- 1 In the package
- 2 Interfaces
- 3 Power on
- 4 Defaults
- 5 Command line access
- 6 Serial console access
- 7 Web user interface (camvc)
- 8 Download live images
- 9 Video
- 10 Event Logger (GPS, IMU, IMG & EXT)
- 11 Store/restore configuration
- 12 Change parameters
- 13 Image formats
- 14 Temperature monitor
- 15 eSATA port switching
- 16 Proper shutdown
- 17 Firmware/software update
- 18 Firmware images
- 19 Development
- 20 Other info
- 20.1 Change default ip address
- 20.2 Add a program or a shell command to autostart on boot
- 20.3 Set up histogram window and autoexposure parameters
- 20.4 Tools for calibrated systems
- 20.5 Switch between ERS and GRR modes in MT9P006
- 20.6 External/internal synchronization & triggering and FPS control for single/multi-camera systems
- 20.7 SSD/MMC/USB formatting
- 20.8 Boot modes
- 20.9 Pointers monitor
- 20.10 Powering from batteries (12V or 48V)
- 20.11 Accessing raw pixel values
- 20.12 Photo finish (linescan mode)
- 20.13 Controlling multiple cameras from single GUI
- 20.14 Developers version's half enclosure
- 20.15 Available lengths for cables for connecting sensors in custom setups
- 21 Known problems
- 22 Notes
In the package
- 10393 camera system (these 3D models might be helpful).
- Power supply options (more information):
|36-72V (default)||wall adapter (48V)|
|18-75V||wall adapter (48V)|
|12-36V||wall adapter, battery (12V)|
- CAT6 network cable
- μUSB-to-USB cable
- Recovery μSD card
- If the camera is calibrated the calibration data will be on a separate storage media or on the internal SSD (likely /mnt/sda1)
|μSD||micro SD card slot - boot or storage|
|console||serial console port, use μUSB-to-USB cable|
|eSATA+USB||2-in-1. Connect USB or eSATA device. USB2.0 host|
|sync||sync multiple cameras or other devices - input/output trigger signal through a 4-conductor 2.5mm audio plug with cable (example: digikey)|
- Plug in the power supply
- Connect to LAN using the network cable
- Boot time: ~30s
- No extra drivers are required on the host PC to operate the camera system. Can be operated from any network device with a browser.
- The default boot is from the on-board NAND flash. More information on available boot options and recovery boot.
- For a production system with rare changes to the file system it is recommended to boot from NAND flash. Changes to the file system require running an extra sync command (overlay_sync) followed by a proper reboot.
- For development, one can boot from the μSD recovery card and use it - saving changes does not require extra sync actions.
- Camera's software includes gcc compiler - relatively small projects can be compiled on the camera.
- The default IP address is set in the /etc/elphel393/init_elphel393.py.
- If present the internal SSD will be formatted into 2 partitions:
- /dev/sda1 - ext4 (~64-100GB)
- /dev/sda2 - raw partition (no file system) for fast recording
Command line access
- ssh from PC's terminal:
user@hostname:~$ ssh firstname.lastname@example.org
Serial console access
- Use a microUSB-USB cable to connect console μUSB port (see Fig.1) to PC - the cable's end should be thin enough otherwise interferes with an inserted mmc (multi media card = μSD card).
- In Linux the minicom program can be used
$ minicom -c on
Most likely the device will be /dev/ttyUSB0. Settings:
- 115200 8N1, no for hardware/software flow control
Refer to the following article for more details on using minicom: Using minicom to connect to Elphel393 camera
Web user interface (camvc)
- The page contains links to camvc user interface for each individual camera port.
- camvc was ported from the 10353 camera series:
- change parameters like image format, resolution, auto exposure, auto white balance and more. Alternative way to change parameters is described below.
- pause compressor and search within buffered images
- help tips available - see Fig.3 - select then mouse over a control element of interest
Download live images
- For a currently opened port (displayed in the window title and as "...sensor_port=0..." in the URL):
port 0: http://192.168.0.9:2323/img port 1: http://192.168.0.9:2324/img port 2: http://192.168.0.9:2325/img port 3: http://192.168.0.9:2326/img
wget http://192.168.0.9:2323/img -O filename.jpeg wget http://192.168.0.9:2324/img -O filename.jpeg wget http://192.168.0.9:2325/img -O filename.jpeg wget http://192.168.0.9:2326/img -O filename.jpeg
Multipart JPEG stream
http://192.168.0.9:2323/mimg http://192.168.0.9:2324/mimg http://192.168.0.9:2325/mimg http://192.168.0.9:2326/mimg
- turn on:
rtsp://192.168.0.9:554 rtsp://192.168.0.9:556 rtsp://192.168.0.9:558 rtsp://192.168.0.9:560
gst-launch-1.0 souphttpsrc is-live=true location=http://192.168.0.9:2323/mimg ! jpegdec ! xvimagesink
- mjpeg and rtsp
- More examples at Using GStreamer
- Recording is done by the camogm program
- If recording to internal or external SSD, please, read about eSATA port switching
- important: Event logger (GPS, IMU, IMG, EXT) recording is started/stopped separately. See instructions below.
