In Mixed mode, dd-wrt routers are able to offer various wifi network types (B, G and N) at the same time from a single 2.4GHz radio. 802.11n transmission is always embedded in an 802.11a, for 5GHz radios, or 802.11g for 2.4GHz radio transmissions. This is called Mixed Mode Format protection (also known as L-SIG TXOP Protection).
Recommended Setting: Please actually pick a channel and try to use the cleanest channel with the least noise, most stable throughput, & lowest latency jitter. Using Channels 1, 6, or 11 assures no overlap with the adjacent channels. Using other channels will work, but may overlap with neighboring wifi which will likely be using one of the three channels above.
wifi cracker 2.4 14
1) Select your country first and YOU MUST HIT APPLY! The driver needs to reconfigure the country for the speific wifi chipset and then the router needs to get the updated channel list for your country
Recommended Setting (2.4 GHz): Full (20 MHz)- Why? Because nearly all cell phones and tablets will limit their channel width to only 20MHz if they detect neighboring routers/wifi AP's and so 40MHZ wide communication will not be allowed; even if you enable HT40 on the router. Your mileage may vary by enabling HT40 on the router for phones and tablets. As far as Laptops/Desktops, they usually have a way to allow 40MHz wide channels in the advanced driver settings. Disable "Fat Channel Intolerant" to take advantage of 40MHz on Windows OS's. Using HT40 enables channel bonding by using 2x20 MHz wide channels together to equal 40Mhz; but, it's considered "not neighbor friendly" and discouraged by industry standards- as noted above for android & iPhone HT20 limit. Using HT40 may, but usually doesn't, create more interference for neighbors; it's usually not an issue unless you're in VERY packed/dense/congested wireless area like apartments- Again YMMV with HT40. HT40 allows your 802.11n devices to connect at their max rate: 300 Mbps (2x2:2 stream clients).
Recommended Setting (5 GHz): VHT80 (80 MHz), or Wide HT40 (40 MHz). For wifi 5-wave 2 routers, VHT160 can only be taken advantage of by two/three Intel Wifi cards right now (9260/9265/AX200 2x2:2); otherwise, backhaul from one VHT160 capable router to another VHT160 capable router is the other reason to use VHT160 right now. Also to note, VHT160 operates in spectrum which requires reduced TX pwr vs. VHT80: VHT160 spectrum only allows 23dBm vs. 30dBm for VHT80 (USA and similar countries). So, use VHT160 if you know you have clients that can take advantage of it; but realize your TX distance may be worse than if you use VHT80. Also note, it may take up to a minute to find your 5ghz signal if using VHT160 mode.
Lastly, very few clients are 3x3 or 4x4 stream capable; usually only desktop wifi cards are 3x3 or 4x4 (due to space limits in tablets, phones, and laptops & cost of more antenna's). You'll obviously gain more throughput by having 3x3 or 4x4 capable routers & clients. Nearly all phones and tablets are 2x2:2 stream devices, at best, right now (limited room for 4 antenna's & cost too). AFAIK, all laptops use 2x2:2 stream cards; though, apple has a few 3x3:3 stream cards in their devices...use google to find 3x3 or 4x4 stream wifi clients.
ESP stuff is in the dollar range, and no gateway is required. Lora stuff is also in the 5$ range. A zigbee gateway is in the 100$ range and the zigbee module is more like 5$ to 10$, plus no (good) documentation. Also, development with a wifi module is done with your computer (nothing special, usual IP stuff, HTTP/MQTT/OTA). On zigbee, you have to use whatever proprietary protocol to send your code and debug it and it can become a mess if you have heterogeneous architecture of zigbee nodes.
My s21 was switching to 2.4ghz when I went to the end of my house despite getting 5-10x the speed on 5ghz being able to be achieved when it was connected to that(if I started test by router then ran to room, or sometimes when I reset wifi it would go to 5ghz for first 30 seconds sometimes).
Now I am in other side of house with tethering turned on in background and I've managed to do speed test after speed test at 80mbit+ over about 10 minutes now and my wifi hasn't disconnected either. In fact it's running super fast and snappy.
