Differences

This shows you the differences between two versions of the page.

--- tools-survey [2024/08/19 23:48] – [Canvas controls] change "BSSIDs" to "BSSID" hogwild
+++ tools-survey [2024/10/27 19:25] (current) – [Wireless Survey] -Condense hogwild
@@ Line 2: / Line 2: @@
 This menu lets you visualize your own ("internal") & other peoples' ("external") WiFi networks with your router as the reference point.
+ \\
 The graphics at the top display SSIDs as ellipses. Below that, a table displays detailed information on each internal and external WiFi network.
@@ Line 7: / Line 9: @@
 Since release 2024.2, the Canvas API has been used to help visualize differences in frequency congestion between the 2.4 and 5GHz bands. \\  \\
-See the image below for an example of the Canvas graphics:
+The image below is an example of the Canvas graphics:
  \\ {{:pasted:20240520-073501.png?750}}
@@ Line 13: / Line 15: @@
  \\
-  * The location of the middle of an ellipse represents the center frequency being used (or "channel") on the network.
+  * The location of the middle of an ellipse represents the \\ center frequency being used (or "channel") on the network.
-  * The height of the ellipse represents signal strength on that network.
+  * The height of the ellipse represents signal strength \\ on that network.
-  * The width of the ellipse represents the channel width (20/40/80/160MHz) used on that network.
+  * The width of the ellipse represents the channel width \\ (20/40/80/160MHz) on that network.
-  * The bottom of the line through the ellipse's middle represents the Noise level on that network.\\ \\
+  * The bottom of the line through the ellipse's middle \\ represents the Noise level on that network.\\ \\
-Signal strength (or "RSSI" - Received Signal Strength Indicator) is measured in negative values. Here, 0 is the strongest signal.
+Signal strength (or "RSSI" - Received Signal Strength Indicator) is measured in negative values.
 -84dB (Worst signal) <-------> 0 dB (Best Signal)
+Here, 0 is the strongest signal.
+ \\
 In practice, a “usable" WiFi network must be at least -84dBm. However, you might still have working, but slow WiFi at -90dBm or less. It all depends on the client network adapter and external factors.
-The channel selected affects the positioning of the ellipse. The numbers on the X-axis represent channel utilization (congestion).
+The channel set in the [[basic-network|Network]] menu determines the ellipse's position. Numbers on the X-axis represent channel utilization (congestion).
 Only graphics relevant to your device/configuration are shown.
+ \\
 For example:
-  * On a dual-band router with only 5 GHz enabled, only the bottom canvas is visible.
+  * On a dual-band router with only 5 GHz enabled, \\ only the bottom canvas is visible.
-  * On a tri-band router with two 5 GHz channels, data from both interfaces will be displayed on the same canvas.
+  * On a tri-band router with two 5 GHz channels, data from \\ both interfaces will be displayed on the same canvas.
  \\
-Your router's own SSIDs are shown in light grey, with a hard-coded RSSI of -10dbm when in AP mode. The actual RSSI is displayed when the device is in Wireless Client mode/Media-Bridge mode or other special modes.
+Your router's SSIDs are shown in light grey, with a hard-coded RSSI of -10dbm when in AP mode. The actual RSSI is displayed when the device is in Wireless Client mode/Media Bridge mode or other special modes.
 Note that some WiFi networks are "hidden". These are configured not to broadcast their SSID.
@@ Line 46: / Line 54: @@
 ===== Noise and SNR =====
-For each frequency, the signal-to-noise ratio (SNR)  can be seen, expressed as a positive number in dB. Unlike RSSI, with noise, the more negative the number, the better. An ideal network has strong signal and low noise.
+For each frequency, the signal-to-noise ratio (SNR)  is seen, expressed as a positive number in dB. Unlike RSSI, with noise, the more negative the number, the better. An ideal network has strong signal and low noise.
-In the image below, the top of the ellipse represents the RSSI, and the translucent band at the bottom of the chart represents Noise level.
+In the image below, the top of the ellipse represents the RSSI, and the translucent band at the chart's bottom represents Noise level.
-**SNR** (Signal-to-Noise ratio) is also displayed in this edited image in the form of a red line. This represents the amount of “good” signal. \\
+**SNR** (Signal-to-Noise ratio) is also shown in this edited image in the form of a red line. It represents the amount of “good” signal. \\
-To calculate the SNR we add together the RSSI and the positive integer of the recorded dBm Noise value.
+To calculate the SNR we add together the RSSI and the positive integer of the recorded Noise value, in dBm.
