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17 results on '"Fontes, Afonso"'

1. The Integration of Machine Learning into Automated Test Generation: A Systematic Mapping Study

Author

Fontes, Afonso and Gay, Gregory

Subjects
Computer Science - Software Engineering, Computer Science - Machine Learning
Abstract

Context: Machine learning (ML) may enable effective automated test generation. Objective: We characterize emerging research, examining testing practices, researcher goals, ML techniques applied, evaluation, and challenges. Methods: We perform a systematic mapping on a sample of 124 publications. Results: ML generates input for system, GUI, unit, performance, and combinatorial testing or improves the performance of existing generation methods. ML is also used to generate test verdicts, property-based, and expected output oracles. Supervised learning - often based on neural networks - and reinforcement learning - often based on Q-learning - are common, and some publications also employ unsupervised or semi-supervised learning. (Semi-/Un-)Supervised approaches are evaluated using both traditional testing metrics and ML-related metrics (e.g., accuracy), while reinforcement learning is often evaluated using testing metrics tied to the reward function. Conclusion: Work-to-date shows great promise, but there are open challenges regarding training data, retraining, scalability, evaluation complexity, ML algorithms employed - and how they are applied - benchmarks, and replicability. Our findings can serve as a roadmap and inspiration for researchers in this field., Comment: Accepted for Software Testing, Verification, and Reliability journal. (arXiv admin note: text overlap with arXiv:2107.00906 - This is an earlier study that this study extends)

Published
2022

2. AI-Empowered Data Offloading in MEC-Enabled IoV Networks

Author

Fontes, Afonso, Ribeiro, Igor de L., Muhammad, Khan, Gandomi, Amir H., Gay, Gregory, and de Albuquerque, Victor Hugo C.

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Computers and Society
Abstract

Advancements in smart vehicle design have enabled the creation of Internet of Vehicle (IoV) technologies that can utilize the information provided by various sensors and wireless communication to perform complex functionality. Many of these functionalities rely on high computational power and low latency. Mobile Edge Computing (MEC) technologies have been proposed as a way to meet these requirements, as their proximity and decentralization provide unique benefits for networks like real-time communication, higher throughput, and flexibility. Diverse challenges to the process of offloading data in a MEC-enabled IoV network have emerged, such as offloading reliability in highly mobile environments, security for users within the same network, and energy management to keep users from being disincentivized to participate in the network. This article surveys research studies that use AI as part of the data offloading process, categorized based on four main issues: reliability, security, energy management, and service seller profit. Afterward, this article discusses challenges and future perspectives for IoV technologies.

Published
2022

3. Visual Odometry for RGB-D Cameras

Author

Fontes, Afonso and Maia, Jose Everardo Bessa

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Visual odometry is the process of estimating the position and orientation of a camera by analyzing the images associated to it. This paper develops a quick and accurate approach to visual odometry of a moving RGB-D camera navigating on a static environment. The proposed algorithm uses SURF (Speeded Up Robust Features) as feature extractor, RANSAC (Random Sample Consensus) to filter the results and Minimum Mean Square to estimate the rigid transformation of six parameters between successive video frames. Data from a Kinect camera were used in the tests. The results show that this approach is feasible and promising, surpassing in performance the algorithms ICP (Interactive Closest Point) and SfM (Structure from Motion) in tests using a publicly available dataset.

Published
2022

4. Automated Support for Unit Test Generation: A Tutorial Book Chapter

Author

Fontes, Afonso, Gay, Gregory, Neto, Francisco Gomes de Oliveira, and Feldt, Robert

Subjects
Computer Science - Software Engineering, Computer Science - Artificial Intelligence, Computer Science - Neural and Evolutionary Computing
Abstract

Unit testing is a stage of testing where the smallest segment of code that can be tested in isolation from the rest of the system - often a class - is tested. Unit tests are typically written as executable code, often in a format provided by a unit testing framework such as pytest for Python. Creating unit tests is a time and effort-intensive process with many repetitive, manual elements. To illustrate how AI can support unit testing, this chapter introduces the concept of search-based unit test generation. This technique frames the selection of test input as an optimization problem - we seek a set of test cases that meet some measurable goal of a tester - and unleashes powerful metaheuristic search algorithms to identify the best possible test cases within a restricted timeframe. This chapter introduces two algorithms that can generate pytest-formatted unit tests, tuned towards coverage of source code statements. The chapter concludes by discussing more advanced concepts and gives pointers to further reading for how artificial intelligence can support developers and testers when unit testing software., Comment: This is a preprint of a chapter from the upcoming book, "Optimising the Software Development Process with Artificial Intelligence" (Springer, 2022)

