3D imaging [1] |

5G [1] |

Absorption [1] |

acoustics [1] |

activation [1] |

Active or adaptive optics [1] |

active or adaptive optics [1] |

Ad hoc networks [1] |

adaptive detection [1] |

Adaptive modulation [1] |

adjacent error detection performance [1] |

afocal zooming [1] |

ağ yaşam süresi [1] |

Ailerons [1] |

aircraft [1] |

Aircraft communication [1] |

aircraft communication [1] |

Aircraft control [2] |

aircraft control [3] |

All dielectric [2] |

all-dielectric metasurface [1] |

All-dielectric metasurfaces [2] |

all-optical switching [1] |

altitude control [1] |

analog [1] |

anomalous reflection [2] |

antenna array [1] |

Antennas [1] |

Anti-Windup [1] |

aperiodic dielectric gratings [1] |

Area Navigation [1] |

array [1] |

artificial intelligence [1] |

ASIC [1] |

Asymmetric light transmission [1] |

automatic control [1] |

Automatic target recognition (ATR) [1] |

Autopilot [1] |

autopilot [1] |

B-1 mapping [1] |

backpropagation [1] |

balanced gain [7] |

Band-structures [1] |

Bandwidth [2] |

base stations [1] |

Base stations [2] |

beam steering [1] |

beam-steering [1] |

beamforming [1] |

beamforming driver [1] |

Beams (radiation) [2] |

beyond 5G [1] |

Bi-Directional [1] |

Bio-chemical sensing [1] |

Biosensors [1] |

Blade element theory (BET) [1] |

BLDC motor [1] |

Blind calibration [1] |

Bloch-Siegert shift [1] |

block [1] |

boson pair [1] |

bragg gratings [1] |

Brain [1] |

Bridges [1] |

Broadband asymmetric light transmission [1] |

broadband communication [1] |

Broadcast channel [1] |

Broadcast relay channel [1] |

caching [1] |

cancer [1] |

capacitive [1] |

capacitive micromachined [2] |

Capacitive micromachined ultrasonic transducer (CMUT) [1] |

Capacitive micromachined ultrasonic transducers (CMUTs) [1] |

Capacitive micromachined ultrasound transducer (CMUT) [1] |

Carpet cloak [1] |

carpet cloak [3] |

catheter ablation system [1] |

cavity model [1] |

cavity resonators [1] |

cellular network [1] |

Cellular networks [1] |

Chalcopyrite film [1] |

Channel Drop Filters [1] |

channel state information [1] |

channels [1] |

chirp [1] |

classification [1] |

Cloak [1] |

clock drift [2] |

clocks [1] |

Clutter (information theory) [1] |

Clutter (information theory) [2] |

clutter covariance [1] |

CMOS memory circuits [1] |

CMOS process technology [1] |

CMUT [2] |

coded caching [1] |

command and control system [1] |

communication [1] |

Compact [2] |

Completion time [1] |

Component [1] |

Component: 3D ultrasound probe [1] |

Compound [1] |

Compressive sensing [1] |

compressive sensing [1] |

Computer science [1] |

computer science [1] |

confidential messages [1] |

conformality [1] |

Conical dispersion [1] |

connected dominating set [1] |

Connected dominating set (CDS) [1] |

connectivity [2] |

Constellation rearrangement [1] |

content caching [1] |

Contextual privacy [1] |

continuous wave high-voltage driver [1] |

Control [1] |

control [2] |

control system synthesis [1] |

Control systems [1] |

controller [1] |

controllers [1] |

Conversion [1] |

Cooperation [1] |

Cooperative communication [1] |

cooperative communication [1] |

Copper indium sulfide [1] |

CORDIC [1] |

Coupling technique [1] |

Crack propagation [1] |

critical infrastructure security [1] |

critical node [1] |

critical node detection [1] |

Cross-layer [1] |

Cross-layer design [1] |

crosstalk [1] |

Crystal structure [1] |

Crystals [1] |

D2D(device to device) [1] |

Data compression [1] |

data packet size [1] |

Data privacy [1] |

decoding [1] |

decoding enerjisi [1] |

Delay [1] |

denial of service [1] |

denial of service attack [1] |

denial of sleep attack [1] |

depth-first search (DFS) [1] |

Design [3] |

Detector [1] |

Device [1] |

Device-to-device (D2D) [1] |

diaphragm [1] |

dielectrics [1] |

Diffraction grating [1] |

Digital SQUID [1] |

direction finding [1] |

disaster-affected network [1] |

Discontinuıties [1] |

