OpenDroneMap
3.5.4
  • Cara memulai dan instalasi
    • Quickstart
    • Rekomendasi Perangkat Keras
    • Instalasi
      • Windows
        • Langkah 1. Periksa Dukungan Virtualisasi
        • Langkah 2. Instal Persyaratan
        • Langkah 3. Periksa Alokasi Memori dan CPU
        • Langkah 4. Unduh WebODM
        • Langkah 4. Luncurkan WebODM
      • macOS
        • Langkah 1. Periksa Dukungan Virtualisasi
        • Langkah 2. Instal Persyaratan
        • Langkah 3. Periksa Alokasi Memori dan CPU
        • Langkah 4. Unduh dan Jalankan WebODM
      • Linux
        • Langkah 1. Instal Persyaratan
        • Langkah 2. Periksa Persyaratan Tambahan
        • Langkah 3. Unduh dan Jalankan WebODM
    • Perintah Dasar dan Pemecahan Masalah
    • Halo, WebODM!
      • Berjalan di lebih dari satu mesin
  • Tutorial
    • Membuat Ortofoto Kualitas Tinggi
    • Membuat Model Elevasi Digital
    • Using Potree 3D viewer module on WebODM
      • Cameras
      • Textured model
      • Appearance
        • Point budget
        • Field of view
        • Eye Dome-lighting
        • Background
        • Other
      • Tools
        • Measurement
        • Clipping
        • Navigation
      • Scene
    • Measuring stockpile volume
      • Fieldwork planning
      • Flight pattern
      • Flight height
      • GCPs
      • Processing parameters
      • Measuring
      • Expected accuracy
    • Menggunakan Docker
      • Daftar Mesin Docker
      • Mengakses catatan server
      • perintah konsol akses ke server
      • Membersihkan setelah Docker
    • Menggunakan ODM dari lokasi bandwidth rendah
      • Untuk apa ini dan untuk siapa?
      • Langkah-langkah
        • Instal
        • Siapkan data dan proyek
        • Resize droplet, pull pin, run away
        • Setelah itu selesai (dengan asumsi anda bertahan selama itu)
    • Advanced
      • Mengkalibrasi kamera
      • Using Image Masks
      • Using Singularity
        • Build Singularity image from Docker image
        • Using Singularity SIF image
      • ClusterODM, NodeODM, SLURM, with Singularity on HPC
      • Development and testing of ODM
        • Fork and clone repository
        • Set up local NodeODM docker instance
        • Modify code
        • Connect to NodeODM instance
        • Install and use changes
  • Opsi dan Bendera
    • 3d-tiles
    • align
    • auto-boundary
      • What Is Auto-Boundary?
      • When Is Auto-Boundary Helpful?
      • Why would one use auto-boundary?
      • Example Images
        • True: --auto-boundary
        • False: null
    • auto-boundary-distance
    • bg-removal
    • boundary
      • What is Boundary [GeoJSON]?
      • When is Boundary [GeoJSON] appropriate?
      • Why would one use Boundary [GeoJSON]?
      • How would one create Boundary [GeoJSON]?
        • GeoJSON.io
        • QGIS
      • Example Images
        • True: --boundary [GeoJSON] - Point Cloud
        • True: --boundary [GeoJSON] - Orthophoto
        • True: --boundary [GeoJSON] - Digital Elevation Model
        • True: --boundary [GeoJSON] - 3D Model/Textured Mesh
        • False: null
    • build-overviews
      • What Are Overviews?
      • When are Overviews appropriate?
      • Why would one use Overviews?
      • Example Images
        • True: --build-overviews
        • False: null
    • camera-lens
      • What Are Camera Lens Models?
      • When are manual selections appropriate?
      • Why would one use a particular Camera Lens Model?
      • Example Images
        • auto : Rectilinear Data
        • brown : Rectilinear Data
        • fisheye : Rectilinear Data
        • perspective : Rectilinear Data
        • spherical : Rectilinear Data
    • cameras
    • cog
      • What Are Cloud Optimized GeoTIFFs (COGs)?
      • When are COGs appropriate?
      • Why would one use COGs?
