Verified @gmail.com
Assistant Professor Information Technology
VIIT/SP Pune University
BE (Information Technology) ME(Computer Network) PhD(Computer Science)
Cloud Computing
Network Security
Machine Learning
Deep Learning
Stock Insights is a web-based application designed to provide users with valuable insights into stock prices, utilizing two powerful algorithms - Prophet and ARIMA. The project aims to provide stock investors and traders with an easy-to-use tool to visualize stock trends and predict future prices. Streamlit is used as the primary tool for developing the web application, which provides an intuitive and user-friendly interface. Users can select stocks and timeframes to analyze, and the algorithms generate predictions based on historical data. The predictions are displayed in an easy-to- read format, enabling users to make informed investment decisions. The Prophet algorithm is used to analyze seasonality and trends in stock prices, while ARIMA is utilized to predict future values based on historical patterns. Both algorithms work together to provide more accurate predictions and a better understanding of the stock market. Overall, Stock Insights is an essential tool for investors and t
Scopus Publications
Yogita Hande, Rupali Sachin Vairagade, Mahesh Ashok Bhandari, Vitthal Sadashiv Gutte, Sandeep Muktinath Chitalkar, and Deepali Pankaj Javale
National Taiwan University
Brain activity leads to devastating effects on life which may lead to the loss of human lives. It can be detected at early stages to save human life. An electroencephalogram (EEG) is a test that will detect abnormalities in the brain wave. Electrodes are applied to the scalp during an EEG. These are tiny metal disks connected by slender wires. They pick up microscopic electrical charges produced by the brain’s cell activity. The results of an EEG reveal alterations in brain activity that may be helpful in the diagnosis of various brain disorders, particularly epilepsy and other conditions that result in seizures. In this research, a novel approach termed Tasmanian Devil Hunting Optimization-Deep Maxout Network (TDHO-DMN) is devised for brain activity detection based on motor imagery EEG signals. Initially, the input EEG signal obtained from the dataset is subjected to the signal pre-processing phase. Here, the input signals are pre-processed for denoising utilizing the Gaussian Filter. After that, the pre-processed signal is allowed for the feature extraction to extract the suitable feature vectors like amplitude modulation spectrum (AMS), frequency-based features and statistical features. Then, extracted features are fed to data augmentation which is carried out utilizing the oversampling technique. Finally, brain activity detection is accomplished by the Deep Maxout Network (DMN), which is trained by the Tasmanian Devil Hunting Optimization (TDHO) algorithm. TDHO is formed by the combination of Tasmanian Devil Optimization (TDO) and Deer Hunting Optimization Algorithm (DHOA). The performance evaluation of the proposed TDHO_DMN is analyzed using two benchmark datasets, where the proposed TDHO_DMN approach obtained a better performance in terms of accuracy, sensitivity and specificity of 90.70%, 91.00% and 91.40%, respectively.
Vaishali Singh, Sudha D, Manish Srivastava, Sidhant Das, S. Sathiya Naveena, and Mahesh A. Bhandari
IEEE
Dynamic community Bandwidth Optimization and Its utility to Underwater Fiber Optic communique is a studies topic focused on enhancing the transmission competencies of submerged fiber-optic networks. The primary aim is to design a dynamic bandwidth allocation algorithm able to acquiring most efficient transmission overall performance given the underwater channel and conversation necessities. To accomplish that, the set of rules have to be able to update the to be had channel bandwidth depending on the utility's call for it whilst additionally keeping safety and privacy. The resulting set of rules should be relevant to an extensive range of underwater fiber-optic systems. Furthermore, the solution must be flexible sufficient to be used for both asynchronous and synchronous packages, making an allowance for greater green utilization of the total bandwidth to be had. Moreover, the studies ought to awareness on finding alternative techniques for growing the transmission capacities of a given fiber-optic network which will accommodate accelerated visitors or new conversation necessities. These can include methods which include coding, dynamic modulation, and equalization. In end, dynamic community bandwidth optimization and its software to underwater fiber-optic communication is a complicated research region, however the resulting answer may want to revolutionize underwater communique networks.
Vitthal S Gutte, Pramod Mundhe, and Mahesh Bhandari
IEEE
In today's world, agriculture is the most important source of growth. It is an essential component of both economic and social life. Plant disease is becoming an important field in India, in the literal sense of the word. In the past, disease detection systems were designed for monocot or dicot plant families. Gradually, as scientific and special to some science or trade progress, more safe, good, ready, and working well methods are offered and have undergone growth for early detection of plant disease through the smallest wide space for turning time. We have instrumented a careful way to show monocot and dicot disease in this paper. Our methodical approach aids in the treatment of the disease by reducing the number of errors. To detect plant leaf disease, we took three steps. It primarily takes three forms: first, breaking down the leaf into parts, then removing the points, and finally, ordering. It has come to be part of the acted-on part of plant leaf using the k-means quince into group's expert way in the breaking down into parts process. The material's feel, appearance, and color are revealed after it is broken down into primarily form parts. Finally, the information gleaned from the features is applied to the order using the Support Guide Machine to detect plant disease.
Mahesh Bhandari, Vitthal S. Gutte, and Pramod Mundhe
Springer Nature Singapore