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Researcher profile

Valentina Lenarduzzi

Valentina Lenarduzzi contributes to research discovery and scholarly infrastructure.

ResearcherAffiliation not importedOpen to collaborate
Software EngineeringArtificial IntelligenceGeneral LiteratureInformation RetrievalMachine LearningMultiagent Systems

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Published work

9 published item(s)

preprint2026arXiv

A Defect is Being Born: How Close Are We? A Time Sensitive Forecasting Approach

Background. Defect prediction has been a highly active topic among researchers in the Empirical Software Engineering field. Previous literature has successfully achieved the most accurate prediction of an incoming fault and identified the features and anomalies that precede it through just-in-time prediction. As software systems evolve continuously, there is a growing need for time-sensitive methods capable of forecasting defects before they manifest. Aim. Our study seeks to explore the effectiveness of time-sensitive techniques for defect forecasting. Moreover, we aim to investigate the early indicators that precede the occurrence of a defect. Method. We will train multiple time-sensitive forecasting techniques to forecast the future bug density of a software project, as well as identify the early symptoms preceding the occurrence of a defect. Expected results. Our expected results are translated into empirical evidence on the effectiveness of our approach for early estimation of bug proneness.

0 citations0 reviewsNo code linkedOpen access
preprint2026arXiv

A Research Agenda on Agents and Software Engineering: Outcomes from the Rio A2SE Seminar

The rise of agentic AI is reshaping software engineering in two intertwined directions: agents are increasingly applied to support software engineering tasks, and Agentic AI systems themselves are complex systems that require re-thinking currently established software engineering practices. To chart a coherent research agenda covering the two directions, we organized the A2SE seminar in Rio de Janeiro, bringing together 18 experts from academia and industry. Through structured presentations, collaborative topic clustering, and focused group discussions, participants identified six thematic areas: Governance, Software Engineering for Agents, Agents for Software Architecture, Quality and Evaluation, Sustainability, and Code, and they prioritized short-term and long-term research directions for each. This paper presents the resulting community-driven, opinionated research agenda, offering the SE community a structured foundation for coordinating efforts at this critical juncture.

0 citations0 reviewsNo code linkedOpen access
preprint2022arXiv

CATTO: Just-in-time Test Case Selection and Execution

Regression testing ensures a System Under Test (SUT) still works as expected after changes to it. The simplest approach for regression testing consists of re-running the entire test suite against the changed version of the SUT. However, this might result in a time- and resource-consuming process; \eg when dealing with large and/or complex SUTs and test suits. To work around this problem, test Case Selection (TCS) strategies can be used. Such strategies seek to build a temporary test suite comprising only those test cases that are relevant to the changes made to the SUT, so avoiding executing those test cases that do not exercise the changed parts. In this paper, we introduce CATTO (Commit Adaptive Tool for Test suite Optimization) and CATTO INTELLIJ PLUGIN. The former is a tool implementing a TCS strategy for SUTs written in Java, while the latter is a wrapper to allow developers to use \toolName directly in IntelliJ. We also conducted a preliminary evaluation of CATTO on seven open-source Java SUTs in terms of reductions in test-suite size, fault-reveling test cases, and fault-detection capability. The results are promising and suggest that CATTO can be of help to developers when performing regression testing. The video demo and the documentation of the tool is available at: \url{https://catto-tool.github.io/}

0 citations0 reviewsNo code linkedOpen access
preprint2022arXiv

What is Software Quality for AI Engineers? Towards a Thinning of the Fog

It is often overseen that AI-enabled systems are also software systems and therefore rely on software quality assurance (SQA). Thus, the goal of this study is to investigate the software quality assurance strategies adopted during the development, integration, and maintenance of AI/ML components and code. We conducted semi-structured interviews with representatives of ten Austrian SMEs that develop AI-enabled systems. A qualitative analysis of the interview data identified 12 issues in the development of AI/ML components. Furthermore, we identified when quality issues arise in AI/ML components and how they are detected. The results of this study should guide future work on software quality assurance processes and techniques for AI/ML components.

0 citations0 reviewsNo code linkedOpen access
preprint2021arXiv

A Critical Comparison on Six Static Analysis Tools: Detection, Agreement, and Precision

