Axis Communications TV DVD Combo AXIS P7701 User Manual

USER’S MANUAL  
AXIS P7701 Video Decoder  
 
AXIS P7701 - Table of contents  
Contents  
Key features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4  
Unit connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
LED indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Access from a browser . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8  
Access from the internet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
Adding a video source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
General Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14  
Security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16  
Date & Time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16  
Network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
COM Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21  
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21  
Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21  
About . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
Auto sequence mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23  
Manual sequence mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23  
Setting up alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24  
Notification syntax . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
Checking the Firmware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
Upgrading the Firmware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
General performance considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30  
3
 
AXIS P7701 - AXIS P7701 Video Decoder  
AXIS P7701 Video Decoder  
AXIS P7701 Video Decoder provides a simple monitoring solution by enabling analog or digital monitors to connect to and  
display live video from Axis network cameras and video encoders. AXIS P7701 is ideal for use with a public view monitor, and  
in large and small surveillance systems.  
AXIS P7701 can decode full frame rate video streams in H.264 and MPEG-4 in all resolutions up to D1 (720x480 pixels in  
NTSC, 720x576 in PAL). Motion JPEG can be decoded in all resolutions up to 720p (1280x720).  
AXIS P7701 can display video in resolutions up to 1280x720 pixels with its DVI output. The DVI interface is compatible with  
monitors with a digital or analog DVI input, and with VGA and HDMI monitors with the use of appropriate adaptors. On its  
composite video output, AXIS P7701 can display video up to D1 resolution. The audio out interface of AXIS P7701 supports the  
output of audio decoded from the AAC, G.726 or G.711 input formats.  
Through an RS-422/RS-485 serial port, AXIS P7701 allows serial commands to be sent to legacy equipment used in a  
surveillance system.  
An unlimited number of video sources can be shown in sequence. With auto-connect on alarm, AXIS P7701 can automatically  
display alarm-triggered video.  
The decoder can be powered using Power over Ethernet (PoE), which simplifies installation. An external power supply can also  
be used.  
In situations where only live video display is required—such as with a public view monitor at a store entrance, AXIS P7701  
offers a more cost-effective solution than using a PC for connecting a monitor. AXIS P7701 can also complement a video  
management system by helping to offload the main server from decoding digital streams simply for display purposes.  
Key features  
Full frame rate decoding of H.264, MPEG-4 and Motion JPEG  
AXIS P7701 can decode H.264 and MPEG-4 at 30/25 (NTSC/PAL) fps in all resolutions up to D1 (720x480 pixels in  
NTSC, 720x576 pixels in PAL). It can decode Motion JPEG in all resolutions up to 720p (1280x720 pixels).  
High-quality digital video using DVI interface  
Video can be digitally output in resolutions up to 1280 x 720 using the DVI interface. By using adapters, monitors with  
either VGA or HDMI can be connected to AXIS P7701.  
Analog output using composite video  
Composite video can be output at up to D1 (720x480 pixels in NTSC, 720x576 pixels in PAL) resolution via an RCA  
connector.  
Sequence mode for multiple video sources  
Multiple video sources can be displayed in sequence, either manually or automatically. Video sources can also be auto  
connected when receiving an alarm.  
High-quality audio  
AXIS P7701 can decode audio in AAC, G.726 or G.711 formats and output high quality analog audio.  
Serial port communication  
Commands can be sent to surveillance equipment using the RS-422/485 serial port.  
Advanced security and network management  
AXIS P7701 offers the highest degree of security, including user password, IP address filtering and reception of HTTPS  
encrypted video streams. AXIS P7701 has support for IP protocol version 6 in addition to the standard IPv4. IPv6 is a  
requirement in many large installations.  
4
 
           
AXIS P7701 - Hardware overview  
Hardware overview  
Top view  
Mounting holes  
Rear view  
Network connector (PoE)  
DVI-I connector  
PoE  
POWE R  
DVI OOUUTT  
PWR S TAT  
NE T  
VIDE O  
-
+
LED indicators for  
power, status,  
network and video  
Power adapter connector  
Audio, Video and I/O side view  
Control button side view  
RS-422/RS-485 connector  
RS-485/422  
I/O  
AUDIO OUT  
VIDEO OUT  
RX/TX  
TX  
1
2
3
4
Control button  
Audio out  
4-pin I/O terminal  
Video out  
Dimensions  
HxWxD = 33 x 99 x 118mm (1.3" x 3.9" x 4.7")  
Weight AXIS P7701 = 318g (0.7 lb) power supply excl.  
5
 
   
AXIS P7701 - Hardware overview  
Unit connectors  
Network connector - RJ-45 Ethernet connector. Supports Power over Ethernet (PoE). Using shielded cables is recommended.  
Power connector - 2-pin terminal block used for power input to the video decoder with the supplied power  
adapter or an external power supply 8-20V DC, max. 8.3 W.  
1
2
Function  
GND  
Pin number  
Description  
1
2
Ground  
DC Power  
Power input 8-20V DC, max 8.3W  
Note:  
Do not connect a power supply if the video decoder is connected to PoE.  
Audio out - Audio output that can be connected to a public address (PA) system or an active speaker with a built-in  
amplifier. A pair of headphones can also be attached. A stereo connector must be used for the audio out.  
DVI-I connector - The DVI-I connector has both analog and digital signals present simultaneously, so the DVI connector can  
be used to connect to a monitor with either digital or analog input.  
For digital input, the DVI-I connector can also be used to connect the AXIS P7701 to a monitor with a DVI input, or to a  
monitor with a HDMI connector with the addition of a DVI-to-HDMI adapter.  
The DVI connector can also be used with a DVI-to-VGA adapter to connect the AXIS P7701 to a monitor with a VGA analog  
input.  
RCA connector - Standard phono-type connector for composite video in PAL or NTSC. Allows direct connection of an analog  
TV device.  
Note:  
If you connect the AXIS P7701 to a monitor using the RCA connector, you cannot use the DVI-I connector at the same time to con-  
nect to a second monitor.  
I/O terminal connector - Used in applications for e.g. motion detection, event triggering, time lapse  
recording and alarm notifications. It provides the interface to:  
1 digital input - For a video select button  
Auxiliary power and GND  
1
2
3
4
Function  
Pin  
Notes  
Specifications  
GND  
1
2
Ground  
3.3V DC Power  
Can be used to power auxiliary equipment.   
Note: This pin can only be used as power out.  
Max. load = 250mA  
Digital Input  
Unused  
3
4
Input for video select button.  
Unused  
Note:  
The video switch is not part of the AXIS P7701, and there is currently no optional video switch available from Axis.  
However, it is possible for you to easily connect your own switch. See the connection diagram below..  
6
 
                     
AXIS P7701 - Hardware overview  
The following connection diagram gives an example of how to connect an auxiliary device to the AXIS P7701.  
1
AXIS P7701  
Switch  
Push to trigger video select  
3.3V max 250mA  
2
3 video input  
4 Unused  
RS-422/RS-485 connector - Two 2-pin terminal blocks for RS-485/422 serial interface used to control auxiliary equipment,  
e.g. PTZ devices.  
The RS-485/422 serial port can be configured to support:  
RS-485/422  
Two-wire RS-485 half duplex  
Four-wire RS-485 full duplex  
Two-wire RS422 simplex  
RX/TX  
TX  
3
Four-wire RS422 full duplex point to point communication  
1
2
4
Function  
Pin Notes  
RS-485/422 RX/TX A  
RS-485/422 RX/TX B  
RS-485/422 TX A  
RS-485/422 TX B  
1
2
3
4
(RX) For full duplex RS-485/422  
(RX/TX) For half duplex RS-485  
(TX) For full duplex RS-485/422  
LED indicators  
LED  
Color  
Indication  
Video  
Green  
Amber  
Red  
Encoder/Camera is connected.  
Steady when connecting to an encoder/camera.  
No encoder/camera is connected.  
Network Green  
Amber  
Steady for connection to a 100 Mbit/s network. Flashes for network activity.  
Steady for connection to 10 Mbit/s network. Flashes for network activity.  
No network connection.  
Unlit  
Status  
Power  
Green  
Amber  
Red  
Steady green for normal operation.  
Steady during startup, during reset to factory default or when restoring settings.  
Slow flash for failed upgrade.  
Green  
Amber  
Normal operation.  
Flashes green/amber during firmware upgrade.  
7
 
     
AXIS P7701 - Accessing the Video Decoder  
Accessing the Video Decoder  
To install this AXIS product, refer to the installation guide supplied with your product.  
The video decoder can be used with most standard operating systems and browsers. The recommended browser is Microsoft  
Internet Explorer with Windows, Safari with Macintosh and Firefox with other operating systems. See Technical Specifications  
Access from a browser  
1. Start a browser (Internet Explorer, Firefox, Safari).  
2. Enter the IP address or host name of the decoder in the Location/Address field of your browser.  
To access the decoder from a Macintosh computer (Mac OSX), click on the Bonjour tab and select your AXIS product  
from the drop-down list (the Bonjour tab is only available in Safari).  
3. If this is the first time you are accessing the decoder, see Setting the root password, on page 9. Otherwise enter your  
user name and password, set by the administrator.  
4. The decoder’s Basic Setup page appears in your browser.  
8
 