Discrete Power Levels [1] |

discrete power levels [1] |

Disturbance rejection [1] |

disturbance rejection [1] |

Disturbance/uncertainty estimator (D/UE) [1] |

diversity [1] |

diversity analysis [1] |

DME [1] |

DoS [1] |

dot infrared [1] |

Drag to lift control [1] |

drive signal generator [1] |

driver [1] |

Driving style scoring [1] |

drone [1] |

Drone base station [1] |

dynamic capacity [1] |

dynamic service [1] |

Dynamics [1] |

eavesdropping [1] |

Eavesdropping And Node Capture [1] |

ECC [1] |

Efficiency [1] |

electric current measurement [1] |

Electric instrument transformers [1] |

Electric power transmission networks [1] |

electromagnetic wave polarization [1] |

Electromagnetic wave polarization [1] |

electron transfer [1] |

Electronic guidance systems [1] |

Electronic mail [1] |

electronic systems [1] |

embedded systems [1] |

Emission [1] |

energy [1] |

Energy Efficiency [2] |

Energy efficiency [3] |

energy efficiency [10] |

Energy harvesting [1] |

energy harvesting [1] |

Enhancement [1] |

eniyileme [1] |

erasure codes [1] |

error correction codes [1] |

Error detection codes [1] |

Euclidean geometry-low density parity check code [1] |

extreme environments [1] |

Fabrication [1] |

fabrication [1] |

fading channels [1] |

fairness [1] |

fairness aware multiple drone base station deployment [1] |

fairness-aware multiple DBS deployment algorithm [1] |

FDTD [1] |

feature selection [1] |

Feedback linearization [1] |

fFixed-wing [1] |

Fighter aircraft [1] |

Filtering [1] |

finite difference methods [3] |

finite difference time domain [1] |

Finite difference time domain method [1] |

Fires [1] |

fixed wings [1] |

Fixed-wing aircraft [1] |

flame detection [1] |

Flat lenses [1] |

flat-optics [2] |

Flight Control [1] |

Flight control [2] |

flight control [1] |

Flight control systems [1] |

Flight envelopes [1] |

Flight simulators [1] |

Flow control [1] |

Fluxes [2] |

focal plane array [1] |

focused ultrasound [1] |

Focusing [1] |

focusing [1] |

Forest [1] |

fountain code [1] |

Fountains [1] |

FPGA [2] |

Frequency domain analysis [1] |

frequency estimation [1] |

FSMC [1] |

gallium nitride [1] |

generalized Snell's law [1] |

genetic algorithm [1] |

gimbal control [1] |

gizli dinleme [1] |

glancing angle deposition [1] |

GPRS [1] |

graded index optics [1] |

Graded photonic [1] |

graded photonic [14] |

Gradient metasurface [1] |

gradient-index lenses [1] |

Gratings [2] |

grid communication [1] |

Group velocity dispersion [1] |

Guides [2] |

H-infinity [1] |

H-Infinity Control [1] |

Hammerstein-Wiener [1] |

Hammerstein–Wiener model [1] |

Hardware-In-the-Loop [1] |

harmonic analysis [2] |

heat flux capacity [1] |

Helicopters [2] |

heuristics [1] |

hexagonal lattice [1] |

HFSS [1] |

Hierarchical modulation [3] |

hierarchical modulation [1] |

HIFU [3] |

Higgs bosons [1] |

high Intensity Focused Ultrasonic (HIFU) [1] |

high performance adjacent error detection [1] |

high voltage driver [1] |

High-efficiency [1] |

High-Intensity Focused Ultrasound Ablation [1] |

Hilbert spaces [1] |

History [1] |

hop count [1] |

HTTP streaming [1] |

human micro-Doppler [1] |

HWIL [1] |

hyperbolic dispersion [1] |

IEEE transactions [1] |

iletim gücü [1] |

imaging [1] |

impact [1] |

Impedance matching [1] |

indexes [1] |

individual readout [1] |

information systems [1] |

infrared measurements [1] |

inhomogeneous media [1] |

Integer linear programming (ILP) [1] |

integral sliding mode [1] |

Integrated optics [1] |

integrated optics [2] |

interdisciplinary applications [1] |

interference [1] |

internode distance [1] |

Inverse design [1] |

inverse design [1] |

Invisibility cloaks [1] |

Iterative methods [1] |

Jamming [1] |

Jamming attack [1] |

Jets [2] |

k-connectivity [1] |

kablosuz algılayıcı ağlar [1] |

Kalman Filter [1] |

kalman filter [1] |

Key distribution [1] |

kinetic inductance detectors [1] |

