Free Geotechnologies Applied to Basic Sanitation Management: a Case Study at the Empresa Baiana de Águas e Saneamento
Article Subjects > Engineering Ibero-american International University > Research > Articles and Books Open English, Portuguese Objective: The general objective of this article is to study the implementation of free geotechnologies, based on free software, in basic sanitation management. Theoretical benchmark: The research brings perspectives aiming to demonstrate that the implementation of geotechnologies, based on free and free software, in the management of basic sanitation can reduce the costs of implementing information technology, as well as assist the process of combating water losses and waste. Method: This study consisted of exploratory research with application in a case study at the Bahia Water and Sanitation Company. To assess the hypotheses raised by the survey, data from the company's information systems were used, as well as the answers from the online questionnaire applied to professionals in the area of geotechnologies. Results and conclusion: The results pointed out that the free geotechnologies, based on free and free software, implemented in the basic sanitation company allowed a better management of basic sanitation, being important for the specific process of combating water losses. Research Implications: The research contributes with the literature review and practical application of free and free geotechnologies applied in the management of basic sanitation, which allow the economicity and scalability of technological projects of this nature. Originality/value: The results obtained in the present study are unprecedented, innovative and relevant for the scientific community, in the context of the use of free and free geotechnologies, in the management of basic sanitation and its process of combating water losses. metadata Guimarães Aragão, Helder; Pereira, Vilmar Alves and Florencio da Silva, Rodrigo mail UNSPECIFIED, vilmar.alves@unini.edu.mx, UNSPECIFIED (2022) Free Geotechnologies Applied to Basic Sanitation Management: a Case Study at the Empresa Baiana de Águas e Saneamento. RGSA –Revista de Gestão Social e Ambiental, 16 (2). pp. 1-16. ISSN 1981-982X
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Abstract
Objective: The general objective of this article is to study the implementation of free geotechnologies, based on free software, in basic sanitation management. Theoretical benchmark: The research brings perspectives aiming to demonstrate that the implementation of geotechnologies, based on free and free software, in the management of basic sanitation can reduce the costs of implementing information technology, as well as assist the process of combating water losses and waste. Method: This study consisted of exploratory research with application in a case study at the Bahia Water and Sanitation Company. To assess the hypotheses raised by the survey, data from the company's information systems were used, as well as the answers from the online questionnaire applied to professionals in the area of geotechnologies. Results and conclusion: The results pointed out that the free geotechnologies, based on free and free software, implemented in the basic sanitation company allowed a better management of basic sanitation, being important for the specific process of combating water losses. Research Implications: The research contributes with the literature review and practical application of free and free geotechnologies applied in the management of basic sanitation, which allow the economicity and scalability of technological projects of this nature. Originality/value: The results obtained in the present study are unprecedented, innovative and relevant for the scientific community, in the context of the use of free and free geotechnologies, in the management of basic sanitation and its process of combating water losses.
| Document Type: | Article |
|---|---|
| Keywords: | Geotechnologies, Free Software, Sanitation, Environment |
| Subject classification: | Subjects > Engineering |
| Divisions: | Ibero-american International University > Research > Articles and Books |
| Deposited: | 02 Mar 2023 23:30 |
| Last Modified: | 02 Mar 2023 23:30 |
| URI: | https://repositorio.unib.org/id/eprint/6120 |
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A novel approach for disease and pests detection in potato production system based on deep learning
Vulnerability of potato crops to diseases and pest infestation can affect its quality and lead to significant yield losses. Timely detection of such diseases can help take effective decisions. For this purpose, a deep learning-based object detection framework is designed in this study to identify and classify major potato diseases and pests under real-world field conditions. A total of 2,688 field images were collected from two research farms in Punjab, Pakistan, across multiple growth stages in various seasonal conditions. Excluding 285 symptoms-free images from the earliest collection led to 2,403 images which were annotated into four biotic-stress classes: blight disease (n = 630), leaf spot disease (n = 370), leafroll virus (viral symptom complex; n = 888), and Colorado potato beetle (larvae/adults; n = 515), indicating class imbalance. Several state-of-the-art models were used including YOLOv8 variants (n/s/m), YOLOv7, YOLOv5, and Faster R-CNN, and the results are discussed in relation to recent potato disease classification studies involving cropped leaf images. Stratified splitting (70% training, 20% validation, 10% testing) was applied to preserve class distribution across all subsets. YOLOv8-medium achieve the best performance with mean average precision (mAP)@0.5 of 98% on the held-out test images. Results for stable 5-fold cross-validation show a mean mAP@0.5 of 97.8%, which offers a balance between accuracy and inference time. Model robustness was evaluated using 5-fold cross-validation and repeated training with different random seeds, showing a low variance of ±0.4% mAP. Results demonstrate promising outcomes under the real-world field conditions, while, broader cross-region and cross-season validation is intended for the future.
