Difference between revisions of "Stereo Vision Systems"
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* Color (most) | * Color (most) | ||
* Mono | * Mono | ||
+ | * 2 Mono + 1 Color | ||
|- | |- | ||
!style='text-align:left;'| Full Hardware setup | !style='text-align:left;'| Full Hardware setup | ||
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{| class='wikitable' | {| class='wikitable' | ||
!style='text-align:left;'| Product | !style='text-align:left;'| Product | ||
− | | Elphel MNC393-XCAM | + | |align='center'| Elphel MNC393-XCAM |
− | | Reviewed LIDARs | + | |align='center'| Reviewed LIDARs (Velodyne, Ouster) |
|- | |- | ||
!style='text-align:left;'| Range | !style='text-align:left;'| Range | ||
− | | <font color='red' size='4'>'''10-5000m'''</font> | + | |align='center'| <font color='red' size='4'>'''10-5000m'''</font> |
− | | <font color='red' size='4'>'''<200m'''</font> | + | |align='center'| <font color='red' size='4'>'''<200m'''</font> |
+ | |- | ||
+ | !style='text-align:left;'| Field of View | ||
+ | |align='center'| <font color='red' size='4'>'''65°x51°'''</font> | ||
+ | |align='center'| <font color='red' size='4'>'''360°x(30-40°)'''</font> | ||
|- | |- | ||
!style='text-align:left;' colspan='3'| Points sparsity (horizontal x vertical): | !style='text-align:left;' colspan='3'| Points sparsity (horizontal x vertical): | ||
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!style='text-align:left;'| @10m | !style='text-align:left;'| @10m | ||
|align='center'| ~ 0.05x0.05 cm | |align='center'| ~ 0.05x0.05 cm | ||
− | |align='center'| ~ 2x6 cm | + | |align='center'| ~ 2x6 cm |
|- | |- | ||
!style='text-align:left;'| @50m | !style='text-align:left;'| @50m | ||
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|- | |- | ||
|} | |} | ||
+ | |||
+ | Typical LIDAR angular resolutions are: | ||
+ | * horizontal: 0.1-0.4° | ||
+ | * vertical: 0.3-0.5° | ||
==Links== | ==Links== |
Latest revision as of 12:26, 5 October 2018
Comparison table with similar products
3D Vision System | Elphel MNC393-XCAM | Reviewed competing products |
---|---|---|
Released | 2018 | 2015-2018 |
Depth sensing technology |
| |
Depth range, m | 10-5000m | 0.1-20m |
Depth accuracy |
Disparity accuracy is 0.05px:
|
|
Depth Processing | Post-processing (real-time - future development) | Post-processing or real-time (mostly) |
Number of image sensors | 4 (square) | 1-2 |
Stereo baseline, mm | 250 (diagonal) | from single lens to 63-250 |
IR projectors | not used | some have, some don't |
Framerate | up to 10fps recording in high quality |
|
Output interfaces |
|
|
Position and orientation |
|
some have IMU (100-500Hz), but most don't |
Image sensor shutter type | ERS (Electronic Rolling Shutter) | ERS or Global |
Output format |
3D model:
|
|
Color | Color |
|
Full Hardware setup |
|
|
Advantages over LIDARs
Product | Elphel MNC393-XCAM | Reviewed LIDARs (Velodyne, Ouster) |
---|---|---|
Range | 10-5000m | <200m |
Field of View | 65°x51° | 360°x(30-40°) |
Points sparsity (horizontal x vertical): | ||
@10m | ~ 0.05x0.05 cm | ~ 2x6 cm |
@50m | ~ 0.25x0.25 cm | ~ 10x30 cm |
@100m | ~ 0.5x0.5 cm | ~ 20x60 cm |
@200m | ~ 1x1 cm | ~ 40x120 cm |
@1000m | ~ 5x5 cm | |
@2000m | ~ 10x10 cm |
Typical LIDAR angular resolutions are:
- horizontal: 0.1-0.4°
- vertical: 0.3-0.5°
Links
- StereoVisionCameras_v2.ods (internal use only) (1st tab - cameras, 2nd tab - LIDARs)
- More on cameras (xinreality.com)
- More on LIDARs (dronezon.com)
- Time-of-Flight sensors (2014 TI article)