Difference between revisions of "Eyesis4Pi 393"
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+ | [[Image:hp_banner_eyesis.png]] | ||
==Status== | ==Status== | ||
− | ==Overview== | + | Available |
+ | == Overview== | ||
+ | {| | ||
+ | |- | ||
+ | | valign='top' |[[File:Eyesis4pi 1a.jpeg|150px|thumb|left]] | ||
+ | |'''Elphel Eyesis4Pi-26-393''' is the newer generation of the full-sphere multi-camera systems for stereophotogrammetric applications.<!--360*180 panoramic camera... or less<sup>***</sup>view angle.<sup>*</sup> The camera is designed to be a measurement tool for [http://en.wikipedia.org/wiki/Photogrammetry photogrammetry] and to allow future [http://en.wikipedia.org/wiki/3D_reconstruction_from_multiple_images 3D reconstruction] of the scenes. --> | ||
+ | |||
+ | * The system is [http://blogs.elphel.com/2010/11/zoom-in-now-enhance/ calibrated] to compensate for optical aberrations allowing to preserve full sensor resolution over the field of view. | ||
+ | * [http://blog.elphel.com/2011/10/subpixel-registration-and-distrortion-measurement/ Distortion calibration] is performed for precise pixel-mapping to automatically stitch images into panoramas, and also for [http://en.wikipedia.org/wiki/Photogrammetry photogrammetry] and [http://en.wikipedia.org/wiki/3D_reconstruction_from_multiple_images 3D reconstruction]. <!--due to precise optical calibration of sensor+lens modules and pixel-mapping. Eyesis4Pi can be used for panorama capturing and allow to get high quality final images of the panoramas which no other cameras available on the market can produce. --> | ||
+ | * There are 24 x 5MPix sensors in the camera head, resulting in 120 MPix image acquisition. Panorama image resolution after stitching is 64 MPix, the equirectangular projection is 14000x7000. | ||
+ | * High-precision Inertial Measurement Unit IMU (ADIS 16375, 2400 samples per second) is integrated with the camera, as well as 5Hz GPS (Locosys LS20031) to provide precise position and orientation of the camera. | ||
+ | * Images, synchronized with IMU and GPS data, can be recorded to internal Solid State Drives (SSD), external swappable SSDs or to a PC over the network. | ||
+ | * Optionally Eyesis4Pi-393 camera system includes PC for image downloading and post-processing with pre-installed SDK and Free and Open Source Software for camera calibration, image acquisition and panorama stitching. | ||
+ | * Eyesis4Pi-393 can be mounted on a car for outdoor panoramic applications or carried by a person, which lets successfully create panoramas of small and narrow spaces.<sup>*</sup><br> | ||
+ | |||
+ | Automated panoramic imagery and 3-dimensional panoramas are the 2 main applications of Eyesise4Pi-393 camera. | ||
+ | |||
+ | <sup>*</sup> ''Car and backpack mounts are not included.'' | ||
+ | |||
+ | ====Improvements over the earlier generation [[Eyesis4Pi]]==== | ||
+ | * new [[10393]] system boards | ||
+ | ** compressor bandwidth: 1 GPix/s vs. 85 MPix/s | ||
+ | ** only 3 system boards needed to support all 26 sensors vs. 9 | ||
+ | ** contemporary OpenEmbedded Linux OS | ||
+ | ** full 5 FPS at high quality vs. 2 FPS | ||
+ | ** faster recording speed: 220 MB/s x 3 vs. 16 MB/s x 9 | ||
+ | ** Gigabit Ethernet vs. 100 MB | ||
+ | * more compact | ||
+ | * more lightweight | ||
+ | |} | ||
+ | |||
+ | == Features and Specs== | ||
+ | * 4*π (360x180) full sphere coverage | ||
+ | * 64 MPix panoramic image resolution after stitching | ||
+ | * Final panoramic image equirectangular projection dimensions - 14268x7135 | ||
+ | * 0.05 Pix stitching precision | ||
+ | * Very small parallax - distance between entrance pupils: 46.5 mm | ||