     
AXIS P7701 - Accessing the Video Decoder  
Setting the root password  
1. When accessing the decoder for the first time, the Configure Root Password  
dialog appears.  
Note:  
Before you enter your password at this point, you can secure configuration of  
the root password via HTTPS by creating a self-signed certificate. To do so, click  
the Create self-signed certificate... button in the Create Certificate window.  
To create an HTTPS connection,  
click this button.  
To configure the password directly  
via an unencrypted connection, enter  
the password here.  
2. Enter a password and re-enter to confirm. Click OK. The Enter Network Password dialog appears.  
3. Enter the password set in step 2, and click OK. If the password is lost, the decoder must be reset to the factory default  
settings. See page 23.  
Note:  
The default administrator user name ‘root’ is permanent and cannot be deleted.  
Access from the internet  
Once connected, the decoder is accessible on your local network (LAN). To access the decoder from the Internet you must  
configure your broadband router to allow incoming data traffic to the decoder. To do this, enable the NAT-traversal feature,  
which will attempt to automatically configure the router to allow access to the decoder. This is enabled from System Options  
> Network > TCP/IP Advanced.  
For more information, please see NAT traversal (port mapping) for IPv4, on page 18. See also the AXIS Internet Dynamic DNS  
Notes:  
HTTPS (Hypertext Transfer Protocol over SSL) is a protocol used to encrypt the traffic between web browsers and  
servers. The HTTPS certificate controls the encrypted exchange of information.  
The default administrator user root cannot be deleted.  
If the password for root is lost or forgotten, the video decoder must be reset to the factory default settings. See page  
9
 
           
AXIS P7701 - Video Sources  
Video Sources  
This section describes how to add and manage video sources (encoders and cameras) in the AXIS P7701 Network Video  
Decoder.  
The Video Source List shows all of the sources currently added to the system. Various information about each source is shown,  
including the source’s last known status.  
A video source list can also be imported or exported.  
Adding a video source  
Click the Add... button to open the Add Video Source dialog.  
When adding a new video source, ensure that it is correctly connected  
and powered up before attempting configuration. The following settings  
need to be made:  
Name - Provide a unique name for the new video source.  
Sequence mode - Select whether or not to include the video source in  
auto and/or manual sequence mode. If Auto is selected, also enter a  
Display time, to set how long the video source will be displayed for, before  
switching to the next source in the list. Note that if neither sequence  
mode is selected, the video source will only be displayed if the Connect to  
button in the video source list is clicked, or if an alarm triggers display of  
the source. See also page 14 for more information on sequence mode.  
Video port number - Enter which video port on the video source should  
be accessed. Some different valid values are, for cameras 1, for video  
servers 1 to 4 or quad and for cameras supporting virtual image sources it is 1 to 8.  
Http port - TCP/IP port to access http on video source.  
Https port - TCP/IP port to access https on video source.  
10  
 
       
AXIS P7701 - Video Sources  
Transport method - Select which protocol to use for transport:  
Automatic  
RTSP unicast  
RTSP multicast  
RTSP tunnel  
HTTP  
HTTP RTSP tunnel  
HTTPS  
Network settings  
Address - Enter the IP address (or host name) of the video encoder or camera to add:  
Example: 192.168.0.90  
User Name and Password - If authentication is required by the video encoder or camera, enter the user name and password  
to access it.  
Notes:  
Selecting a user with viewing rights only on the encoder or camera is recommended.  
The video encoder’s or camera’s home pages can be opened in your browser by clicking the provided button.  
Video & audio settings  
Stream profile - Some video encoders and cameras support multiple stream profiles. If this is available, select the profile to  
connect to. This value has no effect if the video encoder or camera only supports one stream profile.  
Video type - Set the AXIS P7701 to automatically detect the video source format, or select the required format from the  
drop-down list. Automatic attempts to detect formats in the following order:  
H.264 RTP multicast  
H.264 RTP unicast  
H.264 RTP over RTSP  
H.264 RTP over RTSP over HTTP  
H.264 RTP over RTSP over HTTPS  
MPEG-4 RTP multicast  
MPEG-4 RTP unicast  
MPEG-4 RTP over RTSP  
MPEG-4 RTP over RTSP over HTTP  
MPEG-4 RTP over RTSP over HTTPS  
Motion JPEG  
Motion JPEG over HTTPS  
Selecting Automatic is recommended in most cases, but there are exceptions. For example, if Automatic is selected and the  
video source supports MPEG-4 Multicast, then that format will automatically be selected. However, if the multicast data is  
not correctly routed, the video stream from the encoder or camera will not reach the AXIS P7701. In this case, the format  
should instead be set to MPEG-4 unicast.  
As video sources are added to the AXIS P7701, they are stored in the decoder’s cache. This makes reconnecting to a source  
much faster.  
11  
 
AXIS P7701 - Video Sources  
Notes:  
Performing certain actions will empty the unit’s cache and start a new round of autodetection.  
When autodetect is used to connect to a new encoder or camera for the first time, the connection will take longer to  
complete.  
Resolution - This setting is valid for firmware 5.xx for all codecs. To use a resolution other than the source's default value,  
select the custom radio button and enter the required resolution.  
The resolutions available depend on the encoder or camera being used. Please see the encoder’s or camera’s online help for the  
available resolutions.  
Compression - This setting is valid for firmware 5.xx for all codecs. To use a compression other than the source's default  
value, select the custom radio button and enter a compression value (0-100).  
Audio - Select Audio to receive audio from the video source.  
Preset position - If the video source has Pan/Tilt/Zoom capability, it is also possible to select a PTZ preset position view, by  
entering the name of the preset here. To add new preset positions, please refer to the manual for the video source. When you  
click OK, the PTZ device/camera should then move to the selected view.  
12  
 
AXIS P7701 - Status  
Status  
The Status page provides general status information, and also shows information on the video source currently connected to  
the AXIS P7701 Video Decoder. A list of recent log messages are displayed at the bottom of the page. For more information  
about log entries, please see the online help  
.
13  
 
   
AXIS P7701 - Video & Audio  
Video & Audio  
General Setup  
This page provides settings for configuring the start up mode, alarm notification, video and audio output.  
General  
Connect at startup - When selected, the AXIS P7701 will automatically connect to the first video source in the video source  
list at startup. When unselected, it will stay disconnected and wait for user input or alarms.  
Automatic detection timeout - This defines how long time the decoder will wait for a video source to respond before it goes  
to the next video source in the sequence.  
Sequence mode - When set to Automatic, the AXIS P7701 automatically cycles through the video sources in the list on the  
Video Sources page. In Manual mode, the next source is displayed when the video select button is pressed. See page 14 for  
more information.  
Video select button - Enables or disables the video select button.  
Alarm  
The AXIS P7701 can automatically switch to a video source that sends an alarm. See page 15 for more information.  
Video Out  
TV system - Select the TV system type to use. If you are using an analog monitor or television, most western European  
countries use the PAL system, whereas the system in the United States is NTSC. For digital monitors and HDMI ready  
televisions, the AXIS P7701 supports a resolution of up to 720p.  
Consult the user documentation for your device to select a suitable resolution to set for TV system.  
Video output - If you are using the RCA connector select Composite, otherwise select VGA and DVI if you are connecting  
your device to the AXIS P7701 via the DVI-I connector.  
14  
 
     
AXIS P7701 - Video & Audio  
Margin adjustment - As video monitors often use too much of the available screen area, some parts of the monitored scene  
might not be visible. To correct this, the AXIS P7701 allows the margin to be adjusted on all 4 sides, so that the image is  
forced more towards the center of the screen. A margin is added by default, and values (number of TV-lines) in the following  
ranges are allowed:  
PAL - Vertical: 0 till 575, Horizontal: 0 till 719. The sum of the vertical values cannot exceed 575.  
The sum of the horizontal values cannot exceed 719.  
NTSC- Vertical: 0 till 479, Horizontal: 0 till 719. The sum of the vertical values cannot exceed 479.  
The sum of the horizontal values cannot exceed 719.  
Audio out  
Volume (0-100) - Set the level of the audio output on the AXIS P7701. The default value is 50. For more information see the  
online help  
15  
 
 
AXIS P7701 - System Options  
System Options  
Security  
Change password  
Enter a password for the administrator or root user, and then re-enter it to confirm the spelling. Click OK. The password has  
now been changed.  
IP Address Filter  
Enable IP Address Filtering to allow or deny access to the video decoder. Once enabled, the IP addresses in the list are allowed  
or denied access according to the choice made in the drop-down list Allow/Deny the following IP addresses.  
The administrator can add up to 256 IP address entries to the list (a single entry can contain multiple IP addresses).  
HTTPS  
The video decoder supports encrypted browsing using HTTPS.  
A self-signed certificate can be used until a Certificate Authority-issued certificate has been obtained. Click the Create  
self-signed Certificate button to install a self-signed certificate. Although self-signed certificates are free and offer some  
protection, true security is only implemented after the installation of a signed certificate issued by a certificate authority.  
A signed certificate can be obtained from an issuing Certificate Authority by clicking the Create Certificate Request button.  
When the signed certificate is returned, click the Install signed certificate button to import the certificate. The properties of  
any certificate request currently resident in the decoder or installed can also be viewed by clicking the Properties... button.  
The HTTPS Connection Policy must also be set in the drop-down lists to enable HTTPS in the decoder.  
For more information, please refer to the online help  
.
802.1X  
IEEE 802.1X is an IEEE standard for port-based Network Admission Control. It provides authentication to devices attached to a  
network port (wired or wireless), establishing a point-to-point connection, or, if authentication fails, preventing access on  
that port. 802.1X is based on EAP (Extensible Authentication Protocol).  
In a 802.1X enabled network switch, clients equipped with the correct software can be authenticated and allowed or denied  
network access at the Ethernet level.  
Clients and servers in an 802.1X network may need to authenticate each other by some means. In the Axis implementation  
this is done with the help of digital certificates provided by a Certification Authority. These are then validated by a third-party  
entity, such as a RADIUS server, examples of which are Free Radius and Microsoft Internet Authentication Service.  
To perform the authentication, the RADIUS server uses various EAP methods/protocols, of which there are many. The one used  
in the Axis implementation is EAPOL using EAP-TLS (EAP-Transport Layer Security).  
The Axis network video device presents its certificate to the network switch, which in turn forwards this to the RADIUS server.  
The RADIUS server validates or rejects the certificate and responds to the switch, and sends its own certificate to the client for  
validation. The switch then allows or denies network access accordingly, on a preconfigured port.  
Date & Time  
Current Server Time - Displays the current date and time (24h clock).  
New Server Time - Select your time zone from the drop-down list. If you want the server clock to automatically adjust for  
daylight savings time, select the Automatically adjust for daylight saving time changes option.  
16  
 
