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1. Investigating the performance of Retrieval-Augmented Generation and fine-tuning for the development of AI-driven knowledge-based systems

Author

Lakatos, Robert, Pollner, Peter, Hajdu, Andras, and Joo, Tamas

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

The development of generative large language models (G-LLM) opened up new opportunities for the development of new types of knowledge-based systems similar to ChatGPT, Bing, or Gemini. Fine-tuning (FN) and Retrieval-Augmented Generation (RAG) are the techniques that can be used to implement domain adaptation for the development of G-LLM-based knowledge systems. In our study, using ROUGE, BLEU, METEOR scores, and cosine similarity, we compare and examine the performance of RAG and FN for the GPT-J-6B, OPT-6.7B, LlaMA, LlaMA-2 language models. Based on measurements shown on different datasets, we demonstrate that RAG-based constructions are more efficient than models produced with FN. We point out that connecting RAG and FN is not trivial, because connecting FN models with RAG can cause a decrease in performance. Furthermore, we outline a simple RAG-based architecture which, on average, outperforms the FN models by 16% in terms of the ROGUE score, 15% in the case of the BLEU score, and 53% based on the cosine similarity. This shows the significant advantage of RAG over FN in terms of hallucination, which is not offset by the fact that the average 8% better METEOR score of FN models indicates greater creativity compared to RAG.

Published
2024

2. A multimodal deep learning architecture for smoking detection with a small data approach

Author

Lakatos, Robert, Pollner, Peter, Hajdu, Andras, and Joo, Tamas

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Introduction: Covert tobacco advertisements often raise regulatory measures. This paper presents that artificial intelligence, particularly deep learning, has great potential for detecting hidden advertising and allows unbiased, reproducible, and fair quantification of tobacco-related media content. Methods: We propose an integrated text and image processing model based on deep learning, generative methods, and human reinforcement, which can detect smoking cases in both textual and visual formats, even with little available training data. Results: Our model can achieve 74\% accuracy for images and 98\% for text. Furthermore, our system integrates the possibility of expert intervention in the form of human reinforcement. Conclusions: Using the pre-trained multimodal, image, and text processing models available through deep learning makes it possible to detect smoking in different media even with few training data.

Published
2023
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3. A Cloud-based Machine Learning Pipeline for the Efficient Extraction of Insights from Customer Reviews

Author

Lakatos, Robert, Bogacsovics, Gergo, Harangi, Balazs, Lakatos, Istvan, Tiba, Attila, Toth, Janos, Szabo, Marianna, and Hajdu, Andras

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

The efficiency of natural language processing has improved dramatically with the advent of machine learning models, particularly neural network-based solutions. However, some tasks are still challenging, especially when considering specific domains. In this paper, we present a cloud-based system that can extract insights from customer reviews using machine learning methods integrated into a pipeline. For topic modeling, our composite model uses transformer-based neural networks designed for natural language processing, vector embedding-based keyword extraction, and clustering. The elements of our model have been integrated and further developed to meet better the requirements of efficient information extraction, topic modeling of the extracted information, and user needs. Furthermore, our system can achieve better results than this task's existing topic modeling and keyword extraction solutions. Our approach is validated and compared with other state-of-the-art methods using publicly available datasets for benchmarking.

Published
2023
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4. A stochastic approach to handle knapsack problems in the creation of ensembles

Author

Hajdu, Andras, Terdik, Gyorgy, Tiba, Attila, and Toman, Henrietta

Subjects
Computer Science - Machine Learning, Mathematics - Optimization and Control, Statistics - Machine Learning
Abstract

