10 Tm5117aen03gla1 Mimo for Lte Ppt
-
Upload
mohammedraziuddinakheel -
Category
Documents
-
view
225 -
download
0
Transcript of 10 Tm5117aen03gla1 Mimo for Lte Ppt
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 1/39TM5117AEN03GLA1
MIMO for LTE
1
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 2/39TM5117AEN03GLA1
MIMO for LTE
2
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 3/39TM5117AEN03GLA1
MIMO for LTE
3
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 4/39TM5117AEN03GLA1
MIMO for LTE
4
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 5/39TM5117AEN03GLA1
MIMO for LTE
5
LTE Physical Layer services assume multiple port antenna systems are used.Multiple port antenna
systems are implemented for the following reasons:
• Improved transmission reliability
• Greater coverage or range
• Reduced UE power consumption
• Increased transmission throughput
Multiple port antenna systems include the following:
• Single Input Multiple Output (SIMO)
• Multiple Input Single Output (MISO)
• Multiple Input Multiple Output (MIMO)
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 6/39TM5117AEN03GLA1
MIMO for LTE
6
In a SIMO configuration the transmitter (usually the UE) has one transmitter and thereceiver (the
eNodeB) has two physically separated antenna ports. The receiver picks up multipleversions of the
same signal but separated spatially. SIMO receivers use the following techniques tocompute the best
received signal.
Switched Diversity
In Switched Diversity, the input with the best signal is chosen as the best source. The“best” signal
may be based on Signal-to-Noise Ratio (SNR) or Bit Error Rate (BER). Switcheddiversity is the most
simple and inexpensive SIMO technique.
Equal Gain Combining
Equal Gain Combining is a summation of all available received signals.
Maximum Ratio Combining
In Maximum Ratio Combining (MRC), each received signal has compensationapplied to it before being
combined to produce a composite single signal. This technique is particularly effectivewhere the signal
undergoes deep fading. Because fading probably occurs at different frequencies on
each antenna port,
the reliability of the radio link is increased.
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 7/39TM5117AEN03GLA1
MIMO for LTE
7
A MISO (eNodeB) transmitter has two or more physically separated antenna ports,while the MISO (UE)
receiver has one antenna. Each Tx port transmits the same information bits. Inaddition to data signals,
reference signals are also transmitted via both antenna ports. The normal referencesignal pattern is
sent via the first antenna port and the diversity reference signal pattern via the secondantenna port.
In Space-Time Transmit Diversity (STTD) the same data is transmittedsimultaneously over both Tx
ports. On each port, the channel-coded data is processed in blocks of four bits, thenthe bits are time
reversed and complex conjugated. The physical separation of the antenna portsprovides the space
diversity, and the time difference derived from the bit-reversing process provides thetime diversity. These
features together make the decoding process in the receiver more reliable.
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 8/39TM5117AEN03GLA1
MIMO for LTE
8
MIMO systems contain multiple antenna ports at both the transmitter and receiver.The MIMO transmitter
transmits signals using time, frequency, and space diversity. The MIMO receiverrecovers the data across
multiple receiving antenna ports.
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 9/39TM5117AEN03GLA1
MIMO for LTE
9
Space-Time Coding (STC) provides diversity gain to combat the effects of unwantedmultipath
propagation. Similar to STTD, time delayed and coded versions of the same signalare sent from the
same transmitter antenna. The codes that are used are mainly: trellis and block (lesscomplex) codes.
This improves the SNR for cell edge performance.
Spatial Multiplexing (SM)
With Spatial Multiplexing, unique (different) data streams are transmitted overdifferent antenna ports.
Spatial multiplexing can double (2x2 MIMO) or quadruple (4x4 MIMO) capacity andthroughput. This
technique gives higher capacity when RF conditions are favorable and users arecloser to the eNodeB.
