Yerragudipadu Subbarayudu scite author profile

Melanoma, a lethal form of skin cancer, poses a significant risk to global health if not detected and treated promptly. Its early detection is pivotal in increasing the likelihood of successful treatment and patient survival. However, the accurate diagnosis of melanoma remains a challenge, even for seasoned dermatologists. Consequently, there has been a growing interest in leveraging Machine Learning (ML) algorithms to augment the accuracy of melanoma diagnosis. Typically, melanoma is identified through dermoscopic imaging. Numerous previous studies have proposed the automated analysis of skin lesions using both traditional classification techniques and deep learning models. These analyses often involve the feeding of designed functions into traditional categorization systems. Nonetheless, the high visual similarity between different skin lesion types and the complexity of skin diseases often renders manual features insufficiently discriminative, leading to failure in various scenarios. Recent research suggests that convolutional networks with short connections between layers near the input and the output can be deeper, more precise, and more efficient in training. This paper adopts this approach and introduces the application of Hadoop's HdiDenseNet techniques. DenseNets offer several notable advantages: they alleviate the vanishing-gradient problem, enhance feature propagation, encourage feature reuse, and substantially reduce the number of parameters. The performance of our proposed architecture is evaluated against four highly competitive benchmark object identification challenges using a dataset comprising over 40,000 images sourced diversely. The results demonstrate that the most effective method is a densely connected distributed convolutional network, particularly when applied to patient metadata. Ultimately, this paper aims to contribute to the field of medical image analysis and potentially enhance the accuracy of melanoma diagnosis. By doing so, it could play a crucial role in improving patient prognosis and saving lives.

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Designing of Dynamic Re-clustering Leach Protocol for Calculating Total Residual Time and Performance

Umar¹,

Subbarayudu²,

Kumar

et al. 2017

IJECE

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Wireless sensor networks (WSN), a plurality of sensors in an energy limited deliveries. the sensors are arranged randomly for many applications. Thus, the battery or download a replacement would be practical. Therefore, the energy efficient routing protocol to expand the network. In this article we propose a new cluster based Re-Leach dynamic Protocol Dynamic Reclustering based Leach protocol (DR-Leach), the expansion of the lattice energy consumption and reduce the age. The idea is that the energy cluster leaders next production cluster to balance In each round, the same number of nodes in the network of life. Make your first calculation It calculates the optimum amount of CHS in each round, and the optimum amount for each cluster. The results showed that the improvement of reliability protocols proposed frame and the total energy consumption than BCDCP Leach and protocols.

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A study on user mobility in device to device (D2D) networks through distrubted catching

Subbarayudu¹,

Reddy²,

Anjaiah³

2017

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Overview of the new bioinformatics virus goes from the front of next generation sequencing in genomics based on datamining

Subbarayudu¹,

Rakesh²,

Lingappa³

et al. 2017

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