Ensemble-based methods are highly popular approaches that increase the accuracy of a decision by aggregating the opinions of individual voters. The common point is to maximize accuracy; however, a natural limitation occurs if incremental costs are also assigned to the individual voters. Consequently, we investigate creating ensembles under an additional constraint on the total cost of the members. This task can be formulated as a knapsack problem, where the energy is the ensemble accuracy formed by some aggregation rules. However, the generally applied aggregation rules lead to a nonseparable energy function, which takes the common solution tools -- such as dynamic programming -- out of action. We introduce a novel stochastic approach that considers the energy as the joint probability function of the member accuracies. This type of knowledge can be efficiently incorporated in a stochastic search process as a stopping rule, since we have the information on the expected accuracy or, alternatively, the probability of finding more accurate ensembles. Experimental analyses of the created ensembles of pattern classifiers and object detectors confirm the efficiency of our approach. Moreover, we propose a novel stochastic search strategy that better fits the energy, compared with general approaches such as simulated annealing.

Published
2020

5. Efficient Learning of Model Weights via Changing Features During Training

Author

Beregi-Kovács, Marcell, Baran, Ágnes, and Hajdu, András

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Statistics - Machine Learning
Abstract

In this paper, we propose a machine learning model, which dynamically changes the features during training. Our main motivation is to update the model in a small content during the training process with replacing less descriptive features to new ones from a large pool. The main benefit is coming from the fact that opposite to the common practice we do not start training a new model from the scratch, but can keep the already learned weights. This procedure allows the scan of a large feature pool which together with keeping the complexity of the model leads to an increase of the model accuracy within the same training time. The efficiency of our approach is demonstrated in several classic machine learning scenarios including linear regression and neural network-based training. As a specific analysis towards signal processing, we have successfully tested our approach on the database MNIST for digit classification considering single pixel and pixel-pairs intensities as possible features.

Published
2020

6. Optimizing Majority Voting Based Systems Under a Resource Constraint for Multiclass Problems

Author

Tiba, Attila, Hajdu, Andras, Terdik, Gyorgy, and Toman, Henrietta

Subjects
Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Ensemble-based approaches are very effective in various fields in raising the accuracy of its individual members, when some voting rule is applied for aggregating the individual decisions. In this paper, we investigate how to find and characterize the ensembles having the highest accuracy if the total cost of the ensemble members is bounded. This question leads to Knapsack problem with non-linear and non-separable objective function in binary and multiclass classification if the majority voting is chosen for the aggregation. As the conventional solving methods cannot be applied for this task, a novel stochastic approach was introduced in the binary case where the energy function is discussed as the joint probability function of the member accuracy. We show some theoretical results with respect to the expected ensemble accuracy and its variance in the multiclass classification problem which can help us to solve the Knapsack problem.

Published
2019

7. High Performance Computing in Medical Image Analysis HuSSaR

Author

Kovacs, Laszlo, Kovacs, Roland, and Hajdu, Andras

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

In our former works we have made serious efforts to improve the performance of medical image analysis methods with using ensemble-based systems. In this paper, we present a novel hardware-based solution for the efficient adoption of our complex, fusion-based approaches for real-time applications. Even though most of the image processing problems and the increasing amount of data have high-performance computing(HPC) demand, there is still a lack of corresponding dedicated HPC solutions for several medical tasks. To widen this bottleneck we have developed a Hybrid Small Size high performance computing Resource (abbreviated by HuSSaR) which efficiently alloys CPU and GPU technologies, mobile and has an own cooling system to support easy mobility and wide applicability. Besides a proper technical description, we include several practical examples from the clinical data processing domain in this work. For more details see also: https://arato.inf.unideb.hu/kovacs.laszlo/research_hybridmicrohpc.html, Comment: 4 pages 6 images

Published
2018

9. Image-to-Image Translation-Based Deep Learning Application for Object Identification in Industrial Robot Systems.

Author

Erdei, Timotei István, Kapusi, Tibor Péter, Hajdu, András, and Husi, Géza

Subjects
MACHINE learning, INDUSTRIALISM, DEEP learning, INDUSTRIAL robots, SMART materials, MATERIALS handling, IMAGE analysis
Abstract