- For SATA devices camogm supports:
- recording to a partition with a file system - up to 80MB/s
- (default) faster recording to a partition without a file system (raw partition) avoiding OS calls - up to 220MB/s
- To extract data from a raw partition use dd or these scripts to get the data and split it into images. Follow this link for details.
- Can record to an mmc partiton or usb.
- More info
- If the prefix parameter, which is absolute path + prefix, for a channel is not set the file will be written somewhere to rootfs.
- if prefix is empty then the absolute path must end with a slash.
Example 1: (provide a correct media mount point - /mnt/sda1/)
Follow this link for GUI description.
- /home/root, file prefix=test_, 1GB or 10min files whichever occurs first
- setup and start (in one line):
echo "format=mov;status=/var/tmp/camogm.status;prefix=/home/root/test_;duration=600;length=1073741824;start" > /var/volatile/camogm_cmd
- stop recording:
echo "stop" > /var/volatile/camogm_cmd sync
Event Logger (GPS, IMU, IMG & EXT)
The FPGA-based Event Logger uses local clock for time-stamping data from Image Acquisition, External (Trigger) Input, GPS and IMU.
root@elphel393:~# cat /dev/imu > /path/filename.log
- stop - CTRL-C or kill the process
- http://192.168.0.9/read_imu_log.php (will display help)
- http://192.168.0.9/autocampars.php - save/restore/initialize camera/sensor parameters per port. To (re)store parameters access the pages below:
http://192.168.0.9/autocampars.php?sensor_port=0 (stores to /etc/elphel393/autocampars0.xml) http://192.168.0.9/autocampars.php?sensor_port=1 (stores to /etc/elphel393/autocampars1.xml) http://192.168.0.9/autocampars.php?sensor_port=2 (stores to /etc/elphel393/autocampars2.xml) http://192.168.0.9/autocampars.php?sensor_port=3 (stores to /etc/elphel393/autocampars3.xml)
- All stored parameters are automatically restored at boot
- http://192.168.0.9/parsedit.php - read/write parameters:
- POST request
Read: http://192.168.0.9/parsedit.php?sensor_port=0&PAR1&PAR2 Change: http://192.168.0.9/parsedit.php?sensor_port=0&PAR1&PAR2 - update values - submit form
- GET request - XML response
Read: http://192.168.0.9/parsedit.php?immediate&sensor_port=0&PAR1&PAR2 Change: http://192.168.0.9/parsedit.php?immediate&sensor_port=0&PAR1=VAL1&PAR2=VAL2 Change for multiple ports at once: http://192.168.0.9/parsedit.php?immediate&sensor_port=0&PAR1=VAL1&*PAR1=MASK1&PAR2=VAL2&*PAR2=MASK2 # A port bit mask is set by adding a * to a parameter name, like *PAR1 - it is individual for each parameter. # The mask is 4 bits - 1 bit per port, bit = port 0,... bit = port 3, where 1 - enabled, 0 - disabled: # 0xf - the parameter's new value will be applied to all ports. # More information
Note 1: if the parameter's value is specified in URL it will be applied. The call can have mixed specified and unspecified parameters.
Note 2: The new value is read on the next call.
