Bridging the reality gap in quantum devices with physics-aware machine learning.
David L. CraigH. MoonFederico FedeleDominic T. LennonB. Van StraatenFlorian VigneauLeon C. CamenzindDominik M. ZumbühlG. Andrew D. BriggsMichael A. OsborneDino SejdinovicNatalia AresPublished in: CoRR (2021)
Keyphrases
- machine learning
- computer science
- quantum mechanics
- artificial intelligence
- learning algorithm
- natural language processing
- mobile devices
- machine learning methods
- decision trees
- pattern recognition
- machine learning algorithms
- data mining
- quantum computation
- learning systems
- active learning
- information extraction
- inductive learning
- inductive logic programming
- feature selection
- computational intelligence
- computer vision
- personal computer
- machine learning approaches
- explanation based learning
- text classification
- text mining
- supervised machine learning
- neural network
- smart phones
- channel capacity
- qualitative physics
- artificial neural networks
- mobile applications
- ambient intelligence
- natural language
- data analysis
- semi supervised learning
- knowledge acquisition
- expert systems
- supervised learning
- information technology