Kogge Stone Adder [1] |

Label free optical sensors [1] |

LabVIEW [1] |

Laser beam shaping [1] |

laser beams [1] |

lasers [3] |

Law [1] |

least squares method [1] |

left-right symmetric [1] |

Leiomyoma [1] |

Lens [1] |

Lenses [3] |

lenses [1] |

lifetime [1] |

lifetime prediction [1] |

Light [4] |

light deflectors [1] |

light emitting diodes [1] |

light trapping [2] |

Linear Programming [1] |

Linear programming [2] |

linear programming [3] |

Load management [1] |

Localization [1] |

location-allocation [1] |

log-normal shadowing [1] |

Logarithm [1] |

Long-term power constraint [1] |

loop shaping [1] |

Loop-shaping control [1] |

low cost ultrasound probe [1] |

low pass filters [1] |

LQG/LTR [1] |

LQR [1] |

luminescent coupling [1] |

Luneburg [1] |

machine learning [1] |

Machine learning algorithms [1] |

magnetic resonance imaging [1] |

Mathematical Programming [1] |

mathematical programming [2] |

MATLAB [2] |

maximal ratio combining [1] |

maximum lifetime [1] |

Maximum-weight scheduling [1] |

MCU [1] |

Mechatronics [1] |

Memory [1] |

Metadevices [1] |

metal embedding [1] |

Metalenses [1] |

Metamaterial [1] |

Metamaterials [7] |

Metamaterials [3] |

metasurface [2] |

Metasurfaces [1] |

microfabrication and micromachining [1] |

micromachining [1] |

Microphotonics [1] |

microsensor networks [1] |

Microspheres [3] |

Microstrip antennas [1] |

microwave FET integrated circuits [1] |

microwaves [1] |

MIMO [1] |

MIMO broadcast channel [1] |

MIMO robust control [1] |

MIMO systems [1] |

MIP [1] |

mixed integer programming [11] |

Mixed integer programming (MIP) [1] |

Mixed İnteger Programming [3] |

Mixed-integer programming (MIP) [1] |

Mobile Base Stations [1] |

mobile networks [1] |

Mobile robot [1] |

Mobile Robotics [2] |

Mobility Patterns [1] |

mode converter [4] |

mode order conversion [1] |

modelling [1] |

Modes [1] |

modular [1] |

motion control [1] |

MPPT [2] |

MU-MIMO [1] |

mu-synthesis [1] |

multi-group multicast [1] |

multi-hop communications [1] |

Multi-input multi-output (MIMO) [1] |

multi-layer perceptron [1] |

multi-loop [1] |

Multi-Path Routing [1] |

Multicast [1] |

multifocal [1] |

multilayer dielectric structures [1] |

Multilayers [1] |

Multipath exploitation [1] |

Multiple Base Station Networks [1] |

multiple base stations [1] |

multiple photonic bandgaps [1] |

Multiplexing [4] |

Multiplexing [2] |

nanobeam cavities [3] |

nanoelectronics [1] |

nanometer devices [1] |

Nanophotonics [1] |

natural frequencies [1] |

Navigation [1] |

Negative Refraction [1] |

nematic liquid crystals [2] |

Network layers [1] |

network life-time (NL) [1] |

Network Lifetime [2] |

Network lifetime [3] |

network Lifetime [1] |

network lifetime [12] |

Network reliability [1] |

Network Security [1] |

Networks (circuits) [1] |

networks (circuits) [1] |

neural networks [1] |

Neutrinos [1] |

neutron detector [1] |

Next generation networks [1] |

next generation networks [1] |

next generation wireless networks [1] |

Non-hermitian hamiltonians [1] |

Non-linear modelling [1] |

non-linear optimization [1] |

nonlinear radar [2] |

Nonlinear dynamical modelling [1] |

nonterrestrial networks [1] |

Nozzle frequency [1] |

nucleus accumbens [1] |

Numerical analysis [1] |

ODSMC [2] |

off-grid [1] |

open source [1] |

openflow [1] |

optical beams [1] |

Optical Cloaking [1] |

optical components [1] |

optical device [1] |

Optical devices [1] |

optical diffraction [1] |

Optical diode [2] |

optical diode [2] |

Optical filters [1] |

optical filters [1] |

optical imaging [1] |

optical materials [1] |

optical polarization [1] |

optical propagation [1] |

optical pulses [1] |

optical reflection [1] |

optical refraction [1] |

Optical resonators [1] |

optical resonators [1] |

optical response [1] |

optical signal detection [1] |

optical surface waves [2] |

optical systems [1] |

