Difference between revisions of "Features 353"
From ElphelWiki
(mistype fix) |
m (Andrey.filippov moved page Features to Features 353) |
||
(21 intermediate revisions by 5 users not shown) | |||
Line 1: | Line 1: | ||
− | {{en|ru=Features.ru|fr=Features.fr|cn=Features.cn}} | + | {{en|ru=Features.ru|fr=Features.fr|cn=Features.cn|de=Features.de}} |
{| border="0" cellpadding="2" align="right" | {| border="0" cellpadding="2" align="right" | ||
|- | |- | ||
Line 16: | Line 16: | ||
|} | |} | ||
− | The Elphel cameras are highly customizable Network cameras. | + | The [http://www.elphel.com Elphel cameras] are highly customizable Network cameras. |
− | To ensure the freedom of our customers and the sustainable development of the Elphel project all our developments are | + | To ensure the freedom of our customers and the sustainable development of the Elphel project all our developments are covered by the GNU/GPL v3 License. |
Turnkey and OEM models exist. Both are totally customizable for the customer's task. | Turnkey and OEM models exist. Both are totally customizable for the customer's task. | ||
Line 24: | Line 24: | ||
== Key features == | == Key features == | ||
* High resolution sensors support (like the [[10344 | Kodak 16Mpix CCD]] or [[10338 | Aptina 5Mpix CMOS]]) | * High resolution sensors support (like the [[10344 | Kodak 16Mpix CCD]] or [[10338 | Aptina 5Mpix CMOS]]) | ||
− | * High speed compression: 80 MPix/s | + | * [[Elphel 353 framerate|High speed compression]]: up to 80 MPix/s |
* Many formats for recording video: Quicktime, OGM, JPEG Image Sequence, [[JP4]] RAW Image Sequence, Ogg Theora, HDR | * Many formats for recording video: Quicktime, OGM, JPEG Image Sequence, [[JP4]] RAW Image Sequence, Ogg Theora, HDR | ||
* Many available data interfaces: Compact Flash Card, SATA (HDD or Raid), Ethernet 100Mbit, USB, RS-232; | * Many available data interfaces: Compact Flash Card, SATA (HDD or Raid), Ethernet 100Mbit, USB, RS-232; | ||
Line 31: | Line 31: | ||
== Power == | == Power == | ||
− | * | + | * 48V DC with midspan power supply/injector |
− | * or optionally a | + | * or optionally a 12-36V with power injector (non IEEE802.3af compliant) |
* or single 3.3V source | * or single 3.3V source | ||
* Typical power consumption between 2.4W - 5.8W depending on operation and load | * Typical power consumption between 2.4W - 5.8W depending on operation and load | ||
Line 38: | Line 38: | ||
== Interesting possibilities == | == Interesting possibilities == | ||
* Hardware synchronized recording of multiple images (multiple sensors, multiple cameras, external trigger) | * Hardware synchronized recording of multiple images (multiple sensors, multiple cameras, external trigger) | ||
− | * Connecting | + | * Connecting infinite sensors is possible (one 10359 board per three sensor) |
* Standard GNU/Linux distribution offers the possibility to port existing software and kernel drivers to provide support for more external devices (USB gadgets, converters, ...) | * Standard GNU/Linux distribution offers the possibility to port existing software and kernel drivers to provide support for more external devices (USB gadgets, converters, ...) | ||
** GPS and digital compass integration | ** GPS and digital compass integration | ||
− | ** RFID | + | ** RFID integration |
− | * Focus helper (software to assist in adjusting fine focus) | + | * [[Focus helper]] (software to assist in adjusting fine focus) |
* Data insertion into EXIF header (GPS, compass, [http://en.wikipedia.org/wiki/Inertial_navigation_system INS], other telemetry, ..) | * Data insertion into EXIF header (GPS, compass, [http://en.wikipedia.org/wiki/Inertial_navigation_system INS], other telemetry, ..) | ||
* On the fly adjustment of recording parameters without loss of recording speed. | * On the fly adjustment of recording parameters without loss of recording speed. | ||
Line 55: | Line 55: | ||
** high speed video | ** high speed video | ||
** exploration | ** exploration | ||
− | ** observation of wildlife | + | ** microscopy |
+ | ** [[Images_and_videos_examples#Nature_.26_animals_2|observation of nature/wildlife]] | ||
** [[SCINI:_Submersible_Capable_of_under_Ice_Navigation_and_Imaging|underwater imaging]] | ** [[SCINI:_Submersible_Capable_of_under_Ice_Navigation_and_Imaging|underwater imaging]] | ||
* medical imagery | * medical imagery | ||
− | * | + | * time-lapse filming (Including HDR support) |