The graphic shows spatial multiplexing with a 2x2 MIMO configuration. The receivercan identify the
transmitting antenna port for each received signal
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 10/39TM5117AEN03GLA1
MIMO for LTE
10
MIMO supports single user MIMO and multi-user MIMO. Single User MIMO improvesthe performance
for a UE (via space time coding), or increases the throughput for a UE (using spatialmultiplexing).
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 11/39TM5117AEN03GLA1
MIMO for LTE
11
In multi-user MIMO, the data for different users is multiplexed onto a single time-frequency resource, so
the capacity of the cell can increase in terms of users without increasing the systembandwidth.
Switching between SU-MIMO and MU-MIMO is supported on a per UE basis. The
use of codes and reference signals not only allows the receiver to differentiate
between antenna streams and users, but also allows accurate channel estimation
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 12/39TM5117AEN03GLA1
MIMO for LTE
12
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 13/39TM5117AEN03GLA1
MIMO for LTE
13
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 14/39TM5117AEN03GLA1
MIMO for LTE
14
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 15/39TM5117AEN03GLA1
MIMO for LTE
15
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 16/39TM5117AEN03GLA1
MIMO for LTE
16
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 17/39TM5117AEN03GLA1
MIMO for LTE
17
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 18/39TM5117AEN03GLA1
MIMO for LTE
18
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 19/39TM5117AEN03GLA1
MIMO for LTE
19
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 20/39TM5117AEN03GLA1
MIMO for LTE
20
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 21/39TM5117AEN03GLA1
MIMO for LTE
21
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 22/39TM5117AEN03GLA1
MIMO for LTE
22
MIMO supports both open loop and closed loop control. Open loop MIMOtransceivers adjust their
transmission based on received (reference signal) measurements. This assumes norapid feedback
technique is available from the UE receiver back to the eNodeB transmitter.Unfortunately, in open loop
operation, the transmitter receives no feedback regarding antenna port operation orsignal strength in
the forward direction.
Closed loop MIMO supports a feedback loop describing eNodeB transmitteroperation and UE
recommendations. Both the eNodeB and UE contain a codebook which describespossible RF
parameters, for example, the phase shift between antenna ports. In closed loopMIMO, the UE
describes eNodeB transmitter operation by returning an index into the sharedcodebook.
Closed loop operation uses the following steps.
1. The eNodeB transmits a DL pilot channel as a reference signal on all antennaports.
2. he UE evaluates various codebook options that specify the RF parameters.3. The UE transmits its recommendations in the form of a codebook index to theeNodeB.
4. The eNodeB adjusts its DL transmission to the UE based on the recommendedparameters.
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 23/39TM5117AEN03GLA1
MIMO for LTE
23
In case of open loop spatial multiplex two cases have to be distinguished. If thetransmitted rank indication (TRI) = 1 the transmission mode corresponds to transmit
diversity.
If TRI >1 large delay CDD is used. The number of layers is 2, 3 or 4.
In case of closed loop spatial multiplexing feedback from the UE it is used.
The UE feedbacks values of the RI = Rank Indicator and PMI = Precoding MatrixIndicator.
In case of 2 antenna ports the codebook consists of 2 matrices, in case of 4 antennaports there are 16 entries. A restriction may be signaled so that only a subset thereofcan be used.
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 24/39TM5117AEN03GLA1
MIMO for LTE
24
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 25/39TM5117AEN03GLA1
MIMO for LTE
25
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 26/39TM5117AEN03GLA1
MIMO for LTE
26
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 27/39TM5117AEN03GLA1
MIMO for LTE
27
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 28/39TM5117AEN03GLA1
MIMO for LTE
28
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 29/39TM5117AEN03GLA1
MIMO for LTE
29
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 30/39TM5117AEN03GLA1
MIMO for LTE
30
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 31/39TM5117AEN03GLA1
MIMO for LTE
31
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 32/39TM5117AEN03GLA1
MIMO for LTE
32
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 33/39TM5117AEN03GLA1
MIMO for LTE
33
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 34/39TM5117AEN03GLA1
MIMO for LTE
34
Release 10 has enhanced the reference signal design with user specific reference symbolsfor signal demodulation and common reference symbols for feedback purposes in downlink
and more orthogonal reference signal structure in uplink. The enhanced design enables betterperformance when the number of antenna branches is high.
