Engineering
Intelligent Reflecting Surface
100%
Wireless Communication
74%
Bit Error Rate
55%
Phase Shift
50%
Antenna
48%
Performance Analysis
41%
Rate Analysis
41%
Non-Orthogonal Multiple Access
41%
Systems Performance
33%
Terahertz
32%
Simulation Result
29%
Transmissions
29%
Ground Plane
27%
Multiple-Input Multiple-Output
27%
Interference Signal
25%
Fading Channel
24%
Channel Interference
24%
Arbitrary Number
22%
Full-Duplex
18%
Millimeter Wave
18%
Ergodic Capacity
18%
Mutual Coupling
17%
Modulation Order
17%
Outage Probability
15%
Phase Error
15%
Reflection Coefficient
15%
Quantisation Error
15%
C-Band
13%
Energy Detection
13%
Reflecting Surface
13%
Desired Signal
13%
Gaussian White Noise
13%
Configuration Strategy
13%
Input Multiple
13%
Multiuser
13%
Single Output
13%
Modulation Scheme
13%
Surface Element
12%
Dielectrics
10%
Diversity Gain
10%
Channel Capacity
10%
Quadrature Amplitude Modulation
9%
Symbol Error Rate
9%
Channel State Information
9%
Secondary User
9%
Surface Phase
9%
Transceiver
8%
Interferer
8%
Self-Interference
8%
Phase Shifters
8%
Computer Science
Non-Orthogonal Multiple Access
41%
Wireless Communication
20%
Arbitrary Number
20%
Modulationorder
17%
Arbitrary Order
15%
Secrecy Capacity
13%
Access Network
13%
Reflecting Surface
13%
Full-Duplex Wireless Communication
13%
Secondary User
13%
Modulation Scheme
11%
Quantisation Error
10%
Channel Interference
10%
Fading Channel
9%
Monte Carlo Simulation
8%
Quadrature Amplitude Modulation
8%
sum rate
6%
Channel State Information
6%
Pulse Amplitude Modulation
5%