Industry 4.0 has become one of the most dominant research areas in industrial science today. Many industrial machinery units do not have modern standards that allow for the use of image analysis techniques in their commissioning. Intelligent material handling, sorting, and object recognition are not possible with the machinery we have. We therefore propose a novel deep learning approach for existing robotic devices that can be applied to future robots without modification. In the implementation, 3D CAD models of the PCB relay modules to be recognized are also designed for the implantation machine. Alternatively, we developed and manufactured parts for the assembly of aluminum profiles using FDM 3D printing technology, specifically for sorting purposes. We also apply deep learning algorithms based on the 3D CAD models to generate a dataset of objects for categorization using CGI rendering. We generate two datasets and apply image-to-image translation techniques to train deep learning algorithms. The synthesis achieved sufficient information content and quality in the synthesized images to train deep learning algorithms efficiently with them. As a result, we propose a dataset translation method that is suitable for situations in which regenerating the original dataset can be challenging. The results obtained are analyzed and evaluated for the dataset. [ABSTRACT FROM AUTHOR]

Published
2024
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12. A Two-phase Decision Support Framework for the Automatic Screening of Digital Fundus Images

Author

Antal, Balint, Hajdu, Andras, Maros-Szabo, Zsuzsanna, Torok, Zsolt, Csutak, Adrienne, and Peto, Tunde

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper we give a brief review on the present status of automated detection systems describe for the screening of diabetic retinopathy. We further detail an enhanced detection procedure that consists of two steps. First, a pre-screening algorithm is considered to classify the input digital fundus images based on the severity of abnormalities. If an image is found to be seriously abnormal, it will not be analysed further with robust lesion detector algorithms. As a further improvement, we introduce a novel feature extraction approach based on clinical observations. The second step of the proposed method detects regions of interest with possible lesions on the images that previously passed the pre-screening step. These regions will serve as input to the specific lesion detectors for detailed analysis. This procedure can increase the computational performance of a screening system. Experimental results show that both two steps of the proposed approach are capable to efficiently exclude a large amount of data from further processing, thus, to decrease the computational burden of the automatic screening system.

Published
2014
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13. An ensemble-based system for automatic screening of diabetic retinopathy

Author

Antal, Balint and Hajdu, Andras

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Learning, Statistics - Applications, Statistics - Machine Learning
Abstract

In this paper, an ensemble-based method for the screening of diabetic retinopathy (DR) is proposed. This approach is based on features extracted from the output of several retinal image processing algorithms, such as image-level (quality assessment, pre-screening, AM/FM), lesion-specific (microaneurysms, exudates) and anatomical (macula, optic disc) components. The actual decision about the presence of the disease is then made by an ensemble of machine learning classifiers. We have tested our approach on the publicly available Messidor database, where 90% sensitivity, 91% specificity and 90% accuracy and 0.989 AUC are achieved in a disease/no-disease setting. These results are highly competitive in this field and suggest that retinal image processing is a valid approach for automatic DR screening.

Published
2014
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14. An Ensemble-based System for Microaneurysm Detection and Diabetic Retinopathy Grading

Author

Antal, Balint and Hajdu, Andras

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Statistics - Applications, Statistics - Machine Learning
Abstract

Reliable microaneurysm detection in digital fundus images is still an open issue in medical image processing. We propose an ensemble-based framework to improve microaneurysm detection. Unlike the well-known approach of considering the output of multiple classifiers, we propose a combination of internal components of microaneurysm detectors, namely preprocessing methods and candidate extractors. We have evaluated our approach for microaneurysm detection in an online competition, where this algorithm is currently ranked as first and also on two other databases. Since microaneurysm detection is decisive in diabetic retinopathy grading, we also tested the proposed method for this task on the publicly available Messidor database, where a promising AUC 0.90 with 0.01 uncertainty is achieved in a 'DR/non-DR'-type classification based on the presence or absence of the microaneurysms.

