Fusion: Practice and Applications

Given that plant disease is the primary factor contributing to damage in most plants, decision makers in the agriculture industry are highly interested in enhancing prediction strategies to detect illness in plants at an early stage. This is crucial for ensuring timely and effective plant care. Classifying healthy soybean plants is a dependable and efficient use of noninvasive techniques like machine learning (ML). In this work, we used ML to enhance a smart forecasting model for the prediction of soybean diseases. We utilized two feature selection techniques, namely gain ratio and correlation, two supervised ML algorithms (support vector machine and Random forest) and the cross-validation technique was used for assessing the proposed system, such as accuracy, F-measure, specificity, executing time, and sensitivity. The suggested technique can readily differentiate between soybean plants that are infected and those that are healthy. The suggested approach has undergone testing using a comprehensive collection of soybean characteristics, as well as a subset of attributes. The findings show that performance metrics are impacted when soybean traits are reduced.

Maintainable financial fraud detection includes the usage of viable and decent performs in the recognition of fraudulent actions in financial region. A credit card is susceptible to cyber threats, which leads to a fraud of credit card. The fraudster does dishonest action by attaining illegal access to credit card information and this action affects an economic loss for the user as well as company. At present, deep learning (DL) and machine learning (ML), systems were deployed in financial fraud detection owing to their features’ ability of making a great device to find out fraudulent dealings. This paper presents a Financial Data Analysis for Financial Management Based on Cloud Computing Using Deep Reinforcement Learning Model (FDAFM-CCDRLM). The main intention of FDAFM-CCDRLM model is to improve analysis of financial data in the economic management. Initially, the min-max normalization is employed in the data normalization stage to convert a data of input into a suitable format. Besides, the proposed FDAFM-CCDRLM model designs a black‐winged kite algorithm (BKA) for the subset of feature selection process. For the classification process, the double deep Q‐network (DDQN) algorithm has been executed. At last, the artificial bee colony (ABC) algorithm-based hyperparameter range method is done for improving the classification outcomes of the DDQN model. The experimental evaluation of the FDAFM-CCDRLM system can be tested on a benchmark database. The extensive outcomes highlight the significant solution of the FDAFM-CCDRLM approach to the financial data analysis classification process

A considerable number of individuals concentrate their engagement on social media sites, notably Instagram, YouTube, and Facebook, where they may adeptly exploit their popularity. A considerable volume of research studies has been conducted across diverse social networks to examine user profiles and their relationship with popularity. The primary emphasis of research concerning social media has centered on theme analysis, encompassing domains such as health, creativity, and awareness. This study utilizes K-means clustering to classify social media articles and determine the characteristics that contribute to their popularity. Gathered data from publications by international influencers during an eight-month duration. Producing roughly 161 posts daily and around 1092 posts monthly seeks to improve metrics including views, likes, and dislikes on social media. This strategy is designed to facilitate the growth of the platform's popularity, thereby maximizing visibility and outreach. The analysis focused on three factors: virility, appeal, and publicity rates. Classified the posts into five fundamental groups: casual, quality, number, support, and leader. The study yielded important findings on optimal publication timing, ideal video length, follower metrics, biography and caption lengths, and hashtag utilization. Researchers found some interesting things that will help people who use social media and brand owners make better marketing plans.

The systemic prediction of financial risk issues has become a main attention in the area of finance. Financial risk is the main likelihood that stockholders will lose currency after they finance a business that has debt if the business flow of cash demonstrates insufficient to see its economic requirements. The incorporation of deep learning (DL) methods into financial risk forecast and investigation has altered conventional techniques. While traditional quantitative systems often trust basic metrics such as the highest reduction, the arrival of DL requires a more nuanced assessment, highlighting the model's generalization capability, particularly in market crises like stock market crashes. DL techniques are efficient in removing intricate patterns from massive data collections and become an effective model for forecasting financial trends. In this paper, we offer Boosting Financial Risk Prediction Model Using Attention Mechanism with Red‐Tailed Hawk (BFRPM-AMRTH) Algorithm. The presented BFRPM-AMRTH model aims to address the challenges of identifying and mitigating potential financial threats in a dynamic environment. Initially, the BFRPM-AMRTH technique applies the linear scaling normalization (LSN) data normalization technique to standardize the input features and ensure consistency across the dataset. In addition, the long short-term memory auto encoder with attention mechanism (LSTMA-AE) technique can be employed for classifying financial risks. Eventually, the red‐tailed hawk (RTH) algorithm adjusts the hyperparameter values of the LSTMA-AE algorithm optimally and outcomes in greater classification performance. To ensure the improved performance of BFRPM-AMRTH system, a huge range of simulation studies has been achieved and the obtained outcomes establish the advancement of the BFRPM-AMRTH system over the existing techniques

SIEM, which stands for Security Information and Event Management, is a collection of services and solutions that give businesses the capacity to gather, examine, and handle security-related data in real time from all areas of their IT infrastructure. This study presents AlertFusion-OptiNet, a sophisticated SIEM alert management architecture intended for effective alert handling and intrusion detection. The proposed CMRO algorithm (a hybrid of Coot Bird Optimization and Mug Ring Algorithm) is used to select the best features after the system integrates data from multiple sources (raw logs, network traffic, and security alerts), applies preprocessing to eliminate redundancy and inconsistencies, and extracts features using techniques like LDA, GloVe, statistical analysis, and DWT. PCA is then used to reduce dimensionality. The shortcomings of current intrusion detection systems include delayed alert replies, poor feature selection, and ineffective management of heterogeneous datasets. Two-channel CNNs, LSTM, and Bi-RNNs are used in AlertFusion-OptiNet's hybrid detection model to improve accuracy and real-time detection, while AlertQ-Net uses reinforcement learning to handle and monitor alerts continuously. The proposed AlertFusion-OptiNet accomplished 99.43% and outruns SOTA models.