-corruption efforts, we need to understand how these tools operate, their impacts and risks, who created them, and who is monitoring the monitors.Otherwise, we risk perpetuating the ills we seek to cure.Until now, AI-ACTs are being developed faster than we can critically comprehend and, most importantly, assess whether they are fair, meaningful and technically feasible.This is certainly the case in Brazil, but it is likely not the only place.

Appendix 1
Table 7 1 3 Bots against corruption: Exploring the benefits and limitations…

Fig. 1
Fig. 1 Conceptual framework for assessing artificial intelligence as an anti-corruption tool (AI-ACT) and its key components.Source: Author, based on and Wirtz and Müller (2019) and Köbis et al. (2021).
Bots against corruption: Exploring the benefits and limitations… Bots against corruption: Exploring the benefits and limitations…

Table 3
Mapping the main features of Brazilian AI-ACTs used to monitor public expenditures

Table 4
Mapping the main features of Brazilian AI-ACTs used to monitor governmental revenue, the management of public funds, and citizens' complaints and denuncia-

Table 5
Mapping the main features of Brazilian AI-ACTs to monitor criminal and court proceedings

Table 6
Qualitative data analysis: a content analysis of in-depth interviews The systems work together with human specialists and the observed effect comes from a humanmachine combination.Humans have a good deal of freedom and are not obliged to optimise any particular measure.This makes each result more complex to present.' (Interviewee 1) 'What I want is to have the technology helping me to a certain extent because I want the other part to be done by society.(…) So I can't have technology that does everything for me and gives me everything ready.No.I need technology to help me.It is just like a car.The interesting thing is that you have a good vehicle, but you know how to drive it, that you can give it directions.So this is what I think of society.' (Interviewee 7) Overall distrust of machines 'Humans like to feel unique.At least here in Latin America, we like to tell our story and hear from whoever is listening something like, 'Let's see what I can do to help you.' […] It is very common to see people typing or calling 'human, human, human' when talking to machines until a human appears to listen to their demand.'(Interviewee 5) We already do it with credit risk, when you go to the bank to get a mortgage, the bank has a model there that says whether your risk is low or high and, based on that, they decide whether you will get the loan or not.So, I don't have a lot of problems with using that [AI to fight crime].I know there is an American state where there is some software there that tells the judge what the chances of reoffending are.(…) There is a huge controversy because "Wow, look, you're prejudging and I don't know what, blah blah blah…".But if it is for reducing crime rates, screw it.In fact, we haven't had any ethical discussions until today, as far as I can remember.(…) Ethical concerns, in this sense, I don't think so.I don't remember a moral conflict because of some variable that I used, let's say.It is a concern that is generally missing.(…) I have seen debates like if a certain result can cause some harm to someone.We have the concern of generating serious evidence only if we really have a very high precision of the data we are receiving.'(Interviewee 8)

Table 6 (
There was a time when someone criticized us (Operation Love Serenade) because I was partisan, leftist, on Twitter (…) But it was very nice because I answered it and other people too.People said, "(He) may be a leftist, but I can see in your bio that you are in the technology area.So where is the code, where is the algorithm, the functioning logic of the program (Rosie) that puts this partisan bias you're saying it exists?The code has been open for three years.If no one has found bias so far, you could be a great pathfinder."The guy disappeared (…) The fact that the code is open brings a lot of good things.It has this side of contributions, and it has this side of auditing.Anyone can get hold of it and audit our work.'(Interviewee 3)

Table 7
List of AI-ACTs in use in Brazil mapped for this study(April 2021)

Table 7 (
Bots against corruption: Exploring the benefits and limitations… Makes predictions and provides risk scores based on public and sensitive databases and pieces of news.It deploys a language representation model called BERT, which stands for Bidirectional Encoder Representations from Transformers, for supervised learning to identify risks Improving horizontal accountability and supporting human decisions by identifying suspicious elements and scoring the risks Auditable, but not open to the public.Internal and external control units could audit it.There is a risk of bias and errors.Information on accuracy is not available Models that use as input texts of court documents and semi-structured metadata are available on the federal justice website, by applying the conditional random field (CRF) and long short-term memory (LSTM) techniques.The main goal is to identify individuals and companies, extract relevant information about them and establish relationship networks and money flows Improving horizontal accountability and supporting human decisions by identifying suspicious relationships and connections Auditable, but not open to the public.Internal and external control units could audit it.There is a risk of bias and errors.Information on accuracy is not available Ta de Pé 2017, Transparência Brasil A mobile phone application that was later converted into a WhatsApp chatbot, it was developed for citizens to monitor school construction projects in Brazilian municipalities.The user submits data about construction sites that are behind schedule or with no work in progress.Such crowdsourced information is sent to independent engineers, and Transparência Brasil contacts the mayors' offices about project delays.A Twitter bot posts a message each time a user submits a new picture for evaluation, or a municipality responds to a citizen's request Fostering bottom-up accountability in the Brazilian public sector and improving responsiveness in government education expenditure Auditable, but codes and interactions are not available on the Transparência Brasil website.An academic study showed that the app has a null impact on school construction indicators and that politicians are unresponsive to individual requests

