IR LEDs built in
Table of contents Table of contents CHAPTER 1. SAFETY WARNINGS ................................................................................................................... 2 CHAPTER 2. OVERVIEW ................................................................................................................................... 4 2.1. FEATURES ................................................................................................................................................ 4 2.2.
Chapter 1. Safety Warnings Chapter 1. Safety Warnings Before using this product This camera complies with all safety rules. However, improper use of this camera may cause fire resulting in body injury and property damage as well. Before you start to use this camera, please read and thoroughly understand the instructions in this user manual. IMPORTANT! Use only accessories recommended by the manufacturer. The use of improper accessories may cause hazards.
Chapter 1. Safety Warnings Ventilation Keep good ventilation in the area where the camera is installed to prevent its overheating. Cleaning To clean external components, use a soft, dry cloth. To remove persistent dirt, use some detergent and a soft cloth. Do not use volatile cleaners, alcohol, benzene or other harsh solvents.
Chapter 2. Overview Chapter 2. Overview BEWARD N35110 is designed for both indoor and outdoor usage. The camera’s housing surely protects it against harsh weather conditions and is IP66 rated, so that the camera can be used in any environmental conditions. The N35110 features a megapixel CMOS sensor and a mechanical IR cut filter, which ensures clear pictures under low-light conditions. Besides, the camera has built-in IR LEDs, which provide twenty-four-hour surveillance. Pic. 2.
Chapter 2. Overview Recording to network attached storage (NAS) Professional surveillance software included (16 channels) Simultaneous streaming: Н.264/MPEG-4/MJPEG/3GPP High-resolution sensor (up to 1280x1024 resolution) Two-way audio, support for connecting an external microphone Viewing camera images on a mobile phone (including iPhone) Built-in multi-zone motion detection and audio detection Sending of images and videos via e-mail and to FTP PoE IEEE 802.3af Class 0 support 2.2.
Chapter 2. Overview Supported protocols: Bonjour, TCP/IP, DHCP, PPPoE, ARP, ICMP, FTP, SMTP, DDNS, NTP, UPnP, RTSP, RTP, RTCP, HTTP, TCP, UDP, 3GPP/ISMA RTSP Support for ONVIF v1.02 2.3. Package Contents IP camera N35110 (lens M12, 4.0 mm, F1.
Chapter 3. Physical Description Chapter 3. Physical Description 3.1. Side Panel Pic. 3.1 Camera’s housing consists of a base and a cover. Base: this part of housing contains hardware components of the camera. The sunshield and the bracket are attached to the base. Cover: this part of housing protects the camera lens and IR LEDs against physical and environment influence. The cover is screwed onto the base using a threaded connection.
Chapter 3. Physical Description Sunshield: protects the camera lens against direct sunlight. Bracket: allows mounting the camera on a surface (e.g. a ceiling, a wall, etc). Connecting cable: one end of this cable is plugged into the camera, the other end of this cable contains the following connectors: IMPORTANT! Unscrewing of the connecting cable from the base is PROHIBITED! Non-compliance with this requirement will void your warranty.
Chapter 3. Physical Description Connector Picture Description Network connector RJ-45 connector. RJ-45 adapter is included. Power connector Audio in / Audio out Power connector (socket). Provides for the connection of a 12 V 1 A power adapter. Soldering of the connector for audio in/audio out TRS connector (socket) 3.5 mm mini jack. 1 – left channel 2 – right channel 3 – general purpose Reset button Slightly push this button to reset the camera to factory defaults or to reboot it.
Chapter 3. Physical Description 3.2. Front Panel Pic. 3.2 Lens: built-in lens: M12, f4.0 mm, F1.5 (angle of view: 65° diagonal, 48° horizontal, 40° vertical). IR LED: 850 nm, 21 pcs, 8 mm diameter. 15 meter IR distance. Besides, IR illumination is invisible to the human eye. NOTE: The LEDs are red when the IR illumination is on.
Chapter 4. Installing the Camera and Connecting a Cable Chapter 4. Installing the Camera and Connecting a Cable 4.1. Overview of Connecting the N35110 to a Network BEWARD N35110 IP camera can be powered over a twisted pair cable thanks to support for PoE technology. Therefore, it provides two ways to deliver power to the camera: Over a twisted pair cable using PoE technology. Through the camera’s power cord socket using the supplied power adapter.
