| base station | BS | 826 | 23 | 2.00485 | 1707.00123,1707.00227,etc |
| signal to noise ratio | SNR | 211 | 18 | 2.002003 | 1707.01846,1707.02560,etc |
| additive white gaussian noise | AWGN | 52 | 17 | 1.00114 | 1707.00304,1707.00420,etc |
| theorem | Theorem | 414 | 16 | 2.001688 | 1707.01485,1707.01545,etc |
| multiple input multiple output | MIMO | 386 | 15 | 1.004893 | 1707.00227,1707.00291,etc |
| signal to interference plus noise ratio | SINR | 130 | 14 | 1.002001 | 1707.00227,1707.00304,etc |
| channel state information | CSI | 70 | 14 | 1.001182 | 1707.00519,1707.01039,etc |
| maximum likelihood | ML | 327 | 13 | 2.005795 | 1707.00274,1707.00475,etc |
| non orthogonal multiple access | NOMA | 435 | 13 | 2.003994 | 1707.00304,1707.00455,etc |
| quality of service | QoS | 116 | 12 | 1.000977 | 1707.00304,1707.01673,etc |
| successive interference cancellation | SIC | 109 | 12 | 2.001336 | 1707.00304,1707.01280,etc |
| line of sight | LoS | 166 | 12 | 2.002719 | 1707.00519,1707.01039,etc |
| cumulative distribution function | CDF | 46 | 11 | 2.000625 | 1707.00227,1707.00291,etc |
| partial differential equation | PDE | 84 | 10 | 2.002138 | 1707.00174,1707.01116,etc |
| probability density function | PDF | 88 | 10 | 2.000877 | 1707.00291,1707.02688,etc |
| minimum mean square error | MMSE | 118 | 10 | 1.006329 | 1707.00420,1707.00953,etc |
| radio frequency | RF | 167 | 10 | 2.002921 | 1707.01064,1707.02560,etc |
| singular value decomposition | SVD | 59 | 9 | 2.000729 | 1707.00133,1707.01229,etc |
| ordinary differential equation | ODE | 58 | 9 | 2.000877 | 1707.00174,1707.01938,etc |
| internet of things | IoT | 28 | 9 | 1.00059 | 1707.00644,1707.02486,etc |
| fifth generation | 5G | 28 | 8 | 2.000728 | 1707.00291,1707.01064,etc |
| karush kuhn tucker | KKT | 42 | 7 | 1.001422 | 1707.00123,1707.01554,etc |
| stochastic differential equation | SDE | 82 | 7 | 2.000866 | 1707.00128,1707.01116,etc |
| semidefinite relaxation | SDR | 63 | 7 | 1.001925 | 1707.00304,1707.00519,etc |
| orthogonal multiple access | OMA | 367 | 7 | 2.003833 | 1707.00304,1707.01846,etc |
| discrete fourier transform | DFT | 74 | 7 | 1.003046 | 1707.02876,1707.03138,etc |
| time division multiple access | TDMA | 39 | 6 | 2.000552 | 1707.00123,1707.01846,etc |
| zero forcing | ZF | 31 | 6 | 2.000464 | 1707.00291,1707.01039,etc |
| finite element method | FEM | 51 | 6 | 1.003196 | 1707.00399,1707.01592,etc |
| semidefinite program | SDP | 143 | 6 | 1.003887 | 1707.00530,1707.02866,etc |
| principal component analysis | PCA | 73 | 5 | 1.00249 | 1707.00133,1707.00225,etc |
| mean square error | MSE | 33 | 5 | 2.0007 | 1707.00133,1707.01705,etc |
| millimeter wave | mmWave | 87 | 5 | 2.0013 | 1707.00291,1707.03539,etc |
| european research council | ERC | 5 | 5 | 1.000132 | 1707.00495,1707.01292,etc |
| mean squared error | MSE | 27 | 5 | 2.001056 | 1707.00519,1707.01775,etc |
| linear matrix inequality | LMI | 52 | 5 | 1.001978 | 1707.00530,1707.01351,etc |
| discontinuous galerkin | DG | 53 | 5 | 1.00272 | 1707.00567,1707.02782,etc |
| total variation | TV | 92 | 5 | 2.002427 | 1707.00671,1707.00810,etc |
| lemma | Lemma | 356 | 5 | 2.001742 | 1707.01462,1707.01799,etc |
| alternating direction method of multipliers | ADMM | 100 | 5 | 2.00305 | 1707.04338,1707.04598,etc |
| section | Section | 51 | 4 | 2.000737 | 1707.00214,1707.00897,etc |
| channel impulse response | CIR | 7 | 4 | 1.000199 | 1707.00291,1707.00644,etc |
| uniform linear array | ULA | 14 | 4 | 1.000244 | 1707.00519,1707.03539,etc |
| primary user | PU | 104 | 4 | 2.004948 | 1707.00566,1707.01351,etc |