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Histopathological evaluation is necessary for the diagnosis and grading of prostate cancer, which is still one of the most common cancers in men globally. Traditional evaluation is time-consuming, prone to inter-observer variability, and challenging to scale. The clinical usefulness of current AI systems is limited by the need for comprehensive pixel-level annotations. The objective of this research is to develop and evaluate a large-scale benchmarking study on a weakly supervised deep learning framework that minimizes the need for annotation and ensures interpretability for automated prostate cancer diagnosis and International Society of Urological Pathology (ISUP) grading using whole slide images (WSIs). This study rigorously tested six cutting-edge multiple instance learning (MIL) architectures (CLAM-MB, CLAM-SB, ILRA-MIL, AC-MIL, AMD-MIL, WiKG-MIL), three feature encoders (ResNet50, CTransPath, UNI2), and four patch extraction techniques (varying sizes and overlap) using the PANDA dataset (10,616 WSIs), yielding 72 experimental configurations. The methodology used distributed cloud computing to process over 31 million tissue patches, implementing advanced attention mechanisms to ensure clinical interpretability through Grad-CAM visualizations. The optimum configuration (UNI2 encoder with ILRA-MIL, 256 256 patches, 50% overlap) achieved 78.75% accuracy and 90.12% quadratic weighted kappa (QWK), outperforming traditional methods and approaching expert pathologist-level diagnostic capability. Overlapping smaller patches offered the best balance of spatial resolution and contextual information, while domain-specific foundation models performed noticeably better than generic encoders. This work is the first large-scale, comprehensive comparison of weekly supervised MIL methods for prostate cancer diagnosis and grading. The proposed approach has excellent clinical diagnostic performance, scalability, practical feasibility through cloud computing, and interpretability using visualization tools.
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Epidemiological studies consistently link higher fish intake with slower rates of cognitive decline and lower dementia incidence. The aim of the present study was to systematically review existing observational studies investigating the association between fish consumption and cognitive function in older adults. A total of 25 studies (8 cross-sectional and 17 prospective including mainly healthy older adults, age range of participants ranging from 18 to 30 years at baseline in prospective studies to 65 to 91 years, representing the upper limit of the age spectrum) were reviewed. Cognitive functions currently investigated in most published studies included various domains, such as global cognition, memory (episodic, working), executive function (planning, inhibition, flexibility), attention and processing speed. Existing studies greatly vary in terms of design (cross-sectional and prospective), geographical area, number of participants involved, and tools used to assess the outcomes of interest. The main findings across studies are not univocal, with some studies reporting stronger evidence of association between fish consumption and various cognitive domains, while others addressed rather null findings. The most consistently responsive domains were processing speed, executive functioning, semantic memory, and global cognitive ability among individuals consuming fish at least weekly, which are highly relevant to both neurodegenerative and vascular forms of cognitive impairment. Positive associations were also observed for verbal memory and general memory, though these were less uniform and often attenuated after multivariable adjustment. In contrast, associations with reaction time, verbal-numerical reasoning, and broad composite scores were inconsistent, and several fully adjusted models showed null results. In conclusion, the evidence suggests that regular fish intake (typically ≥1–2 servings per week) is linked to preserved cognitive performance, although some inconsistent findings require further investigations.
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Attention-based multi-feature fusion neuromarker for EEG-driven stress classification in learners
With the growing academic pressure and competitive educational environment, students often face mental stress, which can affect their academic performance and mental health. Its accurate and timely detection and prevention is important. Traditionally, mental stress has been reported by self-assessment, which is highly subjective and can be erroneous. With advances in neuroscience, electroencephalogram (EEG) signals have been used to study brain states more objectively. EEG-based features, including time-domain, frequency-domain, and various types of connectivity features, have been used to effectively classify stress signals. However, these individual features are only able to present one aspect of the brain under stress. Several studies have combined a distinct set of features extracted from EEG signals, including time and frequency domain features, with other peripheral signals. Stress is a complex mechanism which leads to alternation in brain dynamics, its connectivity patterns and information flow. This study proposed a feature-fusion model that can effectively combine spatial features, i.e. Microstates (MS), connectivity features like Transfer Entropy (TE) and Granger Causality (GC), which provided a new neuromarker for stress classification. These features are combined with attention fusion, which enhances the discriminant features and mitigates the individual limitations within each modality. We also extracted microstates for stress-based signals. It provided a new set of microstate topomaps to study brain networks when under stress, which was not explored previously. The proposed Attention-fusion based multi-feature set is classified using Support Vector Machine, Linear Discriminant Analysis (LDA) and Multilayer Perceptron (MLP) and gave a reliable accuracy of 95.47%, 98.91%, and 83.49%, respectively. To validate the proposed method, the classification results were compared with individual and binary fusion of MS, TE and GC features, which further confirmed the robustness of the framework. This proposed feature fusion provides a more robust stress classification neuromarker, which can effectively cover the brain dynamics for accurate reporting of the underlying mental state.
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