Tag Archives: mimo

MIMO ( multiple-input and multiple-output )

SISO – Single Input Single Output
SIMO – Single Input Multiple output
MISO – Multiple Input Single Output
MIMO – Multiple Input multiple Output

Multiplying the capacity of a radio link using multiple transmission and receiving antennas to exploit multipath propagation.
Key technology for achieving a vast increase of wireless communication capacity over a finite electromagnetic spectrum.

Antenna configuration – implies antenna spatial diversity by useing arrays of multiple antennas on one or both ends of a wireless communication link
boost channel capacity.
combats multipath fading
enhance signal to noise ratio,
create multiple communication paths

Applies to wifi
IEEE 802.11n (Wi-Fi), IEEE 802.11ac (Wi-Fi)
as well as cellular networks
HSPA+ (3G)
WiMAX (4G)
Long Term Evolution (4G LTE)
power-line communication for 3-wire installations as part of ITU G.hn standard and HomePlug AV2 specification

Large capacity increases over given bandwidth and S/N resources
Greater throughputs on bands below 6 GHz,

multi-user MU-MIMO

simultaneous independent data links to multiple users over a common time-frequency resource

massive MIMO

enable the expansion of the useful spectrum to microwave and millimeter wave bands within the framework of 5G cellular communication.

microdiversity MIMO

MIMO modes (60m)

Diversity – Alamouti algorithm
Beam forming – create and aim the antenna pattern electronically
Spatial multiplex – use of precoding and shaping to unravel the multipath signals

challenges faced by mobile equipment vendors implementing MIMO in small portable devices.


3main categories: precoding, spatial multiplexing (SM), and diversity coding.


multi-stream beamforming ( signal is emitted from each of the transmit antennas with appropriate phase and gain weighting such that the signal power is maximized at the receiver input ) , increases reception and reduce multipath fading

In line-of-sight propagation, beamforming results in a well-defined directional pattern. However, conventional beams are not a good analogy in cellular networks, which are mainly characterized by multipath propagation. When the receiver has multiple antennas, the transmit beamforming cannot simultaneously maximize the signal level at all of the receive antennas, and precoding with multiple streams is often beneficial. Note that precoding requires knowledge of channel state information (CSI) at the transmitter and the receiver.

Spatial multiplexing

High-rate signal is split into multiple lower-rate streams and each stream is transmitted from a different transmit antenna in the same frequency channel. If these signals arrive at the receiver antenna array with sufficiently different spatial signatures and the receiver has accurate CSI, it can separate these streams into (almost) parallel channels.

increasing channel capacity at higher signal-to-noise ratios (SNR).

Diversity coding

when there is no channel knowledge at the transmitter , a single stream is transmitted. The signal is emitted from each of the transmit antennas with full or near orthogonal coding. Diversity coding exploits the independent fading in the multiple antenna links to enhance signal diversity.

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