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PhytoOracle: Scalable, modular phenomics data processing pipelines
by
Cosi, Michele
, Gonzalez, Emmanuel M.
, Zarei, Arman
, Ellingson, Holly
, Davey, Sean
, Demieville, Jeffrey
, Simmons, Travis
, Rozzi, Bruno
, Lavelle, Dean O.
, Swetnam, Tyson L.
, Lyons, Eric
, Hendler, Nathanial
, Michelmore, Richard W.
, Truco, Maria José
, Zarei, Ariyan
, Merchant, Nirav
, Pauli, Duke
, Strand, Robert
, Calleja, Sebastian
in
Artificial intelligence
/ Automation
/ BASIC BIOLOGICAL SCIENCES
/ Chlorophyll
/ Color imagery
/ Cores
/ Costs
/ Data collection
/ Data integration
/ data management
/ Data processing
/ Datasets
/ distributed computing
/ Distributed processing
/ Extensibility
/ Genotype & phenotype
/ genotype-phenotype correlation
/ Genotypes
/ high performance computing
/ image analysis
/ lettuce
/ Modularity
/ morphological
/ morphological phenotyping
/ Morphology
/ Parallel processing
/ phenomics
/ phenotype
/ Phenotypes
/ Phenotyping
/ Photosystem II
/ physiological phenotyping
/ Physiology
/ Pipelining (computers)
/ plant height
/ Plant Science
/ point cloud analysis
/ R&D
/ Reproducibility
/ Research & development
/ Sensors
/ Software
/ species
/ Thermal imaging
/ Three dimensional models
2023
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PhytoOracle: Scalable, modular phenomics data processing pipelines
by
Cosi, Michele
, Gonzalez, Emmanuel M.
, Zarei, Arman
, Ellingson, Holly
, Davey, Sean
, Demieville, Jeffrey
, Simmons, Travis
, Rozzi, Bruno
, Lavelle, Dean O.
, Swetnam, Tyson L.
, Lyons, Eric
, Hendler, Nathanial
, Michelmore, Richard W.
, Truco, Maria José
, Zarei, Ariyan
, Merchant, Nirav
, Pauli, Duke
, Strand, Robert
, Calleja, Sebastian
in
Artificial intelligence
/ Automation
/ BASIC BIOLOGICAL SCIENCES
/ Chlorophyll
/ Color imagery
/ Cores
/ Costs
/ Data collection
/ Data integration
/ data management
/ Data processing
/ Datasets
/ distributed computing
/ Distributed processing
/ Extensibility
/ Genotype & phenotype
/ genotype-phenotype correlation
/ Genotypes
/ high performance computing
/ image analysis
/ lettuce
/ Modularity
/ morphological
/ morphological phenotyping
/ Morphology
/ Parallel processing
/ phenomics
/ phenotype
/ Phenotypes
/ Phenotyping
/ Photosystem II
/ physiological phenotyping
/ Physiology
/ Pipelining (computers)
/ plant height
/ Plant Science
/ point cloud analysis
/ R&D
/ Reproducibility
/ Research & development
/ Sensors
/ Software
/ species
/ Thermal imaging
/ Three dimensional models
2023
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PhytoOracle: Scalable, modular phenomics data processing pipelines
by
Cosi, Michele
, Gonzalez, Emmanuel M.
, Zarei, Arman
, Ellingson, Holly
, Davey, Sean
, Demieville, Jeffrey
, Simmons, Travis
, Rozzi, Bruno
, Lavelle, Dean O.
, Swetnam, Tyson L.
, Lyons, Eric
, Hendler, Nathanial
, Michelmore, Richard W.
, Truco, Maria José
, Zarei, Ariyan
, Merchant, Nirav
, Pauli, Duke
, Strand, Robert
, Calleja, Sebastian
in
Artificial intelligence
/ Automation
/ BASIC BIOLOGICAL SCIENCES
/ Chlorophyll
/ Color imagery
/ Cores
/ Costs
/ Data collection
/ Data integration
/ data management
/ Data processing
/ Datasets
/ distributed computing
/ Distributed processing
/ Extensibility
/ Genotype & phenotype
/ genotype-phenotype correlation
/ Genotypes
/ high performance computing
/ image analysis
/ lettuce
/ Modularity
/ morphological
/ morphological phenotyping
/ Morphology
/ Parallel processing
/ phenomics
/ phenotype
/ Phenotypes
/ Phenotyping
/ Photosystem II
/ physiological phenotyping
/ Physiology
/ Pipelining (computers)
/ plant height
/ Plant Science
/ point cloud analysis
/ R&D
/ Reproducibility
/ Research & development
/ Sensors
/ Software
/ species
/ Thermal imaging
/ Three dimensional models
2023
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PhytoOracle: Scalable, modular phenomics data processing pipelines
Journal Article
PhytoOracle: Scalable, modular phenomics data processing pipelines
2023
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Overview
As phenomics data volume and dimensionality increase due to advancements in sensor technology, there is an urgent need to develop and implement scalable data processing pipelines. Current phenomics data processing pipelines lack modularity, extensibility, and processing distribution across sensor modalities and phenotyping platforms. To address these challenges, we developed PhytoOracle (PO), a suite of modular, scalable pipelines for processing large volumes of field phenomics RGB, thermal, PSII chlorophyll fluorescence 2D images, and 3D point clouds. PhytoOracle aims to ( i ) improve data processing efficiency; ( ii ) provide an extensible, reproducible computing framework; and ( iii ) enable data fusion of multi-modal phenomics data. PhytoOracle integrates open-source distributed computing frameworks for parallel processing on high-performance computing, cloud, and local computing environments. Each pipeline component is available as a standalone container, providing transferability, extensibility, and reproducibility. The PO pipeline extracts and associates individual plant traits across sensor modalities and collection time points, representing a unique multi-system approach to addressing the genotype-phenotype gap. To date, PO supports lettuce and sorghum phenotypic trait extraction, with a goal of widening the range of supported species in the future. At the maximum number of cores tested in this study (1,024 cores), PO processing times were: 235 minutes for 9,270 RGB images (140.7 GB), 235 minutes for 9,270 thermal images (5.4 GB), and 13 minutes for 39,678 PSII images (86.2 GB). These processing times represent end-to-end processing, from raw data to fully processed numerical phenotypic trait data. Repeatability values of 0.39-0.95 (bounding area), 0.81-0.95 (axis-aligned bounding volume), 0.79-0.94 (oriented bounding volume), 0.83-0.95 (plant height), and 0.81-0.95 (number of points) were observed in Field Scanalyzer data. We also show the ability of PO to process drone data with a repeatability of 0.55-0.95 (bounding area).
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