Published
2021

5. Efficient and Effective Generation of Test Cases for Pedestrian Detection -- Search-based Software Testing of Baidu Apollo in SVL

Author

Ebadi, Hamid, Moghadam, Mahshid Helali, Borg, Markus, Gay, Gregory, Fontes, Afonso, and Socha, Kasper

Subjects
Computer Science - Artificial Intelligence, Computer Science - Software Engineering
Abstract

With the growing capabilities of autonomous vehicles, there is a higher demand for sophisticated and pragmatic quality assurance approaches for machine learning-enabled systems in the automotive AI context. The use of simulation-based prototyping platforms provides the possibility for early-stage testing, enabling inexpensive testing and the ability to capture critical corner-case test scenarios. Simulation-based testing properly complements conventional on-road testing. However, due to the large space of test input parameters in these systems, the efficient generation of effective test scenarios leading to the unveiling of failures is a challenge. This paper presents a study on testing pedestrian detection and emergency braking system of the Baidu Apollo autonomous driving platform within the SVL simulator. We propose an evolutionary automated test generation technique that generates failure-revealing scenarios for Apollo in the SVL environment. Our approach models the input space using a generic and flexible data structure and benefits a multi-criteria safety-based heuristic for the objective function targeted for optimization. This paper presents the results of our proposed test generation technique in the 2021 IEEE Autonomous Driving AI Test Challenge. In order to demonstrate the efficiency and effectiveness of our approach, we also report the results from a baseline random generation technique. Our evaluation shows that the proposed evolutionary test case generator is more effective at generating failure-revealing test cases and provides higher diversity between the generated failures than the random baseline., Comment: 8 pages, 2021 IEEE Conference on Artificial Intelligence Testing (AITest 2021)

Published
2021

6. Using Machine Learning to Generate Test Oracles: A Systematic Literature Review

Author

Fontes, Afonso and Gay, Gregory

Subjects
Computer Science - Software Engineering, D.2.4
Abstract

Machine learning may enable the automated generation of test oracles. We have characterized emerging research in this area through a systematic literature review examining oracle types, researcher goals, the ML techniques applied, how the generation process was assessed, and the open research challenges in this emerging field. Based on a sample of 22 relevant studies, we observed that ML algorithms generated test verdict, metamorphic relation, and - most commonly - expected output oracles. Almost all studies employ a supervised or semi-supervised approach, trained on labeled system executions or code metadata - including neural networks, support vector machines, adaptive boosting, and decision trees. Oracles are evaluated using the mutation score, correct classifications, accuracy, and ROC. Work-to-date show great promise, but there are significant open challenges regarding the requirements imposed on training data, the complexity of modeled functions, the ML algorithms employed - and how they are applied - the benchmarks used by researchers, and replicability of the studies. We hope that our findings will serve as a roadmap and inspiration for researchers in this field., Comment: Pre-print. Article accepted to 1st International Workshop on Test Oracles at ESEC/FSE 2021

Published
2021

7. Automated Support for Unit Test Generation

Author

Fontes, Afonso, Gay, Gregory, de Oliveira Neto, Francisco Gomes, Feldt, Robert, Rozenberg, Grzegorz, Founding Editor, Bäck, Thomas, Series Editor, Kari, Lila, Series Editor, Stepney, Susan, Series Editor, Romero, José Raúl, editor, Medina-Bulo, Inmaculada, editor, and Chicano, Francisco, editor

Published
2023
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12. 'La enfermedad del mundo': chamanismo baniwa frente a la pandemia

Author

Vianna, João, Fontes, Afonso, and Cardoso, Ilda da Silva

Subjects
Noroeste amazônico, Pandemia, Northwest Amazon, Pandemic, Chamanismo, Antropoceno, Anthropocene, Noroeste de la Amazonia, Shamanism, Baniwa, Xamanismo
Abstract