Chapter 4. Installing the Camera and Connecting a Cable IMPORTANT! Use only the power supply that is included with the N35110 camera or a compatible power supply that meets the following requirements: DC voltage of 12 V, current strength of 1 A. 4.2. Installation Recommendations This section provides recommendations that should be observed when mounting and installing the N35110. Tips on camera placement: This camera is designed for both indoor and outdoor surveillance.
Chapter 4. Installing the Camera and Connecting a Cable strength from the electric cables exceeds 3 V/m, you should increase the distance between the electric and feeble-current cables or reduce the electromagnetic noise. Twisted pair and electric cables should cross each other at right angles. Unshielded twisted pair cables should be located at distance of at least 125 mm from fluorescent gas-discharge lamps or from other high-voltage discharge devices.
Chapter 4. Installing the Camera and Connecting a Cable Step 3: secure the sunshield with the screws. 4.3.2. Mounting the Camera The bracket is attached to the surface using 3 self-tapping screws (25x6) (Pic. 4.4). Step 1: mark the location of the holes that you are going to drill to attach the bracket. Step 2: drill three holes of 25 mm depth into the surface if you use the supplied screws. Step 3: attach the bracket to the surface using the three self-tapping screws. Pic. 4.
Chapter 4. Installing the Camera and Connecting a Cable Step 4: put the connectors inside a junction box. The junction box must be protected enough to prevent water getting inside it. IMPORTANT! A junction box is not supplied with the N35110 and you need to purchase it separately. Recommended dimensions are 100х100х50. 4.4. Wired Connection to a Network Step 1: provide power to the camera using either of the following ways (see paragraph 4.1): Over a twisted pair cable using PoE technology.
Chapter 4. Installing the Camera and Connecting a Cable To make a network cable, you need the following materials: a UTP category 5 cable, two RJ-45 connectors and an RJ-45 crimping tool. Assembling the pairs of wires in the correct order (see the table above) ensures data transfer speed of 100 Mbps. 4.5. Connecting the Alarm Contacts BEWARD N35110 IP camera has an alarm input and an alarm output, which can be used to connect an external alarm device or a sensor.
Chapter 4. Installing the Camera and Connecting a Cable NOTE: To use this feature, you need to enable the alarm input and alarm output option as well as the activation of the alarm output when the alarm input triggers. The Picture 4.7 shows the terminal block wiring diagram: Pic. 4.7 Connecting a sensor to the alarm input: Connect the power supply (+) terminal to the sensor’s output. Connect the other sensor’s output to the terminal block DI+ output.
Chapter 5. Setting Up the Wired Connection for Windows 7 Chapter 5. Setting up the Wired Connection for Windows 7 To make the N35110 IP camera work together with your computer, your laptop and other devices in a local network, you need to connect this camera to the network according to the network parameters. This chapter explains how to define the network parameters. NOTE: The connection establishment process is shown for Windows 7 Ultimate.
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.2 In the opened window, click on the [Local Area Connection] (Pic. 5.3). Pic. 5.3 NOTE: If there are several active networks, choose the one that you are going to connect your camera to.
Chapter 5. Setting Up the Wired Connection for Windows 7 In the opened window, click the [Properties] button (Pic. 5.4). Pic. 5.4 The connection properties window opens, where you should select the [Internet Protocol Version 4 (TCP/IPv4)] menu and click the [Properties] button (Pic. 5.5). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 The window opens, displaying information about the network connection settings. There are two ways to configure the IP address: Obtain an IP address automatically: select this option to obtain an IP address automatically from a DHCP server on your network (Pic. 5.6). If an IP address is automatically assigned to your computer, go to paragraph 5.1.1 to define the network parameters. Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 Please make a note of the following parameters: IP address, Subnet mask, Default gateway, DNS server. IMPORTANT! If you do not make a note of the network parameters, you will not be able to return the computer’s network settings to their initial state to connect it to a local network or the Internet after configuring the N35110. Therefore, your computer will not have local network and/or Internet access. 5.1.1.
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.9 In the opened window, click on the [Local Area Connection] (Pic. 5.10). Pic. 5.10 NOTE: If there are several active networks, choose the one that you are going to connect your camera to.
