Deep Multi-task Convolutional Neural Networks for Efficient Classification of Face Attributes

Rohani, M.; Farsi, H.; Mohamadzadeh, S.

doi:10.5829/ije.2023.36.11b.14

IJE

2023

DOI: 10.5829/ije.2023.36.11b.14

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Deep Multi-task Convolutional Neural Networks for Efficient Classification of Face Attributes

M. Rohani,

H. Farsi,

S. Mohamadzadeh

Abstract: Facial feature recognition is an important subject in computer vision with numerous applications. The human face plays a significant role in social interaction and personology. Valuable information such as identity, age, gender, and emotions can be revealed via facial features. The purpose of this paper is to present a technique for detecting age, smile, and gender from facial images. A multi-task deep learning (MT-DL) framework was proposed that can simultaneously estimate three important features of the huma… Show more

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2024

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Cited by 3 publications

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“…Essentially, the CNN algorithm consists of two main stages in the classification process following the input of an image feature extraction and classification. CNN can decrease the count of trainable network parameters by leveraging a blend of characteristics sourced from multiple layers to enhance the overall accuracy (27). The feature extraction stage comprises convolutional layers and pooling, while the classification stage involves fully connected layers and the output layer (28).…”

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confidence: 99%

CNN-based Approach for Enhancing Brain Tumor Image Classification Accuracy

Muis,

Sunardi,

Yudhana

2024

IJE

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Brain tumors are one of the deadliest diseases in the world. This disease can attack anyone regardless of gender or certain age groups. The diagnosis of brain tumors is carried out by manually identifying images resulting from Computerized Tomography Scan or Magnetic Resonance Imaging, making it possible for diagnostic errors to occur. In addition, diagnosis can be made using biopsy techniques. This technique is very accurate but takes a long time, around 10 to 15 days and involves a lot of equipment and medical personnel. Based on this, machine learning technology is needed which can classify based on images produced from MRI. This research aims to increase the accuracy of previous research in the classification of brain tumors so that errors do not occur in the diagnosis of brain tumors. The method used in this research is Convolutional Neural Network using the AlexNet and Google Net architectures. The results of this research obtained an accuracy of 98% for the AlexNet architecture and 96% for GoogleNet. This result is higher when compared with previous research. This finding can reduce the computational burden during model training. The results of this research can help physicians diagnose brain tumors quickly and accurately.

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CNN-based Approach for Enhancing Brain Tumor Image Classification Accuracy

Muis,

Sunardi,

Yudhana

2024

IJE

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An Intelligent Depression Detection Model Based on Multimodal Fusion Technology

CHENG,

HUANG,

DING

2024

J. Mech. Med. Biol.

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Depression is a prevalent mental condition, and it is essential to diagnose and treat patients as soon as possible to maximize their chances of rehabilitation and recovery. An intelligent detection model based on multimodal fusion technology is proposed based on the findings of this study to address the difficulties associated with depression detection. Text data and electroencephalogram (EEG) data are used in the model as representatives of subjective and objective nature, respectively. These data are processed by the BERT–TextCNN model and the CNN–LSTM model, which are responsible for processing them. While the CNN–LSTM model is able to handle time-series data in an effective manner, the BERT–TextCNN model is able to adequately capture the semantic information that is included in text data. This enables the model to consider the various features that are associated with the various types of data. In this research, a weighted fusion technique is utilized to combine the information contained within the two modal datasets. This strategy involves assigning a weight to the outcomes of each modal data processing in accordance with the degree of contribution that each modal data will make to produce the ultimate depression detection results. In regard to the task of depression identification, the suggested model demonstrates great validity and robustness, as demonstrated by the results of the experimental validation that we carried out on a dataset that we manufactured ourselves. A viable and intelligent solution for the early identification of depression is provided by the proposed model. This solution will likely be widely utilized in clinical practice and will provide new ideas and approaches for the growth of the field of precision medicine.

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Joint classification and regression with deep multi task learning model using conventional based patch extraction for brain disease diagnosis

K.,

Periyathambi

2024

PeerJ Computer Science

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Background The best possible treatment planning and patient care depend on the precise diagnosis of brain diseases made with medical imaging information. Magnetic resonance imaging (MRI) is increasingly used in clinical score prediction and computer-aided brain disease (BD) diagnosis due to its outstanding correlation. Most modern collaborative learning methods require manually created feature representations for MR images. We present an effective iterative method and rigorously show its convergence, as the suggested goal is a non-smooth optimization problem that is challenging to tackle in general. In particular, we extract many image patches surrounding these landmarks by using data to recognize discriminative anatomical characteristics in MR images. Our experimental results, which demonstrated significant increases in key performance metrics with 500 data such as specificity of 94.18%, sensitivity of 93.19%, accuracy of 96.97%, F1-score of 94.18%, RMSE of 22.76%, and execution time of 4.875 ms demonstrated the efficiency of the proposed method, Deep Multi-Task Convolutional Neural Network (DMTCNN). Methods In this research present a DMTCNN for combined regression and classification. The proposed DMTCNN model aims to predict both the presence of brain diseases and quantitative disease-related measures like tumor volume or disease severity. Through cooperative learning of several tasks, the model might make greater use of shared information and improve overall performance. For pre-processing system uses an edge detector, which is canny edge detector. The proposed model learns many tasks concurrently, such as categorizing different brain diseases or anomalies, by extracting features from image patches using convolutional neural networks (CNNs). Using common representations across tasks, the multi-task learning (MTL) method enhances model generalization and diagnostic accuracy even in the absence of sufficient labeled data. Results One of our unique discoveries is that, using our datasets, we verified that our proposed algorithm, DMTCNN, could appropriately categorize dissimilar brain disorders. Particularly, the proposed DMTCNN model achieves better than state-of-the-art techniques in precisely identifying brain diseases.

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Deep Multi-task Convolutional Neural Networks for Efficient Classification of Face Attributes

Cited by 3 publications

References 35 publications

CNN-based Approach for Enhancing Brain Tumor Image Classification Accuracy

CNN-based Approach for Enhancing Brain Tumor Image Classification Accuracy

An Intelligent Depression Detection Model Based on Multimodal Fusion Technology

Joint classification and regression with deep multi task learning model using conventional based patch extraction for brain disease diagnosis

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