Published
2014
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15. An Unsupervised Ensemble-based Markov Random Field Approach to Microscope Cell Image Segmentation

Author

Antal, Balint, Remenyik, Bence, and Hajdu, Andras

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Quantitative Biology - Quantitative Methods
Abstract

In this paper, we propose an approach to the unsupervised segmentation of images using Markov Random Field. The proposed approach is based on the idea of Bit Plane Slicing. We use the planes as initial labellings for an ensemble of segmentations. With pixelwise voting, a robust segmentation approach can be achieved, which we demonstrate on microscope cell images. We tested our approach on a publicly available database, where it proven to be competitive with other methods and manual segmentation.

Published
2014
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16. Approximations of the Euclidean distance by chamfer distances

Author

Hajdu, Andras, Hajdu, Lajos, and Tijdeman, Robert

Subjects
Computer Science - Information Theory, 41A50, 68U10
Abstract

Chamfer distances play an important role in the theory of distance transforms. Though the determination of the exact Euclidean distance transform is also a well investigated area, the classical chamfering method based upon "small" neighborhoods still outperforms it e.g. in terms of computation time. In this paper we determine the best possible maximum relative error of chamfer distances under various boundary conditions. In each case some best approximating sequences are explicitly given. Further, because of possible practical interest, we give all best approximating sequences in case of small (i.e. 5 by 5 and 7 by 7) neighborhoods., Comment: Preprint submitted to Acta Cybernetica, 20 pages

Published
2012

17. A Machine Learning-Based Pipeline for the Extraction of Insights from Customer Reviews.

Author

Lakatos, Róbert, Bogacsovics, Gergő, Harangi, Balázs, Lakatos, István, Tiba, Attila, Tóth, János, Szabó, Marianna, and Hajdu, András

Subjects
CONSUMERS' reviews, DATA mining, SENTIMENT analysis, MACHINE learning, TRANSFORMER models
Abstract

The efficiency of natural language processing has improved dramatically with the advent of machine learning models, particularly neural network-based solutions. However, some tasks are still challenging, especially when considering specific domains. This paper presents a model that can extract insights from customer reviews using machine learning methods integrated into a pipeline. For topic modeling, our composite model uses transformer-based neural networks designed for natural language processing, vector-embedding-based keyword extraction, and clustering. The elements of our model have been integrated and tailored to better meet the requirements of efficient information extraction and topic modeling of the extracted information for opinion mining. Our approach was validated and compared with other state-of-the-art methods using publicly available benchmark datasets. The results show that our system performs better than existing topic modeling and keyword extraction methods in this task. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Using Noisy Evaluation to Accelerate Parameter Optimization of Medical Image Segmentation Ensembles.

Author

Tóth, János, Tomán, Henrietta, Hajdu, Gabriella, and Hajdu, András

Subjects
SIMULATED annealing, DIAGNOSTIC imaging, COMPUTED tomography, IMAGE segmentation, IMAGE processing, EVALUATION methodology, SAMPLE size (Statistics)
Abstract

An important concern with regard to the ensembles of algorithms is that using the individually optimal parameter settings of the members does not necessarily maximize the performance of the ensemble itself. In this paper, we propose a novel evaluation method for simulated annealing that combines dataset sampling and image downscaling to accelerate the parameter optimization of medical image segmentation ensembles. The scaling levels and sample sizes required to maintain the convergence of the search are theoretically determined by adapting previous results for simulated annealing with imprecise energy measurements. To demonstrate the efficiency of the proposed method, we optimize the parameters of an ensemble for lung segmentation in CT scans. Our experimental results show that the proposed method can maintain the solution quality of the base method with significantly lower runtime. In our problem, optimization with simulated annealing yielded an F 1 score of 0.9397 and an associated M C C of 0.7757. Our proposed method maintained the solution quality with an F 1 score of 0.9395 and M C C of 0.7755 while exhibiting a 42.01% reduction in runtime. It was also shown that the proposed method is more efficient than simulated annealing with only sampling-based evaluation when the dataset size is below a problem-specific threshold. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Comprehensive Analysis of a Cuproptosis-Related Gene Index in Pancreatic Adenocarcinoma with Significant Implications on Prognosis and Immunotherapy as well as Chemotherapy Efficacy

