If you want to remove a device from the blacklist or whitelist, click the icon after the device information in the WLAN MAC address list. If you don't want to use the blacklist or whitelist feature, just turn off the WLAN MAC address filter switch. Click Save, and your settings will take effect. After adding, you can see the device you just added in the WLAN MAC address list. Select the Wi-Fi terminal device you want to add to the blacklist or whitelist in the drop-down list of device names, and the MAC address bar will automatically adapt the corresponding MAC address, and then click OK.ĥ. The filtering method is "allow", that is, whitelist mode, in which only devices added to the list can connect to the Wi-Fi of Huawei 4G Route 2.Ĥ. Note: The filtering mode is "prohibited", that is, blacklist mode, in which devices added to the list cannot connect to the Wi-Fi of Huawei 4G Route 2. Select the filter method to prohibit or allow, and then click +. Turn on the WLAN MAC address filter switch.
HUAWEI MAC ADDRESS LIST PASSWORD
SSID guest: This SSID is not hidden, and authentication is not needed when accessing this network.How to set the WiFi blacklist and whitelist of Huawei 4G Route 2? Method 1: set upġ through the management page, connect the computer to the Wi-Fi of Huawei 4G Route 2 (or connect the computer to the LAN interface of Huawei 4G routing).Ģ, enter 192.168.8.1 in the address bar of the mobile phone or computer browser to log in to the management page of Huawei 4G Route 2, and enter the login password of the management page to enter the management page (the following figure takes the computer interface as an example, the mobile phone interface is similar).ģ, choose the advanced setting > WLAN > WLAN MAC address filtering.SSID employee: SSID hiding is enabled for this SSID, and only users who know the SSID can join the network employee after being authenticated.
That is, a WLAN can be divided into many subnets with different SSIDs, and each subnet provides customized services for its user group.įor example, an enterprise network is divided into two subnets for employees and guests: Each VAP targets at a specified user group, and has a unique SSID as well as customized configurations of security policies, access authentication, rate limiting, access control, multi-user multiple-input multiple-output ( MU-MIMO), and orthogonal frequency division multiple access ( OFDMA). With this function, multiple VAPs can be created on an AP. With the growth of WLAN users, a single network cannot meet the requirements of users with different identities.Ĭurrently, APs support the multi-SSID function.
BSSID is not perceived by users, and is used for managing and maintaining wireless networks, and locating problems.ĭividing a Network into Subnets Based on Multiple SSIDsĮarly 802.11 chips in APs support only a single SSID, providing only one WLAN for users. Generally, the so-called SSID refers to an ESSID, which is a wireless network name in the SSID list. SSID is classified into BSSID and ESSID, which identify the basic service set (BSS) and extended service set (ESS), respectively. For example, in an enterprise network, the administrator can configure the SSID employee for employees and the SSID guest for guests to provide different services for enterprise employees and guests. This distinguishes between access permissions and network functions of different users and enhances the WLAN flexibility and security. The administrator can divide a WLAN into subnets with different SSIDs and configurations to allow users of different identities to access corresponding networks based on the SSIDs.The same SSID can be configured for different APs in a WLAN to implement the roaming function, which enables users to move freely in the area covered by these APs without interrupting network services.In the SSID list, an easy-to-understand SSID helps users to easily find the wireless network to access.Appropriate SSIDs will improve the Internet access experience for terminal users:.