Nevernimd, still cuts out and goes back to 2.4.. Can connect to 5g more frequently(but not always) when using this 'fix' but the connection won't stick. I got about 15min and then have had to reconnect to wifi 3 times over the next 5 min.
But.. This network has about 5 phones on it. None, including my old phone, had issues. This s21 is the only phone that seems to require me to become an IT help desk and hack into modems. And you think that's OK? And you make claims it won't happen elsewhere? My router is most popular in my country. Every friend and family and many business use this router. My wifi has been terrible at all locations not just my house.
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But leaving things default is never a good idea, so we a going to change our wireless network name, pick a new password, optimize our wifi signal and disable the Wifi protected setup (because these are to easy to hack).
The D-Link router supports a guest wifi network. This way you can give your guests internet access without letting them on your private home network. The guest network is a separate Wifi network with its own wireless network name and password. Enabling it on a D-Link router is pretty easy.
I think Garmin should have made a weight only scale with the wifi connect and sell that for like 50$. They would sell a ton of those. I align with you and think most of the other metrics are largely useless. I wrestled in highschool and the difference between calipers, bioimpedence, and hydrostatic testing is crazy. The structure of a person impacts it greatly.
As an owner of the Original Index this is the deal breaker as an upgrade for me.The index is literally the only device I now own that cannot run on 5Ghz wifi and as we move to WiFi 6 standards it seems nonsensical to me that this would not have been updated.Guessing that this will be down to battery life or some such but really?
hey bro! I am happy what you did. Every thing was going fine with these command. But i got problem after last command: #aircrack-ng -w /usr/share/wordlists/wifi.txt ***-01.caperror:fopen (directory) failed: No such file or directoryfopen (directory) failed: No such file or directoryopening ***-01.capRead 509127 packets.#BSSID ESSID ENCRYPTIONxx:xx:xx:xx:xx:xx xyz WPA(1 handshake)
i think, yes, it is the path of my password dictionary. Because when i wrote command #ls initially it does not shows the rockyou.txt file bt when i wrote #ls command after the execution of first three command of the tutorial i.e cp /usr/share/wordlists/rockyou.txt.gz . , gunzip rock you.txt.gz and cat rockyou.txt sort uniq pw-inspector -m 8 -M 63 > wifi.txt it shows the both rockyou.txt and wifi.txti also tried other path i.e Desktop/usr/share/wordlists/wifi.txtand Desktop/share/wordlists/wifi.txtbt i receive same error.
Your microwave is emitting at the same frequency that your wifi operates on. I spent a considerable amount of time working for a major internet provider as a field technician, and wifi interference was one of our main issues.
Your wifi is a radio signal, just at a much higher frequency than most broadcast radios operate on. The best source of comparison I can draw on is to think about what happens to your AM radio signal, when you drive underneath a power-line. The signal noise you get is comparable to the noise your wifi is competing against near the aforementioned electrical devices.
Auto channel may help alleviate some of your problems, but auto channel is more meant to cope with multiple wifi signals in a small place, such as in an apartment complex, or an office building that is home to many different businesses all operating wifi.
I think InSSIDer will show you some channel power levels but what I think you are looking for is a true spectrum analyzer. Using a SE you can see non-wifi interference like monitors, bluetooth, phones, microwaves, etc... I have a leaky microwave at work that when used increases the channel utilization on CH11 to about 30%. So my wifi deployment current runs at about 20% utilization so when the microwave runs it jumps to over 50%. What I was able to do in the interim was to move my devices closest to the break room off of channel 11. I know this is not the best solution but it's only until we can get our facilities folks to install a newer commercial grade microwave in there. BTW the one currently in there and leaking is commercial grade but might be too old or the shielding is just off.
A microwave functions by using a heating element to pulsate off small amounts of radiation which excites water and fat molecules in food that produce friction and heat up. Basically, the radiation that normally heats up food may be in the same hertz range as a wifi router (something I've never heard of before, but certainly is possible). That can interfere with the radio waves used by the wifi router and other types of electromagnetic waves used by other wireless devices. The best way you can avoid it is just to keep your router away from the microwave, or get a type of material off of eBay that can absorb electromagnetic waves (I can't think of any off the top of my head). 2ff7e9595c
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