Background. Developers use Automated Static Analysis Tools (ASATs) to control for potential quality issues in source code, including defects and technical debt. Tool vendors have devised quite a number of tools, which makes it harder for practitioners to select the most suitable one for their needs. To better support developers, researchers have been conducting several studies on ASATs to favor the understanding of their actual capabilities. Aims. Despite the work done so far, there is still a lack of knowledge regarding (1) which source quality problems can actually be detected by static analysis tool warnings, (2) what is their agreement, and (3) what is the precision of their recommendations. We aim at bridging this gap by proposing a large-scale comparison of six popular static analysis tools for Java projects: Better Code Hub, CheckStyle, Coverity Scan, Findbugs, PMD, and SonarQube. Method. We analyze 47 Java projects and derive a taxonomy of warnings raised by 6 state-of-the-practice ASATs. To assess their agreement, we compared them by manually analyzing - at line-level - whether they identify the same issues. Finally, we manually evaluate the precision of the tools. Results. The key results report a comprehensive taxonomy of ASATs warnings, show little to no agreement among the tools and a low degree of precision. Conclusions. We provide a taxonomy that can be useful to researchers, practitioners, and tool vendors to map the current capabilities of the tools. Furthermore, our study provides the first overview on the agreement among different tools as well as an extensive analysis of their precision.

0 citations0 reviewsNo code linkedOpen access
preprint2021arXiv

Empirical Standards for Software Engineering Research

Empirical Standards are natural-language models of a scientific community's expectations for a specific kind of study (e.g. a questionnaire survey). The ACM SIGSOFT Paper and Peer Review Quality Initiative generated empirical standards for research methods commonly used in software engineering. These living documents, which should be continuously revised to reflect evolving consensus around research best practices, will improve research quality and make peer review more effective, reliable, transparent and fair.

0 citations0 reviewsNo code linkedOpen access
preprint2020arXiv

Does Migrate a Monolithic System to Microservices Decrease the Technical Debt?

Background. The migration from monolithic systems to microservices involves deep refactoring of the systems. Therefore, the migration usually has a big economic impact and companies tend to postpone several activities during this process, mainly to speed-up the migration itself, but also because of the need to release new features. Objective. We monitored the Technical Debt of a small and medium enterprise while migrating a legacy monolithic system to an ecosystem of microservices to analyze changes in the code technical debt before and after the migration to microservices. Method. We conducted a case study analyzing more than four years of the history of a big project (280K Lines of Code) where two teams extracted five business processes from the monolithic system as microservices, by first analyzing the Technical Debt with SonarQube and then performing a qualitative study with the developers to understand the perceived quality of the system and the motivation for eventually postponed activities. Result. The development of microservices helps to reduce the Technical Debt in the long run. Despite an initial spike in the Technical Debt, due to the development of the new microservice, after a relatively short period, the Technical Debt tends to grow slower than in the monolithic system.

0 citations0 reviewsNo code linkedOpen access
preprint2020arXiv

Technical Debt Prioritization: State of the Art. A Systematic Literature Review

Background. Software companies need to manage and refactor Technical Debt issues. Therefore, it is necessary to understand if and when refactoring Technical Debt should be prioritized with respect to developing features or fixing bugs. Objective. The goal of this study is to investigate the existing body of knowledge in software engineering to understand what Technical Debt prioritization approaches have been proposed in research and industry. Method. We conducted a Systematic Literature Review among 384 unique papers published until 2018, following a consolidated methodology applied in Software Engineering. We included 38 primary studies. Results. Different approaches have been proposed for Technical Debt prioritization, all having different goals and optimizing on different criteria. The proposed measures capture only a small part of the plethora of factors used to prioritize Technical Debt qualitatively in practice. We report an impact map of such factors. However, there is a lack of empirical and validated set of tools. Conclusion. We observed that technical Debt prioritization research is preliminary and there is no consensus on what are the important factors and how to measure them. Consequently, we cannot consider current research conclusive and in this paper, we outline different directions for necessary future investigations.

0 citations0 reviewsNo code linkedOpen access
preprint2019arXiv

Some SonarQube Issues have a Significant but SmallEffect on Faults and Changes. A large-scale empirical study

Context. Companies commonly invest effort to remove technical issues believed to impact software qualities, such as removing anti-patterns or coding styles violations. Objective. Our aim is to analyze the diffuseness of Technical Debt (TD) items in software systems and to assess their impact on code changes and fault-proneness, considering also the type of TD items and their severity. Method. We conducted a case study among 33 Java projects from the Apache Software Foundation (ASF) repository. We analyzed 726 commits containing 27K faults and 12M changes. The projects violated 173 SonarQube rules generating more than 95K TD items in more than 200K classes. Results. Clean classes (classes not affected by TD items) are less change-prone than dirty ones, but the difference between the groups is small. Clean classes are slightly more change-prone than classes affected by TD items of type Code Smell or Security Vulnerability. As for fault-proneness, there is no difference between clean and dirty classes. Moreover, we found a lot of incongruities in the type and severity level assigned by SonarQube. Conclusions. Our result can be useful for practitioners to understand which TD items they should refactor and for researchers to bridge the missing gaps. They can also support companies and tool vendors in identifying TD items as accurately as possible.

0 citations0 reviewsNo code linkedOpen access