What is MU-MIMO and why is needed it?
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What is MUMIMO - Understand the technology in 30 seconds
MUMIMO: Multi-user, Multiple Input, Multiple Output
The goal of MU-MIMO is to use as many spatial streams as possible, whether the transmission is with one client device utilizing up to 4 spatial streams or with four client devices using one spatial stream each.
Let’s assume you are experiencing congestion in the WiFi network. The devices connected run slower and your WiFi connection suffers from interruptions and delays. This could be due to an access point in the network serving only one client device at a time. With single-user access points, each device waits its turn to send and receive data from the internet.
Accordingly, when a new device tries to connect, the waiting time becomes longer. Enter MU-MIMO, a set of wireless technologies that enables multiple client devices simultaneously to communicate with each other. Let’s discover why MU-MIMO is so useful and how you can make the most of it.
What is MU-MIMO?
MIMO – Multiple-Input, Multiple-Output -, which refers to the way internet bandwidth is broken up by an access point and pushed to the connected devices, has evolved over the years since the debut of the single-user mode (SU-MIMO) introduced with the 802.11n wireless standard. MIMO technology was created to increase the number of antennas on a wireless router or access point used to receive and transmit, improving wireless connections capacity.
MU-MIMO access points can be available in 2×2, 3×3, or 4×4 variations. These variations refer to the number of streams (two, three, or four) that they can create for each device. This technology was developed to help in situations where multiple users are trying to access the wireless network at the same time, without interruption of the connectivity.
The 802.11ac (WiFi 5) standard introduced optional MU-MIMO in Wave 2 products. With the 802.11ax (WiFi 6) standard, we see even more progress to this new innovative technology.
How does MU-MIMO work?
For instance, an access point that can send radiofrequency on one stream and receive it on another would be 1×1. Then, a 2×2 device supports two streams in each direction, and a 3×3 device supports three, and so on. Any device that supports more streams will work with any device that supports fewer streams, but the lesser device will limit the overall performance.
A transmitting radio chain sends a data set (known as a spatial stream) that the receiver’s radio chain reconstructs. In MIMO, each radio/antenna chain transmits a spatial stream in the same frequency channel as the transmitter. Then, the receiver gets each stream on each of its identical radio/antenna chains. Because the receiver understands the phase offsets of its own antennas, it can reconstruct the original streams.
MU-MIMO takes advantage of Beamforming —a feature of 11ac and 11ax that directs signals toward the intended wireless device instead of random directions. The signal is directed to the devices that are connected to it. Without Beamforming, a transmission would be sent in every possible direction. Since the signal is more efficiently used, MU-MIMO helps increase WiFi ranges and speeds.
It allows an antenna to send radio signals from one location to multiple specific endpoints, instead of transmitting around an entire area. This designated point-to-multipoint communication creates a stronger, better, faster wireless communication.
What are the benefits of MU-MIMO?
The signal remains constant
MU-MIMO helps increase network capacity
Any channel width is supported
MU-MIMO improves performance
What is the future for MU-MIMO?
In fact, with the upcoming WiFi 6 standard, MU-MIMO will work in both the 2.4GHz and 5GHz bands. The access points can support up to twelve simultaneous streams, with four streams on 2.4 GHz band and eight streams on the 5GHz band. This can help speed up the communication process, both in download and upload.
Nowadays, MU-MIMO is still expanding its capabilities, and always more devices can get the benefits. Therefore, the possibilities of MU-MIMO are rapidly growing and could become endless, with considerable advantages for an even more performing internet network experience.
The ultimate variation available on the market with the new standard is the 8×8 MU-MIMO. This technology is also known as Massive MIMO. 8×8 devices can transmit data on eight radio chains to a single client, downloading and uploading at the same time.
Benefits of 8×8 compared to 4×4
- Single-user data throughput
- MU-MIMO capacity – 8×8 devices support four simultaneous 2×2 MU-MIMO clients that support downlink MU-MIMO, with significant multiplications in network capacity.
- Larger WiFi coverage area, especially thanks to the Beamforming.
- WiFi reliability with fewer interruptions of the connection
- Possibility to deliver up to 1.2 Gbps of bandwidth to each of four 2×2 client devices. The total aggregate bandwidth will be then of 4.8 Gbps.
- Repeater Configuration, reducing the need for repeater/mesh over 4×4, thus representing the most economical deployment for service providers.
In summary, the deployment of 8×8 APs significantly increases the data rate over 4×4 AP deployments. Loss of connection goes down from almost 23% for a 4×4 deployment to 10% for 8×8 deployment resulting in a 60% decrease in disconnections.
Furthermore, MU-MIMO scales better with 8×8 rather than 4×4. While coverage can be improved by adding repeaters, network capacity goes down, ending in a lower capacity than using 8×8 APs in those deployments where an 8×8 AP provides sufficient coverage.
It seems that 8×8 MU-MIMO facilitates access points to manage traffic from different 802.11ax devices more efficiently than 4×4. Nevertheless, the debate on the pros and cons of 8×8 is still open.
The drawbacks of 8×8
Moreover, MU-MIMO requires spatial diversity. Most of today’s WiFi enterprise deployments involve a high density of users and devices that are not compatible with MU-MIMO provisions. To make MU-MIMO technology perform, there must be a proper physical distance between all the clients and between the AP.
Almost all indoor WLANs are high-density environments because there are many users and devices. What’s more, most users want to connect with more than one wireless device, at the same time. Additionally, high-density environments expect multiple areas with roaming as a fundamental prerequisite. But, MU-MIMO hardly works well with mobile clients. So the necessary spatial diversity doesn’t exist within the majority of indoor enterprise WiFi high-density deployments.
In conclusion, even if MU-MIMO profits can appear more than the drawbacks, often, the reality is that the expensive 8×8 AP offers no substantial advantage over a less expensive 4×4 access point.
What kind of devices support MU-MIMO?
4×4 MU-MIMO Tanaza Powered Devices
The Tanaza Powered access points are suitable for professional medium and large-scale deployments. Also, Tanaza gives customers the flexibility to choose the WiFi access points that meet their needs best from our list of compatible devices.
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