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MISIROOT: A ROBOTIC MINIMUM INVASION IN SITU IMAGING SYSTEM FOR PLANT ROOT PHENOTYPINGZhihang Song (8764215) 28 April 2020 (has links)
<p>Plant
root phenotyping technologies play an important role in breeding, plant
protection, and other plant science research projects. The root phenotyping
customers urgently need technologies that are low-cost, in situ,
non-destructive to the roots, and suitable for the natural soil environment.
Many recently developed root phenotyping methods such as minirhizotron, CT, and
MRI scanners have their unique advantages in observing plant roots, but they
also have disadvantages and cannot meet all the critical requirements
simultaneously. The study in this paper focuses on the development of a new
plant root phenotyping robot that is minimally invasive to plants and working
in situ inside natural soil, called “MISIRoot”. The MISIRoot system (patent
pending) mainly consists of an industrial-level robotic arm, a mini-size camera
with lighting set, a plant pot holding platform, and the image processing
software for root recognition and feature extraction. MISIRoot can take
high-resolution color images of the roots in soil with minimal disturbance to
the root and reconstruct the plant roots’ three-dimensional (3D) structure at
an accuracy of 0.1 mm. In a test assay, well-watered and drought-stressed
groups of corn plants were measured by MISIRoot at V3, V4, and V5 stages. The
system successfully acquired the RGB color images of the roots and extracted
the 3D points cloud data which showed the locations of the detected roots in
the soil. The plants measured by MISIRoot and plants not measured (controls)
were carefully compared with Purdue’s Lilly 13-4 Hyperspectral Imaging Facility
(reference). No significant differences were found between the two groups of
plants at different growth stages. Therefore, it was concluded that MISIRoot
measurements had no significant disturbance to the corn plant’s growth.</p>
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Development of a Laser-Guided Variable-Rate Sprayer with Improved Canopy Estimations for Greenhouse Spray ApplicationsNair, Uchit January 2020 (has links)
No description available.
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Vektorizovaná mračna bodů pro mobilní robotiku / Vectorized Point Clouds for Mobile RoboticsJelínek, Aleš January 2017 (has links)
Disertační práce se zabývá zpracováním mračenen bodů z laserových skenerů pomocí vektorizace a následnému vyhledávání korespondencí mezi takto získanými aproximacemi pro potřeby současné sebelokalizace a mapování v mobilní robotice. První nová metoda je určena pro segmentaci a filtraci surových dat a realizuje obě operace najednou v jednom algoritmu. Pro vektorizaci je představen optimalizovaný algoritmus založený na úplné metodě nejmenších čtverců, který je v současnosti patrně nejrychlejší ve své třídě a blíží se tak eliminačním metodám, které ovšem produkují výrazně horší aproxi- mace. Inovativní analytické metody jsou představeny i pro účely vyjádření podobnosti mezi dvěma vektorizovanými skeny, pro jejich optimální sesazení a pro vyhledávání korespondencí mezi nimi. Všechny představené algoritmy jsou intezivně testovány a jejich vlastnosti ověřeny množstvím experimentů.
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Dokumentace části hradu Rokštejn pomocí laserového skenování / Documentation of Roštejn using laser scanningVitula, Marek January 2016 (has links)
The goal of this thesis is to scan part of castle Rokštejn using terrestrial laser scanner and from obtained data draw up a 3D model. Model is made with a method using meshing. In this work I also deal with the software, which supports meshing, and evaluating pros and cons of each program. The output of this work is 3D model which will serve to better representation of the current state of the castle and its better documentation.
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Pozemní laserové skenování / Terrestrial laser scanningEndlicherová, Lucie January 2015 (has links)
This diploma thesis is focused on determine the characteristics of accuracy of the terrestrial laser scanner FARO Focus 3D S120. It is validated the recommended distance between the objects (targets and spheres) and the terrestrial scanner. Next it is tested accuracy of the Cartesian coordinates X, Y, Z measured by laser scanning with resolution 1/2. At the end it is investigated the accuracy of the area determination in X coordinate gained by the scanning of a smooth slightly curved surface.
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Zaměření specifických prvků v areálu Admas / The surveing of specific elements in the area of AdmasKoukal, Pavel January 2017 (has links)
The diploma thesis consists of two fundamental parts. The first part is focused on scanning a section of the Admas area by a terrestrial laser scanner. This section describes the introduction to laser scanning, necessary utilities and software, fieldwork, the process from the registration of a point cloud, through point cloud processing to its connection into the S-JTSK. The second part of the thesis is mostly focused on execution of the digital model of the relief from the acquired data. It also deals with the two methods of creating a cross-sectional drawing of the area - one is based on the digital model of the relief and the other on data obtained by the polar method. The outcome of the thesis is to assess the accuracy of the topographical model, based on the comparison with the polar method.
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Digitální model reliéfu v areálu Admas / Digital terrain model in the area of AdmasKroupa, Ondřej January 2017 (has links)
The goal of this thesis is to scan part of the complex research center AdMaS using terrestrial laser scanner, from obtained data draw up a 3D terrain model and compare the height accuracy with conventional terrestrial measurement. The thesis is focused to software, which allow processing of point clouds and prepare the 3D model. The output of this work is the 3D terrain model and two transverse profiles for vertical comparison of two measurement methods.
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Analýza přesnosti laserového skenování / Analysis of an accuracy of laser scanningVacová, Dominika January 2017 (has links)
The main goal of this master thesis is processing a point cloud with respect of possibilities of a registration clouds based on reference objects or on objects in general. This thesis studies transformations to the reference coordinate system S –JTSK. The first part of this thesis describes a theoretical background of the laser scanning and its use. A practical part shows the results and the evaluation of whole research.
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Tvorba 3D modelu budovy s využitím laserového skenování / Creation of 3D model of building using laser scanningSabo, Stanislav January 2016 (has links)
The aim of this thesis is to scan the part of the interior and exterior of the Faculty of Electrical Engineering and Communication building using the FARO Focus3D X 130 scanner, and the creation of a 3D model in the WGS 84 system. Subsequently, methods, status and utilization research of this technology and point cloud processing software is provided. The collected data are processed in the SCENE. Three-dimensional model is designed using the Pointfuse and Microstation V8i programs. In the end, the registration accuracy of the scans and the resulting 3D model accuracy are evaluated.
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Detekce prostorových objektů v mračně bodů / Detection of spatial objects in a point cloudVenený, Petr Unknown Date (has links)
The diploma thesis deals with processing of a point cloud that was collected via mobile mapping system. The first part sets a theoretical background, starting with mapping in general moving to mobile mapping systems and their particular parts. The practical part describes the whole process of data collecting, testing the automatic detection of spatial objects based on a point cloud and its visualisation. The results of the diploma thesis are GIS data layers and an evaluation of the process.
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