Chapter 5. Setting Up the Wired Connection for Windows 7 In the opened window, click the [Details] button (Pic. 5.11). Pic. 5.11 In the opened window, you can see the current network connection details (Pic. 5.12). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 If you see the following information in the opened window: [DHCP Enabled] – Yes, [IPv4 Address] – xxx.xxx.xxx.xxx (xxx.xxx.xxx.xxx is an IP address value), it means your computer is assigned an IP address displayed in the [IPv4 Address] line, a subnet mask displayed in the [IPv4 Subnet Mask] line, a gateway address displayed in the [IPv4 Default Gateway] line, a DNS server address displayed in the [IPv4 DNS Server] line.
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.13 In the opened window, click on the [View network status and tasks] in the [Network and Internet] section (Pic. 5.14). Pic. 5.14 In the opened window, click on the [Local Area Connection] (Pic. 5.15).
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.15 NOTE: If there are several active networks, choose the one that you are going to connect your camera to. In the opened window, click the [Properties] button (Pic. 5.16). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 The connection properties window opens, where you should select the [Internet Protocol Version 4 (TCP/IPv4)] menu and click the [Properties] button (Pic. 5.17). Pic. 5.17 The window opens, where you need to specify an IP address and a subnet mask. Click the [Use the following IP address] and type an unused [IP address] from the same subnet as the camera, for example, 192.168.0.20, and 255.255.255.0 in the [Subnet mask] field.
Chapter 5. Setting Up the Wired Connection for Windows 7 Click the [OK] button to save the changes. 5.3. Accessing the IP Camera There are three ways to access this IP camera: Using “BEWARD IP Installer” software; Using the [Network] menu in Windows 7; Using Internet Explorer browser. IMPORTANT! When connecting the camera, take notice that the camera’s default IP address is 192.168.0.99. 5.3.1. Installing “BEWARD IP Installer” Software Insert the supplied CD into your CD-ROM drive.
Chapter 5. Setting Up the Wired Connection for Windows 7 NOTE: UPnP is enabled by default in the N35110 IP camera. To search for IP cameras using “BEWARD IP Installer” software, launch it using the shortcut on your desktop. In the opened window you can see a list of available cameras and video servers. Select your IP camera and click the [Link to IE] button (Pic. 5.20). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 5.3.3. Accessing the IP Camera Using the Network Menu in Windows 7 NOTE: UPnP is enabled by default in the N35110 IP camera. To search for the N35110 using the [Network] menu in Windows 7, go to the [Computer] menu and click the [Network] (Pic. 5.21). Pic. 5.21 In the appeared window, find the camera and double-click it with the left mouse button (Pic. 5.22). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 This will open the camera in Internet Explorer where you can configure the camera and view the images. 5.3.4. Accessing the IP Camera Using Internet Explorer To access this camera through Internet Explorer, launch this browser and enter the following in the address field: http://:/, where is the IP address of the camera, is the port number that is used for HTTP connection to the camera (Pic. 5.23).
Chapter 5. Setting Up the Wired Connection for Windows 7 IMPORTANT! The default user name is admin, the default password is admin. Pic. 5.24 IMPORTANT! By default, Internet Explorer blocks ActiveX controls. When accessing the camera for the first time, you will see a security warning that ActiveX add-on installation is blocked. After successful authorization, you will be prompted to install an ActiveX add-on.
Chapter 5. Setting Up the Wired Connection for Windows 7 Click right mouse button on this notification. In the drop-down menu select “Install This Add-on for All Users on This Computer…” or click on the area “Click here to install the following ActiveX control: “AxMediaControl.cab” from “BEWARD Co., Ltd.”…” (Pic. 5.26). Pic. 5.26 By default, Internet Explorer prevents ActiveX add-ons from installation; click [Install] to continue (Pic. 5.27). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.28 5.5. Configuring the Camera’s Network Settings through the Web Interface After connecting to the N35110, you need to change its network parameters to get it and your other devices (e.g. your computer) to the same subnet. IMPORTANT! To make your camera and your computer work together, the first three parts of their IP addresses must be the same but the fourth must be different. For example, the IP address of your computer is 192.168.50.40.
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.29 The [Information] subsection provides options for configuring the general network settings (Pic. 5.30). Pic. 5.30 You must specify the IP address and the other network parameters of the camera so it is on the same subnet as the other network devices (Pic. 5.31). NOTE: Contact your system administrator if you need assistance.