| istituto nazionale di alta matematica | INdAM | 4 | 4 | 1.000047 | 1707.00578,1707.00969,etc |
| central limit theorem | CLT | 9 | 4 | 1.000486 | 1707.00586,1707.03436,etc |
| maximum ratio combining | MRC | 28 | 4 | 2.000475 | 1707.01039,1707.05276,etc |
| artificial noise | AN | 41 | 4 | 2.000565 | 1707.01064,1707.01351,etc |
| efficiency | EE | 140 | 4 | 2.003478 | 1707.01064,1707.01673,etc |
| linear quadratic regulator | LQR | 108 | 4 | 1.004972 | 1707.01146,1707.03794,etc |
| eavesdropper | Eve | 134 | 4 | 2.006799 | 1707.01351,1707.06271,etc |
| partial differential equations | PDE | 54 | 4 | 1.004915 | 1707.01683,1707.02153,etc |
| bit error rate | BER | 34 | 4 | 2.00093 | 1707.02868,1707.04202,etc |
| uplink | UL | 86 | 4 | 2.004439 | 1707.02887,1707.03072,etc |
| poisson point process | PPP | 37 | 4 | 2.000898 | 1707.02999,1707.03945,etc |
| user equipment | UE | 236 | 4 | 2.003067 | 1707.03539,1707.06892,etc |
| half duplex | HD | 19 | 4 | 2.001153 | 1707.04202,1707.04498,etc |
| non line of sight | NLOS | 40 | 4 | 2.001422 | 1707.05957,1707.06724,etc |
| peak signal to noise ratio | PSNR | 27 | 3 | 1.001114 | 1707.00133,1707.01753,etc |
| dynamic mode decomposition | DMD | 274 | 3 | 2.009584 | 1707.00225,1707.01146,etc |
| extended dmd | EDMD | 65 | 3 | 1.005686 | 1707.00225,1707.01146,etc |
| angle of departure | AoD | 11 | 3 | 1.001505 | 1707.00227,1707.00291,etc |
| orthogonal matching pursuit | OMP | 48 | 3 | 2.000616 | 1707.00261,1707.05674,etc |
| fractional brownian motion | FBM | 56 | 3 | 2.001447 | 1707.00274,1707.02507,etc |
| 3rd generation partnership project | 3GPP | 48 | 3 | 1.005272 | 1707.00291,1707.01064,etc |
| degrees of freedom | DoF | 170 | 3 | 2.005348 | 1707.00304,1707.01592,etc |
| central processing unit | CPU | 28 | 3 | 2.001024 | 1707.00355,1707.02486,etc |
| linear time invariant | LTI | 18 | 3 | 1.000293 | 1707.00530,1707.05502,etc |
| optimal power flow | OPF | 139 | 3 | 1.008373 | 1707.00579,1707.03794,etc |
| two dimensional | 2D | 59 | 3 | 2.004613 | 1707.01039,1707.02126,etc |
| multiple input single output | MISO | 19 | 3 | 1.00078 | 1707.01064,1707.06271,etc |
| short time fourier transform | STFT | 148 | 3 | 2.009049 | 1707.01084,1707.03138,etc |
| physical layer security | PLS | 11 | 3 | 1.000664 | 1707.01351,1707.06943,etc |
| secondary user | SU | 58 | 3 | 2.002785 | 1707.01351,1707.02380,etc |
| orthogonal frequency division multiple access | OFDMA | 12 | 3 | 2.00061 | 1707.01673,1707.02486,etc |
| totally asymmetric simple exclusion process | TASEP | 127 | 3 | 2.001335 | 1707.01923,1707.02539,etc |
| korteweg de vries | KdV | 24 | 3 | 1.001267 | 1707.01955,1707.02688,etc |
| single input single output | SISO | 10 | 3 | 1.000621 | 1707.01964,1707.02222,etc |
| left hand side | LHS | 4 | 3 | 1.000066 | 1707.02486,1707.05276,etc |
| maximum a posteriori | MAP | 137 | 3 | 2.002534 | 1707.03422,1707.04531,etc |
| orthogonal frequency division multiplexing | OFDM | 199 | 3 | 1.012892 | 1707.03422,1707.04497,etc |
| downlink | DL | 64 | 3 | 2.005158 | 1707.03539,1707.06483,etc |
| quadrature phase shift keying | QPSK | 4 | 3 | 1.000017 | 1707.03539,1707.04202,etc |
| finite element | FE | 43 | 3 | 2.001657 | 1707.04133,1707.04228,etc |
| full duplex | FD | 117 | 3 | 2.006122 | 1707.04202,1707.04498,etc |
| decode and forward | DF | 24 | 3 | 1.001456 | 1707.04498,1707.04561,etc |
| non los | NLOS | 30 | 3 | 1.00158 | 1707.04621,1707.07035,etc |
| access point | AP | 122 | 3 | 2.007507 | 1707.05276,1707.05957,etc |
| simultaneous wireless information and power transfer | SWIPT | 20 | 3 | 2.001588 | 1707.05276,1707.07041,etc |