Table 7 (
Implemented in Python, it uses the TensorFlow library for deep neural network and SciKit-Learn and Random Forest regressors to estimate potential risks and threats regarding the goods observed in x-ray images in the port of Santos.All containers leaving or entering the country are scanned.Ajna collects the resulting images, associates them with the corresponding declarations and makes the images available to customs officers in their web browsers whenever convenient.Hence, Ajna applies computer vision, data mining and optical character recognition techniques for classifying, predicting and scanning patterns and warning of anomalies aiming, among other things, to control fraud and improve functional behaviour and workers' security in customs clearance procedures Improving horizontal accountability and supporting human decisions by identifying suspicious elements in imports and exports Auditable, but not open to the public.Internal and external control units could audit it.There is a risk of bias and errors.Information on accuracy is not available ContÁgil 2009, Revenue Service It uses decision trees, naive Bayes, support vector machines and deep neural networks and includes clustering, outlier detection, topic discovery and co-reference resolution features for retrieving and analysing sensitive and protected data.It is available to all Revenue Service employees through an interactive graphic interface.All ContÁgil functions are also available through scripts that can be created visually or written in Javascript or Python.It reads account books and invoice sets, scans the various data sources to which it has access and builds network graphs with people, companies and their relationships Supporting human decisions and improving identification of big fraud schemes like the one observed in Operation Car Wash Auditable, but not open to the public.Internal and external control units could audit it.There is a risk of bias and errors Information on accuracy and data inputs is not available Publique-se 2020, Abraji, Transparency International Brazil Programmed in Python, it automatically checks if there are legal proceedings that cite politicians as defendants or plaintiffs in the higher, federal and local courts.It has already identified 3445 politicians.It has the option to download the list of procedures related to active and passive corruption and administrative improbity.It was developed by a company called Digesto, which specialises in law technology Bots against corruption: Exploring the benefits and limitations… Information from the labour legal language model, built from data coming from the 27 Regional Labour Courts, justice decisions in the past two years.Deploys Word2vec, AutoML, and XGBoost to predict decisions and proceedings and select the most experienced assistant to analyse court cases.It took two years to develop Supporting human action to speed up procedures and reduce eventual conflict of interests Auditable, but not open to the public.Internal and external control units could audit it.There is a risk Vue and Java Script, RobOps works daily, collecting data on the Lower Chamber and the Senate, crosschecks with fiscal conditions at the Revenue Service and displays the expenditures raking the politicians in a dashboard.Its finds are also communicated by email.The process allows volunteers to analyse in-depth the spending.New functions have been added to improve both dashboard and automated crawling Fostering bottom-up accountability in the Brazilian congress and improving responsiveness to public spending by the legislature Auditable, open-source GitHub hosted Sources: Author based on Access of Information Answers; Interviews; GitHub (https:// github.com/ analy tics-ufcg/ ta-de-pe-dados; https:// github.com/ dados jusbr; https:// github.com/ okfn-brasil/ seren ata-de-amor; https:// github.com/ ops-org; https:// github.com/ Rafae lEste vamRe is/ Robops); Costa and Bastos (2020); Agata 2020 (https:// www.youtu be.com/ watch?v= 1extY x6VWa8); 3º Seminário sobre Análise de Dados na Administração Pública 2017 YouTube (https:// www.youtu be.com/ watch?v=Pw-DW5pt vbQ&t= 5963s); Transparência Brasil/Catálago IA (2021) https:// catal ogoia.omeka.net/; Casos de Aplicação de Inteligência Artificial na Administração Pública-Enastic AGU 2020 https:// www.youtu be.com/ watch?v= 2chdQ SjM2GI; Freire, Gaudino, Mignozzetti (2020); Transparência Brasil (2021a, 2021b)-https:// www.trans paren cia.org.br/ downl oads/ publi cacoes/ Gover nance_ Recom menda tions.pdf; Jambreiro Filho (2019), Coutinho (2012)