Downlink MIMO has already been included in LTE Release 8. The LTE Release 8 codebookand reference symbol design was found to be quite optimum for two and four transmitantennas (2x2, 2x4 and 4x4 antenna configurations), but the channel state informationfeedback from UE to eNB could have been more accurate. This limitation is overcome by thenew reference symbol design of Release 10, which is also more effective when the number oftransmit antennas is higher. Based on the studies and numerous contributions in 3GPP, it canbe safely concluded that the higher the number of antennas, the higher is the gain thatRelease 10 MIMO provides in downlink. With two eNB and two UE antennas, Release 10downlink MIMO provides no improvements over release 8 in SU-MIMO mode but smallperformance improvements have been gained in MU-MIMO mode. In most cases it is best to
operate two TX antenna eNBs in Release 8 SU-MIMO mode. When eNB has four transmitantennas, Release 10 downlink MIMO gain is more than 20% over Release 8 and with eighttransmit antennas a bit higher. Reference symbol overhead effects on system performanceare significant with four and eight transmit antennas. Therefore the selection of MIMOoperating modes and system parameters for both Release 8 and 10 UE is a critical networkoptimization task.
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 35/39TM5117AEN03GLA1
MIMO for LTE
35
An important point worth remembering is that the network should also supportRelease 8 and 9 UE which does not benefit from the Release 10 enhancements. The
capacity gain from Release 10 downlink MIMO enhancements could even be negativesince new reference symbols create overhead for all UE. However, these overheadscan be decreased by decreasing the Release 8 and 9 specific reference symbols, butthis would prevent non-LTE-A UE to operate in MIMO mode and thus lower their datarates. Additionally, there would be negative effects on common control channelperformance. Consequently, the timing of the introduction of the new features and theconfiguration of the system parameters are essential for an optimum performance ofthe LTE network.
CSI - For downlink channel sounding / Sparse, low overhead (configurable)
CSI = PMI(precoding matrix indicator) + RI(rank indicator) + CQI (channel quality
indicator)
DM - UE-specific DM-RS, which is precoded, makes it possible to apply non-codebook-based precoding (precoding based on CSI feedback and/or UL sounding)-UE-specific DM-RS will enable application of enhanced multi-user beamformingsuchas zero forcing (ZF) for, e.g., 4-by-2 MIMO - DM RS pattern for higher numbers oflayers is extended for 2-layer format for transmission mode 8 in Rel-9 //CDM betweenRS of two layers// E.g. for 4 antenna ports:
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 36/39TM5117AEN03GLA1
MIMO for LTE
36
Uplink MIMO provides significantly higher peak rates and improved spectrum efficiency inuplink direction. SU-MIMO provides mainly increased data rates in lightly loaded networks for
high-end multi-transmitter UE, whereas MU-MIMO can offer significant improvement ofspectrum efficiency even with single transmitter UE. This can boost network capacity at lowcosts The LTE-A system can operate in both SU and MU-MIMO modes at the same timeusing dynamic user specific MIMO transmission configuration.
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 37/39TM5117AEN03GLA1
MIMO for LTE
37
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 38/39TM5117AEN03GLA1
MIMO for LTE
38
8/20/2019 10 Tm5117aen03gla1 Mimo for Lte Ppt
http://slidepdf.com/reader/full/10-tm5117aen03gla1-mimo-for-lte-ppt 39/39
MIMO for LTE
Physical Multicast Channel (PMCH) is used instead of PDSCH.
Special RS pattern with higher density in frequency domain supports longer “delayspread”
from multi-cell transmission.
Multimedia Broadcast Single Frequency Network(MBSFN) mode of operation issupported by E‐UTRAN to enable efficient multi‐cell transmission of E‐MBMSservices