Updating the Camera’s Firmware | Veo 802.11b specification

5.3 Updating the Camera’s Firmware

Step 1. Visit the Observer support website to download the latest firmware (only if you are experiencing problems with your camera).

Place the files on your desktop or in another folder which is easy to get to. If the files are zipped (archived), you will need to unzip them.

Step 2. Run the Observer Setup Utility by clicking the desktop icon.

Step 3. Select the camera’s MAC address in the list box. You will see the camera’s current firmware version appear at the bottom right.

Step 4. Click Update to start the firmware update process.

Step 5. The dialog on the left appears prompting you for a username and password. Enter a valid admin username and password and click Update to continue. You may also click Cancel to abort the update process or Check for Updates to go to the Observer support site to check for firmware updates.

Note: An admin level user account is required to update the camera firmware.

Step 6. A browse dialog appears prompting you for the location of the new firmware file. Firmware files have a .bin file extension. Navigate to the folder where you placed the downloaded files and highlight the .bin file and then click Open.

Step 7. A warning message appears asking if you would like to continue. Click Ye s to continue the update process. If you need to abort the update process, click No.

Step 8. Another dialog box appears to let you know that the update process has begun. This process takes several minutes and it’s very important not to disrupt the camera power during the download process. The camera will display “301” in the IP Address LCD display window.

Warning: Do not unplug the camera’s power source or Ethernet connection while the firmware is downloading. Doing so can disable your camera.

Step 9. When the download has completed you will see a dialog confirming the successful download. If the camera is set to use DHCP, it will begin the process of acquiring a new address. When the address display stops blinking and shows an address, the camera is ready to be accessed.

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802.11b specifications

The Veo 802.11b is a notable wireless networking standard that emerged in the late 1990s as one of the first widely adopted protocols for local area networks (LANs). Operating in the 2.4 GHz frequency band, 802.11b provided users with the ability to connect to the internet and share resources without the constraints of wired connections.

One of the primary features of 802.11b is its maximum data transfer rate of 11 Mbps, which was impressive at the time of its release. This speed allowed for basic internet usage, file sharing, and general network connectivity. While this might seem slow by today’s standards, it laid the foundation for the rapid evolution of wireless technologies.

Veo 802.11b utilized Direct Sequence Spread Spectrum (DSSS) technology, which enhanced the reliability of the connection by spreading the signal over a wider frequency range. This technique helped to reduce interference, particularly in environments with multiple wireless devices operating on the same frequency. The standard also included mechanisms for ensuring data integrity, such as the use of cyclic redundancy check (CRC) algorithms.

In terms of range, Veo 802.11b offered coverage of approximately 100 to 300 feet indoors, and up to 1000 feet outdoors depending on environmental factors. This range made it suitable for home networks and small office environments, allowing users to access the internet from different locations within a building without the need for cumbersome cabling.

Another characteristic of the 802.11b standard was its compatibility with the earlier 802.11 standard, ensuring that devices using both protocols could operate together. This backward compatibility facilitated a smoother transition for users upgrading their systems, as they could maintain connectivity with older devices while enjoying the benefits of faster wireless networking.

Security was also an important aspect, though initially limited. The standard employed Wired Equivalent Privacy (WEP) for data encryption, which provided a basic level of security to protect wireless communications. However, as vulnerabilities were discovered in WEP, the need for stronger security protocols became evident, leading to further developments in later standards.

Ultimately, the Veo 802.11b played a pivotal role in revolutionizing wireless communications. It established the groundwork for further advancements such as 802.11g and 802.11n, which provided higher speeds and greater efficiency. While newer standards have since eclipsed its capabilities, 802.11b remains a significant milestone in the evolution of wireless networking technology. Its influence can still be seen in the pervasive use of wireless networks in homes, offices, and public spaces around the world today.