* geotagging applications | * geotagging applications | ||
* aerial imagery and video applications | * aerial imagery and video applications | ||
Line 64: | Line 65: | ||
* HD video | * HD video | ||
* security | * security | ||
+ | ** video surveillance | ||
** smart access control | ** smart access control | ||
** RFID | ** RFID | ||
* document scanning | * document scanning | ||
* street imagery | * street imagery | ||
− | * 3D reconstruction | + | * 3D reconstruction ([https://community.elphel.com/3d+map/?lat=44.92980751&lng=-118.25683594&zoom=7&rating=5 example]) |
* 2D/3D laser scanning | * 2D/3D laser scanning | ||
* barcode reading | * barcode reading | ||
* sport ([[Photo-finish]]) | * sport ([[Photo-finish]]) | ||
* machine vision | * machine vision | ||
+ | ** PCB inspection | ||
+ | ** Parts inspection & validation | ||
* robotics | * robotics | ||
* education (Verilog, Image processing, Networking, Circuit design, Mechanical design) | * education (Verilog, Image processing, Networking, Circuit design, Mechanical design) | ||
+ | * business | ||
+ | ** video conferencing | ||
+ | * entertainment | ||
+ | * arts | ||
+ | |||
+ | == Examples == | ||
+ | * [[Images_and_videos_examples|Images and videos]] | ||
+ | * [[Eyesis4Pi_samples|Panoramas]] (by panoramic models) | ||
+ | * [https://community.elphel.com/3d+map/?lat=44.92980751&lng=-118.25683594&zoom=7&rating=5 3D models] (by 3D reconstruction capable models) | ||
+ | * [http://vimeo.com/groups/14747 Vimeo group] |
Latest revision as of 19:39, 11 January 2018
in English | deutsch | français | по-русски | автоперевод | 中文版 | 机械翻译
The Elphel cameras are highly customizable Network cameras.
To ensure the freedom of our customers and the sustainable development of the Elphel project all our developments are covered by the GNU/GPL v3 License.
Turnkey and OEM models exist. Both are totally customizable for the customer's task.
Key features
- High resolution sensors support (like the Kodak 16Mpix CCD or Aptina 5Mpix CMOS)
- High speed compression: up to 80 MPix/s
- Many formats for recording video: Quicktime, OGM, JPEG Image Sequence, JP4 RAW Image Sequence, Ogg Theora, HDR
- Many available data interfaces: Compact Flash Card, SATA (HDD or Raid), Ethernet 100Mbit, USB, RS-232;
- User friendly and open scripting on the camera: PHP (API, examples), CGI, C, C++, etc.
- Firmware sources and binaries for main CPU and FPGA are available on SF.net The SDK and full hardware documentation are also freely available. (353)
Power
- 48V DC with midspan power supply/injector
- or optionally a 12-36V with power injector (non IEEE802.3af compliant)
- or single 3.3V source
- Typical power consumption between 2.4W - 5.8W depending on operation and load
Interesting possibilities
- Hardware synchronized recording of multiple images (multiple sensors, multiple cameras, external trigger)
- Connecting infinite sensors is possible (one 10359 board per three sensor)
- Standard GNU/Linux distribution offers the possibility to port existing software and kernel drivers to provide support for more external devices (USB gadgets, converters, ...)
- GPS and digital compass integration
- RFID integration
- Focus helper (software to assist in adjusting fine focus)
- Data insertion into EXIF header (GPS, compass, INS, other telemetry, ..)
- On the fly adjustment of recording parameters without loss of recording speed.
- Robust and reliable firmware upgrade (reflashing) over the network.
- Remote/local digital temperature sensor
- On-board clock/calendar
- Fan connector
- AUX connector
Application areas
- scientific imagery and video applications
- high speed video
- exploration
- microscopy
- observation of nature/wildlife
- underwater imaging
- medical imagery
- time-lapse filming (Including HDR support)
- geotagging applications
- aerial imagery and video applications
- digital cinematography
- HD video
- security
- video surveillance
- smart access control
- RFID
- document scanning
- street imagery
- 3D reconstruction (example)
- 2D/3D laser scanning
- barcode reading
- sport (Photo-finish)
- machine vision
- PCB inspection
- Parts inspection & validation
- robotics
- education (Verilog, Image processing, Networking, Circuit design, Mechanical design)
- business
- video conferencing
- entertainment
- arts
Examples
- Images and videos
- Panoramas (by panoramic models)
- 3D models (by 3D reconstruction capable models)
- Vimeo group