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.31 Click [OK] to save the changes. If the message from webpage appears, click [OK] (Pic. 5.32). Pic. 5.32 IMPORTANT! After you configure the network settings, you must reboot the camera. To reboot your camera, go to SETTING – Basic – System – Initialize (Pic. 5.33).
Chapter 5. Setting Up the Wired Connection for Windows 7 Pic. 5.33 The camera takes 2-3 minutes to reboot. This completes the setting up of the wired connection. Now you must restore the network settings of your computer to their previous values. 5.6. Restoring the Network Settings of the Computer to Their Previous Values To restore the wired connection settings to their previous values, follow the steps below. Go to Start – Control Panel (Pic. 5.34). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 In the opened window, click on the [View network status and tasks] in the [Network and Internet] section (Pic. 5.35). Pic. 5.35 In the opened window, click on the [Local Area Connection] (Pic. 5.36). Pic. 5.36 NOTE: If there are several active networks, choose the one that you are going to connect your camera to.
Chapter 5. Setting Up the Wired Connection for Windows 7 In the opened window, click the [Properties] button (Pic. 5.37). Pic. 5.37 The connection properties window opens, where you need to specify your initial network settings (see paragraph 5.1, 5.1.1). Select the [Internet Protocol Version 4 (TCP/IPv4)] menu and click the [Properties] button (Pic. 5.38). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 If the IP settings were assigned automatically, use the [Obtain an IP address automatically] and the [Obtain DNS server address automatically] options (Pic. 5.39), then click [OK]. Pic. 5.39 If the IP settings were specified manually, use the [Use the following IP address] and the [Use the following DNS server addresses] options and complete the required fields (see paragraph 5.1), then click [OK] (Pic. 5.40). Pic. 5.
Chapter 5. Setting Up the Wired Connection for Windows 7 5.7. Verifying the Connection Settings To verify the network settings of your camera and your computer, you must access the camera through Internet Explorer. Launch Internet Explorer. To do so, go to Start – All Programs and click [Internet Explorer]. Enter the IP address of your camera in the address field (e.g. http://192.168.1.99) (Pic. 5.41). Pic. 5.41 If the settings are correct, an authorization window will appear.
Chapter 5. Setting Up the Wired Connection for Windows 7 If everything was done correctly, you should get the camera images via browser. The settings bar is on the left side, the camera images are on the right side (Pic. 5.43). Pic. 5.43 This completes the setting up of the wired connection.
Chapter 6. Accessing the Camera over the Internet Chapter 6. Accessing the Camera over the Internet 6.1. Overview of Internet Access to the Camera When installing an IP camera in apartments, a cottage, or an office, most users want to be able to access the camera and view the images over a local network in the apartments, a cottage, or an office as well as over the Internet. This requires a router to make your camera, your computer and other network devices work together on the same network.
Chapter 6. Accessing the Camera over the Internet Pic. 6.1 Step 3: connect the IP camera to the Ethernet network. If everything is configured properly, the camera should be available over the Internet. In the provided example, the following settings were used: IP address: 80.65.23.173 Subnet mask: 255.255.255.252 Default gateway: 80.65.23.174 Primary DNS server: 80.65.20.1 Secondary DNS server: 80.65.16.
Chapter 6. Accessing the Camera over the Internet Step 1: connect the IP camera to your computer directly. Step 2: go to SETTING – Basic – Network – PPPoE. Step 3: enter the network settings provided by your ISP (Pic. 6.2). Pic. 6.2 Step 4: click [OK] to save the changes. IMPORTANT! After you configure the network settings, you must reboot the camera. Step 5: connect the IP camera to the Ethernet network.
Chapter 6. Accessing the Camera over the Internet 6.3. Internet Access to the Camera on a Local Network When a leased line or ADSL is used for Internet access, a router is necessary to establish a local network. IMPORTANT! This type of connection requires a static public IP address. Usually ISPs provide a dynamic internal IP address, which can be used only inside the LAN. Contact your ISP to determine your IP address.
Chapter 6. Accessing the Camera over the Internet Enable UPnP on your camera and configure it. See your router’s user manual for details on how to enable and configure the UPnP. To enable and configure UPnP on your camera, follow the steps below: Step 1: enable UPnP on your camera. To do so, go to: SETTING – Basic – Network – UPnP. Step 2: check the [Turn On UPnP port forwarding] (Pic. 6.3). Pic. 6.