+ | * High resolution lenses: 26x M12 lens mount | ||
+ | * Calibrated fixed lens to compensate for the lenses distortions | ||
+ | **10" (0.1 pix) in the center 80% x 80% area | ||
+ | **30" (0.3 pix) maximal error over the full FoV | ||
+ | **<0.03um/° thermal expansion | ||
+ | * Precise image capture synchronization | ||
+ | * 5 FPS - maximum frame rate | ||
+ | * RAW or compressed image formats | ||
+ | * Images are geo-tagged (Exif) - 5Hz GPS receiver ([https://www.pololu.com/product/2138 Locosys LS20031]) | ||
+ | * High-precision IMU [http://www.analog.com/en/products/sensors/inertial-measurement-units/adis16375.html ADIS 16375] | ||
+ | * Recording to: | ||
+ | ** internal SSDs - not swappable - 3x m.2 SSDs (physical size: 2242 or 2260) | ||
+ | ** external SSDs - swappable - 3x 2.5" SSDs connected in a hot swap rack | ||
+ | ** PC over network | ||
+ | * Web Based GUI | ||
+ | * SYNC cable allows: | ||
+ | ** receive and log external trigger (from a sensor such as odometer or extra GNSS system) | ||
+ | ** generate output signal to trigger other sensors or cameras | ||
+ | * Weatherproof camera body and camera pole | ||
+ | * Dimensions: 230x760 mm (9x30") | ||
+ | * Weight: 8 kg (18 lbs) | ||
+ | * The Eyesis4Pi-393 system is highly customizable | ||
+ | * Free Software and Open Hardware | ||
+ | |||
+ | == Image samples == | ||
+ | * Post-processing results (equirectangular projections) and demos: | ||
+ | ** [[Eyesis4Pi_samples|<span style='font-size:14px;'>'''Samples page'''</span>]] | ||
+ | |||
+ | {| | ||
+ | |[[File:Result 1342929037 024522.jpeg|400px|link=Eyesis4Pi_samples]] | ||
+ | |[[File:Result 1342929037 024522 webgl.jpeg|206px|link=Eyesis4Pi_samples]] | ||
+ | |} | ||
+ | |||
+ | ==Operation== | ||
+ | * The system is controlled from a laptop via a [[Eyesis4Pi_393_User_Guide_-_Recording|web-based interface (Eyesis4Pi GUI)]]. Which also displays real-time previews and parameters. | ||
+ | * Power consumption is about 50W. | ||
+ | * Power supply: | ||
+ | ** AC/DC power adapter (input: 110V/220V, output: 48V 2A) and can be used with a car power adapter (inverter), when mounted on a car roof. | ||
+ | ** 48V batteries (48V 4Ah - about 1-2 hours of operation) | ||
+ | |||
+ | {| style='padding:0px;' | ||
+ | |valign='top'|[[File:Eyesis4pi axes.jpeg|300px|thumb|Eyesis4Pi on a car]] | ||
+ | |valign='top' style='padding:0px;'|[[File:Eyesis4pi393 cables.png|thumb|300px|Fig.1 Cables]] | ||
+ | |- | ||
+ | |valign='top' style='padding:0px;'|[[File:Eyesis4pi393 recording external disks.png|thumb|300px|Fig.2 Recording to swappable external drives]] | ||
+ | |valign='top' style='padding:0px;'|[[File:Eyesis4pi393 recording internal ssds or network.png|thumb|300px|Fig.3 Recording to internal SSDs or over network]] | ||
+ | |valign='top' style='padding:0px;'|[[File:Eyesis4pi393 footage download from internal ssds.png|thumb|300px|Fig.4 Downloading data from internal SSDs to PC]] | ||
+ | |} | ||
+ | |||
+ | ==Calibration== | ||
+ | We have developed full calibration process and post-processing software to compensate for: | ||
+ | * '''Optical aberrations''', allowing to preserve full sensor resolution over the camera FoV. | ||
+ | * '''Distortions''' – for precise pixel-mapping for photogrammetry and 3D reconstruction. | ||
+ | |||
+ | The [[Eyesis4Pi_Calibration|calibration]] is performed using the machine ('''goniometer''') that rotates the camera about 2 axes by precisely known angles. To calibrate IMU one needs to match the goniometer angles with the IMU data. | ||
+ | |||
+ | Check out these articles for more details: | ||
