Keywords: برداشت انرژی; Dynamic isotropy; Parallel robots; Gough-Stewart platforms; Vibrations; Minimization/maximization; Optimization; Energy harvesting;
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.
Keywords: برداشت انرژی; Energy harvesting; Internet of Things; Low power electronics; Sensor networks;
Keywords: برداشت انرژی; Energy harvesting; Sensor networks; Cooperative transmission; Routing protocol;
Keywords: برداشت انرژی; Bi2Te3; Bismuth Telluride; BSST; Thermoelectric material manufacturer; DC; Direct Current; IAV; Ingenieurgesellschaft Auto und Verkehr; JPL; Jet Propulsion Laboratory; MMRTG; Multi-Mission Radioisotope Thermoelectric Generator; NASA; National Aeronautics
Keywords: برداشت انرژی; Chaotic responses; Bistable spring; Vortex induced vibrations (VIV); Energy harvesting; Wake oscillator model; Poincaré map; OGY controller;
Keywords: برداشت انرژی; Dye-sensitised solar cells (DSSC); Energy harvesting; Ultra-low power conversion; Boost converter;
Keywords: برداشت انرژی; Resonator; Commensurate frequency; MEMS; Energy harvesting;
Keywords: برداشت انرژی; Energy harvesting; Bridge structure; Full-scale testing; Structural health monitoring; Empirical mode decomposition; Scalogram; Sequential Karhunen Loeve transform; Hilbert transform;
Keywords: برداشت انرژی; Square cylinder; Flow-induced vibration; Grid convergence index; OpenFOAM; Energy harvesting;
Keywords: برداشت انرژی; Sensor network; Energy harvesting; Value of information; Markov decision process;
Keywords: برداشت انرژی; Energy harvesting; Battery; Sustainable energy; Small-scale conversion; β-Radiation; Miniature power-sources; 63Ni radioisotope;
Keywords: برداشت انرژی; Electromagnetic; Vibration; Broad bandwidth; Energy harvesting; Real time characterization; Smart sensor devices;
Keywords: برداشت انرژی; Semi-active control; Energy harvesting; Energy regenerative; Vibration control; Seat suspension;
Keywords: برداشت انرژی; Triboelectric; Electromagnetic; Vibration sensor; Energy harvesting;
Keywords: برداشت انرژی; Piezoelectric semiconductor nanowire; Bending vibration; Energy harvesting;
Keywords: برداشت انرژی; Pulsating incoming flow; Vortex Particle Methods; Fluttering of T-shaped system; Fluid-structure interaction; Energy harvesting; Self-powered sensors;
Keywords: برداشت انرژی; Energy harvesting; PZT; Sintering temperature; Nonlinear vibration;
Keywords: برداشت انرژی; Energy harvesting; Snap-through; Air flow excitations; Piezoelectricity;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric; Gyroscopic; Electromechanical coupling; Instability;
Keywords: برداشت انرژی; Vibration control; Self-powered damper; Semi-active control; Energy harvesting;
Keywords: برداشت انرژی; Asphalt pavement; Energy harvesting; Thermoelectric; Heat-island effect; Temperature reduction;
Keywords: برداشت انرژی; Electromagnetic; Energy harvesting; Vibration; Movable coil; Planar spring; Multiple modes;
Keywords: برداشت انرژی; Energy harvesting; Water-solid contact electrification; Triboelectricity; Hybrid nanogenerator;
Keywords: برداشت انرژی; Piezoelectric; Energy harvesting; PVDF; ECC;
Keywords: برداشت انرژی; Energy harvesting; Microelectromechanical systems (MEMS); Piezoelectric polymers; Polyvinylidene fluoride-trifluoroethylene (PVDF-TrFE); CMOS compatibility;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric materials; Vibration energy harvesting; Nonlinearity; Broadband; Tip mass;
Keywords: برداشت انرژی; Theoretical study; Contact electrification; Energy harvesting; Triboelectric nanogenerator; Micro/nano roughness;
Keywords: برداشت انرژی; Triboelectric nanogenerator; Compressible hexagonal-structure; Energy harvesting; Tire pressure sensor; Automotive electronics;
Keywords: برداشت انرژی; Energy harvesting; Capacitance; Electret; Micro-cantilever; MEMS (micro-electro-mechanical systems);
Keywords: برداشت انرژی; Triboelectric nanogenerator; Energy harvesting; Elastic sheet; Mechanical analysis; Portable generator;
Keywords: برداشت انرژی; Triboelectric nanogenerator; Energy harvesting; Impact sensor; Dynamic analysis; Self-powered sensor system;
Keywords: برداشت انرژی; Energy harvesting; Ride comfort; Potential regenerative power; Standard driving cycles; Full car suspension model; Roll input mode;
Keywords: برداشت انرژی; Energy harvesting; Cooperative system; Correlated channels; Selection combination; Outage probability;
Keywords: برداشت انرژی; Convex optimization; Discrete convexity; Relay channel; Energy harvesting; Resource allocation;
Keywords: برداشت انرژی; Energy harvesting; Wireless sensor network; Transmission power control; Energy efficiency; Green computing;
Keywords: برداشت انرژی; Full-duplex; Energy harvesting; Cooperative communication; Underlay protocol; Interference constraint; Loopback interference;
Keywords: برداشت انرژی; Functionally graded interfaces; Energy harvesting; Vertically aligned nanowires; Piezoelectric nanomaterials; Lead zirconate titanate; PZT film;
Keywords: برداشت انرژی; Energy harvesting; Vehicle suspension; Regenerative dampers; Electromagnetic harvesters; Vibration;
Keywords: برداشت انرژی; Cognitive radio sensor networks; Energy harvesting; Small cell; Resource allocation; Physical layer security; Secrecy rate;
Keywords: برداشت انرژی; Nonlinear Energy Sink; Passive vibration control; Energy harvesting; Targeted Energy Transfer;
Keywords: برداشت انرژی; Ultraflexible triboelectric nanogenerator; 3D printing; Self-powered source; Energy harvesting;
Keywords: برداشت انرژی; Cognitive radio network; Stochastic geometry; Poisson point process; Energy harvesting;
Keywords: برداشت انرژی; Nonlinear; Energy harvesting; Chaos; Diamagnetism; Levitation;
Keywords: برداشت انرژی; Neutralization batteries; Acid-base machine; Neutralization pseudocapacitors; Mixing entropy battery; Energy harvesting; CAPMIX;
Keywords: برداشت انرژی; Pulsating heat pipe; Energy harvesting; Energy conversion; Electric generator; Thermoelectric; Electromagnetic;
Keywords: برداشت انرژی; Flexible thermoelectric generators; Energy harvesting; Self-powered; Wireless sensor nodes; Fill factor; Flexible TEG optimization;
Keywords: برداشت انرژی; Energy harvesting; Relay; Energy efficiency; Non-renewable energy;
Keywords: برداشت انرژی; Triboelectric nanogenerator; Cellulose nanofibril aerogel; Polyvinylidene fluoride nanofibers; Energy harvesting; Self-powered sensor;
Keywords: برداشت انرژی; Piezoelectricity; Polymer composite; 3D ceramics; Energy harvesting; Cellulose;
Keywords: برداشت انرژی; Diphenylalanine (FF) peptide microtubes; Reduced graphene oxide; Nickel nanoparticles; Bio-nanocomposites; Scanning Probe Microscopy; Local current; Mechanical properties; Energy harvesting;