Difference between revisions of "Elphel Eyesis4Pi"

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== About  ==
 
== About  ==
 
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|[[File:Eyesis4pi3d-dimensions-web.jpg | thumb | 80px | Eyesis4Pi Dimensions (mm) ]] || [[File:Eyesis4pi3d-24-illustration.jpg | thumb | 360px | Eyesis4Pi Head Contents Schematic ]]
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|[[File:Eyesis4pi3d-dimensions-web.jpg | thumb | 80px | Eyesis4Pi Dimensions (mm) ]] || [[File:Eyesis4pi3d-24-illustration.jpg | thumb |360px | Eyesis4Pi Head Contents Schematic ]] || [[File:Eyesis4pi-internals-overview.jpg | thumb | 130px | Eyesis4Pi Pole Contents Schematic ]]
 
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Revision as of 06:32, 10 August 2011

About

Eyesis4Pi Dimensions (mm)
Eyesis4Pi Head Contents Schematic
Eyesis4Pi Pole Contents Schematic

Elphel Eyesis4Pi is an open hardware / free software panoramic camera solution that is able to capture high-resolution - 64 MPix total (120 MPix before stitching) - 360° panoramas at a rate up to 5 frames per second at full resolution. It is the successor of the Elphel Eyesis. Images are recorded to 8 solid-state-discs (Eyesis4Pi Data Storage) which can store up to 11 hours of footage at full resolution. Meta-data like GPS-coordinates (geotags), viewing direction, movement speed, etc. are directly embedded into the images EXIF fields. Eyesis4Pi uses 24 sensor-front-ends and high-grade lenses that are triggered simultaneously with microsecond accuracy to ensure a full homogeneous spherical snapshot.

Usage Scenarios

The system was designed to be small and lightweight with a minimal distance between the entrance pupils (46.5mm) to achieve lowest possible parallax.

The primary usage scenario is to mount Eyesis4Pi on the roof of a vehicle. When driving at 50 mph (22.3 m/s) and recording at 5 FPS a full panorama is captured every 4.46 meters.

Operation & Monitoring

Eyesis is controlled from a laptop, via a web-based interface (Eyesis GUI). Which also displays real-time previews of your captured panorama footage.

Eyesis is supplied with 110V/220V AC and can be used with car power adapter (inverter), when mounted on a car roof. Power consumption is around ???W.

Models

4π (or 4Pi) corresponds to a full full spherical (360°x180°) field of view in steradians.

There are 2 version of the camera Eyesis4Pi with 24 image sensors and full spherical field of view and Eyesis3Pi with 16 sensors (without 8 bottom modules) with slightly smaller field of view.

Comparison between Eyesis and Eyesis4Pi

Parameter
Eyesis

Eyesis4Pi

(Eyesis 3Pi without 8 bottom modules)

Notes
Combined field of view (steradians)
3*π
4*π (3*π)
Number of image sensors
9
24 (16)

Angular resolution +/-30° from the horizon
≥4.2Mpix/steradian
≥4.2Mpix/steradian
1
Angular resolution +30° to +90°(zenith)
≥0.83Mpix/steradian
≥4.2Mpix/steradian 1
Angular resolution -30° to -90°(nadir) none ≥4.2Mpix/steradian (none) 1
Combined megapixels 45.0 120.0 (80.0)
Combined megapixels (w/o overlapping areas) 34.0 64.0 (48.0)
Combined megapixels (w/o overlapping areas,
worst case resolution)
29.0 52.8 (39.6) 1,2
Distance between entrance pupils
of adjacent horizontal lenses
34.5mm 46.5mm
Distance between entrance pupils
of horizontal and top/bottom lenses
75mm 50mm 3
Maximal frame rate 5fps 5fps 4
Maximal recording data rate 48MB/s 128MB/s (96Mb/s)
Maximal direct network data rate 30MB/s 80MB/s (60MB/s)
GPS receiver external, USB External/internal, USB/RS232
GPS pulse-per-second input no
yes

IMU none ADIS163xx,ADIS164xx
Data unload removable SSD in cradles eSATAx2
Storage devices type 2.5″ SSD 1.8″SSD
Number of storage devices 3
8 (6)


Notes:

  1. Angular resolution per pixel differs in the sub-camera FOV, minimal resolution is used.
  2. Zenith area for Eyesis (covered by fisheye lens) is calculated separately.
  3. For Eyesis the distance is measured from the entrance pupil of the horizontal lens to that of the top fisheye, for Eysis-4pi – to the entrance pupil of the lens immediately above/below the first one.
  4. Frame rate may be limited by the recording (or network if the SSD are not used) datarate for high compression quality (>0.3 bytes/pixel), required for the aberration correction.


Calibration

The sensor-front-ends (SFE) - which were especially developed for Eyesis4Pi - allow the focus plane to be shifted and rotated with very high accuracy. This allows extremely precise calibration of each lens and SFE which is done with every Eyesis4Pi during assembly with custom developed software. Check out this Elphel Development Blog post for more details.

Tech specs

Eyesis4Pi Camera

  • 24x Color 5Mpix CMOS sensors in array
  • Resolution - 64MPix (120MPix before stitching)
  • Up to 5 FPS at full resolution (120Mpix)
  • highly customizable
  • Web-based GUI
  • GPS powered geo-tagging
  • IMU powered 3D inertial measurement
  • Precise image capture synchronization
  • RAW or compressed image formats
  • High resolution lenses: 24x M12 lens mount
  • Very small parallax - distance between entrance pupils: 46.5 mm
  • Weatherproof camera body and camera pole


Eyesis Data Storage

  • located inside weatherproof camera pole
  • 8x swappable ???GB - 1.8" - SSDs (Total ???GB)
  • Enough space for up to ?? hours of full Resolution/FPS footage (depending on quality settings and actual image content)


Eyesis Computer

The Eyesis Computer is a high-end-workstation with small form factor. It is intended for image post-processing and not required for recording footage.

It comes with all Elphel developed software and tools required for processing panoramic images preinstalled.

  • Small form factor Shuttle PC
  • Intel Core i7-950 Quad-Core Processor
  • 16 GB DDR3 RAM
  • GeForce GTX 465 (Fermi) 1GB
  • 2 TB HDD


Tech Specs of a Single Image Sensor (Eyesis4Pi uses 24 of these, Eyesis3Pi uses 26 of these)

Color Image Sensor 1/2.5" bayer-pattern CMOS
Effective number of pixels 2592x1936 (5,018,112 pixels)
Aspect Ratio Chip 4:3, Region of interest freely adjustable in 16 pixel steps
Sensor Output 12 Bit ADC
Sensor Features Region of interest, on-chip binning and decimation
Dynamic Range 70 db (76 db at 2x2 binning)
Electronic Shutter 1 us to "very long" (~3h) in 1us steps
Gain Analog & Digital (0 db to 12 db continuous)