+ | * [http://blog.elphel.com/2012/09/building-and-calibrating-eyesis4%CF%80/ Building and calibrating Eyesis4Pi] | ||
+ | * [http://blog.elphel.com/2013/06/elphel-new-camera-calibration-facility/ New calibration facility] | ||
+ | |||
+ | {| | ||
+ | |- | ||
+ | |[[File:Eyesis4pi393 calibration resized.jpeg|450px|thumb| Calibration process]] | ||
+ | |[[File:Eyesis4pi393 calibration closer resized.jpeg|200px|thumb]] | ||
+ | |[[File:Eyesis-with-cradle-pattern_small_2.jpeg|340px|thumb| Calibration process drawing]] | ||
+ | |} | ||
+ | |||
+ | ==Software== | ||
+ | All software is FOSS (Free and Open Source Software). It is experimental software that is used to test the camera performance, and it continues to be developed. All updates are available for download and build from [https://git.elphel.com/Elphel Elphel Git]. Software may require integration with customer software depending upon camera hardware configuration and application. It includes: | ||
+ | * Camera internal software/firmware and SDK | ||
+ | * Post-processing tools | ||
+ | * Calibration data | ||
+ | |||
+ | ==Workflow and user guides== | ||
+ | [[Eyesis4Pi_393_workflow|'''More info''']] | ||
==3D Model== | ==3D Model== | ||
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{| border="0" cellpadding="3" style="border:1px solid lightgray;border-collapse:collapse;" | {| border="0" cellpadding="3" style="border:1px solid lightgray;border-collapse:collapse;" | ||
|- | |- | ||
− | | <span class="plainlinks" title="View model in the Web X3D Viewer">[ | + | | <span class="plainlinks" title="View model in the Web X3D Viewer">[https://community.elphel.com/x3d/index.html?nobuttons&animate&model=/x3d/x3d_model_files/x3d/EYESIS4PI-26-393-ASSY.x3d https://community.elphel.com/pictures/eyesis4pi/EYESIS4PI-26-393_resized_2.jpeg]</span> |
|- | |- | ||
− | | [ | + | | [https://community.elphel.com/x3d/index.html?nobuttons&animate&model=/x3d/x3d_model_files/x3d/EYESIS4PI-26-393-ASSY.x3d Eyesis4PI-26-393 3D] |
|} | |} | ||
|} | |} | ||
− | == | + | |
+ | ==More information== | ||
+ | * [[Mt9p006_specs| Image sensors specs]] | ||
+ | |||
{| | {| | ||
− | |[[File: | + | |[[File:Eyesis4pi3d-24-illustration.jpg|thumb|300px|Head Contents Schematic]] |
− | | | + | |valign='top'|[[File:Eyesis4pi-fov.jpg|thumb|250px|FOV of sub-cameras in Eyesis4Pi-393, color shows time of acquisition (from red to blue):1-8 horizontal sensors; 1t-8t top sensors;1b-8b bottom sensors]] |
− | |[[File: | ||
− | |||
− | |||
|} | |} | ||
+ | |||
+ | ==How to buy== | ||
+ | We are directly accepting orders and ship worldwide. Please contact Elphel for Lead Time and Quotes: | ||
+ | |||
+ | *Email (Sales Inquiry): sales@elphel.com | ||
+ | *Phone: (801) 783-5555 x 107 | ||
+ | *Toll-free: (888) 3 ELPHEL | ||
+ | *Fax: (801) 812-8267 | ||
+ | |||
+ | == Links == | ||
+ | |||
+ | *[[Eyesis4Pi_393|Eyesis4Pi 393 Main Article]] | ||
+ | *[[Eyesis4Pi_393_workflow|Workflow]] | ||
+ | *[[Eyesis4Pi_393_User_Guide_-_Recording|User Guide: Recording]] | ||
+ | *[[Eyesis4Pi_393_Downloading_footage|User Guide: Downloading footage]] | ||
+ | *[[Eyesis4Pi_393_Footage_Procedures_page|User Guide: Post-Processing selected few panoramas]] | ||
+ | *[[Eyesis4pi Post-Processing|User Guide - Post-processing: ImageJ]] | ||
+ | *[[Eyesis4Pi data structure|Data Structure Description]] | ||
+ | *[[Eyesis4Pi Calibration|Calibration Process]] | ||
+ | [[Category:Eyesis4Pi393]] |
Latest revision as of 16:08, 24 April 2017
Contents
Status
Available
Overview
Elphel Eyesis4Pi-26-393 is the newer generation of the full-sphere multi-camera systems for stereophotogrammetric applications.
