# How to convert Wifi signal strength from Quality (percent) to RSSI (dBm)?

How should I convert Wifi signal strength from a Quality in percentage, usually 0% to 100% into an RSSI value, usually a negative dBm number (i.e. `-96db`)?

## Wifi Signal Strength Percentage to RSSI dBm

Microsoft defines Wifi signal quality in their WLAN_ASSOCIATION_ATTRIBUTES structure as follows:

wlanSignalQuality:

A percentage value that represents the signal quality of the network. WLAN_SIGNAL_QUALITY is of type ULONG. This member contains a value between 0 and 100. A value of 0 implies an actual RSSI signal strength of -100 dbm. A value of 100 implies an actual RSSI signal strength of -50 dbm. You can calculate the RSSI signal strength value for wlanSignalQuality values between 1 and 99 using linear interpolation.

RSSI (or "Radio (Received) Signal Strength Indicator") are in units of 'dB' (decibel) or the similar 'dBm' (dB per milliwatt) (See dB vs. dBm) in which the smaller magnitude negative numbers have the highest signal strength, or quality.

Therefore, the conversion between `quality` (percentage) and `dBm` is as follows:

``````    quality = 2 * (dBm + 100)  where dBm: [-100 to -50]

dBm = (quality / 2) - 100  where quality: [0 to 100]
``````

Pseudo Code (with example clamping):

``````    // dBm to Quality:
if(dBm <= -100)
quality = 0;
else if(dBm >= -50)
quality = 100;
else
quality = 2 * (dBm + 100);

// Quality to dBm:
if(quality <= 0)
dBm = -100;
else if(quality >= 100)
dBm = -50;
else
dBm = (quality / 2) - 100;
``````

Note:

Check the definition of `Quality` that you are using for your calculations carefully. Also check the range of `dB` (or `dBm`). The limits may vary.

Examples:

``````Medium quality:   50%      ->   -75dBm   = (50 / 2) - 100
Low quality:      -96dBm   ->   8%       = 2 * (-96 + 100)
``````

In JS I prefer doing something like:

`Math.min(Math.max(2 * (x + 100), 0), 100)`

My personal opinion is that it's more elegant way to write it, instead of using `if`'s.

From experience:

1. Less than -50dB (-40, -30 and -20) = 100% of signal strength
2. From -51 to -55dB= 90%
3. From -56 to -62dB=80%
4. From -63 to -65dB=75%

The below is not good enough for Apple devices

5. From -66 to 68dB=70%
6. From -69 to 74dB= 60%
7. From -75 to 79dB= 50%
8. From -80 to -83dB=30%
Windows laptops can work fine on -80dB however with slower speeds

Im glad I found this post cause I was looking for a way to convert the dbm to percentage. Using David's post, I wrote up a quick script in python to calculate the quality percentage.

``````#!/usr/bin/env python3
import os
import platform

system = platform.system()
if system == 'Linux':
cmd = "iwconfig wlan0 | grep Signal | /usr/bin/awk '{print \$4}' | /usr/bin/cut -d'=' -f2"
elif system == 'Darwin':
cmd = "/System/Library/PrivateFrameworks/Apple80211.framework/Versions/Current/Resources/airport -I | grep CtlRSSI | awk '{ print \$NF; }"
else:
print("Unsupported os: {}".format(system))

if dbm:
dbm_num = int(dbm)
quality = 2 * (dbm_num + 100)
print("{0} dbm_num = {1}%".format(dbm_num, quality))
else:
``````

In order to get the highest wifi quality from where my computer is located, I moved/rotated my antenna until I received the highest quality. To see real time quality, I ran the above script using:

``````watch -n0.1 "python getwifiquality.py"
``````

RSSI is an indicator and RSS is the real value. Ok, now what do you mean by indicator, indicator mean it can be a relative value and RSSI is always a positive value and there is no unit for the RSSI.

We can say RSSI is for common man to understand. RF values are always told in dBm and the values are negative values most of the time. To make it easy for the people to understand these negative values are converted to positive values through scaling.

Say for example, if the maximum signal strength is `0 dBm` and minimum is `-100 dBm`. We can scale it like as explained. We can put `0 dBm` and more (RSS) as `100` RSSI (i. e. maximum RSSI) and `-100 dBm` (or less) as `0 RSSI` (minimum RSS).

I know this may be late but this may help someone in the future.

I took the value of dBm 30-90 for RSSI and correlated it to 100-0 %.

I used the basic linear equation to get the answer.

``````y = mx + b
``````

We know our x values for dBm as 30 and 90. We know our y values for % as 100 and 0.

We just need to find the slope. So we can make it linear.

``````m = 100-0/30-90

= 100/-60

= -5/3

b = y - mx

= 0 + 5/3*90
= 150
``````

Final equation to put in code when you know the RSSI value.

``````% = 150 - (5/3) * RSSI
``````

Note I did take the RSSI value that is normally negative and multiplied by the absolute value to get positive numbers.

``````quality = abs(RSSI)
% = 150 - (5/3) * quality
``````

According to it RSSI do not have a unit. It's a value defined in 802.11 standard and calculated by nic card and sent to OS. The nic card vendor should provide a mapping table of dBm-RSSI values.

Mentioned pseudocode will not work all the ranges, the ranges example (-80dBm to 0, and -40dBm to 100).