      • Example Images
        • True: --cog
        • False: null
    • copy-to
    • crop
    • debug
    • dem-decimation
    • dem-euclidean-map
    • dem-gapfill-steps
    • dem-resolution
    • depthmap-resolution
    • dsm
    • dtm
    • end-with
    • fast-orthophoto
    • feature-quality
    • feature-type
    • force-gps
    • gcp
    • geo
    • gltf
    • gps-accuracy
    • help
    • ignore-gsd
    • matcher-neighbors
    • matcher-order
    • matcher-type
    • max-concurrency
    • merge
    • mesh-octree-depth
    • mesh-size
    • min-num-features
    • name
    • no-gpu
    • optimize-disk-space
    • orthophoto-compression
    • orthophoto-cutline
    • orthophoto-kmz
    • orthophoto-no-tiled
    • orthophoto-png
    • orthophoto-resolution
    • pc-classify
    • pc-copc
    • pc-csv
    • pc-ept
    • pc-filter
    • pc-geometric
    • pc-las
    • pc-quality
    • pc-rectify
    • pc-sample
    • pc-skip-geometric
    • pc-tile
    • primary-band
    • project-path
    • radiometric-calibration
    • rerun
    • rerun-all
    • rerun-from
    • resize-to
    • rolling-shutter
    • rolling-shutter-readout
    • sfm-algorithm
    • sfm-no-partial
    • skip-3dmodel
    • skip-band-alignment
    • skip-orthophoto
    • skip-report
    • sky-removal
    • sm-cluster
    • sm-no-align
    • smrf-scalar
    • smrf-slope
    • smrf-threshold
    • smrf-window
    • split
    • split-image-groups
    • split-overlap
    • texturing-data-term
    • texturing-keep-unseen-faces
    • texturing-outlier-removal-type
    • texturing-single-material
    • texturing-skip-global-seam-leveling
    • texturing-skip-local-seam-leveling
    • texturing-tone-mapping
    • tiles
    • time
    • use-3dmesh
    • use-exif
    • use-fixed-camera-params
    • use-hybrid-bundle-adjustment
    • verbose
    • version
    • video-limit
    • video-resolution
  • Flowchart with options
  • Keluaran OpenDroneMap
    • Point Cloud
    • Model Bertekstur 3D
    • Orthophoto
    • DTM/DSM
    • Logs
    • Daftar keseluruhan keluaran
  • High Precision Workflows
    • Akurasi Peta
      • What to expect
      • Aspects impacting map accuracy
      • Referensi
    • Ground Control Points
      • Overview
        • Recommended practices for GCP setting
        • GCP file format
      • User Interfaces
        • POSM GCPi
        • GCP Editor Pro
      • Referensi
    • Image Geolocation Files
    • Improving relative accuracy
      • Multi-temporal Datasets
      • Aligning Large Datasets
  • Multispectral and Thermal
    • Multispectral Support
      • Supported Sensors
      • Creating Orthophotos from Multispectral Data
      • Workflows for Non-supported Sensors
    • Thermal Support
      • Perangkat keras
      • Penggunaan
  • Large Datasets
    • Membagi-Menggabungkan Lokal
    • Membagi-Menggabungkan Terdistribusi
      • Memulai dengan Didistribusikan Membagi-Menggabungkan
      • Memahami Cluster
      • Mengakses Log
      • ClusterODM Penskalaan Otomatis
    • Batasan
    • Estimating data collection effort
      • Data collection effort, full 3D
      • Data collection effort, 2D and 2.5D products
    • Ucapan Terima Kasih
  • Kiat Menerbangkan
    • Data collection effort, full 3D
    • Data collection effort, 2D and 2.5D products
    • Other resources on flying
  • How to Contribute and Request Features
    • How To Request Features
    • Cara Kontribusi
      • Forum Komunitas
      • Melaporkan Bug.
        • Template For Submitting Bug Reports
      • Pull Requests
  • Frequently Asked Questions and Additional Resources
    • Frequently Asked Questions
      • Data Processing
      • Licensing
      • Memory issues
    • Additional References
      • For Users
      • For Developers
OpenDroneMap
  • Pencarian

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