Author

Xufeng Huang, Shujing Zhou, Ying Liu, János Tóth, and Hajdu András

Abstract

Background A novel type of cell death induced by intracellular copper accumulation, principally different from other known ones such as autophagy, ferroptosis, and pyroptosis, was discovered and referred to as “Cuproptosis” recently. As the underlying mechanism was newly identified, its potential connection to pancreatic adenocarcinoma (PAAD) is still an open issue. However, interestingly, one of the 10 Cuproptosis-related genes, CDKN2A, was previously reported as a driver mutation gene in pancreatic adenocarcinoma. Therefore, it raised our interest to develop a Cuproptosis-related gene index (CRGI) for better overall survival (OS) estimation, explore the corresponding relationship with tumor immunology, and discuss the chemotherapy efficacy of commonly used anti-cancerous drugs relevant to CRGI. Methods Gene expression profiles and matched clinical data were curated from publicly accessible sources from which the CRGI was developed. Immunogenic properties were investigated according to the immune checkpoints, potential response to the immunotherapy, cancer immunity cycle, etc. The sensitivity to chemotherapy agents was evaluated through the IC50 curve. The consensus clustering approach was implemented to robustly identify the CRGI-based molecular subtypes and explore the immunotherapy and chemotherapy efficacies. Results A novel gene signature derived from Cuproptosis was established. Compared with those signatures originating from other cell death mechanisms, it exerted a more robust yet more accurate predictive performance. Besides, the result of correlation analysis unraveled the distinct differences in tumor immunology between the high- and low-risk groups. Through in-depth analysis of the IC50 curve of each drug, the predictive chemotherapy efficacy of 32 commonly used anti-cancerous drugs was also found various in high- and low-risk groups. The analysis of molecular subtypes has further confirmed these ideas. Conclusion In the present study, we highlighted the outstanding achievement of CRGI in PAAD prognostic prediction and its association with tumor immunology. These findings may benefit future immunotherapy- and chemotherapy-based interventions.

Published
2022

27. Isocyanide Substitution in Acridine Orange Shifts DNA Damage-Mediated Phototoxicity to Permeabilization of the Lysosomal Membrane in Cancer Cells

Author

Bankó, Csaba, primary, Nagy, Zsolt László, additional, Nagy, Miklós, additional, Szemán-Nagy, Gábor György, additional, Rebenku, István, additional, Imre, László, additional, Tiba, Attila, additional, Hajdu, András, additional, Szöllősi, János, additional, Kéki, Sándor, additional, and Bacso, Zsolt, additional

Published
2021
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28. Cuproptosis-related gene index: A predictor for pancreatic cancer prognosis, immunotherapy efficacy, and chemosensitivity.

Author

Xufeng Huang, Shujing Zhou, Tóth, János, and Hajdu, András

Subjects
PANCREATIC cancer, IMMUNOTHERAPY, CANCER prognosis, POLYMERASE chain reaction, ANTINEOPLASTIC agents, PANCREATIC tumors
Abstract

