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11/17/2023 14:02

Condition monitoring of ornamental plants with microdisplays and neural networks to optimize fertilization

Franziska Lehmann Unternehmenskommunikation
Fraunhofer-Institut für Organische Elektronik, Elektronenstrahl- und Plasmatechnik FEP

    Conservation of resources and reliable yields are just as essential in plant
    cultivation as in other branches of agriculture. In order to optimize fertilization
    processes in ornamental plant cultivation in the future and thus protect the
    environment, researchers at the Fraunhofer FEP together with the Saxon State Office
    for Environment, Agriculture and Geology (LfULG) have been researching a
    technology for the early detection of nutrient deficiencies or surpluses in
    ornamental plants in the ZierSens project. The use of bidirectional OLED microdisplays in combination with neural networks should make it possible to optimize fertilization processes in the future.

    Ornamental plant cultivation is locally anchored in almost all German districts, mainly
    with small and medium-sized farms. In 2022, the production value of flowers and
    ornamental plants produced in Germany amounted to around 1.2 billion euros. Sales
    of cut flowers, for example, amounted to around 3.1 billion euros.1 In order for the
    plant cultivation sector in Germany to remain competitive, it is dependent on secure
    and high yields. Decisive factors for this include successful plant breeding, plant
    protection and optimal fertilization in order to conserve resources and soils

    In the ZierSens project, the Fraunhofer FEP conducted research into a technology that
    can detect deficits or nutrient surpluses in ornamental plants at an early stage. The
    institute has decades of experience in the development of application-specific OLED
    microdisplays for a wide variety of purposes. It is also possible to combine OLED light
    sources and photodiodes on a silicon chip. So-called bidirectional microdisplays are thus
    able to emit and simultaneously detect light in a wavelength-specific manner

    This technology enables the measurement and evaluation of small areas for surface
    inspection in various fields of application. In the project, it was specifically used to
    detect the condition of an ornamental plant with regard to possible under- or oversupply.
    With the help of a mechanism a leaf of an ornamental plant is pressed onto the
    microdisplay, which illuminates the leaf and can detect and evaluate the reflected light.
    In extensive plant cultivation experiments at the LfULG, plants were prepared in different nutritional states and images of leaves at different stages were taken. These images were used to train artificial neural networks to automatically identify leaf characteristics.

    Compared to conventional measuring systems, which require a large number of
    measurements and use an averaged value within the measuring spot, bidirectional
    OLED microdisplays offer a location-resolved measurement. This allows several measured
    values to be generated at one measuring point, which are directly related to each
    other. This should enable more targeted fertilization and thus a more efficient use of
    resources, thereby reducing the environmental impact.

    Judith Baumgarten, project manager at Fraunhofer FEP explains: "The project was
    based on the hypothesis that a lack or excess of nutrients can be detected at an early
    stage by the smallest changes in leaf coloration. By using our bidirectional microdisplay
    technology, we have achieved various effects that do not disprove this assumption, but
    also do not yet confirm it 100%. Nevertheless, we were able to further develop the
    measuring system and lay the foundations for the evaluation of colored camera images.
    We see great potential for the plant cultivation of the future with the support of smart
    technologies." Head of the Ornamental Horticulture Department and project manager
    at the LfULG, Dr. Sven Schubert, adds: "The use of modern technologies is essential for
    resource-conserving and sustainable horticulture. The data collected in the plant
    cultivation trials form the basis for the further development of sensor technology."

    In addition, the scientists have trained neural networks to identify the plant species,
    leaf side and leaf age of the ornamental plants used. A further neural network was also
    developed to automatically segment the images into the areas of leaf area, leaf vein,
    leaf pattern and defects.

    Research into the new technology presented the Fraunhofer FEP with a number of
    challenges. Firstly, adequate imaging of leaves with a special topology, such as primroses,
    was required, which necessitated further optimization of the sensor hardware. Secondly, models had to be created for evaluation, which would require a very large neural network due to the different characteristics of the plants. This would mean that calculations could no longer be performed on mobile devices, as is necessary in smart crop production. The Fraunhofer FEP is therefore pursuing a cascaded approach with several smaller networks that require significantly fewer resources.

    The Fraunhofer FEP researchers see great potential in this proof-of-concept for plant
    breeding and ornamental plant cultivation and will present first project results and
    microdisplay technologies at the W3+ Fair, in Jena, from November 29 – 30, 2023, at
    booth no. C12.

    About the project
    ZierSens – Use of an all-in-one CMOS image sensor with OLED microdisplay for the determination of plant constituents for the purpose of fertilization optimization using the example of ornamental plants In cooperation with the Saxon State Office for Environment, Agriculture and Geology, funded by the Free State of Saxony. Project duration: 09/19 – 08/23

    Fraunhofer FEP at W3+ Fair and Convention 2023
    W3+ Fair Fair & Convention
    Sparkassen-Arena Jena, Germany
    29 – 30 November 2023
    booth no. C12

    Further publications on the topic
    Organic-on-silicon photonic platform for advanced imagers, microdisplays and sensors
    2023; Wartenberg, Philipp et. al Smart Photonic and Optoelectronic Integrated Circuits 2023 New Ultra Low-Power High Brightness Microdisplays Enabling Broad Applications
    2022; Wartenberg, Philipp et. al Society for Information Display. SID Symposium Digest of Technical Papers Organic Microdisplay for Visual Feedback 2021; Lenk, Simone et. al Optical Devices and Materials for Solar Energy and Solid-state lighting 2021


    More information:

    https://s.fhg.de/uX4


    Images

    Bidirectional microdisplay for condition monitoring of ornamental plants
    Bidirectional microdisplay for condition monitoring of ornamental plants

    © Saxon State Office for Environment, Agriculture and Geology


    Criteria of this press release:
    Business and commerce, Journalists, Scientists and scholars
    Biology, Electrical engineering, Information technology
    transregional, national
    Research projects, Transfer of Science or Research
    English


     

    Bidirectional microdisplay for condition monitoring of ornamental plants


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