Alexander Engelsberger scite author profile

Alexander Engelsberger

5Publications

17Citation Statements Received

69Citation Statements Given

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108

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Hochschule Mittweida

Publications

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Quantum-inspired learning vector quantizers for prototype-based classification

Villmann

Engelsberger

Ravichandran

et al. 2020

Neural Comput & Applic

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Prototype-based models like the Generalized Learning Vector Quantization (GLVQ) belong to the class of interpretable classifiers. Moreover, quantum-inspired methods get more and more into focus in machine learning due to its potential efficient computing. Further, its interesting mathematical perspectives offer new ideas for alternative learning scenarios. This paper proposes a quantum computing-inspired variant of the prototype-based GLVQ for classification learning. We start considering kernelized GLVQ with real- and complex-valued kernels and their respective feature mapping. Thereafter, we explain how quantum space ideas could be integrated into a GLVQ using quantum bit vector space in the quantum state space $${\mathcal {H}}^{n}$$ H n and show the relations to kernelized GLVQ. In particular, we explain the related feature mapping of data into the quantum state space $${\mathcal {H}}^{n}$$ H n . A key feature for this approach is that $${\mathcal {H}}^{n}$$ H n is an Hilbert space with particular inner product properties, which finally restrict the prototype adaptations to be unitary transformations. The resulting approach is denoted as Qu-GLVQ. We provide the mathematical framework and give exemplary numerical results.

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Steps Forward to Quantum Learning Vector Quantization for Classification Learning on a Theoretical Quantum Computer

Engelsberger

Schubert²,

Villmann³

2022

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Multilayer Perceptrons with Banach-Like Perceptrons Based on Semi-inner Products – About Approximation Completeness

Villmann

Engelsberger

2023

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Quantum-Hybrid Neural Vector Quantization – A Mathematical Approach

Villmann

Engelsberger

2021

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Efficient Representation of Biochemical Structures for Supervised and Unsupervised Machine Learning Models Using Multi-Sensoric Embeddings

Bohnsack

Engelsberger

Kaden

et al. 2023

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