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Quantum Technologies and Artificial Intelligence

Authors

Ostap Victor Vlad

Rubric:Technical sciences in general
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This article examines the practical application of artificial intelligence technologies in combination with machine learning algorithms, artificial neural networks, and emerging quantum technologies for solving complex engineering, analytical, and decision-support tasks. Particular attention is devoted to the interaction between artificial intelligence and human expertise, demonstrating that modern AI systems function most effectively as intelligent decision-support tools under professional supervision rather than as complete substitutes for highly qualified specialists.

The publication analyzes contemporary machine learning models capable of predicting human decision-making under conditions of uncertainty and risk. Special emphasis is placed on behavioral prediction models that integrate established behavioral science theories with machine learning techniques to improve the accuracy of forecasting human choices and optimize decision-support systems in engineering, economics, management, and other applied fields.

Keywords

Artificial Neural Networks
Quantum Technologies and Solutions
Fields of Application
Machine Learning Algorithm
Artificial Intelligence Mechanism
Conventional Information Storage Systems
Documents for Instant Access
Machine Learning Model
Capability to Predict Human Decision-Making
Mathematical Formula
Engineering Design of Quantum Dots.
Artificial Intelligence

Authors

Ostap Victor Vlad

Rubric:Technical sciences in general
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References:

Slobozhanyuk, A., et al. Magnetic resonance imaging machine. United States Patent No. US 10,732,237. Issued August 4, 2020.

Godoy, et al. Electron paramagnetic resonance (EPR) techniques and apparatus for performing EPR spectroscopy on a flowing fluid. United States Patent No. US 10,564,308. Issued February 18, 2020.

Wang. Parallel plate transmission line for broadband nuclear magnetic resonance imaging. United States Patent No. US 9,952,297. Issued April 24, 2018.

Hetherington, et al. Transceiver apparatus, system and methodology for superior in-vivo imaging of human anatomy. United States Patent No. US 9,316,709. Issued April 19, 2016.

Yonamoto, et al. Sample holder for electricity-detection electron spin resonance device. United States Patent No. US 9,018,954. Issued April 28, 2015.

Neu, et al. AFM-coupled microscale radiofrequency probe for magnetic resonance imaging and spectroscopy. United States Patent No. US 8,884,608. Issued November 11, 2014.

Tang, et al. Waveguides configured with arrays of features for performing Raman spectroscopy. United States Patent No. US 8,780,344. Issued July 15, 2014.

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