  \\
@@ Line 78: / Line 86: @@
 The controls under the canvases allow you to customize the look of the SSID ellipses:
- \\ {{:pasted:20240603-193049.png?800}}\\   \\
+ \\ {{:pasted:20240603-193049.png?693}}\\   \\
 **Display:** Lets you filter which WiFi bands are shown.
@@ Line 90: / Line 98: @@
  \\
-This setting is purposely "forgotten" and will reset to defaults the next time you visit the menu. \\
+This setting is purposely "forgotten" and will reset to defaults the next time you visit the menu. \\  \\
-**Style:** represents how translucent the ellipses and noise figures will appear.\\ This is saved in a browser cookie. \\ \\ **SSID text **(in pixels)**:** tweaks the font size for SSID names on top of the relevant ellipse. \\ It also allows you to fully hide the SSID name on the charts. This is saved in a browser cookie. \\ \\ **Limit SSIDs:** SSIDs are drawn from the highest RSSI to the lowest. The Limit (0-40) represents the maximum number of SSIDs displayed in every canvas shown. The Limit filters out from the weakest RSSI to the highest. (Default: 20).\\  \\ This setting does not affect the number of records in the table. However, only the RGB column will display/hide items based on the limit value. This is saved in a browser cookie. \\ \\ **Shuffle:** randomizes the colours of the external (scanned BSSID) ellipses.
+**Style:** represents how translucent the ellipses and noise figures will appear.\\ This is saved in a browser cookie. \\ \\ **SSID text **(in pixels)**:** tweaks the font size for SSID names on top of the relevant ellipse. \\ It also allows you to fully hide the SSID name on the charts. This is saved in a browser cookie. \\ \\ **Limit SSIDs:** SSIDs are drawn from highest RSSI to lowest. The Limit (0-40) represents the maximum number of SSIDs displayed in every canvas shown. The Limit filters out from the weakest RSSI to the highest. (Default: 20).\\  \\ This setting doesn't affect the number of records in the table. However, only the RGB column will display/hide items based on the limit value. This is saved in a browser cookie. \\ \\ **Shuffle:** randomizes the colours of the external (scanned BSSID) ellipses.
@@ Line 99: / Line 107: @@
 {{:pasted:20240620-085116.png?800}}\\  \\
-At the bottom of the page is a table showing the following information for each network:
+At the menu bottom is a table showing the following for each network:
-  * Last Seen - the date and time a network was last detected
+ \\
+  * Last Seen - the date/time that network was last detected
   * RGB - the unique colours associated with that SSID
   * SSID - that network's name
-  * BSSID - the MAC address of that network's WiFi interface
+  * BSSID - the MAC address of the network's WiFi interface
   * RSSI - that network's Relative Signal Strength Indicator
   * SNR - the Signal-to-Noise ratio of that network
   * Signal Quality - a calculation of expected WiFi performance
-  * Control and Central channel, including band and sideband width
+  * Control/Central channel, including band and sideband width
   * Security - the security protocol active on that network
   * 802.11 - the supported WiFi protocols
@@ Line 121: / Line 131: @@
 Information in this menu is designed to help you understand the nearby networks so you can choose optimal channels for your network.
-However, there is a caveat: the radio(s) of the FreshTomato router performing the survey limited its ability to detect the real channel width of the signal.
+However, there is a caveat: the radio(s) of the FreshTomato router performing the survey limit its ability to detect the actual channel widths of signals.
+ \\
 For example, if your router has:
-  * an 802.11g or WIFI3 radio all channel widths > 20 MHz are displayed as 20MHz
+ \\
-  * an 802.11n or WIFI4 radio all channel widths > 40 MHz are displayed as 40MHz
-  * an 802.11ac or WIFI5 radio all channel widths > 80 MHz are displayed as 80MHz
+  * An 802.11g radio, all channel widths > 20 MHz display as 20MHz
-  * an 802.11ax or WIFI6 radio all channel widths > 160 MHz are displayed as 160MHz
+  * An 802.11n radio, all channel widths > 40 MHz display as 40MHz
+  * An 802.11ac radio, all channel widths > 80 MHz display as 80MHz
+  * An 802.11ax radio, all channel widths > 160 MHz display as 160MHz
 \\
-While this tool is fully functional, you are advised to also use another WiFi scanner, such as a smartphone app. Doing so will give you both the router's perspective and the client's perspective.
+Though this tool is fully functional, you are advised to also use another WiFi scanner, such as a smartphone app. Adding this data will give you both the client's perspective, and the router's.
  \\

FreshTomato Wiki

User Tools

Site Tools

Differences

Page Tools