Engineering & Materials Science
Orthogonal frequency division multiplexing
100%
Sampling
54%
Bit error rate
37%
Ultra-wideband (UWB)
32%
Antennas
30%
Computer simulation
27%
Decoding
23%
Maximum likelihood
17%
Modulation
16%
Wireless power transfer
15%
Fading channels
14%
MIMO systems
13%
Compensation and Redress
13%
Electric power utilization
13%
Code division multiple access
13%
Data communication systems
12%
Channel estimation
12%
Frequency bands
12%
Throughput
12%
Filter banks
11%
Signal detection
9%
Transmitters
9%
Multiplexing
9%
Communication
9%
Bandwidth
9%
Degradation
8%
Rayleigh fading
8%
Base stations
8%
Wireless local area networks (WLAN)
8%
Antenna arrays
8%
Digital to analog conversion
8%
Computational complexity
8%
Interference suppression
8%
Fast Fourier transforms
8%
Demodulation
7%
Frequency division multiple access
7%
Convolutional codes
7%
Synchronization
7%
Multipath propagation
7%
Mean square error
7%
Correlators
6%
Signal interference
6%
Transceivers
6%
Spread spectrum communication
6%
Diversity reception
5%
Mobile telecommunication systems
5%
Impulse response
5%
Time division multiple access
5%
Multipath fading
5%
FIR filters
5%
Mathematics
Orthogonal Frequency Division multiplexing (OFDM)
43%
Receiver
25%
Bit Error Rate
15%
Interference Cancellation
15%
Performance
15%
Antenna
14%
Multiple-input multiple-output (MIMO)
14%
Interference
13%
Multipath
13%
Frequency Offset
13%
Computer Simulation
12%
Multiple-input multiple-output (MIMO) Systems
11%
Fractional
11%
MIMO-OFDM
10%
Multiple Access
9%
Converter
8%
Intercarrier Interference
8%
Minimum Mean Square Error
8%
Numerical Results
7%
Fading Channels
7%
Channel Estimation
7%
Data Transmission
6%
Spread Spectrum
6%
Throughput
6%
Multipath Channels
6%
Ultra-wideband
6%
Filter Banks
6%
Cancellation
6%
Uplink
5%
Diversity Gain
5%
Antenna Arrays
5%
Gibbs Sampling
5%
Low Complexity
5%
Belief Propagation
5%
Equalization
5%