                     
AXIS P7701 - System Options  
From the Time Mode section, select the preferred method to use for setting the time:  
Synchronize with computer time - sets the time from the clock on your computer.  
Synchronize with NTP Server - the decoder will obtain the time from an NTP server continuously.  
Set manually - this option allows you to manually set the time and date.  
Note: If using a host name for the NTP server, a DNS server must be configured under TCP/IP settings.   
See Network > Basic TCP/IP Settings below.  
Network  
Basic TCP/IP Settings  
Your Axis video decoder supports both IP version 4 and IP version 6. Both versions may be enabled simultaneously, and at least  
one version must always be enabled. When using IPv4, the IP address for the decoder can be set automatically via DHCP, or a  
static IP address can be set manually. If IPv6 is enabled, the video decoders receive an IP address according to the  
configuration in the network router. There are also options for setting up notification of changes in the IP address, and for  
using the AXIS Internet Dynamic DNS Service. For more information on setting the IP address, please see the online help  
.
Network Settings - Click the View button for an overview of the IP configuration of the video decoder.  
IPv4 Address Configuration - Select the Enable IPv4 box option to enable IPv4.  
Obtain IP address via DHCP - Dynamic Host Configuration Protocol (DHCP) is a protocol that lets network administrators  
centrally manage and automate the assignment of IP addresses on a network. DHCP is enabled by default. Although a DHCP  
server is mostly used to set an IP address dynamically, it is also possible to use it to set a static, known IP address for a  
particular MAC address.  
Note: DHCP should only be enabled if your DHCP server can update a DNS server, which then allows you to access the  
video decoder by name (host name). If DHCP is enabled and you cannot access the unit, run AXIS IP Utility to search the net-  
work for connected Axis products or reset the video decoder to factory default settings and then perform the installation  
again.  
Use the following IP address - To use a static IP address for the video decoder, check the radio button and then make the  
following settings:  
IP address - Specify a unique IP address for your video decoder. (To check if the IP address you intend to use is avail-  
able or not, click the Test button)  
Subnet mask - Specify the mask for the subnet the video decoder is located on  
Default router - Specify the IP address of the default router (gateway) used for connecting devices attached to differ-  
ent networks and network segments  
IPv6 Address Configuration - Select the Enable IPv6 box option to enable IPv6. Other settings for IPv6 are configured in  
the network router.  
Services - Enable ARP/Ping setting of IP address - The IP address can be set using the ARP/Ping method, which associates  
the unit's MAC address with an IP address. Check this box to enable the service. Leave disabled to prevent unintentional  
resetting of the IP address.  
Notes:  
The ARP/Ping service is automatically disabled two minutes after the unit is started, or as soon as an IP address is set.  
In order to reset the IP address, the decoder must be restarted to activate ARP/Ping for an additional two minutes.  
Pinging the unit is still possible when this service is disabled.  
AXIS Internet Dynamic DNS Service - Use the AXIS Internet Dynamic DNS service to assign a host name for easy access to  
your video decoder (requires Internet access).  
17  
 
             
AXIS P7701 - System Options  
Click System Options > Network > Basic > Settings... to register the decoder with the Axis Internet Dynamic DNS service, or  
to modify the existing settings (requires access to the Internet). The domain name currently registered at the Axis Internet  
Dynamic DNS service for your product can at any time be removed.  
For more information, please refer to the online help  
.
Advanced TCP/IP Settings  
DNS Configuration - DNS (Domain Name Service) provides the translation of host names to IP addresses on your network.  
Obtain DNS server address via DHCP - Automatically use the DNS server settings provided by the DHCP server. Click the View  
button to see the current settings.  
Use the following DNS server address - Enter the desired DNS server by specifying the following:  
Domain name - Enter the domain(s) to search for the host name used by the video decoders. Multiple domains can be  
separated by semicolons (;). The host name is always the first part of a Fully Qualified Domain Name, for example, myserver is  
the host name in the Fully Qualified Domain Name myserver.mycompany.com where mycompany.com is the Domain name.  
Primary and Secondary DNS servers - Enter the IP addresses of the primary, and secondary DNS servers.  
Note: This is not mandatory with regard to secondary DNS servers.  
NTP Configuration - Check the Obtain NTP server address via DHCP radio button to automatically look up and use the  
NTP server settings as provided by DHCP. Click the View button to see the current settings.  
Use the following NTP server address - To create manual settings, check this radio button and enter the host name or IP  
address of the NTP server.  
Host Name Configuration - The video decoders can be accessed using a host name, instead of an IP address. The host  
name is usually the same as the assigned DNS Name.  
For more information, please see Security, on page 16.  
Link-Local IPv4 Address - This is enabled by default and assigns the video decoders an additional IP address for use with  
UPnP. The decoder can have both a Link-Local IP and a static/DHCP-supplied IP address at the same time - these will not  
affect each other.  
HTTP and HTTPS - The default HTTP/HTTPS port numbers (80 and 443 respectively) can be changed to any port within the  
range 1024-65535. This is useful for simple security port mapping, for example.  
NAT traversal (port mapping) for IPv4 - A broadband router allows devices on a private network (LAN) to share a single  
connection to the Internet. This is done by forwarding network traffic from the private network to the “outside”, that is, the  
Internet. Security on the private network (LAN) is increased since most broadband routers are pre-configured to stop attempts  
to access the private network (LAN) from the public network/Internet.  
18  
 
             
AXIS P7701 - System Options  
Use NAT traversal when your video decoders are located on an intranet (LAN) and you wish to make it available from the  
other (WAN) side of a NAT router. With NAT traversal properly configured, all HTTP traffic to an external HTTP port in the NAT  
router is forwarded to the decoder.  
LAN (intranet)  
WAN (internet)  
Broadband  
(NAT)  
router  
ISP  
Notes:  
For NAT traversal to work, this must be supported by the broadband router.  
The broadband router has many different names: “NAT router”, “Network router“, Internet Gateway”, “Broadband  
sharing device” or “Home firewall” but the essential purpose of the device is the same.  
Enable/Disable - when enabled, the video decoders attempt to configure port mapping in a NAT router on your network, using  
UPnP™. Note that UPnP™ must be enabled in the decoder (see System Options > Network > UPnP).  
Use manually selected NAT router - select this option to manually select a NAT router and enter the IP address for the router  
in the field provided.  
If a router is not manually specified, the video decoders automatically search for NAT routers on your network. If more than  
one router is found, the default router is selected.  
Alternative HTTP port - select this option to manually define an external HTTP port. Enter the port number in the field  
provided. If no port is entered here a port number is automatically selected when NAT traversal is enabled.  
Notes:  
An alternative HTTP port can be used/be active even if NAT traversal is disabled. This is useful if your NAT router does  
not support UPnP and you need to manually configure port forwarding in the NAT router.  
If you attempt to manually enter a port that is already in use, another available port is automatically selected.  
When the port is selected automatically it is displayed in this field. To change this enter a new port number and click  
Save.  
FTP - The FTP server running in the video decoders enables the upload of new firmware, and user applications. Check the box  
to enable the service.  
Proxy settings  
Proxy settings allows you to set up an HTTP proxy server if, for example, you want the AXIS P7701 to be able to access  
cameras outside of a firewall. Follow the steps below to set up an HTTP proxy server:  
1. Select enable to use the HTTP proxy server  
2. Enter a descriptive name for the proxy server  
3. Specify which port to use. The default port is 8080  
4. Enter local network IP addresses with subnet mask  
5. Enter the User name and Password for the proxy server  
19  
 