Resumo Este artigo explora a pesquisa de um iñapakaita, benzedor, Afonso Fontes, homem baniwa do clã Hoohodene, por uma encantação xamânica para uma doença: a covid-19. Essa busca será compreendida como inventiva, nos termos da dialética wagneriana (2010), pois ocorre a partir de seus conhecimentos do cosmos, dos mundos mítico e atual, não humanos e humanos, indígenas e não indígenas. A análise das fórmulas verbais contidas na encantação de Afonso contra o coronavírus descreverá o seu caráter composicional, explicitando perspectivas a partir das quais são constituídas, bem como a agência xamânica atua na reordenação do cosmos. Por fim, realizam-se apontamentos de ordem especulativa, desde uma crítica xamânica, sobre o surgimento das doenças como conectadas a outros colapsos e associados ao modo de vida dos não indígenas no Antropoceno. Abstract This article explores how a healer (iñapakaita), Afonso Fontes, a Baniwa man of the Hoohodene clan, searches for a shamanic incantation against an unknown disease: Covid-19. The iñapakaita's quest is understood to be inventive, in terms of Wagnerian dialectics (2010), because it derives from his knowledge of the cosmos, of mythical and actual worlds, of non-human and human, and of indigenous and non-indigenous. The analysis of the verbal formulas contained in Afonso's incantation against the coronavirus describes their compositional character, making explicit the perspectives from which they are constituted, as well as the shamanic agency in reordering the cosmos. Finally, starting from a shamanic critique, the article speculates on the emergence of illnesses as connected to other collapses and associated with the way of life of non-indigenous people in the Anthropocene. Resumen Este artículo explora la investigación realizada por un iñapakaita, benzedor, Afonso Fontes, un hombre baniwa del clan Hoohodene, en la procura de un encantamiento chamánico para una enfermedad desconocida: el Covid-19. La búsqueda se entenderá como inventiva, en los términos de la dialéctica wagneriana (2010), porque se produce a partir de su conocimiento del cosmos, de los mundos míticos y presentes, no humanos y humanos, indígenas y no indígenas. El análisis de las fórmulas verbales contenidas en el encantamiento de Afonso contra el coronavirus describirá su carácter compositivo, explicando las perspectivas desde las que se constituyen, así como la agencia chamánica en la reordenación del cosmos. Por último, se hacen apuntes especulativos, desde una crítica chamánica, sobre la aparición de enfermedades entendidas como conectadas a otros colapsos y asociadas al modo de vida y a las elecciones de los no indígenas en el Antropoceno.

Published
2022

17. Integrating post-quantum cryptography (NTRU) in the TLS protocol

Author

Fontes, Afonso Pires, Valença, José Manuel Esgalhado, and Universidade do Minho

Subjects
Post-quantum, Pós-quântica, NTRU, Cryptography, Criptografia, Engenharia e Tecnologia::Engenharia Eletrotécnica, Eletrónica e Informática
Abstract

Dissertação de mestrado em Computer Science, We aim to integrate new “suites”, using post-quantum authentication and encryption tech niques, in the TLS protocol. Namely, this project is dedicated to integrating algorithms belonging to the NTRU family of cryptossystems in the OpenSSL library and in the Python package “Cryptography”. Even though all the algorithms included in this project have already been imple mented as part of their submissions to the NIST Post-Quantum Standartization project, currently there doesn’t seem to exist a way to perform prototyping and testing of these cryp tossystems in real-life use cases, and it would be interesting to create such tools. We also aim to test if these algorithms could be further optimized for speed and efficiency by comparing the reference implementations (submited to NIST and publicly avail able) with our own implementations that perform some required mathematical operations in a very efficient manner (by using specialized number theory libraries)., Pretende-se integrar novas “suites” no protocolo TLS que usem técnicas de autenticação e cifra na categoria de técnicas pós-quanticas. Nomeadamente, este projecto é dedicado à integração de algoritmos da família NTRU na biblioteca OPENSSL e na “package” Cryptography para o Python. Apesar de todos os algoritmos contemplados neste projeto já terem sido implementa dos no âmbito da sua submissão ao NIST Post-Quantum Standartization project, actualmente não parece existir forma de testar e prototipar estes criptossistemas em casos de uso realistas, e seria interessante desenvolver ferramentas que o permitam. Pretende-se também aferir se estes algoritmos podem ser optimizados em eficiência e velocidade de execução, comparando as implementações de referência (submetidas ao NIST e disponiveis publicamente) com as nossas implementações, que efectuam algumas operações matemáticas necessárias de forma muito eficiente (com recusro a bibliotecas de teoria de números especializadas).

Published
2019

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