Optical vortex generation [1] |

Optical waveguides [1] |

optical waveguides [2] |

Optics [3] |

optics [2] |

optics sensitivity [1] |

optics [1] |

Optimal Base Station Location [1] |

optimal power levels set [1] |

Optimal Sink Location [1] |

optimization [6] |

optimization transmission power level control [1] |

optimized production technology [1] |

optimum packet size (OPS) [1] |

Organic light emitting diodes (OLED) [1] |

orthogonal frequency division multiplexing [2] |

Outage probability [1] |

outage probability [1] |

Output-feedback [1] |

Packet size optimization [1] |

packet size optimization [3] |

pain [1] |

parasitic capacitance [1] |

Parity [7] |

parity check codes [1] |

parity-time symmetry [1] |

Parity [1] |

partial CSI [1] |

Particle swarm optimisation [1] |

particle swarm optimisation [1] |

particle swarm optimization (PSO) [1] |

passive transmission line (PTL) [1] |

path loss models [1] |

performance comparison [1] |

Phase [1] |

phase locked loop [1] |

Phase shift [1] |

phase shift [1] |

photoconductive antennas [1] |

Photodetectors [1] |

Photoelectrochemical cells [1] |

photoelectrochemical water [1] |

photometers [1] |

Photonic crystal [1] |

photonic crystal cavities [1] |

Photonic crystals [28] |

photonic crystals [7] |

Photonic crystals [2] |

photonic devices [1] |

Photonic integrated circuits [1] |

photonic integrated circuits [1] |

photonic jet [3] |

Photonic nano-jets [1] |

Photonic Nanojets [1] |

photonic quasicrystals [1] |

Photonics [2] |

photonics [19] |

photonics [1] |

Photons [2] |

Photovoltaic [1] |

photovoltaic cells [1] |

Photovoltaics [1] |

Physical attack [1] |

physical attack [2] |

physical optics [2] |

physical vapour deposition [1] |

PID [1] |

PID controller [1] |

Plasmons [2] |

PLL [1] |

Point [1] |

Polarization [1] |

polarization beam splitters [1] |

polarization-insensitive [1] |

polarization-insensitive metalens [1] |

polarization [1] |

polymerization [2] |

polymerization TPP [1] |

position control [1] |

position estimation [1] |

posture [1] |

Power allocation [1] |

power allocation [2] |

power control [2] |

power density [1] |

power level [1] |

precoder design [1] |

Privacy [1] |

Probes [1] |

propagation [1] |

Prostatic neoplasms [1] |

proteins [1] |

PSO [2] |

PV [1] |

QBC [1] |

quadrotor helicopter [1] |

quasi-sliding mode [1] |

quasicrystals [1] |

Radar [3] |

radar clutter [1] |

Radar cross section analysis [1] |

radar cross section analysis [1] |

radar signatures [1] |

radar waveform [1] |

radiation effects [1] |

radiation hardening (electronics) [1] |

radiation induced soft errors [1] |

radiation particle [1] |

radiation pattern [1] |

radio frequency [1] |

Radio networks [1] |

radio networks [1] |

rat skull [2] |

rateless codes [1] |

ray tracing [1] |

RCS [1] |

real-time HIFU thermal image [1] |

real-time operations [1] |

Realization [2] |

Reflectarray [1] |

Reflection [1] |

reflection [1] |

Refractive index [2] |

Refractive index based sensors [1] |

Refractive-Index [1] |

relay networks [2] |

reliability [2] |

remote data acquisition [1] |

Remotely operated vehicles [2] |

repetition coding [1] |

Resolution [1] |

Resonator [1] |

resonator filters [1] |

resonators [2] |

resource allocation [1] |

RNAV [1] |

Robust control [3] |

Robust performance [1] |

robust performance [1] |

Robust stability [2] |

robust stability [1] |

robust stability (RS)/performance [1] |

Robustness [1] |

RSFQ [2] |

sacrificial etching [1] |

sampling enerjisi [1] |

satellite communication [1] |

scalable [1] |

Scanning tunneling microscopy [1] |

scattering [1] |

Scheduling [2] |

self-collimation [1] |

sensitivity [2] |

Sensor node incapacitation [1] |

sensors [1] |

sensory aids [2] |

SEPIC [1] |

service classes [1] |

SFQ [1] |

signal processing [1] |

silicon [3] |

silicon solar cells [1] |

silicon-on-insulator [1] |

silicon-organic hybrid [2] |

Simulation [1] |