   
AXIS P7701 - System Options  
SMTP (email)  
Enter the host names (or IP addresses) and port numbers for your primary and secondary mail servers in the fields provided, to  
enable the sending of notifications from the decoder to predefined addresses via SMTP.  
If your mail server requires authentication, check the box for Use authentication to log in to this server and enter the  
necessary information. See the online help  
for more information.  
SNMP  
The Simple Network Management Protocol (SNMP) allows remote management of network devices. An SNMP community is  
the group of devices and management station running SNMP. Community names are used to identify groups.  
Depending on the level of security required, select the version of SNMP to use. The three levels of security are:  
SNMP v1/v2 - Select either SNMP V1 that includes no security, or SNMP V2c that uses very simple security.  
The community name can be specified as a password for read or read/write access to all supported SNMP objects. The  
community is the group of network devices using SNMP. The default password for the Read Community is public and the  
default password for the Write community is write.  
Traps for SNMP v1/v2  
Traps are used by the decoder to send messages to a management system for important events or status changes.  
If Enable traps is selected, enter the IP address where the trap message is to be sent as well as the Trap community that  
should receive the message.  
There are four types of traps available for the video decoder.  
Cold start  
Warm start  
Link up  
Authentication failed  
SNMP v3 - SNMP V3 - provides encryption and secure passwords. HTTPS must be enabled. To use traps with SNMP v3 an  
SNMP v3 management application is required.  
If the Enable SNMP v3 option is enabled, provide the Initial user password. Note that the initial password is activated only  
when HTTPS is enabled and can only be set once.  
If HTTPS is enabled, SNMP v1 and SNMP v2c should be disabled.  
When SNMP configuration is ready, click Save to use the new settings or Reset to return to the default values.  
UPnP™  
The video decoder includes support for UPnP™. UPnP™ is enabled by default, and the video decoder then is automatically  
detected by operating systems and clients that support this protocol.  
Bonjour  
The video decoder includes support for Bonjour. When enabled, the decoder is automatically detected by operating systems  
and clients that support this.  
Ports & Devices  
This page allows configuration of the COM port. For more information please see the online help  
.
20  
 
         
AXIS P7701 - System Options  
COM Port  
The RS-422/RS-485 serial connector allows you to connect legacy and auxiliary equipment to the AXIS P7701. Once  
connected, an encoder or camera can be configured to receive data such as alarms and messages from these devices.  
Serial port settings - Select the appropriate settings for connecting your auxiliary device to the AXIS P7701. Consult device’s  
user documentation for the appropriate settings.  
Use the Mode setting to either manually Off, or automatically Auto, send data from your device to an encoder or camera.  
The auxiliary device can be connected to the AXIS P7701 using either the RS-485 or RS-422 serial interface. If RS-485 is  
selected, the data direction can be set to either Full or Half duplex.  
For more information please see the online help  
.
Maintenance  
Restart - •The decoder is restarted without changing any settings.  
Restore - •The unit is restarted and most current settings are reset to factory default values. The settings that do not reset  
are:  
the boot protocol (DHCP or static)  
the static IP address  
the default router  
the subnet mask  
the product interface language  
the system time  
Default - The default button should be used with caution. Pressing this returns the decoder's settings to the factory default  
values (including the IP address).  
Upgrade Server - See Upgrading the Firmware, on page 27.  
Support  
The Support Overview page provides valuable information on troubleshooting and contact information, should you require  
technical assistance.  
The System Overview page provides an overview of the decoder’s status and settings. Information that can be found here  
includes the decoder’s firmware version, IP address, video sources, security and recent log items. Many of the captions are also  
links to other pages where you can make adjustments to the decoder’s settings.  
Logs & Reports  
When contacting Axis support, please be sure to provide a valid  
Server Report with your query. The Access Log is automatically  
included in the server report.  
Information - the Server Report and Parameter List may prove  
useful when troubleshooting a problem or when contacting the Axis  
support web.  
System Log - Provides information about system events.  
Access Log - By default, the Access Log lists all failed attempts to access the decoder but can be configured to list  
all connections to the decoder, whether successful or not. Go to Support > Logs & Reports > Configuration and  
select the desired level of information from the list. See Configuration - From the drop-down lists, select the level  
21  
 
               
AXIS P7701 - System Options  
for more information.  
The Access Log is useful for various purposes such as tracking all access to the decoder, simple web attraction  
tracking, system analysis and troubleshooting.  
Server Report - Provides information about the server status and should always be included when requesting  
support.  
Parameter List - Shows the unit's parameters and their current settings.  
Configuration - From the drop-down lists, select the level of information to be added to the System Log and Access Log files  
and the permitted size of the log files.  
The default information level for the Access Log is set to Critical & Warnings, i.e. failed connections. However, in an error  
situation and when requesting support, set it to the highest information level - Critical & Warnings & Info.  
For the Log Level for Email, select from the drop-down list the level of information to send as email and enter the destination  
email address.  
Advanced  
Scripting is an advanced function that enables you to customize and use scripts. This function is a very powerful tool.  
Note: Improper use may cause unexpected behavior or even cause loss of contact with the unit. If a script does cause  
problems, reset the unit to its factory default settings. A backup file may be of use to return the unit to its latest  
configuration.  
Axis recommends that you do not use this function unless you understand the consequences. Note that Axis support does  
not provide assistance for problems with customized scripts.  
Plain Config - this function is for the advanced user with experience of Axis video decoder configuration. All parameters can  
be set and modified from this page. Help is available from the standard help pages.  
About  
Here you can find basic information about your video decoder. You can also view third party software licenses.  
22  
 
     
AXIS P7701 - Sequence Mode  
Sequence Mode  
The AXIS P7701 displays the video from the connected sources in 2 different sequence modes - auto mode and manual mode.  
Auto sequence mode  
In this mode, the video sources in the list on the Video Sources page are automatically cycled through, one by one. Auto mode  
can be paused and resumed by pressing the Video Select button.  
Action/event  
Result in auto sequence mode  
Connection established  
Video source displayed.  
Connection to currently playing source is lost.  
Screen goes blank and, depending on the remaining display time, the  
decoder either tries to reconnect or goes to the next source. The source  
cache is cleared, resulting in a new autodetection. See also Adding a  
video source, on page 10.  
Video select button is pressed during display.  
Video select button is pressed during pause.  
Parameters are changed.  
Automatic cycling is paused.  
Automatic cycling is resumed directly at the next source.  
The connection cache is cleared and all sources are autodetected again  
upon the next connection.  
User presses Connect to button in web interface to connect  
to a video source not included in the auto mode list.  
The decoder connects to that source. After the display time has  
elapsed, the next source in the auto list is selected.  
Alarm received from video encoder or camera.  
Alarm is ignored.  
Manual sequence mode  
When in manual mode, the AXIS P7701 displays a single video source and only skips to the next source when the video select  
button is pressed.  
Action/event  
Result in manual sequence mode  
Connection established  
Video source displayed.  
Connection to currently playing source is lost.  
The screen goes blank and the decoder attempts to reconnect. The  
source cache is cleared, resulting in a new autodetection.  
Video select button is pressed during display.  
Decoder cycles to next source. If the next source is not already cached,  
autodetection will occur.  
Video select button is pressed during autodetect of next  
source.  
Autodetect is aborted on that source and the decoder attempts to go  
to the next source.  
Parameters are changed.  
The connection cache is cleared and all sources are autodetected  
again, upon the next connection.  
User uses Connect to button in web interface to connect to  
a video source not included in the manual mode list.  
The decoder connects to that source. When the video select button is  
pressed, the next source in the manual mode list is selected.  
Alarm notification received from video encoder or camera.  
Decoder switches to display from the encoder or camera that sent the  
alarm.  
Note: Keeping the video select button pressed for more than 2 seconds will disconnect the AXIS P7701.  
23  
 
       
AXIS P7701 - Alarms  
Alarms  
Many Axis video encoders and network cameras can send notification messages whenever certain types of events occur. These  
messages can be received by the AXIS P7701 and used as alarms. The incoming alarm causes the AXIS P7701 to switch to the  
video source in the alarm message. The AXIS P7701 automatically switches to the video source in the alarm message.  
The notification messages sent by video encoders or cameras are the result of events occurring in those devices. These events  
may be triggered by an incoming signal on an input on the encoder or camera, or they may be the result of detected motion in  
the scene monitored by the encoder or camera.  
External alarm   
device  
Alarm  
Alarm notification  
AXIS P7701  
TCP/IP  
Network  
Motion detection   
alarm  
Work station  
To allow alarms to be received by the AXIS P7701, the Sequence mode must be set to Manual, and Receive alarms must be set  
to Yes. Both settings are found on the General settings page. When enabled, the AXIS P7701 automatically switches to the  
video source specified in the alarm message.  
Note: The ability to send TCP and HTTP notification messages depends on the Axis video encoder or camera being used.  
Setting up alarms  
For the AXIS P7701 to respond correctly to alarms, the following steps need to be taken:  
1. To configure the AXIS P7701, add the video encoder or camera to the list of video sources. Refer to Adding a video  
source, on page 10 for instructions.  
2. To configure the video encoder or network camera, add the AXIS P7701 as a TCP or HTTP Event Server. These screen  
shots show examples of both types of servers. Refer to the documentation of the video encoder or camera for  
instructions on how to set up an Event Server.  
24  
 
     
AXIS P7701 - Alarms  
Notes:  
The TCP alarm port on the AXIS P7701 is configured on the Network Settings page.  
3. Configure the Event Type to send a notification message to the event server (i.e. the AXIS P7701).  
Notification syntax  
The notification message is formatted differently for TCP and HTTP.  
TCP notification syntax  
Enter the notification message in the Message field, in the format:  
sourcename=<name from list>&textmessage=<my message>  
For example:  
sourcename=DoorCam1&textmessage=Door is open  
The message is sent to the TCP port (default 2048) on the AXIS P7701.  
HTTP notification syntax  
Enter the notification message in the Custom parameters field, in the format:  
sourcename=<name from list>&textmessage=<my message>  
For example:  
sourcename=DoorCam1&textmessage=Door%20is%20open  
The message is sent to the HTTP port (default 80) on the AXIS P7701.  
Note: All non-alphanumerical characters included in an HTTP notification message must be URL-encoded.  
For example, a blank space must be written as %20, as in Door%20is%20open.  
For more information, please see the online help. For more information concerning the video encoder or camera, see that  
product’s documentation and online help.  
25  
 
