802.11ac - wireless network standardConstantly growing number of wireless devices makes it more and more difficult to use 2.4 GHz band due to wireless congestion - where all the connected devices compete for bandwidth.
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WiFi networks in urban areas create a dense network, which combined with a large number of constantly connected devices led to a decrease in wireless connection quality. It is one of the main reasons that wireless IP cameras are rarely used.
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2.4 GHz signal can be interfered by other wireless networks, smartphones, tablets, laptops or even microwave ovens operating in the same band. 5 GHz band offers many more wireless channels, which means that even in the presence of other networks operating in the same band, it is easier to avoid mutual interferences.
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The quality can further be improved with MIMO technology known from 802.11n standard. 802.11ac standard uses Multi-User MIMO (MU-MIMO) technology which is an improvement over the previous technology and allows to allocate spatial streams to more than one device at the same time. The number of devices depends on the number of antennae and the way MU-MIMO has been implemented, in all cases increasing the bandwidth.
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802.11ac standard also provides a new capability of giving the band access to multiple users, coupled with a standard beamforming technology. The main advantage is improved bandwidth of the wireless links.
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Table 1. Comparison of wireless network performances Standard | IEEE 802.11n | IEEE 802.11ac | single-stream (1x1) | 150 Mbps | 433 Mbps | dual-stream (2x2) | 300 Mbps | 867 Mbps | triple-stream (3x3) | 450 Mbps | 1.3 Gb/s |
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Although the bit rate is one of the most important features defining 802.11ac, a comparison with the most popular 802.11n standard can provide a detailed insight.
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Table 2. Comparison of 802.11n and 802.11ac standards IEEE 802.11n | IEEE 802.11ac | up to 4 spatial streams | up to 8 spatial streams | 3 streams – maximum bit rate 450 Mbps | 3 streams – maximum bit rate 1300 Mbps | 20 and 40 MHz channels | 20, 40, 80 and 160 MHz channels | modulation per stream 64-QAM | modulation per stream 256-QAM | MIMO | Multi-user MIMO | | extended frame aggregation | | beamforming (beamforming) |
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Fig. 1. Beamforming (beamforming) in 802.11ac standard
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The comparison shows that 802.11ac standard offers more options and improved efficiency. In practice, 802.11ac provides higher bit rates and allows to connect a greater number of devices which can operate at a greater distance from the router.
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