Aim: The term "Cuproptosis" was coined to describe a novel type of cell death triggered by intracellular copper buildup that is fundamentally distinct from other recognized types such as autophagy, ferroptosis, and pyroptosis in recent days. As the underlying mechanism was newly identified, its potential connection to pancreatic adenocarcinoma (PAAD) is still an open issue. Methods: A set of machine learning algorithms was used to develop a Cuproptosis-related gene index (CRGI). Its immunological characteristics were studied by exploring its implications on the expression of the immunological checkpoints, prospective immunotherapy responses, etc. Moreover, the sensitivity to chemotherapeutic drugs was predicted. Unsupervised consensus clustering was performed to more precisely identify different CRGI-based molecular subtypes and investigate the immunotherapy and chemotherapy efficacy. The expression of DLAT, LIPT1 and LIAS were also investigated, through real-time quantitative polymerase chain reaction (RTqPCR), western blot, and immunofluorescence staining (IFS). Results: A novel CRGI was identified and validated. Additionally, correlation analysis revealed major changes in tumor immunology across the high- and low-CRGI groups. Through an in-depth study of each medication, it was determined that the predictive chemotherapeutic efficacy of 32 regularly used anticancer drugs differed between high- and low-CRGI groups. The results of the molecular subtyping provided more support for such theories. Expressional assays performed at transcriptomic and proteomic levels suggested that the aforementioned Cuproptosis-related genes might serve as reliable diagnostic biomarkers in PAAD. Significance: This is, to the best of our knowledge, the first study to examine prognostic prediction in PAAD from the standpoint of Cuproptosis. These findings may benefit future immunotherapy and chemotherapeutic therapies. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Predicting the epidemic curve of the coronavirus (SARS-CoV-2) disease (COVID-19) using artificial intelligence: An application on the first and second waves

Author

Kolozsvári, László Róbert, primary, Bérczes, Tamás, additional, Hajdu, András, additional, Gesztelyi, Rudolf, additional, Tiba, Attila, additional, Varga, Imre, additional, Al-Tammemi, Ala'a B., additional, Szőllősi, Gergő József, additional, Harsányi, Szilvia, additional, Garbóczy, Szabolcs, additional, and Zsuga, Judit, additional

Published
2021
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31. Replacing the SIR epidemic model with a neural network and training it further to increase prediction accuracy.

Author

Bogacsovics, Gergő, Hajdu, András, Lakatos, Róbert, Beregi-Kovács, Marcell, Tiba, Attila, and Tomán, Henrietta

Subjects
*ARTIFICIAL neural networks, *INFLUENZA, *MATHEMATICAL functions, *EPIDEMICS, *R-curves, *ARTIFICIAL intelligence, *DIFFERENTIAL equations
Abstract

Researchers often use theoretical models which provide a relatively simple, yet concise and effective way of modelling various phenomena. However, it is a well-known fact that the more complex the model, the more complex the mathematical description is. For this reason, theoretical models generally avoid large complexity and aim for the simplest possible definition, which although makes models mathematically more manageable, in practice it also often leads to sub-optimal performance. Furthermore, the data collected during the observations usually contain confounding factors, for which a simple theoretical model can not be prepared. Overall, mathematical models are usually too rigid and sophisticated, and therefore cannot really deal with sudden changes in the environment. The application of artificial intelligence, however, provides a good opportunity to develop complex models that can combine the basic capabilities of the theoretical models with the ability to learn more complex relationships. It has been shown [16] that with neural networks, we can build such models that can approximate mathematical functions. Trained artificial neural networks are thus able to behave like theoretical models developed for different fields, while still retaining their overall flexibility, which guarantees an overall better performance in a complex real-world environment. The aim of our study is to show our notion that we can create an architecture using neural networks, which is able to approximate a given theoretical model, and then further improve it with the help of real data to suit the real world and its various aspects better. In order to validate the functionality of the architecture developed by us, we have selected a simple theoretical model, namely the Kermack-McKendrick one [4] as the base of our research. This is an SIR [2] model, which is a relatively simple compartmental epidemic model, based on differential equations that can be used well for infections that spread very similarly to influenza or COVID. However, on one hand, the SIR model relies too heavily on its parameters, with slight changes in them leading to drastic overall changes of the S, I and R curves, and on the other hand, the simplicity of the SIR model distorts its accuracy in many cases. In our paper, by using the SIR model, we will show that the architecture described above can be a valid approach to modeling the spread of a given disease (such as influenza or COVID-19). To this end, we detail the accuracy of our models with different settings and configurations and show that it performs better than both a simple mathematical model and a plain neural network with randomly initialized weights. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Data analysis applied to diabetic retinopathy screening: performance evaluation.