- set 10 fps and enable output trigger signal
- parsedit.php and autocampars.php were ported from 353 camera series. There are a few changes from the originals related to 4x sensor ports:
- parameters are individual for each sensor port - writing parameters to multiple port at once is controlled with a (bit-)mask input box
- if opened w/o sensor_port specified the page will show links to available ports
- sensor_port=x, where x=0..3 - in the address string - for a single sensor camera it is normally 0
- color: YCbCr 4:2:0, 3x3 pixels
- mono6: monochrome - color YCbCr 4:2:0 with zeroed out color components
- mono : monochrome - color YCbCr 4:0:0 with omitted color components
Note: Is not the best for processing since a lot of information is lost at demosaicing
- Tshutdown - automatic shutdown temperature level (default is 90°C)
eSATA port switching
- requres 10389
- available connections:
- camera <=> internal SSD (default)
- camera <=> external drive (external drive will need a separate power source)
- PC <=> internal SSD
- More information
- if not properly shutdown - μSD might get corrupted (run sync at least)
shutdown -hP now
==20180511== * added cron program * multi cameras control interface * multi camera system info reporting * fixed rtc ==20180416== * 20180419 - mt9f002: fixed changing window size * mt9f002: added triggered mode * mt9f002: added vertical and horizontal flips (mirror) ==20180406== * added initial support for MT9F002 sensor: no triggered mode, no binning/decimation * display serial number in http://camera-ip:port/meta * decode jp4s on the index page (http://camera-ip) * turn off auto wb button for all ports on the index page ==20180130== * added photo finish demo * fixed fps limit calcs for triggered mode ==20180118== * raw.py & raw.php, see wiki.elphel.com * added python3 and python3-opencv ==20180116== * raw pixel data downloading through membridge * added gcc,make ==20180109== * fixed autoexposure ==20171228== * + strace, ltrace, dmsetup * added to drivers: register devs to sysfs - nodes then created by udev ==20171226== * kernel updated to 4.9 (from 4.0) * lots of drivers is updated to newer versions * +dm-crypt and cryptsetup ==20171120== * bugfix - incorrect displaying of TRIG_PERIOD at init ==20171115== * Fixed autocampars to let 10393 work with the mux board - 10359, see wiki.elphel.com for docs ==20170823== * Fixed autocampars for multiple sensors getting desynced at init * Fixed Garmin GPS 18x USB driver ==20170802== * fixed a page for taking snapshots - works in chrome and firefox for bigger images (>2MB) * enabled "Access-Control-Expose-Headers: Content-Disposition" and CORS ==20170627== * viewing decoded jp4 format in camvc ==20170623== * fixed incorrect default setting of the master channel
Change default ip address
Modify /etc/network/interfaces, sync the changes to the file system and reboot (or rerun init scripts).
For firmware 20180511 or older, follow these instructions to fix network configuration (= disable setting ip address via /etc/elphel393/init_elphel393.py).
Add a program or a shell command to autostart on boot
There's a way to do this using cron or init.d but it might run before the sensors are initialized by init_elphel393.py. The recommended way is the following:
- nano or vi
ssh email@example.com pass root@elphel393:~# nano /etc/elphel393/init_elphel393.py edit - save example: to launch the rtsp streamer - add shout("/usr/bin/str") to the end of the file. shout() function is just a wrapper for subprocess.call(cmd,shell=True)
#boot from NAND flash? root@elphel393:~# overlay_sync 1 root@elphel393:~# shutdown -hP now #powercycle
#boot from card? root@elphel393:~# sync root@elphel393:~# reboot -f
Set up histogram window and autoexposure parameters
Tools for calibrated systems
- Install ImageJ plugins
- decode jp4 raw format
- aberrations correction
- distortion correction (pixel mapping)
- rectification and projection
- JP46 Reader camera - decode JP4/JP46
- Eyesis correction - post-process JP4s using calibration data
Switch between ERS and GRR modes in MT9P006
External/internal synchronization & triggering and FPS control for single/multi-camera systems
- Displays sensor, compressor and buffer states per 10393 port:
Powering from batteries (12V or 48V)
Accessing raw pixel values
Photo finish (linescan mode)
Photo Finish (works for JP4 image format)
Controlling multiple cameras from single GUI
Developers version's half enclosure
Available lengths for cables for connecting sensors in custom setups
- FPC cables - click for available lengths.
- The cables are asymmetrical - for correct connecting a sensor to a system board see the figure below:
- [SOLVED] Vertical artifacts in jpegs. Images are ok at 100% quality. Fixed, testing.
- [SOLVED] http://192.168.0.9:232x/noexif/mimg - multipart jpeg displays corrupted frames from time to time. Reason: network bandwidth?
- [SOLVED] Sometimes on power-on (NAND flash boot) cannot mount the card's rootfs partition. Kernel Panics. Power off/on. Soft "reboot -f" works ok.
... Kernel panic - not syncing: VFS: Unable to mount root fs on unknown-block(179,2) ...
- [SOLVED] Changing exposure/quality/gains - can corrupt images - needs testing.
- [SOLVED] After rewriting rootfs to μSD card - some of the cards get a corrupted partition - re-partitioning (reformatting?) solves the problem.
On the camera the rootfs is mounted as RW and some of the files are changed (also links created) - most of the changes are now moved to tmpfs but something might have been missed.
- [SOLVED] In case rootfs is on flash, it might make sense (or maybe not as the history is updated only once on session exit) to disable bash sessions command history - disable bash history
- [SOLVED] When using overlays, deleting, existing in the lower layer, dirs can cause errors (hopefully it gets fixed someday), example:
- /mnt/sda1 exists in lower layer: /tmp/rootfs.ro/tmp
- upper layer is mounted to "/"
# rmdir /mnt/sda1 # mkdir /mnt/sda1 mkdir: cannot create directory '/mnt/sda1': Operation not supported