 
AXIS P7701 - Resetting to Factory Default Settings  
Resetting to Factory Default Settings  
To reset the AXIS P7701 to its original factory default settings, go to the System Options > Maintenance web page (as  
described in Maintenance, on page 21) or use the Control button (see page 5) as described below:  
Using the Control Button  
To reset the decoder to the factory default settings using the Control Button:  
1. Disconnect the power cable or if using PoE, disconnect the network cable.  
2. Press and hold the Control button while reconnecting power.  
3. Keep the Control button pressed until the Status indicator displays amber (this may take up to 15 seconds).  
4. Release the Control button.  
5. When the Status indicator changes to green (which may take up to 1 minute), the process is complete and the  
decoder has been reset. The unit now has the default IP address 192.168.0.90  
Note: For other methods of setting the IP address, please refer to the product’s Installation Guide that accompanies the  
26  
 
     
AXIS P7701 - Troubleshooting  
Troubleshooting  
Checking the Firmware  
Firmware is software that determines the functionality of the video decoder. One of your first actions when troubleshooting a  
problem should be to check the current firmware version. The latest version may contain a correction that fixes your particular  
problem. The current firmware version in your decoder is displayed on the page About.  
Upgrading the Firmware  
When you upgrade your decoder with the latest firmware from the Axis Web site, your decoder receives the latest  
functionality available. Always read the upgrade instructions and release notes available with each new release, before  
updating the firmware.  
Note:  
Preconfigured and customized settings are saved when the firmware is upgraded (providing the features are available  
in the new firmware) although this is not guaranteed by Axis Communications. Always read the instructions and  
release notes available with each new release, before upgrading the firmware.  
1. Save the firmware file to your computer. The latest  
version of the firmware is available free of charge  
from the Axis website at www.axis.com/techsup  
2. Go to System Options > Maintenance in the  
decoder’s web pages.  
3. In the Upgrade Server section, browse to the desired  
firmware file on your computer. Click Upgrade.  
Notes:  
After starting the upgrade process, always wait at  
least 5-10 minutes before restarting the decoder, even if you suspect the upgrade has failed.  
Your dealer reserves the right to charge for any repair attributable to faulty upgrading by the user.  
The AXIS Camera Management software tool can be used for multiple upgrades. Please see the Axis website at  
Emergency Recovery Procedure  
If power or the network connection to the decoder is lost during the upgrade, the process fails and the unit becomes  
unresponsive. A flashing red Status LED indicates a failed upgrade.To recover the unit, follow the steps below. The serial  
number is found on the label attached to the bottom of the decoder.  
1. UNIX/Linux - From the command line, type the following:  
arp -s <IP address of decoder> <serial number> temp  
ping -s 408 <IP address of decoder>  
Windows - From a command/DOS prompt, type the following:  
arp -s <IP address of decoder> <serial number>  
ping -l 408 -t <IP address of decoder>  
2. If the unit does not reply within a few seconds, restart it and wait for a reply. Press CTRL+C to stop Ping.  
3. Open a browser and type in the decoder’s IP address. In the page that appears, use the Browse button to select the  
upgrade file to use, for example, axisp3343.bin. Then click the Load button to restart the upgrade process.  
4. After the upgrade is complete (1-10 minutes), the unit automatically restarts and shows a steady green on the Power  
and Status LEDs and flashing green or amber on the Network LED.  
5. Reinstall the decoder, referring to the installation guide.  
If the emergency recovery procedure does not get the decoder up and running again, please contact Axis support at  
27  
 
             
AXIS P7701 - Troubleshooting  
Axis Support  
If you contact Axis support, please help us to help you solve your problems by providing the server report, the log file and a  
detailed description of the problem.  
Server Report - go to System Options > Support > Support Overview. The server report contains important information  
about the server and its software, as well as a list of the current parameters.  
The Log file is available from System Options > Support > Logs & Reports. The Log file records events in the unit since the  
last system restart and can be a useful diagnostic tool when troubleshooting.  
Symptoms, Possible Causes, and Remedial Action  
Problems setting the IP address  
When using ARP/Ping  
Try installation again. The IP address must be set within two minutes after power is  
applied to the decoder. Ensure the Ping length is set to 408. See Installation Guide.  
The decoder is located on a different  
subnet  
If the IP address intended for the decoder and the IP address of your computer are  
located on different subnets, you will not be able to set the IP address. Contact your  
network administrator to obtain an appropriate IP address.  
The IP address is being used by another  
device  
Disconnect the decoder from the network. Run the Ping command. (In a Com-  
mand/DOS window, type ping and the IP address of the unit).  
If you receive: Reply from <IP address>: bytes = 32; time = 10 ms..... - this means  
that the IP address may already be in use by another device on your network. You  
must obtain a new IP address and reinstall the unit.  
If you see: Request timed out - this means that the IP address is available for use  
with your decoder. In this case, check all cabling and reinstall the unit.  
Possible IP address conflict with  
another device on the same subnet  
The static IP address in the decoder is used before the DHCP server sets a a dynamic  
address. This means that if the same default static IP address is used by another  
device, there may be problems accessing the decoder. To avoid this, set the static IP  
address to 0.0.0.0.  
The decoder cannot be accessed from a browser  
The IP address has been changed by  
DHCP  
If the decoder and client are on the same network, Run AXIS IP Utility to locate the  
decoder. Identify the decoder using its model or serial number. Alternatively:  
1) Move the decoder to an isolated network or to one with no DHCP or BOOTP server.  
Set the IP address again, using the AXIS IP Utility (see the Installation Guide) or the  
ARP/Ping commands.  
2) Access the unit and disable DHCP in the TCP/IP settings. Return the unit to the  
main network. The unit now has a fixed IP address that will not change.  
3) As an alternative to 2), if dynamic IP address via DHCP or BOOTP is required, select  
the required service and then configure IP address change notification from the net-  
work settings. Return the unit to the main network. The unit now has a dynamic IP  
address, but will notify you if the address changes.  
Other networking problems  
Test the network cable by connecting it to another network device, then Ping that  
device from your workstation. See instructions above.  
The decoder is accessible locally, but not externally  
Broadband router configuration  
To configure your broadband router to allow incoming data traffic to the decoder,  
enable the NAT-traversal feature which will attempt to automatically configure the  
router to allow access to the decoder.   
This is enabled from System Options > Network > TCP/IP Advanced.  
Firewall protection  
Check the Internet firewall with your system administrator.  
Check if you need to configure the default router settings.  
Default routers required  
The Power indicator is not constantly lit  
Faulty power supply  
Check that you are using the same indoor power supply that came with the product.  
The Network indicator LEDs are flashing red rapidly  
Hardware failure  
Contact your Axis dealer.  
28  
 
Technical Specifications for AXIS P7701  
Technical Specifications for AXIS P7701  
Function/group  
Decoder  
Item  
Specification  
Models  
AXIS P7701 Video Decoder  
Video  
Video compression  
• H.264  
• MPEG-4 Part 2  
• Motion JPEG  
Resolutions  
• H.264 and MPEG-4 Part 2; All resolutions up to D1 (720x480 in NTSC,  
720x576 in PAL)  
• Motion JPEG; All resolutions up to 720p (1280x720)  
Frame rate H.264  
30/25 (NTSC/PAL) fps in up to D1 resolution  
30/25 (NTSC/PAL) fps in up to D1 resolution  
Frame rate MPEG-4  
part 2  
Frame rate  
Up to 15 (NTSC/PAL) fps in 720p resolution  
Motion JPEG  
Video streaming  
Image settings  
• One stream H.264/Motion JPEG/MPEG-4 part 2 decoding  
• NTSC/PAL  
• VGA (60/75Hz)  
• S-VGA (60/75Hz)  
• 1280 x 720 (16:9) via DVI-I connector  
Serial Connection  
Audio streaming  
Audio compression  
Forwarding of serial commands  
One way  
Audio  
• AAC-LC 8 kHz 32 kbit/s, 16 kHz 64 kbit/s  
• G.711 PCM 8 kHz 64 kbit/s  
• G.726 ADPCM 8 kHz 32 or 24 kbit/s  
Audio input/output  
Security  
Line output  
Network  
Password protection, IP address filtering, HTTPS encryption, IEEE 802.1X  
network access control, digest authentication, user access log  
Supported protocols IPv4/v6, HTTP, HTTPS, FTP, SMTP, Bonjour, UPnP, SNMPv1/v2c/v3(MIB-II),  
DNS, DynDNS, NTP, RTSP, RTP, TCP, UDP, IGMP, RTCP, ICMP, DHCP, ARP,  
SSL/TLS  
System  
Integration  
Application  
Programming  
Interface  
Open API for software integration, including VAPIX® from Axis  
Alarm triggers  
Alarm events  
Casing  
Ability to receive external alarms according to specified VAPIX API  
Notification via email  
General  
• Metal casing. Standalone or wall mount  
Processors, memory • TI TMS320DM6443, 128MB RAM, 128MB Flash  
Power  
8-20 V DC, max. 8.3 W or Power over Ethernet IEEE 802.3af Class 3  
Connectors  
• RCA composite video output  
• DVI-I (digital and analog) output  
• RJ-45 10BASE-T/100BASE-TX PoE  
• DC terminal block: 8-20 V DC max. 8.3 W  
• I/O terminal block: input for a video select button, and a 3.3V @ 250mA  
power output  
• RS485/ RS422 terminal block  
• 3.5 mm audio line/headphones output, mono  
Operating conditions • 0-50 °C (32-122 °F) Humidity 20-80% RH (non-condensing)  
Approvals  
• EN 55022 Class B, EN 61000-3-2, EN 61000-3-3, EN 55024, FCC Part 15  
Subpart B Class B, ICES-003 Class B, VCCI Class B, C-tick AS/NZS CISPR22  
Class B, IEC/EN 60950-1, KCC Class B  
Dimensions (HxWxD) 33 x 99 x 118 mm  
Weight • 318 g (0.7lb)  
29  
 
