Keywords: برداشت انرژی; Kalman filtering (KF); Energy harvesting; Imperfect acknowledgements;
مقالات ISI برداشت انرژی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Floating microbial fuel cells as energy harvesters for signal transmission from natural water bodies
Keywords: برداشت انرژی; Plant microbial fuel cells; Biofuel cell; Energy harvesting; Environmental sensors; Remote sensing;
Keywords: برداشت انرژی; Triboelectric nanogenerators; Self-healing; Energy harvesting; Shape-tailorable;
Keywords: برداشت انرژی; Thermoelectric generator; Energy harvesting; Asphalt pavement; Temperature gradient;
Keywords: برداشت انرژی; Asphalt solar collector; Air convection; Energy harvesting; Asphalt pavement; CFD;
Keywords: برداشت انرژی; Piezoelectric; Energy harvesting; Piezoelectric transformer; Impedance matching; Harvesting circuit;
Keywords: برداشت انرژی; ThermoElectric Generator (TEG); Energy harvesting; Heat sink free generator; Flexible; Wearable TEG;
Keywords: برداشت انرژی; Energy harvesting; Vibration of vehicle tires; Half-vehicle model;
Keywords: برداشت انرژی; Vehicle suspensions; Vibration energy; Oil temperature-rise; Energy conversion; Energy harvesting;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric; Nonlinear; Human motion; Optimum load resistance;
Keywords: برداشت انرژی; Vortex-induced vibration; Energy harvesting; Synchronization; Softening behavior;
Keywords: برداشت انرژی; Condition monitoring; Energy harvesting; Electromagnetic; Underground rail transit; Wavelet;
Keywords: برداشت انرژی; Functionally graded piezoelectric material; Energy harvesting; Rayleigh's beam theory; von Kármán nonlinearity; Multiple time scale perturbation method;
Keywords: برداشت انرژی; Piezoelectric; Energy harvesting; Porosity; Microstructure; Finite element analysis;
Keywords: برداشت انرژی; Energy harvesting; TEG; Wearable; DC-DC conversion;
Keywords: برداشت انرژی; Energy harvesting; Frequency up-conversion; Magnetic plucking; Piezoelectric; Wearables;
Keywords: برداشت انرژی; Electromagnetic; Energy harvesting; Magnetic levitation; Magnetic spring; Temperature effect;
Keywords: برداشت انرژی; Ocean energy; Energy harvesting; Piezoelectric material; Wave energy; Current energy;
Keywords: برداشت انرژی; Energy harvesting; RFID UHF; Non-linearity; Harmonics; Sensor-tags; Récupération d'énergie; RFID UHF; Non-linearités; Harmoniques; Tags-capteurs;
Keywords: برداشت انرژی; Nonlinear dynamics; Discontinuous dynamics; Structural dynamics; Vibration; Energy harvesting;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric transducers; Power management circuits; Trigger circuits;
Keywords: برداشت انرژی; Energy harvesting; Vehicle suspension; Electro-hydraulic damper; Off-road vehicle;
Keywords: برداشت انرژی; Piezoelectric material; Negative capacitance; Wave focusing; Energy harvesting;
Keywords: برداشت انرژی; Barrier coverage; Energy harvesting; Wireless sensor networks; Multi-route flows;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric; Electromagnetic; White noise;
Keywords: برداشت انرژی; Energy harvesting; Pendulum;
Keywords: برداشت انرژی; Galloping; Flutter; Energy harvesting; Wind tunnel;
Keywords: برداشت انرژی; In-network analytics; Cooperative computing; Computation offloading; Energy harvesting; Low-latency applications; Fog computing;
Keywords: برداشت انرژی; Energy harvesting; Tuned inertial mass electromagnetic transducer; Optimization;
Keywords: برداشت انرژی; Galloping systems; Aerodynamic force representation; Energy harvesting; Hopf bifurcation;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric materials; Frequency self-tuning; Transient vibration; Iteration numerical method;
Keywords: برداشت انرژی; Energy harvesting; Flow-induced vibration; Piezoelectric material;
Keywords: برداشت انرژی; Wearable electronics; Graphene; Optoelectronics; Physical sensing; Health care; Energy harvesting;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric; Energy conversion; Nonlinear processing;
Keywords: برداشت انرژی; Nonlinear energy sink; Giant magnetostrictive material; Vibration control; Energy harvesting; Nonlinear pumping phenomena; Target energy transfer;
Keywords: برداشت انرژی; Fluid-structure interaction; Energy harvesting; Vibration control; Immersed boundary method; Numerical simulation;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric cantilever beam; Tri-stable; Magnetic force; Random excitation;
Keywords: برداشت انرژی; WSN; Routing; Clustering; Energy harvesting; EH-WSN; Renewable energy;
Keywords: برداشت انرژی; Energy harvesting; Dielectric elastomer; Vibro-impact system; Vibration energy;
Keywords: برداشت انرژی; Nonlinear vibration; Energy harvesting; Flexoelectric effect; Piezoelectric effect; Geometric nonlinearity;
Keywords: برداشت انرژی; Nonlinear energy sink; Energy harvesting; Vibration suppression; Harmonic excitation; Frequency response plot;
Keywords: برداشت انرژی; Energy harvesting; Bimorph cantilever beam; Optimization; Uncertainty; Monte Carlo simulations;
Keywords: برداشت انرژی; Nonlinear vibration; Energy harvesting; Internal resonance; Bi-stability;
Keywords: برداشت انرژی; Switching stiffness; Vibration control; Energy harvesting; Serial springs; Semi-active control;
Keywords: برداشت انرژی; Energy harvesting; Wind power; Wireless sensor networks; Energy prediction;
Keywords: برداشت انرژی; Energy harvesting; Damping; Fluid conveying pipe; Hydrocarbon production; Hydrodynamic function; Viscous annulus fluid;
Keywords: برداشت انرژی; Energy harvesting; Vibration; Nonlinearity; Energy conversion mechanism;
Keywords: برداشت انرژی; Track deflection; Low frequency track vibration; Train loads; Dominant frequencies; Track stiffness; Energy harvesting;
Keywords: برداشت انرژی; Energy harvesting; Autonomous powering; Fully-passive harvesters; Low-speed flutter; Fluid-structure interactions;
Keywords: برداشت انرژی; Fast dynamics; Slow dynamics; Non-smooth; Gravitational field; Control; Energy harvesting;