Automated panoramic imagery and 3-dimensional panoramas are the 2 main applications of Eyesise4Pi-393 camera. * Car and backpack mounts are not included. Improvements over the earlier generation Eyesis4Pi
|
Features and Specs
- 4*π (360x180) full sphere coverage
- 64 MPix panoramic image resolution after stitching
- Final panoramic image equirectangular projection dimensions - 14268x7135
- 0.05 Pix stitching precision
- Very small parallax - distance between entrance pupils: 46.5 mm
- High resolution lenses: 26x M12 lens mount
- Calibrated fixed lens to compensate for the lenses distortions
- 10" (0.1 pix) in the center 80% x 80% area
- 30" (0.3 pix) maximal error over the full FoV
- <0.03um/° thermal expansion
- Precise image capture synchronization
- 5 FPS - maximum frame rate
- RAW or compressed image formats
- Images are geo-tagged (Exif) - 5Hz GPS receiver (Locosys LS20031)
- High-precision IMU ADIS 16375
- Recording to:
- internal SSDs - not swappable - 3x m.2 SSDs (physical size: 2242 or 2260)
- external SSDs - swappable - 3x 2.5" SSDs connected in a hot swap rack
- PC over network
- Web Based GUI
- SYNC cable allows:
- receive and log external trigger (from a sensor such as odometer or extra GNSS system)
- generate output signal to trigger other sensors or cameras
- Weatherproof camera body and camera pole
- Dimensions: 230x760 mm (9x30")
- Weight: 8 kg (18 lbs)
- The Eyesis4Pi-393 system is highly customizable
- Free Software and Open Hardware
Image samples
- Post-processing results (equirectangular projections) and demos:
Operation
- The system is controlled from a laptop via a web-based interface (Eyesis4Pi GUI). Which also displays real-time previews and parameters.
- Power consumption is about 50W.
- Power supply:
- AC/DC power adapter (input: 110V/220V, output: 48V 2A) and can be used with a car power adapter (inverter), when mounted on a car roof.
- 48V batteries (48V 4Ah - about 1-2 hours of operation)
Calibration
We have developed full calibration process and post-processing software to compensate for:
- Optical aberrations, allowing to preserve full sensor resolution over the camera FoV.
- Distortions – for precise pixel-mapping for photogrammetry and 3D reconstruction.
The calibration is performed using the machine (goniometer) that rotates the camera about 2 axes by precisely known angles. To calibrate IMU one needs to match the goniometer angles with the IMU data.
Check out these articles for more details:
Software
All software is FOSS (Free and Open Source Software). It is experimental software that is used to test the camera performance, and it continues to be developed. All updates are available for download and build from Elphel Git. Software may require integration with customer software depending upon camera hardware configuration and application. It includes:
- Camera internal software/firmware and SDK
- Post-processing tools
- Calibration data
Workflow and user guides
3D Model
|
More information
How to buy
We are directly accepting orders and ship worldwide. Please contact Elphel for Lead Time and Quotes:
- Email (Sales Inquiry): sales@elphel.com
- Phone: (801) 783-5555 x 107
- Toll-free: (888) 3 ELPHEL
- Fax: (801) 812-8267