   
Technical Specifications for AXIS P7701  
General performance considerations  
When setting up your system, it is important to consider how various settings and situations will affect performance. Some  
factors affect the amount of bandwidth (the bitrate) required, others can affect the frame rate, and some affect both. If the  
load on the CPU reaches its maximum, this will also affect the frame rate. Also, high image resolutions and lower compression  
levels result in larger images.  
30  
 
 
Glossary of Terms  
transmission methods where two or more signals share the  
same carrier. In more popular terminology, broadband is taken  
to mean high-speed data transmission.  
Glossary of Terms  
720p - 720p refers to 720 lines of progressive video (720 lines  
per frame). Higher resolution than standard DVD, which is 480i  
or 480p. Usually refers to 1280x720 resolution in 1.78 aspect  
ratio.  
CCD (Charged Coupled Device) - This light-sensitive image  
device used in many digital cameras is a large integrated circuit  
that contains hundreds of thousands of photo-sites (pixels)  
that convert light energy into electronic signals. Its size is  
measured diagonally and can be 1/4", 1/3", 1/2" or 2/3".  
ActiveX - A standard that enables software components to  
interact with one another in a networked environment,  
regardless of the language(s) used to create them. web  
browsers may come into contact with ActiveX controls, ActiveX  
documents, and ActiveX scripts. ActiveX controls are often  
downloaded and installed automatically as required.  
CGI (Common Gateway Interface) - A specification for  
communication between a web server and other (CGI)  
programs. For example, a HTML page that contains a form  
might use a CGI program to process the form data once it is  
submitted.  
Angle - The field of view, relative to a standard lens in a 35mm  
still camera, expressed in degrees, e.g. 30°. For practical  
purposes, this is the area that a lens can cover, where the angle  
of view is determined by the focal length of the lens. A  
wide-angle lens has a short focal length and covers a wider  
angle of view than standard or telephoto lenses, which have  
longer focal lengths.  
CIF (Common Intermediate Format) - CIF refers to the analog  
video resolutions 352x288 pixels (PAL) and 352x240 pixels  
(NTSC). See also Resolution.  
Client/Server - Client/server describes the relationship  
between two computer programs in which one program, the  
client, makes a service request from another program, the  
server, which fulfils the request. Typically, multiple client  
programs share the services of a common server program. A  
web browser is a client program that requests services (the  
sending of web pages or files) from a web server.  
ARP (Address Resolution Protocol) - This protocol is used to  
associate an IP address to a hardware MAC address. A request  
is broadcast on the local network to discover the MAC address  
for an IP address.  
ARTPEC (Axis Real Time Picture Encoder) - This chip is used  
for image compression, and image processing such as  
conversion of raw image sensor data, color correction,  
sharpening, noise filtering etc.  
CMOS (Complementary Metal Oxide Semiconductor) - A  
CMOS is a widely used type of semiconductor that uses both  
negative and positive circuits. Since only one of the circuit  
types is on at any given time, CMOS chips require less power  
than chips using just one type of transistor. CMOS image  
sensors also allow processing circuits to be included on the  
same chip, an advantage not possible with CCD sensors, which  
are also much more expensive to produce.  
ASIC (Application Specific Integrated Circuit) - A circuit  
designed for a specific application, as opposed to a general  
purpose circuit, such as a microprocessor.  
Aspect ratio - A ratio of width to height in images. A common  
aspect ratio used for television screens and computer monitors  
is 4:3. High-definition television (HDTV) uses an aspect ratio of  
9:16.  
Codec - In communications engineering, a codec is usually a  
coder/decoder. Codecs are used in integrated circuits or chips  
that convert e.g. analog video signals into a digital format for  
transmission. The codec also converts received digital signals  
back into analog format. A codec uses analog-to-digital  
conversion and digital-to-analog conversion in the same chip.  
Autoiris (DC-Iris) - This special type of iris is electrically  
controlled by the camera, to automatically regulate the amount  
of light allowed to enter.  
Codec can also mean compression/decompression, in which  
case it is generally taken to mean an algorithm or computer  
program for reducing the size of large files and programs.  
Bitmap - A bitmap is a data file representing a rectangular grid  
of pixels. It defines a display space and color for each pixel (or  
‘bit’) in the display space. This type of image is known as a  
‘raster graphic.’ GIFs and JPEGs are examples of image file types  
that contain bitmaps.  
Compression - See Image compression.  
Composite video - A type of video signal in which all  
information—the red, blue, and green signals (and sometimes  
audio signals as well)—are mixed together. This is the type of  
signal used by analog televisions in the United States (see  
NTSC).  
Because a bitmap uses this fixed raster method, it cannot easily  
be rescaled without losing definition. Conversely, a vector  
graphic image uses geometrical shapes to represent the image,  
and can thus be quickly rescaled.  
DC-Iris (Autoiris) - This special type of iris is electrically  
controlled by the camera, to automatically regulate the amount  
of light allowed to enter.  
Bit rate - The bit rate (in kbit/s or Mbit/s) is often referred to  
as speed, but actually defines the number of bits/time unit and  
not distance/time unit.  
DHCP (Dynamic Host Configuration Protocol) - DHCP is a  
protocol that lets network administrators automate and  
centrally manage the assignment of Internet Protocol (IP)  
addresses to network devices in a network.  
Bonjour - Also known as zero-configuration networking,  
Bonjour enables devices to automatically discover each other  
on a network, without having to enter IP addresses or configure  
DNS servers. Bonjour is a trademark of Apple Computer, Inc.  
DHCP uses the concept of a ‘lease’ or amount of time that a  
given IP address will be valid for a computer. The lease time can  
Broadband - In network engineering terms, this describes  
31  
 
 
Glossary of Terms  
vary, depending on how long a user is likely to require the  
network connection at a particular location.  
which a video stream is updated is measured in frames per  
second (fps). A higher frame rate is advantageous when there is  
movement in the video stream, as it maintains image quality  
throughout.  
DHCP also supports static addresses for e.g. computers running  
web servers, which need a permanent IP address.  
Gain - Gain is the amplification factor and the extent to which  
an analog amplifier boosts the strength of a signal.  
Amplification factors are usually expressed in terms of power.  
The decibel (dB) is the most common way of quantifying the  
gain of an amplifier.  
DNS (Domain Name System) - DNS is used to locate and  
translate Internet domain names into IP (Internet Protocol)  
addresses. A domain name is a meaningful and  
easy-to-remember name for an Internet address. For example  
remember than 192.0.34.166. The translation tables for domain  
names are contained in Domain name servers.  
Gateway - A gateway is a point in a network that acts as an  
entry point to another network. In a corporate network for  
example, a computer server acting as a gateway often also acts  
as a proxy server and a firewall server. A gateway is often  
associated with both a router, which knows where to direct a  
given packet of data that arrives at the gateway, and a switch,  
which furnishes the actual path in and out of the gateway for a  
given packet.  
D-1 - SMPTE digital VTR video standard. It has a resolution of  
720 × 486 for NTSC systems and 720 × 576 for PAL systems.  
Domain Server - Domains can also be used by organizations  
who wish to centralize the management of their (Windows)  
computers. Each user within a domain has an account that  
usually allows them to log in to and use any computer in the  
domain, although restrictions may also apply. The domain  
server is the server that authenticates the users on the network.  
GIF (Graphics Interchange Format) - GIF is one of the most  
common file formats used for images in web pages. There are  
two versions of the format, 87a and 89a. Version 89a supports  
animations, i.e. a short sequence of images within a single GIF  
file. A GIF89a can also be specified for interlaced presentation.  
DVI - Digital Visual Interface, an interface standard that  
specifies a connector and signaling methods used to transmit  
video information in both analog and digital formats.  
GOV (Group Of VOPs) - A group of VOPs is the basic unit of  
an H.264 video stream. The GOV contains different types and  
numbers of VOPs (I-VOPs, P-VOPs) as determined by the GOV  
length and GOV structure. See also VOP.  
Ethernet - Ethernet is the most widely installed local area  
network technology. An Ethernet LAN typically uses special  
grades of twisted pair wires. The most commonly installed  
Ethernet systems are 10BASE-T and 100BASE-T10, which  
provide transmission speeds up to 10 Mbps and 100 Mbps  
respectively.  
GOV length - The GOV length determines the number of  
images (VOPs) in the GOV structure. See also GOV and VOP.  
GOV structure - The GOV structure describes the composition  
of an H.264 video stream, as regards the type of images (I-VOPs  
or P-VOPs) included in the stream, and their internal order. See  
also GOV and VOP.  
ETRAX (Ethernet Token Ring AXIS) - Axis' own  
microprocessor.  
Factory default settings - These are the settings that  
originally applied for a device when it was first delivered from  
the factory. If it should become necessary to reset a device to  
its factory default settings, this will, for many devices,  
completely reset any settings that were changed by the user.  
H.264 - Also known as MPEG-4 Part 10. This is the new  
generation compression standard for digital video. H.264 offers  
higher video resolution than Motion JPEG or MPEG-4 at the  
same bit rate and bandwidth, or the same quality video at a  
lower bit rate.  
Firewall - A firewall works as a barrier between networks, e.g.  
between a Local Area Network and the Internet. The firewall  
ensures that only authorized users are allowed to access the  
one network from the other. A firewall can be software running  
on a computer, or it can be a standalone hardware device.  
Half-duplex - See Full-duplex.  
HDCP - High Bandwidth Digital Content protection, is designed  
to protect digital entertainment content that uses the DVI  
interface. HDCP encrypts the transmission of digital content  
between the video source or transmitter (e.g. encoder or  
camera) and the digital display or receiver (e.g. a monitor,  
television or projector).  
Focal length - Measured in millimeters, the focal length of a  
camera lens determines the width of the horizontal field of  
view, which in turn is measured in degrees.  
FTP (File Transfer Protocol) - An application protocol that  
uses the TCP/IP protocols. It is used to exchange files between  
computers/devices on networks.  
HDMI - High-Definition Multimedia Interface is the first  
industry-supported uncompressed, all-digital audio/video  
interface. HDMI has the capacity to support existing  
high-definition video formats such as 720p, 1080i, and 1080p.  
It also supports enhanced definition formats like 480p, and  
standard definition formats such as NTSC or PAL.  
Frame - A frame is a complete video image. In the 2:1  
interlaced scanning format of the RS-170 and CCIR formats, a  
frame is made up of two separate fields of 262.5 or 312.5 lines  
interlaced at 60 or 50 Hz to form a complete frame, which  
appears at 30 or 25 Hz. In video cameras with a progressive  
scan, each frame is scanned line-by-line and not interlaced;  
most are also displayed at 30 and 25 Hz.  
HTML (Hypertext Markup Language) - HTML is the set of  
"markup" symbols or codes inserted in a file intended for  
display in web browser. The markup tells the browser how to  
display the page's words and images for the user.  
Frame rate - The frame rate used to describe the frequency at  
32  
 
