Changes
LTE
,/* Control patents */
** to verify the search strategy
*Control patents are found by running a query with narrow keywords, and in this process litigation's and file wrappers are also looked at.
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|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''S.No'''</font>
|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Patent/Publication No.'''</font>
|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Title'''</font>
|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Abstract'''</font>
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|align = "center" bgcolor = "#B8CCE4"|1
|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=6873606.PN.&OS=PN/6873606&RS=PN/6873606 US6873606 ]</u></font>
|bgcolor = "#B8CCE4"|Rate adaptive transmission scheme for MIMO systems
|bgcolor = "#B8CCE4"|A rate adaptive transmission scheme for MIMO systems, which can transmit a variable number of data symbol streams, provide transmit diversity for each data symbol stream, and fully utilize the total transmit power of the system and the full power of each antenna. In one method, at least one data symbol stream is received for transmission from a plurality of antennas. Each data symbol stream is scaled with a respective weight corresponding to the amount of transmit power allocated to that stream. The scaled data symbol stream(s) are multiplied with a transmit basis matrix to provide a plurality of transmit symbol streams for the plurality of antennas. The transmit basis matrix (e.g., a Walsh-Hadamard matrix or a DFT matrix) is defined such that each data symbol stream is transmitted from all antennas and each transmit symbol stream is transmitted at (or near) the full power for the associated antenna.
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|align = "center"|2
|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7233625.PN.&OS=PN/7233625&RS=PN/7233625 US7233625 ]</u></font>
|Preamble design for multiple input--multiple output (MIMO), orthogonal frequency division multiplexing (OFDM) system
|One or more preambles are inserted into frames of Orthogonal Frequency Multiplexing (OFDM)-Multiple Input, Multiple Output (MIMO) signals. The preamble is received by the antennas of a receiver, decoded and compared to known values to provide synchronization, framing, channels estimation, offsets and other corrections to the transmitted signal.
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|align = "center" bgcolor = "#B8CCE4"|3
|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7248559.PN.&OS=PN/7248559&RS=PN/7248559 US7248559 ]</u></font>
|bgcolor = "#B8CCE4"|Scattered pilot pattern and channel estimation method for MIMO-OFDM systems
|bgcolor = "#B8CCE4"|A method and apparatus are provided for reducing the number of pilot symbols within a MIMO-OFDM communication system, and for improving channel estimation within such a system. For each transmitting antenna in an OFDM transmitter, pilot symbols are encoded so as to be unique to the transmitting antenna. The encoded pilot symbols are then inserted into an OFDM frame to form a diamond lattice, the diamond lattices for the different transmitting antennae using the same frequencies but being offset from each other by a single symbol in the time domain. At the OFDM receiver, a channel response is estimated for a symbol central to each diamond of the diamond lattice using a two-dimensional interpolation. The estimated channel responses are smoothed in the frequency domain. The channel responses of remaining symbols are then estimated by interpolation in the frequency domain.
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|align = "center"|4
|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7548506.PN.&OS=PN/7548506&RS=PN/7548506 US7548506 ]</u></font>
|System access and synchronization methods for MIMO OFDM communications systems and physical layer packet and preamble design
|A method and apparatus are provided for performing acquisition, synchronization and cell selection within an MIMO-OFDM communication system. A coarse synchronization is performed to determine a searching window. A fine synchronization is then performed by measuring correlations between subsets of signal samples, whose first signal sample lies within the searching window, and known values. The correlations are performed in the frequency domain of the received signal. In a multiple-output OFDM system, each antenna of the OFDM transmitter has a unique known value. The known value is transmitted as pairs of consecutive pilot symbols, each pair of pilot symbols being transmitted at the same subset of sub-carrier frequencies within the OFDM frame.
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|align = "center" bgcolor = "#B8CCE4"|5
|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7120395.PN.&OS=PN/7120395&RS=PN/7120395 US7120395 ]</u></font>
|bgcolor = "#B8CCE4"|MIMO communications
|bgcolor = "#B8CCE4"|The present invention allows a wireless communication system, such as a base station, to select N antennas from an associated group of M antennas for transmitting multiple streams of data to a given user. Based on the channel conditions between the M antennas of the wireless communication system and the multiple antennas at the receiver, the N antennas to use for transmission are selected to enhance channel capacity, signal-to-noise ratios, or a combination thereof. The channel conditions are measured at the receiver, and may be sent back to the wireless communication system for processing or may be processed at the receiver, wherein instructions are transmitted back to the wireless communication system to control antenna selection.
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