Author

Antal, Bálint, Mayo Kayann Guerra Silva Tavares, Kovács, László, Harangi, Balázs, Lázár, István, Nagy, Brigitta, Kovács, György, Szakács, József, Tóth, János, Peto, Tünde, Csutak, Adrienne, and Hajdu, András

Subjects
DATA analysis, DIABETIC retinopathy, DIAGNOSIS of diabetes, COMPUTER-assisted image analysis (Medicine), MACHINE learning
Abstract

The number of people with diabetes mellitus (DM) has risen from 108 million in 1980 to 422 million in 2014. Diabetic retinopathy (DR) is one of the most common causes of blindness in the developed world. A pooled analysis of data from between 1980-2008 estimates that 93 million people around the world have DR. In this paper, we present a computer-aided automated image analysis system capable of handling images generated in real-life screening program. In this study, we analyzed 2932 color fundus images taken from 733 patients with DM, of which 454 (15%) images showed signs of DR validated by human graders. The system analyzed all images by detectinganatomical components such as the optic disc, macula and vascular system of the retina, then microaneurysms (MAs) and exudates as lesions. Once the presence/absence of the structures was determined, the combination of the results was subsequently used to provide a “DR/No DR" decision using a machine learning approach. The fundus images were graded by a trained and certified expert grader as well and the final diagnosis was compared to the outcome of the computer-based approach. The performances of the MA and exudate detectors used by the system were also evaluated. The area under the ROC curve (AUC) was 0.90 with the best performing setting of the algorithm. The evaluation of the proposed approach shows that it performs well against human graders and therefore might have the potential to be used in a clinical setting. There is a need for further evaluation on large scale, real-life clinical setting to explore its clinical utility. [ABSTRACT FROM AUTHOR]

Published
2018
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36. The 'MEDIP-Platform Independent Software System for Medical Image Processing' Project

Author

Hajdu, András, Kormos, János, Lencse, Zsolt, Trón, Lajos, and Emri, Miklós

Subjects
multimodal image analysis, surface rendering, volume rendering, virtual surgery, medical image processing, visualization
Abstract

In this paper we present the structure and the achieved results of the R&D project IKTA-4, 6/2001 MEDIP - Platform independent software system for medical image processing supported by the Hungarian Ministry of Education. The aim of the project was to develop a software background for our basic and applied research in the field of medical imaging that can be used in clinical routine, as well. Realization was based on the experience of information technology and medical imaging research university teams and a company specialized on software and hardware developing for nuclear medicine. The aims also reflect some former research and development activities of the participants. Thus some of them are well experienced in registration, segmentation and image fusion techniques. These experiences were also considered in the determination of the main purposes. The capabilities of the provided software library were demonstrated through test applications from the fields of orthopedics, oncology and nuclear medicine.

Published
2006
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38. An Ensemble-Based System for Microaneurysm Detection and Diabetic Retinopathy Grading.

Author

Antal, Bálint and Hajdu, András

Subjects
*DIABETIC retinopathy, *DIABETES complications, *EYE diseases, *ALGORITHMS, *IMAGE processing, *EXTRAPOLATION, *DIAGNOSIS, *DISEASE risk factors
Abstract

Reliable microaneurysm detection in digital fundus images is still an open issue in medical image processing. We propose an ensemble-based framework to improve microaneurysm detection. Unlike the well-known approach of considering the output of multiple classifiers, we propose a combination of internal components of microaneurysm detectors, namely preprocessing methods and candidate extractors. We have evaluated our approach for microaneurysm detection in an online competition, where this algorithm is currently ranked as first, and also on two other databases. Since microaneurysm detection is decisive in diabetic retinopathy (DR) grading, we also tested the proposed method for this task on the publicly available Messidor database, where a promising AUC 0.90 \pm 0.01 is achieved in a “DR/non-DR”-type classification based on the presence or absence of the microaneurysms. [ABSTRACT FROM PUBLISHER]

Published
2012
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39. Piecewise Linear Digital Curve Representation and Compression Using Graph Theory and a Line Segment Alphabet.