Glossary of Terms  
HTTP (Hypertext Transfer Protocol) - HTTP is the set of rules  
for exchanging files (text, graphic images, sound, video, and  
other multimedia files) on the web. The HTTP protocol runs on  
top of the TCP/IP suite of protocols.  
lowest compression (i.e. the highest quality) results in the  
largest file, there is a trade-off between image quality and file  
size.  
kbit/s (kilobits per second) - A measure of the bit rate, i.e. the  
rate at which bits are passing a given point. See also Bit rate.  
Hub - A (network) hub is used to connect multiple devices to  
the network. The hub transmits all data to all devices  
connected to it, whereas a switch will only transmit the data to  
the device it is specifically intended for.  
LAN (Local Area Network) - A LAN is a group of computers  
and associated devices that typically share common resources  
within a limited geographical area.  
Image compression - Image compression minimizes the file  
size (in bytes) of an image. Two of the most common  
compressed image formats are JPEG and GIF.  
Linux - Linux is an open source operating system within the  
UNIX family. Because of its robustness and availability, Linux  
has won popularity in the open source community and among  
commercial application developers.  
Interlacing - Interlaced video is video captured at 50 pictures  
(known as fields) per second, of which every 2 consecutive  
fields (at half height) are then combined into 1 frame.  
Interlacing was developed many years ago for the analog TV  
world and is still used widely today. It provides good results  
when viewing motion in standard TV pictures, although there is  
always some degree of distortion in the image.  
MAC address (Media Access Control address) - A MAC  
address is a unique identifier associated with a piece of  
networking equipment, or more specifically, its interface with  
the network. For example, the network card in a computer has  
its own MAC address.  
To view interlaced video on e.g. a computer monitor, the video  
must first be de-interlaced, to produce progressive video, which  
consists of complete images, one after the other, at 25 frames  
per second. See also Progressive scan.  
Manual iris - This is the opposite to an autoiris, i.e. the camera  
iris must be adjusted manually to regulate the amount of light  
allowed to reach the image sensor.  
Mbit/s (Megabits per second) - A measure of the bit rate, i.e.  
the rate at which bits are passing a given point. Commonly  
used to give the ‘speed’ of a network. A LAN might run at 10 or  
100 Mbit/s. See also Bit rate.  
IP (Internet Protocol) - The Internet Protocol is a method  
transmitting data over a network. Data to be sent is divided  
into individual and completely independent "packets." Each  
computer (or host) on the Internet has at least one address that  
uniquely identifies it from all others, and each data packet  
contains both the sender's address and the receiver's address.  
Monitor - A monitor is very similar to a standard television set,  
but lacks the electronics to pick up regular television signals.  
The Internet Protocol ensures that the data packets all arrive at  
the intended address. As IP is a connectionless protocol, which  
means that there is no established connection between the  
communication end-points, packets can be sent via different  
routes and do not need to arrive at the destination in the  
correct order.  
Motion JPEG - Motion JPEG is a simple  
compression/decompression technique for networked video.  
Latency is low and image quality is guaranteed, regardless of  
movement or complexity of the image. Image quality is  
controlled by adjusting the compression level, which in turn  
provides control over the file size, and thereby the bit rate.  
Once the data packets have arrived at the correct destination,  
another protocol - Transmission Control Protocol (TCP) - puts  
them in the right order. See also TCP.  
High-quality individual images from the Motion JPEG stream  
are easily extracted. See also JPEG.  
IP Address - An IP address is simply an address on an IP  
network used by a computer/device connected to that network.  
IP addresses allow all the connected computers/devices to find  
each other and to pass data back and forth.  
Megapixel - See Pixel.  
MPEG-2 - MPEG-2 is the designation for a group of audio and  
video coding standards, and is typically used to encode audio  
and video for broadcast signals, including digital satellite and  
Cable TV. MPEG-2, with some modifications, is also the coding  
format used by standard commercial DVD movies.  
To avoid conflicts, each IP address on any given network must  
be unique. An IP address can be assigned as fixed, so that it  
does not change, or it can be assigned dynamically (and  
automatically) by DHCP.  
Multicast - Bandwidth-conserving technology that reduces  
bandwidth usage by simultaneously delivering a single stream  
of information to multiple network recipients.  
An IP address consists of four groups (or quads) of decimal  
digits separated by periods, e.g. 130.5.5.25. Different parts of  
the address represent different things. Some part will represent  
the network number or address, and some other part will  
represent the local machine address.  
Network connectivity - The physical (wired or wireless) and  
logical (protocol) connection of a computer network or an  
individual device to a network, such as the Internet or a LAN.  
See also IP (Internet Protocol).  
I-VOP - See VOP.  
NTSC (National Television System Committee) - NTSC is the  
television and video standard in the United States. NTSC  
delivers 525 lines at 60 half-frames/second.  
JPEG (Joint Photographic Experts Group) - Together with  
the GIF file format, JPEG is an image file type commonly used  
on the web. A JPEG image is a bitmap, and usually has the file  
suffix '.jpg' or ".jpeg." When creating a JPEG image, it is  
possible to configure the level of compression to use. As the  
NWay - A network protocol that automatically negotiates the  
highest possible common transmission speed between two  
devices.  
33  
 
