Kimmo Riihiaho scite author profile

Kimmo Riihiaho

4Publications

24Citation Statements Received

98Citation Statements Given

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Affiliations

University of Jyväskylä

Publications

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Hyperblend: Simulating Spectral Reflectance and Transmittance of Leaf Tissue With Blender

Riihiaho

Rossi

Pölönen

2022

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. Remotely sensing vegetation condition and health hazards requires modeling the connection of plants’ biophysical and biochemical parameters to their spectral response. Even though many models exist already, the field suffers from lack of access to program code. In this study, we will assess the feasibility of open-source 3D-modeling and rendering software Blender in simulating hyperspectral reflectance and transmittance of leaf tissue to serve as a base for a more advanced large-scale simulator. This is the first phase of a larger HyperBlend project, which will provide a fully open-source, canopy scale leaf optical properties model for simulating remotely sensed hyperspectral images. Test results of the current HyperBlend model show good agreement with real-world measurements with root mean squared error around 1‰. The program code is available at https://github.com/silmae/ hyperblend.

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A Do-It-Yourself Hyperspectral Imager Brought to Practice with Open-Source Python

Riihiaho¹,

Eskelinen²,

Pölönen³

2021

Sensors

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Commercial hyperspectral imagers (HSIs) are expensive and thus unobtainable for large audiences or research groups with low funding. In this study, we used an existing do-it-yourself push-broom HSI design for which we provide software to correct for spectral smile aberration without using an optical laboratory. The software also corrects an aberration which we call tilt. The tilt is specific for the particular imager design used, but correcting it may be beneficial for other similar devices. The tilt and spectral smile were reduced to zero in terms of used metrics. The software artifact is available as an open-source Github repository. We also present improved casing for the imager design, and, for those readers interested in building their own HSI, we provide print-ready and modifiable versions of the 3D-models required in manufacturing the imager. To our best knowledge, solving the spectral smile correction problem without an optical laboratory has not been previously reported. This study re-solved the problem with simpler and cheaper tools than those commonly utilized. We hope that this study will promote easier access to hyperspectral imaging for all audiences regardless of their financial status and availability of an optical laboratory.

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Minimal Learning Machine in Anomaly Detection From Hyperspectral Images

Pölönen

Riihiaho

Hakola

et al. 2020

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. Anomaly detection from hyperspectral data needs computationally efficient methods to process the data when the data gathering platform is a drone or a cube satellite. In this study, we introduce a minimal learning machine for hyperspectral anomaly detection. Minimal learning machine is a novel distance-based classification algorithm, which is now modified to detect anomalies. Besides being computationally efficient, minimal learning machine is also easy to implement. Based on the results, we show that minimal learning machine is efficient in detecting global anomalies from the hyperspectral data with low false alarm rate.

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Deep learning-based asteroid surface temperature evaluation from disk-resolved near-infrared spectra for thermal excess correction

Lind

Penttilä

Riihiaho

et al. 2023

Planetary and Space Science

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Kimmo Riihiaho

Hyperblend: Simulating Spectral Reflectance and Transmittance of Leaf Tissue With Blender

A Do-It-Yourself Hyperspectral Imager Brought to Practice with Open-Source Python

Minimal Learning Machine in Anomaly Detection From Hyperspectral Images

Deep learning-based asteroid surface temperature evaluation from disk-resolved near-infrared spectra for thermal excess correction

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