An LSTM network is a type of recurrent neural network (RNN) architecture designed to process and retain long-term dependencies in sequential data. It uses memory cells and gating mechanisms to effectively capture and utilize information over extended sequences, making it suitable for tasks involving time series data and sequential patterns.
Researchers developed robust deep learning models to predict CO2 solubility in ionic liquids (ILs), crucial for CO2 capture. The artificial neural network (ANN) model proved more computationally efficient than the long short-term memory (LSTM) network, demonstrating high accuracy and utility in IL screening for CO2 capture applications.
Researchers introduced a groundbreaking LSTM-based forecasting model to predict electricity usage, achieving an impressive 95% accuracy rate. By integrating deep learning into building energy management systems, this approach enhances energy efficiency, aiding in informed decision-making for energy management, utility companies, and policymakers, thus paving the path towards a sustainable and efficient energy future.
Researchers present a groundbreaking integrated agricultural system utilizing IoT-equipped sensors and AI models for precise rainfall prediction and fruit health monitoring. The innovative approach combines CNN, LSTM, and attention mechanisms, demonstrating high accuracy and user-friendly interfaces through web applications, heralding a transformative era in data-driven agriculture.
This study presents an innovative system for business purchase prediction that combines Long Short-Term Memory (LSTM) neural networks with Explainable Artificial Intelligence (XAI). The system is designed to predict future purchases in a medical drug company, offering transparent explanations for its predictions, fostering user trust, and providing valuable insights for business decision-making.
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