Glossary of Terms  
PAL (Phase Alternating Line) - PAL is the dominant television  
standard in Europe. PAL delivers 625 lines at 50  
half-frames/second.  
a cache server, it looks in its local cache of previously  
downloaded web pages. If it finds the page, it is returned to the  
user without forwarding the request to the Internet. If the page  
is not in the cache, the proxy server, acting as a client on behalf  
of the user, uses one of its own IP addresses to request the page  
from another server over the Internet. When the requested  
page is returned, the proxy server forwards it to the user that  
originally requested it.  
Ping - Ping is a basic network program used diagnostically to  
check the status of a network host or device. Ping can be used  
to see if a particular network address (IP address or host name)  
is occupied or not, or if the host at that address is responding  
normally. Ping can be run from e.g. the Windows Command  
prompt or the command line in UNIX.  
P-VOP - See VOP.  
Pixel - A pixel is one of the many tiny dots that make up a  
digital image. The color and intensity of each pixel represents a  
tiny area of the complete image.  
Resolution - Image resolution is a measure of how much detail  
a digital image can hold: the greater the resolution, the greater  
the level of detail. Resolution can be specified as the number of  
pixel-columns (width) by the number of pixel-rows (height),  
e.g. 320x240.  
PoE (Power over Ethernet) - Power over Ethernet provides  
power to a network device via the same cable as used for the  
network connection. This is very useful for IP-Surveillance and  
remote monitoring applications in places where it may be too  
impractical or expensive to power the device from a power  
outlet.  
Alternatively, the total number of pixels (usually in megapixels)  
in the image can be used. In analog systems it is also common  
to use other format designations, such as CIF, QCIF, 4CIF, etc.  
RTCP (Real-Time Control Protocol) - RTCP provides support  
for real-time conferencing of groups of any size within an  
intranet. This support includes source identification and  
support for gateways like audio and video bridges as well as  
multicast-to-unicast translators.  
PPP (Point-to-Point Protocol) - A protocol that uses a serial  
interface for communication between two network devices. For  
example, a PC connected by a phone line to a server.  
RTCP offers quality-of-service feedback from receivers to the  
multicast group as well as support for the synchronization of  
different media streams.  
PPTP (Point-to-Point Tunneling Protocol) - A protocol (set  
of communication rules) that allows corporations to extend  
their own corporate network through private "tunnels" over the  
public Internet. In this way a corporation can effectively use a  
WAN (Wide Area Network) as a large single LAN (Local Area  
Network). This kind of interconnection is known as a virtual  
private network (VPN).  
RTP (Real-Time Transport Protocol) - RTP is an Internet  
protocol for the transport of real-time data, e.g. audio and  
video. It can be used for media-on-demand as well as  
interactive services such as Internet telephony.  
Pre/post alarm images - The images from immediately before  
and after an alarm. These images are stored in a buffer for later  
retrieval.  
RTSP (Real Time Streaming Protocol) - RTSP is a control  
protocol, and a starting point for negotiating transports such as  
RTP, multicast and Unicast, and for negotiating codecs.  
Progressive scan - Progressive scan, as opposed to interlaced  
video, scans the entire picture, line by line every sixteenth of a  
second. In other words, captured images are not split into  
separate fields as in interlaced scanning.  
RTSP can be considered a ‘remote control’ for controlling the  
media stream delivered by a media server. RTSP servers typically  
use RTP as the protocol for the actual transport of audio/video  
data.  
Computer monitors do not need interlace to show the picture  
on the screen, but instead show them progressively, on one line  
at a time in perfect order, i.e. 1, 2, 3, 4, 5, 6, 7 etc., so there is  
virtually no ‘flickering’ effect. In a surveillance application, this  
can be critical when viewing detail within a moving image,  
such as a person running. A high-quality monitor is required to  
get the best from progressive scan. See also Interlacing.  
Router - A device that determines the next network point to  
which a packet should be forwarded on its way to its final  
destination. A router creates and/or maintains a special routing  
table that stores information on how best to reach certain  
destinations. A router is sometimes included as part of a  
network switch. See also switch.  
Server - In general, a server is a computer program that  
provides services to other computer programs in the same or  
other computers. A computer running a server program is also  
frequently referred to as a server. In practice, the server may  
contain any number of server and client programs. A web server  
is the computer program that supplies the requested HTML  
pages or files to the client (browser).  
Protocol - A special set of rules governing how two entities  
will communicate. Protocols are found at many levels of  
communication, and there are hardware protocols and software  
protocols.  
Proxy server - In an organization that uses the Internet, a  
proxy server acts as an intermediary between a workstation  
user and the Internet. This provides security, administrative  
control, and a caching service. Any proxy server associated with  
a gateway server, or part of a gateway server, effectively  
separates the organization’s network from the outside network  
and the local firewall. It is the firewall server that protects the  
network against outside intrusion.  
Sharpness - This is the control of fine detail within a picture.  
This feature was originally introduced into color TV sets that  
used notch filter decoders. This filter took away all high  
frequency detail in the black and white region of the picture.  
The sharpness control attempted to put some of that detail  
back in the picture. Sharpness controls are mostly superfluous  
in today's high-end TVs. The only logical requirement for it  
nowadays is on a VHS machine.  
A proxy server receives requests for Internet services (such as  
web page requests) from many users. If the proxy server is also  
34  
 
Glossary of Terms  
SMTP (Simple Mail Transfer Protocol) - SMTP is used for  
sending and receiving e-mail. However, as it is ‘simple,’ it is  
limited in its ability to queue messages at the receiving end,  
and is usually used with one of two other protocols, POP3 or  
IMAP. These other protocols allow the user to save messages in  
a server mailbox and download them periodically from the  
server.  
maintained until the data has been successfully exchanged  
between the communicating applications.  
Telnet - Telnet is a simple method with which to access  
another network device, e.g. a computer. The HTTP protocol and  
the FTP protocols allow you to request specific files from  
remote computers, but do not allow you logon as a user of that  
computer. With Telnet, you log on as a regular user with  
whatever privileges you may have been granted for specific  
applications and data residing on that computer.  
SMTP authentication is an extension of SMTP, whereby the  
client is required to log into the mail server before or during the  
sending of email. It can be used to allow legitimate users to  
send email while denying the service to unauthorized users,  
such as spammers.  
UDP (User Datagram Protocol) - UDP is a communications  
protocol that offers limited service for exchanging data in a  
network that uses the Internet Protocol (IP). UDP is an  
alternative to the Transmission Control Protocol (TCP). The  
advantage of UDP is that it is not required to deliver all data  
and may drop network packets when there is e.g. network  
congestion. This is suitable for live video, as there is no point in  
re-transmitting old information that will not be displayed  
anyway.  
SNMP (Simple Network Management Protocol) - SNMP  
forms part of the Internet Protocol suite, as defined by the  
Internet Engineering Task Force. The protocol can support  
monitoring of network-attached devices for any conditions  
that warrant administrative attention.  
Sockets - Sockets are a method for communication between a  
client program and a server program over a network. A socket is  
defined as ‘the endpoint in a connection.’ Sockets are created  
and used with a set of programming requests or ‘function calls’  
sometimes called the sockets application programming  
interface (API).  
Unicast - Communication between a single sender and a single  
receiver over a network. A new connection is established for  
each new user.  
URL (Uniform Resource Locator) - An "address" on the  
network.  
SSL/TSL (Secure Socket Layer/Transport Layer Security)  
These two protocols (SSL is succeeded by TSL) are cryptographic  
protocols that provide secure communication on a network. SSL  
is commonly used over HTTP to form HTTPS, as used e.g. on the  
Internet for electronic financial transactions. SSL uses public  
key certificates to verify the identity of the server.  
Varifocal lens - A varifocal lens provides a wide range of focal  
lengths, as opposed to a lens with a fixed focal length, which  
only provides one.  
VGA - Video Graphics Array is a graphics display system for  
PCs developed by IBM. In graphics mode, the resolution is  
either 640 by 480 (with 16 colors) or 320 by 200 (with 256  
colors).  
Subnet/subnet mask - A subnet is an identifiably separate  
part of an organization's network. Typically, a subnet may  
represent all the machines at one geographic location, in one  
building, or on the same local area network (LAN). Having an  
organization's network divided into subnets allows it to be  
connected to the Internet with a single shared network address.  
VPN (Virtual Private Network) - This creates a secure  
"tunnel" between the points within the VPN. Only devices with  
the correct "key" will be able to work within the VPN. The VPN  
network can be within a company LAN (Local Area Network),  
but different sites can also be connected over the Internet in a  
secure way. One common use for VPN is for connecting a  
remote computer to the corporate network, via e.g. a direct  
phone line or via the Internet.  
The subnet mask is the part of the IP address that tells a  
network router how to find the subnet that the data packet  
should be delivered to. Using a subnet mask saves the router  
having to handle the entire 32-bit IP address; it simply looks at  
the bits selected by the mask.  
SVGA - Super VGA, is a set of graphics standards designed to  
offer greater resolution than VGA. SVGA supports 800 x 600  
resolution, or 480,000 pixels.  
VOP (Video Object Plane) - A VOP is an image frame in an  
H.264 video stream. There are several types of VOP:  
- An I-VOP is complete image frame.  
Switch - A switch is a network device that connects network  
segments together, and which selects a path for sending a unit  
of data to its next destination. In general, a switch is a simpler  
and faster mechanism than a router, which requires knowledge  
about the network and how to determine the route. Some  
switches include the router function. See also Router.  
- A P-VOP codes the differences between images, as long as it  
is more efficient to do so. Otherwise it codes the whole image,  
which may also be a completely new image.  
WAN (Wide-Area-Network) - Similar to a LAN, but on a  
larger geographical scale.  
TCP (Transmission Control Protocol) - TCP is used along with  
the Internet Protocol (IP) to transmit data as packets between  
computers over the network. While IP takes care of the actual  
packet delivery, TCP keeps track of the individual packets that  
the communication (e.g. requested a web page file) is divided  
into, and, when all packets have arrived at their destination, it  
reassembles them to re-form the complete file.  
W-LAN (Wireless LAN) - A wireless LAN is a wireless local  
area network that uses radio waves as its carrier: where the  
network connections for end-users are wireless. The main  
network structure usually uses cables.  
Web server - A web server is a program, which allows web  
browsers to retrieve files from computers connected to the  
Internet. The web server listens for requests from web browsers  
and upon receiving a request for a file sends it back to the  
TCP is a connection-oriented protocol, which means that a  
connection is established between the two end-points and is  
35  
 
Glossary of Terms  
browser.  
The primary function of a web server is to serve pages to other  
remote computers; consequently, it needs to be installed on a  
computer that is permanently connected to the Internet. It also  
controls access to the server whilst monitoring and logging  
server access statistics.  
WPA-PSK (Wi-Fi Protected Access - Pre-Shared Key) - This  
wireless encryption method uses a pre-shared key (PSK) for key  
management. Keys can usually be entered as manual hex  
values, as hexadecimal characters, or as a Passphrase.  
WPA-PSK provides a greater degree of security than WEP.  
Zoom lens - A zoom lens can be moved (zoomed) to enlarge  
the view of an object to show more detail.  
36  
 

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