Author

Hajdu, András and Pitas, Ioannis

Subjects
*DATA compression, *GRAPH theory, *TOPOLOGY, *MATHEMATICAL decomposition, *ALGORITHMS, *APPROXIMATION theory
Abstract

The use of an alphabet of line segments to compose a curve is a possible approach for curve data compression. Many approaches are developed with the drawback that they can process simple curves only. Curves having more sophisticated topology with self-intersections can be handled by methods considering recursive decomposition of the canvas containing the curve. In this paper, we propose a graph theory- based algorithm for tracing the curve directly to eliminate the decomposition needs. This approach obviously improves the compression performance, as longer line segments can be used. We tune our method further by selecting optimal turns at junctions during tracing the curve. We assign a polygon approximation to the curve which consists of letters coming from an alphabet of line segments. We also discuss how other application fields can take advantage of the provided curve description scheme. [ABSTRACT FROM AUTHOR]

Published
2008
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40. Optimal Approach for Fast Object-Template Matching.

Author

Hajdu, András and Pitas, Loannis

Subjects
*IMAGE processing, *IMAGING systems, *INFORMATION processing, *VORONOI polygons, *ALGORITHMS, *PIXELS
Abstract

This paper proposes a novel algorithm for an optimal reduction of object description for object matching purposes. Our aim is to decrease the computation needs by considering simplified objects, thus reducing the number of pixels involved in the matching process. We develop the appropriate theoretical background based on centroidal Voronoi tessellations. Its use within the chamfer matching framework is also discussed. We present experimental results regarding the performance of this approach for 2-D contour and region-like object matching. As a special case, we investigate how the snake based representation of target objects can be employed in chamfer matching. The experimental results concern the use of object part matching for recognizing humans and show how the proposed simplification leads to valid replacements of the original templates. [ABSTRACT FROM AUTHOR]

Published
2007
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41. Generalizing the majority voting scheme to spatially constrained voting.

Author

Hajdu A, Hajdu L, Jónás Á, Kovács L, and Tomán H

Subjects
Algorithms, Decision Making, Humans, Image Enhancement methods, Reproducibility of Results, Sensitivity and Specificity, Artificial Intelligence, Diabetic Retinopathy pathology, Fluorescein Angiography methods, Image Interpretation, Computer-Assisted methods, Optic Disk pathology, Pattern Recognition, Automated methods, Retinoscopy methods
Abstract

Generating ensembles from multiple individual classifiers is a popular approach to raise the accuracy of the decision. As a rule for decision making, majority voting is a usually applied model. In this paper, we generalize classical majority voting by incorporating probability terms pn,k to constrain the basic framework. These terms control whether a correct or false decision is made if k correct votes are present among the total number of n. This generalization is motivated by object detection problems, where the members of the ensemble are image processing algorithms giving their votes as pixels in the image domain. In this scenario, the terms pn,k can be specialized by a geometric constraint. Namely, the votes should fall inside a region matching the size and shape of the object to vote together. We give several theoretical results in this new model for both dependent and independent classifiers, whose individual accuracies may also differ. As a real world example, we present our ensemble-based system developed for the detection of the optic disc in retinal images. For this problem, experimental results are shown to demonstrate the characterization capability of this system. We also investigate how the generalized model can help us to improve an ensemble with extending it by adding a new algorithm.

Published
2013
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