Using the cameras
- 1 Introduction
- 2 Complete set
- 3 Appearance
- 4 Connection
- 5 Main Control Page
- 6 Technical Information for the Elphel-353
Elphel network cameras — complex devices in whose development advanced technologies and non-standard program decisions are used. We constantly improve our products so that users can use the cameras with the least expense of time and effort. In this section of Elphel Network Cameras Manual you can find detailed information about using Elphel cameras.
The complete camera delivery set includes the actual network camera Elphel-353/363, and Live-DVD with a special edition of the GNU/Linux operating system Ubuntu, complete with all the necessary software for the camera.
The complete delivery set can also include lenses, an external power unit and connection cables for an additional payment.
On the bottom of the camera case is the standard carving socket for installation of the camera on a support.
PoE (IEEE 802.3af) technology is used to provide power to the Elphel cameras, using the same cable as that used for network connection.
The Elphel camera has a standard RJ-45 Ethernet port, and can be connected to a local network. This port is also used to provide power to the camera. You can do it in two ways:
1. Use the external power supply with integral DC Injector
2. Use the PoE switch with integral DC Injector
External power supply
The power supply has two built in RJ-45 jacks. J1 jack provides 48VDC and is used for connection to camera. You must use CAT5 "Crossover" cable for connection between J1 and the camera's RJ-45 jack.
J2 jack is used for connection to a hub/switch. You must use standard CAT5 cable for connection between J2 and the hub/switch RJ-45 jack.
2. PoE switch
PoE switches have special RJ-45 jacks which provide the 48VDC. You must use standard CAT5 cable for connection between the PoE switch special RJ-45 jacks and the camera's RJ-45 jack.
Two cable types are necessary for Elphel cameras - standard CAT5 cable and CAT5 "Crossover" cable if the camera is connected directly to the computer. Crossover cable is the same as used to connect two computers together with a single cable. If the camera is connected to a switch/hub (directly to the powered switch or through additional midspan power supply) no crossover cable is needed, all cables are straight.
How to wire a "Crossover" Cable.
The first color listed in the color pair is the dominant color of the wire. In other words, WHT/ORG is a white wire with orange stripes.
Main Control Page
On the top part of the page you should see a preview image. It is always 640x512, 800x600 or 512x386 pixels (1/2 or 1/4 of camera resolution depending on the sensor) and does not change with the selected decimation and window of interest (red rectangle over the image).
Below the preview image there are the camera controls:
In the Window section there are 2 buttons at the bottom-right corner of window. You may specify window of interest (WOI) by dragging these buttons with the mouse. You may also change it numerically by entering data to W(idth), H(eight), L(eft) and T(op) input fields below. That numbers are rounded according to the selected sensor decimation and to use integer multiples of 16x16 pixels MCUs in JPEG compression. You may also change WOI by choosing one of the frequently used size from the list.
By default the autoexposure is enabled. There is the special multicolor button for autoexposures management. The button colors is:
When Autoexposure window is opened, the area of exposure calculating is appeared in the Window section.
In the Autoexposure window there are a few buttons for positioning the area of exposure calculating. The fields below are used for settings changing of the exposure calculating.
In the Screen zone field you can change the area which should be used for exposure calculating (in percents).
In the Analyze pixels 1/_number_ field you can specify the amount of pixels which will be used for overlightening.
In the Max exposure field you can specify the maximal exposure time (in ms).
In the Exposure field there is an input field to specify frame exposure time (in ms) - it is possible to specify fractions. You may change this parameter by dragging the slider with the mouse.
Saturation section allows adjusting contrast saturation.
Gamma field controls contrast by adjusting intensity conversion, gamma=1.0 corresponds to linear response (high contrast). Values less than 1 increase input dynamic range by expanding low intensity values (low contrast). You may change this parameter by dragging the slider with the mouse.
JPEG Quality sets standard JPEG compression quality. The higher the quality the bigger the resulting file. It does not change the camera frame rate.
White balance section is a drop-down menu containing four static parameters: Sunlight, Cloudy, Incandenscent and Fluorescent. You can choose one of these parameters to achieve the highest quality image depending on the lighting conditions.
