[HTML][HTML] Quantum Bohmian-inspired potential to model non–Gaussian time series and Its application in financial markets
R Hosseini, S Tajik, Z Koohi Lai, T Jamali, E Haven… - Entropy, 2023 - mdpi.com
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
Quantum Bohmian Inspired Potential to Model Non-Gaussian time series and its Application in Financial Markets
R Hosseini, S Tajik, ZK Lai, T Jamali, E Haven, R Jafari - 2023 - preprints.org
We have implemented quantum modeling mainly based on Bohmian Mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
Quantum Bohmian-Inspired Potential to Model Non–Gaussian Time Series and Its Application in Financial Markets
R Hosseini, S Tajik, ZK Lai, T Jamali, E Haven… - Entropy, 2023 - search.proquest.com
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
[HTML][HTML] Quantum Bohmian-Inspired Potential to Model Non–Gaussian Time Series and Its Application in Financial Markets
R Hosseini, S Tajik, ZK Lai, T Jamali, E Haven, R Jafari - Entropy, 2023 - ncbi.nlm.nih.gov
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
Quantum Bohmian-inspired potential to model non–Gaussian time series and Its application in financial markets
R Hosseini, S Tajik, Z Koohi Lai, T Jamali… - …, 2023 - repository.londonmet.ac.uk
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
Quantum Bohmian-Inspired Potential to Model Non-Gaussian Time Series and Its Application in Financial Markets.
R Hosseini, S Tajik, T Jamali, E Haven… - Entropy (Basel …, 2023 - europepmc.org
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
Quantum Bohmian-Inspired Potential to Model Non–Gaussian Time Series and Its Application in Financial Markets
R Hosseini, S Tajik, Z Koohi Lai, T Jamali, E Haven… - …, 2023 - ui.adsabs.harvard.edu
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
Quantum Bohmian-Inspired Potential to Model Non–Gaussian Time Series and Its Application in Financial Markets.
R Hosseini, S Tajik, Z Koohi Lai, T Jamali, E Haven… - …, 2023 - search.ebscohost.com
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
Quantum Bohmian-Inspired Potential to Model Non-Gaussian Time Series and Its Application in Financial Markets
R Hosseini, S Tajik, ZK Lai, T Jamali… - Entropy (Basel …, 2023 - pubmed.ncbi.nlm.nih.gov
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …
[PDF][PDF] Quantum Bohmian-Inspired Potential to Model Non–Gaussian Time Series and Its Application in Financial Markets
R Hosseini, S Tajik, Z Koohi Lai, T Jamali… - …, 2023 - repository.londonmet.ac.uk
We have implemented quantum modeling mainly based on Bohmian mechanics to study
time series that contain strong coupling between their events. Compared to time series with …
time series that contain strong coupling between their events. Compared to time series with …