simulation [1] |

simulink [1] |

single flux [2] |

single flux quantum [2] |

single node attack [1] |

single-source [1] |

Sink Mobility [1] |

SISO [1] |

Sliding mode control [1] |

Sliding mode control [1] |

slotted photonic [1] |

Slotted waveguides [1] |

Slow light [1] |

slow light [2] |

Slow-Light [1] |

small-scale unmanned [2] |

smart grid [1] |

smart grid (SG) [1] |

Smart grids [1] |

smart grids [1] |

Smart meters [1] |

smart power grids [1] |

smoke [1] |

Smooth control [1] |

soft error mitigation [1] |

Software-in-the-loop (SIL) [1] |

Solar cells [2] |

Solar cells [1] |

Solar energy [1] |

Solitons [1] |

solitons [6] |

sparse [1] |

Spatial filtering [1] |

Spatial reuse [1] |

Spectral Element Method [2] |

spoof SPPs [1] |

SQUID [1] |

SRAM [1] |

SRAM chips [1] |

SSLD [2] |

stabilization [1] |

stabilizer [1] |

static random-access memory [1] |

STATS [1] |

Stimulation [1] |

strategies [1] |

suboptimal algorithm [1] |

Subwavelength structures [2] |

Super-collimation [1] |

Super-resolution [1] |

Superconducting ADC [1] |

superconducting integrated circuits [1] |

Superconductivity [1] |

superconductor [1] |

superconductors [1] |

surface grating [1] |

surface texture [1] |

Surface waves [1] |

survey [1] |

switches [1] |

Symmetry [1] |

Synchronization [1] |

System [1] |

system identification [1] |

Systems [1] |

systems [1] |

tactical communications [1] |

TEC [2] |

Terahertz [1] |

tFUS [1] |

Thermoelectric cooler [1] |

thermoelectric cooler [1] |

Thin films [1] |

three-dimensional locations [1] |

threshold selection [1] |

Throughput [1] |

throughput optimality [1] |

Time domain analysis [1] |

time synchronization [1] |

time-domain analysis [1] |

time-domain spectroscopy [1] |

top-emitting organic [1] |

transducer [1] |

transducers [3] |

transmission line [1] |

transmission power [1] |

Transmission Power Control [1] |

transmission power control [5] |

transmission power control (TPC) [1] |

transmission power level [1] |

transmission power optimization [1] |

transmit diversity [1] |

transmit sensitivity [1] |

trunk [1] |

tunable [1] |

tunable filters [1] |

tunable metamaterials [1] |

two-photon polymerization [1] |

UAV [3] |

UAV base station [1] |

ultraportable ultrasound probe [1] |

Ultrasonic imaging [1] |

Ultrasonic spray pyrolysis [1] |

Ultrasonic transducers [2] |

ultrasound surgery [1] |

Uncertainty [1] |

underlay [1] |

underwater acoustic sensor networks (UASNs) [1] |

unidirectional links [1] |

Unmanned aerial vehicles [1] |

Unmanned aerial vehicles (UAV) [4] |

unmanned air vehicle [1] |

unsupervised learning [1] |

vanadium compounds [1] |

vehicles UAVs [1] |

velocity estimation [1] |

video streaming [1] |

visible spectrum [2] |

VLSI [1] |

Voltage regulation [2] |

vortex beam [1] |

vortex transitional memory (VTM) cell [1] |

Wave propagation [1] |

Wave-Guides [1] |

wavefront control [1] |

Waveguides [6] |

waveguides [3] |

wavelength division multiplexing [1] |

Wheeled inverted pendulum [1] |

Whispering gallery modes [1] |

Winged almond model [1] |

Wireless communication [1] |

Wireless networks [2] |

wireless networks [1] |

wireless networks [1] |

wireless sensor network [1] |

Wireless Sensor Networks [4] |

Wireless sensor networks [18] |

wireless sensor networks [4] |

Wireless sensor networks (WSNs) [1] |

wireless sensor networks (WSNs) [2] |

zero-forcing [1] |

Zero-refractive-index [2] |

beam losses [2] |

clutter covariance [2] |

coded caching [1] |

collimators [2] |

controllers [1] |

crosstalk [1] |

crystal nanocavities [1] |

endorectal coil [1] |

fuzzy sliding [1] |

hematite [1] |

mass [1] |

parity-time symmetric [1] |

plasmons [1] |

polarization [1] |

prostate [1] |

radar clutter [2] |

solitons [1] |

spoof SPP [1] |

standard model (particle physics) [1] |

surface emitting lasers [1] |

waveguides [2] |

wireless networks [1] |

μ -Synthesis [1] |