In the Image size drop-down menu you may choose the static window size.
In the Resolution section there are a drop-down menu containing a few parameters (from 0 to 8) for changing sensor decimation (resolution). 0 - full sensor decimation, 2 - 1/2 of full sensor decimation, 3 - 1/3 of full sensor decimation etc.
In the Binning section there are a drop-down menu containing a few parameters (from 0 to 3) which change the binning mode. Binning can be used only when decimation is greater than 1. Increases sensor sensitivity by combining values from several pixels instead of just discarding them (as done with just decimation).
Below are 3 buttons Preview, Reset and Apply. Preview button refreshes the image in the top portion on a page (ignoring selected WOI and decimation), The Reset button returns to the initial adjustment parameters. The Apply button is used to accept the new changes.
Also there are two links after Photo: New contains a link to a camera CGI program that has all the acquisition parameters attached. You may just click it to open the image in a new window or right-click it and select "Save link target as..." (or equivalent) to save the image on your computer. The second link Last points to the last image already in the camera memory; you may use it to save the previously aquired image to your hard drive.
Video Controls in this section allow users to record a video clip in the camera memory and send it over the LAN/Internet as a Quicktime video file. All settings for the image size, resolution, compression quality, analog gains and exposure are the same as for still images described above, and that link adds extra parameters - Frame Rate and Time Scale. The first sets the desired frame rate (leave blank or set to 0 for the maximal rate), the second field sets how much the playback time is longer than the acquisition one. I.e. setting of "10" makes the clip play 10 times slower that it was shot.
Total size of the clip (6-7MB) is determined by a camera internal buffer used for compressed image storage and the total number of frames as the frame headers are attached during the clip output and are not stored in the buffer. There are 2 ways to shoot a clip (usual duration 3-5 sec, depending on compression quality). First is to press Start stream button, wait for the event to occur and then press Acquire. In this mode after Start stream the camera continuously writes to the buffer, overwriting footage when all the available space is used. Pressing the Stop stream button ends data saving and so the buffer contains the last data recorded. Another way is to press Acquire before the event. In that mode the clip recording starts after the trigger and stops when the whole buffer is full.
There are additional controls to preview a videoclip from the camera memory. Frame number 1 is the first one, 2 - second, etc. Frame number 0 is the last one in the clip, -1 - previous before last, etc. Any image acquisition (including Preview) erases the stored clip and makes it one frame long.
Clicking on the Video Clip link opens the clip in the Apple QuickTime ™ (or compatible) player plugin (if installed) - you may also use this link to save the clip as a file on your computer.
Advanced Panel tab opens additional adjustment parameters for the image. In this section you may specify more exact adjustments of color levels of the image.
Gains section controls the sensor analog gain settings. R, G and B input fields control color component gains. Using high gain settings increases sensor noise but is required to view fast events with 1ms exposure time with the lighting used in the current setup.
R-Y specifies color saturation for red color component.
B-Y specifies color saturation for blue color component.
B specifies color saturation for blue color component.
W specifies level saturation for white color component.
The Flip-X button allows turning the image horizontally.
The Flip-Y button allows turning the image vertically.
NOTE: Some parameters (e.g. window size) cannot be changed without stopping the acquisition/compression.
Technical Information for the Elphel-353
The default IP address of the camera is 192.168.0.9 netmask 255.255.255.0
You should be able to ping the camera from another machine on the same subnet.
By default, the following TCP ports are open:
80/http (boa web server)
81/http (lighttpd web server [it will soon replace boa web server, actually both are available for testing])
You can log in to the camera via telnet on TCP port 23
The serial port settings (additional IO board 10349 is needed)
Speed: 19200 8N1
XON/XOFF : None
Changing IP address of the camera
The camera network settings can be changed by going to:
from an attached computer.
Multicast routing in Linux
In order to receive the multicast streaming from the cameras, you need to add the following route rule to an attached PC:
route add -net 220.127.116.11 netmask 240.0.0.0 <interface>
where <interface> is the interface connected to the camera (e.g. eth0).
The ElphelSoftwareKit live DVD does this for you automatically.
Free Software and Open Hardware. Elphel, Inc., 2005