Generic simple logic to map any range to 0 to 100. Usage example, for below code ConvertRangeToPercentage(-80,-40,-50)

``````int ConvertRangeToPercentage (int a_value_map_to_zero, int a_value_map_to_100, int a_value_to_convert)
{

int percentage = 0;

if (a_value_map_to_zero < a_value_map_to_100)
{
if (a_value_to_convert <= a_value_map_to_zero)
{
percentage = 0;
}
else if (a_value_to_convert >= a_value_map_to_100)
{
percentage = 100;
}
else
{
percentage = (a_value_to_convert - a_value_map_to_zero) * 100 / (a_value_map_to_100 - a_value_map_to_zero);
}
}
else if (a_value_map_to_zero > a_value_map_to_100)
{
if (a_value_to_convert >= a_value_map_to_zero)
{
percentage = 0;
}
else if (a_value_to_convert <= a_value_map_to_100)
{
percentage = 100;
}
else
{
percentage = (a_value_to_convert - a_value_map_to_zero) * 100 / (a_value_map_to_100 - a_value_map_to_zero);
}
}
else
{
percentage = 0;
}

return percentage;
}
``````

Ok.. I agree...but why is then:

`````` Quality=29/100  Signal level=-78 dBm
Quality=89/100  Signal level=-55 dBm
Quality=100/100 Signal level=-21 dBm
``````

this does not agree with the formula percentage=quality/2 - 100.

• There is no universally-agreed meaning of 'quality'. Microsoft has one definition, described in the accepted answer, but other software may not use this definition. For example, WiFi Explorer says that -20 dBm is 100%, and even points out that "other tools show percentage values for signal strength that are far off from what you see in WiFi Explorer." – bitinerant Mar 12 '19 at 12:40

Also, you can try inverse this Bash function which converts dBm to percentage:

``````#!/bin/bash

dbmtoperc_d=\$(echo "\$1" | tr -d -)
dbmtoperc_r=0
if [[ "\$dbmtoperc_d" =~ [0-9]+\$ ]]; then
if ((1<=\$dbmtoperc_d && \$dbmtoperc_d<=20)); then dbmtoperc_r=100
elif ((21<=\$dbmtoperc_d && \$dbmtoperc_d<=23)); then dbmtoperc_r=99
elif ((24<=\$dbmtoperc_d && \$dbmtoperc_d<=26)); then dbmtoperc_r=98
elif ((27<=\$dbmtoperc_d && \$dbmtoperc_d<=28)); then dbmtoperc_r=97
elif ((29<=\$dbmtoperc_d && \$dbmtoperc_d<=30)); then dbmtoperc_r=96
elif ((31<=\$dbmtoperc_d && \$dbmtoperc_d<=32)); then dbmtoperc_r=95
elif ((33==\$dbmtoperc_d)); then dbmtoperc_r=94
elif ((34<=\$dbmtoperc_d && \$dbmtoperc_d<=35)); then dbmtoperc_r=93
elif ((36<=\$dbmtoperc_d && \$dbmtoperc_d<=38)); then dbmtoperc_r=\$((92-(\$dbmtoperc_d-36)))
elif ((39<=\$dbmtoperc_d && \$dbmtoperc_d<=51)); then dbmtoperc_r=\$((90-(\$dbmtoperc_d-39)))
elif ((52<=\$dbmtoperc_d && \$dbmtoperc_d<=55)); then dbmtoperc_r=\$((76-(\$dbmtoperc_d-52)))
elif ((56<=\$dbmtoperc_d && \$dbmtoperc_d<=58)); then dbmtoperc_r=\$((71-(\$dbmtoperc_d-56)))
elif ((59<=\$dbmtoperc_d && \$dbmtoperc_d<=60)); then dbmtoperc_r=\$((67-(\$dbmtoperc_d-59)))
elif ((61<=\$dbmtoperc_d && \$dbmtoperc_d<=62)); then dbmtoperc_r=\$((64-(\$dbmtoperc_d-61)))
elif ((63<=\$dbmtoperc_d && \$dbmtoperc_d<=64)); then dbmtoperc_r=\$((61-(\$dbmtoperc_d-63)))
elif ((65==\$dbmtoperc_d)); then dbmtoperc_r=58
elif ((66<=\$dbmtoperc_d && \$dbmtoperc_d<=67)); then dbmtoperc_r=\$((56-(\$dbmtoperc_d-66)))
elif ((68==\$dbmtoperc_d)); then dbmtoperc_r=53
elif ((69==\$dbmtoperc_d)); then dbmtoperc_r=51
elif ((70<=\$dbmtoperc_d && \$dbmtoperc_d<=85)); then dbmtoperc_r=\$((50-(\$dbmtoperc_d-70)*2))
elif ((86<=\$dbmtoperc_d && \$dbmtoperc_d<=88)); then dbmtoperc_r=\$((17-(\$dbmtoperc_d-86)*2))
elif ((89<=\$dbmtoperc_d && \$dbmtoperc_d<=91)); then dbmtoperc_r=\$((10-(\$dbmtoperc_d-89)*2))
elif ((92==\$dbmtoperc_d)); then dbmtoperc_r=3
elif ((93<=\$dbmtoperc_d)); then dbmtoperc_r=1; fi
fi
echo \$dbmtoperc_r
}
``````

Usage:

``````echo \$(dbmtoperc -48)% # returns 81%
``````
• Article you point is erroneous because dBm is already a nonlinear logarithmic represent of mW. So this solution is logarithm of logarithm. So we have "signal quality is double logarithm of signal power" - this is nonsense. – imbearr Mar 13 '19 at 7:25
• @imbearr You might be right, but this values were figured by real situation. What's your solution then? – F8ER Mar 14 '19 at 8:25
• I'm prefer to use solution proposed by David Manpearl. This is simple linear convertation, it produce only even values of percent but I think we can't doing something better, because we have only integer dbm value as source. – imbearr Mar 14 '19 at 8:45

This is what i have done :

``````long rssi = WiFi.RSSI();
int WiFiperct;
WiFiperct =100;
}
}
}
}