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Light Seminars > Graphene
January 23, 2023
L4G SEMINAR: AI-driven optical sensing

Hour: From 15:00h to 16:00h

Place: Seminar Room & Online

L4G SEMINAR: AI-driven optical sensing

THOMAS MÜLLER
Vienna University of Technology, Austria

Photonic sensors measure the physical properties of incident light, such as the power, polarization state, or spectrum. Recently, the development of integrated sensing solutions using miniaturized devices together with dedicated machine learning algorithms has accelerated rapidly, and photonic sensor research has become a highly interdisciplinary field encompassing device and materials engineering, condensed matter physics, and machine learning.

In this talk, I will discuss our contributions to this emerging field. I will start by presenting a geometric picture of photonic sensing: Physical properties of light and the corresponding sensor output signals can be viewed as points in two high-dimensional vector spaces, and the sensing process can be understood as a mapping of one vector space to the other. This mapping can be linear or nonlinear, with an artificial neural network being the method of choice in the latter case. Based on this framework, I will present examples in which a reconfigurable optical sensor can directly detect spectral and spatial features of incident light, enabled by the reconfigurability of the device and the implementation of machine learning algorithms for information encoding and decoding.

Photosensors for image classification, spectral mixture analysis, autoencoding, and compressed sensing will be discussed. In all these devices, the computation is performed at the lowest possible level of the sensor system hierarchy – the physical level of photon detection – and does not require any external processing of the measurement data. This new detection scheme may find wide application in ubiquitous light detection and imaging systems thanks to its simplicity, scalability, and versatility.

Hosted by Frank Koppens
Light Seminars > Graphene
January 23, 2023
L4G SEMINAR: AI-driven optical sensing

Hour: From 15:00h to 16:00h

Place: Seminar Room & Online

L4G SEMINAR: AI-driven optical sensing

THOMAS MÜLLER
Vienna University of Technology, Austria

Photonic sensors measure the physical properties of incident light, such as the power, polarization state, or spectrum. Recently, the development of integrated sensing solutions using miniaturized devices together with dedicated machine learning algorithms has accelerated rapidly, and photonic sensor research has become a highly interdisciplinary field encompassing device and materials engineering, condensed matter physics, and machine learning.

In this talk, I will discuss our contributions to this emerging field. I will start by presenting a geometric picture of photonic sensing: Physical properties of light and the corresponding sensor output signals can be viewed as points in two high-dimensional vector spaces, and the sensing process can be understood as a mapping of one vector space to the other. This mapping can be linear or nonlinear, with an artificial neural network being the method of choice in the latter case. Based on this framework, I will present examples in which a reconfigurable optical sensor can directly detect spectral and spatial features of incident light, enabled by the reconfigurability of the device and the implementation of machine learning algorithms for information encoding and decoding.

Photosensors for image classification, spectral mixture analysis, autoencoding, and compressed sensing will be discussed. In all these devices, the computation is performed at the lowest possible level of the sensor system hierarchy – the physical level of photon detection – and does not require any external processing of the measurement data. This new detection scheme may find wide application in ubiquitous light detection and imaging systems thanks to its simplicity, scalability, and versatility.

Hosted by Frank Koppens

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