Rolf Wartmann scite author profile

Rolf Wartmann

2Publications

32Citation Statements Received

47Citation Statements Given

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Carl Zeiss (Germany)

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Using machine-learning to optimize phase contrast in a low-cost cellphone microscope

et al. 2018

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Cellphones equipped with high-quality cameras and powerful CPUs as well as GPUs are widespread. This opens new prospects to use such existing computational and imaging resources to perform medical diagnosis in developing countries at a very low cost. Many relevant samples, like biological cells or waterborn parasites, are almost fully transparent. As they do not exhibit absorption, but alter the light’s phase only, they are almost invisible in brightfield microscopy. Expensive equipment and procedures for microscopic contrasting or sample staining often are not available. Dedicated illumination approaches, tailored to the sample under investigation help to boost the contrast. This is achieved by a programmable illumination source, which also allows to measure the phase gradient using the differential phase contrast (DPC) [1, 2] or even the quantitative phase using the derived qDPC approach [3]. By applying machine-learning techniques, such as a convolutional neural network (CNN), it is possible to learn a relationship between samples to be examined and its optimal light source shapes, in order to increase e.g. phase contrast, from a given dataset to enable real-time applications. For the experimental setup, we developed a 3D-printed smartphone microscope for less than 100 $ using off-the-shelf components only such as a low-cost video projector. The fully automated system assures true Koehler illumination with an LCD as the condenser aperture and a reversed smartphone lens as the microscope objective. We show that the effect of a varied light source shape, using the pre-trained CNN, does not only improve the phase contrast, but also the impression of an improvement in optical resolution without adding any special optics, as demonstrated by measurements.

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Developments and design of optical systems for microscopes at Carl Zeiss

Uhlendorf

Groß

Schreiber

et al. 2005

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Nowadays optical design for microscopes encloses besides the classical approach many new ideas like implementation of new optical elements, the consideration of physical effects or digital image processing. All these things play an important role during the development of microscopes and microscopic components at Carl Zeiss. In this paper we present examples of the classical approach starting with the imaging theory of Ernst Abbe as well as the non-classical approach ranging from microscopic objectives with diffractive optical elements over the implementation of the propagation theory of short-time laser pulses in optical design software to digital image restoration and phase measurement.

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Rolf Wartmann

Using machine-learning to optimize phase contrast in a low-cost cellphone microscope

Developments and design of optical systems for microscopes at Carl Zeiss

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