Shivang Gupta scite author profile

Shivang Gupta

5Publications

29Citation Statements Received

77Citation Statements Given

How they've been cited

How they cite others

101

Affiliations

Carnegie Mellon University, Amity University, Galgotias University

Publications

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DenseNet-II: an improved deep convolutional neural network for melanoma cancer detection

2022

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Research in the field of medicine and relevant studies evince that melanoma is one of the deadliest cancers. It defines precisely that the condition develops due to uncontrolled growth of melanocytic cells. The current trends in any disease detection revolve around the usage of two main categories of models; these are general machine learning models and deep learning models. Further, the experimental analysis of melanoma has an additional requirement of visual records like dermatological scans or normal camera lens images. This further accentuates the need for a more accurate model for melanoma detection. In this work, we aim to achieve the same, primarily by the extensive usage of neural networks. Our objective is to propose a deep learning CNN framework-based model to improve the accuracy of melanoma detection by customizing the number of layers in the network architecture, activation functions applied, and the dimension of the input array. Models like Resnet, DenseNet, Inception, and VGG have proved to yield appreciable accuracy in melanoma detection. However, in most cases, the dataset was classified into malignant or benign classes only. The dataset used in our research provides seven lesions; these are melanocytic nevi, melanoma, benign keratosis, basal cell carcinoma, actinic keratoses, vascular lesions, and dermatofibroma . Thus, through the HAM10000 dataset and various deep learning models, we diversified the precision factors as well as input qualities. The obtained results are highly propitious and establish its credibility.

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Borassus and Tamarind Fruit Fibers as Reinforcement in Cashew Nut Shell Liquid-Epoxy Composites

Kini

Nayak

Heckadka

et al. 2017

Journal of Natural Fibers

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When the Tutor Becomes the Student: Design and Evaluation of Efficient Scenario-based Lessons for Tutors

Thomas

Yang

Gupta

et al. 2023

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Scenario-Based Training and On-The-Job Support for Equitable Mentoring

Thomas

Chhabra

Adeniran

et al. 2022

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Computer-Supported Human Mentoring for Personalized and Equitable Math Learning

Schaldenbrand

Lobczowski

Richey

et al. 2021

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Shivang Gupta

DenseNet-II: an improved deep convolutional neural network for melanoma cancer detection

Borassus and Tamarind Fruit Fibers as Reinforcement in Cashew Nut Shell Liquid-Epoxy Composites

When the Tutor Becomes the Student: Design and Evaluation of Efficient Scenario-based Lessons for Tutors

Scenario-Based Training and On-The-Job Support for Equitable Mentoring

Computer-Supported Human Mentoring for Personalized and Equitable Math Learning

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