Chapter 6. Accessing the Camera over the Internet For instance, the WAN IP address is 77.108.73.169 and the HTTP port number is 10000. In this case, you need to enter the following in the address field of your browser: http://77.108.73.169:10000/. To use several cameras, you need to specify a unique port number for each camera and configure the forwarding. 6.3.2. Manual Port Forwarding If your router does not support UPnP, you must manually configure your router to forward the ports.
Chapter 6. Accessing the Camera over the Internet To change the ports of the camera, follow these steps: IMPORTANT! You can share the same HTTP port between your IP cameras using port forwarding on the virtual server; however, you must specify a unique RTSP port number for each camera in order to access them over the Internet. Step 1: connect to your camera’s web interface and go to SETTING – Basic – Camera – General.
Chapter 6. Accessing the Camera over the Internet Pic. 6.5 Step 2: click the [General Setup]. Click the [NAT] in the opened menu (Pic. 6.6). Pic. 6.6 Step 3: in the opened menu, select the [Virtual server] (Pic. 6.7). Pic. 6.
Chapter 6. Accessing the Camera over the Internet Step 4: turn on the virtual server. To do so, select the [Enable Virtual Server]. Step 5: create the network address translation rules (Pic. 6.8). Enter the camera IP address and the HTTP port 80. Set the traffic type to “Both”, which allows both UDP and TCP translation. Enter a port number to access the camera over the Internet (for the provided example, the port is 8081). You can also make a comment (optional). Pic. 6.
Chapter 6. Accessing the Camera over the Internet Pic. 6.10 Step 8: repeat to create a forwarding rule for other cameras (Pic. 6.11). Pic. 6.11 The router configuration is complete. IMPORTANT! You can use the virtual server to map the HTTP ports (for example, the port 80 of the camera 1 is translated to 8080; the port 80 of the camera 2 is translated to 8081).
Chapter 6. Accessing the Camera over the Internet To use several cameras, you need to specify a unique port number for each camera and configure the forwarding. 6.4. Accessing the Camera over the Internet Using DynDNS service 6.4.1. Overview of Internet Access to Cameras Using DynDNS service If a computer is assigned a temporary IP address changing from one session to the next, it means the computer is assigned a dynamic IP address. Many ISPs use this type of addressing.
Chapter 6. Accessing the Camera over the Internet Pic. 6.12 Next you will see the Create an account page (Pic. 6.13). Pic. 6.13 Step 2: enter a username that is not already being used (the [Username] field) and a password (the [Password] and [Confirm password] fields). NOTE: You need to confirm the password to ensure that there are no typing mistakes. You must enter the same password in both fields.
Chapter 6. Accessing the Camera over the Internet In the [Email] and [Confirm email] fields, enter your e-mail address. You will receive a confirmation e-mail to the specified address. An e-mail address can only be associated with one domain name. NOTE: A fee is required to associate one e-mail address with multiple domain names. NOTE: You need to confirm the e-mail address to ensure that there are no typing mistakes. You must enter the same e-mail address in both fields. Check the [DynDNS.
Chapter 6. Accessing the Camera over the Internet Step 3: if everything is correct, you will see the [One more step to go...] page (Pic. 6.15). Pic. 6.15 Step 4: you will receive an email confirmation message from «DynDNS Support» (the email address is support@dyndns.com) to the email address you specified in your registration form. Click the link to confirm the registration and to activate your account.
Chapter 6. Accessing the Camera over the Internet Step 5: your DynDNS account is created (Pic. 6.17). Pic. 6.17 6.4.3. Creating a Domain Name at DynDNS Step 1: open your browser, go to www.dyndns.com and log in with your username and your password. To do so, click the [Sign In] button in the upper right corner and enter your username in the [Username] field and your password in the [Password] field, then click the [Log In] button (Pic. 6.18). Pic. 6.
Chapter 6. Accessing the Camera over the Internet Step 2: if the username and password are correct, you will see your account settings page. To continue, click the [AddHostServices] (Pic. 6.19). Pic. 6.19 Step 3: in the opened page, configure the connection settings. Select a domain. For this example, we use dyndns.org. In the [Hostname] field, enter a domain name for you camera (e.g. camera184). If the domain name is available, the camera will be accessible at camera184.dyndns.org (Pic. 6.20).
