Sonali Samal scite author profile

Countless cybercrime instances have shown the need for detecting and blocking obscene material from social media sites. Deep learning methods (DLMs) outperformed in recognizing obscene content flooded on many online platforms. However, these contemporary DLMs primarily treat the recognition of obscene content as a simple task of binary classification, rather than focusing on the labelling of obscene areas. Hence, many of these methods could not pay attention to the fact that misclassification samples are so diverse. Therefore, this paper focuses on two aspects (i) developing a deep learning model that could classify and label the obscene portion, and (ii) generating a labelled obscene image dataset with a wide variety of obscene samples to minimize the risks of inaccurate recognition. We have proposed a method named S3Pooling based bottleneck attention module (BAM) embedded MobileNetV2‐YOLOv3 (SBMYv3) for automatic detection of obscene content using an attention mechanism and a suitable pooling strategy. The key contributions of our article are: (i) generation of a well‐labelled obscene image dataset with a variety of augmentation strategies using Pix‐2‐Pix GAN (ii) modifications to the backend architecture of YOLOv3 using MobileNetV2 and BAM to ensure focused and accurate feature extraction, and (iii) selection of an optimal pooling strategy, that is, S3Pooling strategy, while taking the design of the feature extractor into account. The proposed SBMYv3 model outperformed other state‐of‐the‐art models with 99.26% testing accuracy, 99.39% recall, 99.13% precision, and 99.13% IoU values respectively.

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Obscene image detection using transfer learning and feature fusion

Samal

Nayak²,

Jena

et al. 2023

Multimed Tools Appl

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Weighted Particle Swarm Optimization with T-Distribution in Machine Learning Applications

Samal

Sarangi

2020

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Inspired by the biological development of evolution, Particle Swarm Optimization (PSO) is recognized as a simple and popular practice used for the optimization process. It is a population-based algorithm that has been applied to a broad number of problems in real-life and the foundation of this method is laid by Eberhart and Kennedy in 1995. This paper gives a layout of the advantage of putting a further modification supported by T-distribution in a modified pso for the furtherance of getting a more satisfactory outcome. Basically, the work surveys two modifications, i.e., moderation of traditional weight factor by an efficacious nonlinear inertia weight and again optimizing it with the T-distribution which conjointly delivers the global solution of higher quality and it is also finer in convergence. By analyzing the simulation results, it can also be verified that weighted pso with supported by T-distribution predominates all the cases of general pso.

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Comparative Analysis of Cauchy Mutation and Gaussian Mutation in Crazy PSO

Sarangi

Samal²,

Sarangi³

2019

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Sonali Samal

Analysis of Gaussian & Cauchy Mutations in Modified Particle Swarm Optimization Algorithm

SBMYv3: Improved MobYOLOv3 a BAM attention‐based approach for obscene image and video detection

Obscene image detection using transfer learning and feature fusion

Weighted Particle Swarm Optimization with T-Distribution in Machine Learning Applications

Comparative Analysis of Cauchy Mutation and Gaussian Mutation in Crazy PSO

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