– GPS accuracy will be around 10-50m on average.. some areas might be a bit wider(as the point was logged where it was first seen, and not the strongest signal)
– i did not collect supported data rates (ie, did not differentiate between b/g/n)
– 2.4 Ghz only… no 5ghz
– speed of the driving could have had an impact on number of identified points.. had i lingered longer at some spots…
– no high gain equipment…
– observations made were made on the samples collected, i believe its a good representation of the whole. Interesting Observations: – Below Chart shows the encryption type in use. it’s nice to know 92.5 use some form of encryption still 308 is still a large number of points without any type of encryption, but Considering you really should be using WPA or WPA2 these days it’s still troubling that 40.06% use none or WEP encryption which is weak and easily breakable. -large number of access points have repeated SSID’s, i’ve selected the top 10… of those there are a lot which are the manufacturer default or ISP default.. .which really shouldn’t be the case. it is very likely that these points are extremely vulnerable with default passwords or most used passwords as well. -using the data it is also possible to identify which access points have which type of encryption to identify the most vulnerable. i’ve highlighted just a few as shown below where there are multiple SSID’s under same name and where no encryption is setup. -channel distribution is as expected, non overlapping 1, 6 and 11 make up 88.23%. which is good,
EDIIT : for non-techies : 2.4 Ghz is the frequency where wifi lives.. to be precise 2.401-2.495 Ghz depending on where you are(2.4Ghz b/g/n)… (it is unlicenced meaning you dont need a specific authority or permission to use italthough CAM has setup some guidelines for maximum power output… thats another story).. this range is split up to 14 channels 1 through to 14.. most routers don’t come with channel 14 enabled as it is not allowed in most countries… regulation wise… so the most common channels are 1-13.Thing is each channel takes a chunk of the whole 2.401-2.495 Ghz range… BUT…adjesant channels overlap.. lets put it into visual context here.. say channel 1 = 2.401–2.423 GHz and channel 2… 2.406–2.428 GHz, as you can see there is an overlap where 1 ends and 2 starts… this overlap results in interference which results in bad quality connection in general.
*Microsoft Excel format