Chapter 6. Accessing the Camera over the Internet Pic. 6.20 To tie the current IP address of your camera to the specified domain name, please enter its IP address in the [IP address field]. By default, DynDNS service determines the IP address from which you are connecting to the service (Pic. 6.21). Pic. 6.21 Enter the IP address assigned by your ISP and click the [Add To Cart] button.
Chapter 6. Accessing the Camera over the Internet Step 4: if the domain name is created successfully, you will see the confirmation page. In the provided example, camera184.dyndns.org domain name is created. To activate your domain name, click [Next] (Pic. 6.22). Pic. 6.22 In the opened page, click the [Activate Service] button (Pic. 6.23). Pic. 6.
Chapter 6. Accessing the Camera over the Internet Step 5: if your domain name is activated successfully, you will see the confirmation page (Pic. 6.24). Pic. 6.24 Step 6: your domain name is created. 6.4.4. Setting up the Equipment to Work with DynDNS After the previous steps are completed, you need to set up your camera according to your registration details at DynDNS service (see paragraph 6.4.2, 6.4.3).
Chapter 6. Accessing the Camera over the Internet IMPORTANT! For detailed information on how to configure the camera through the web interface, please refer to the Operations user manual. According to the registration details that were specified at DynDNS server (see paragraph 6.4.2, 6.4.3), select “www.dyndns.org” in the [Server name] field. Enter “camera184” in the [User ID] and “123456” in the [Password]. Enter “camera184.dyndns.org” in the [Host name] (Pic. 6.25).
Chapter 6. Accessing the Camera over the Internet more information on how to configure DDNS. The router is configured to work with DynDNS as follows: IMPORTANT! Make sure your router supports DDNS, is connected to the Internet and configured properly. Step 1: enter the IP address of your router in the browser address field. In the appeared window, enter your username and your password. After successful authorization, the router settings page appears. Click the [General Setup] (Pic. 6.26). Pic. 6.
Chapter 6. Accessing the Camera over the Internet Pic. 6.27 IMPORTANT! Make sure you have entered the valid data; otherwise, your router will not be able to connect to the DDNS server. Step 4: click the [Apply] to save the changes. Step 5: the router configuration is completed. If everything is configured correctly, your camera will be available from anywhere in the world and accessible under the unique name that is easy to remember. From now on, you need to enter http://camera184.dyndns.
Appendix Appendix Appendix A. Port Values Port Default Value Range of Values HTTP 80 1124..65535 HTTP forwarding via UPnP 80 1024..65535 HTTPS forwarding via UPnP 443 1024..65535 RTSP 554 1124..65535 RTSP forwarding via UPnP 554 1024..65535 RTP start port 5000 1124..65516 RTP end port 7999 1143..65535 Multicast video port 25 1..65535 Multicast audio port 514 1..65535 SMTP 80 1..65535 System log remote server port - 1..
Appendix Appendix B. Factory Defaults This table provides camera factory defaults Parameter Value IP address 192.168.0.99 Subnet mask 255.255.255.0 Gateway 192.168.0.
Appendix Appendix C. Glossary 3GP (3GPP file format) is a multimedia container format defined by the Third Generation Partnership Project (3GPP) for 3G UMTS multimedia services. It is used on 3G mobile phones but can also be played on some 2G and 4G phones. ActiveX is a standard that enables software components to interact with one another in a networked environment, regardless of the language(s) used to create them.
Appendix 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". CGI (Common Gateway Interface) is a specification for communication between a web server and other (CGI) programs.
Appendix 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. Factory default settings are the settings that originally applied for a device when it was first delivered from the factory.
Appendix 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. HTTP (Hypertext Transfer Protocol) 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.
Appendix 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 extension ‘.jpg’ or “.jpeg.” When creating a JPEG image, it is possible to configure the level of compression to use. As the 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) is a measure of the bit rate, i.e.
Appendix ONVIF (Open Network Video Interface Forum) is a global and open industry forum with the goal to facilitate the development and use of a global open standard for the interface of physical IP-based security products. Or in other words, to create a standard for how IP products within video surveillance and other physical security areas can communicate with each other. ONVIF is an organization started in 2008 by Axis Communications, Bosch Security Systems and Sony.
Appendix Shutter is the device on the camera that opens and closes to control how long the focal plane is exposed to light. 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.
Appendix 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.