Numerical investigation on the ranging performance of forward pulsed laser radar affected by shock waves

Abstract: When an aircraft loaded with pulsed laser radar flies at supersonic speed, the laser beam will be distorted by the uneven outflow field, resulting in a significant reduction in ranging accuracy. In this study, the influence mechanism of the shock wave on the performance of forward pulsed laser radar is investigated. First, a novel semi-analytical method is proposed to model the pulsed laser echo wave affected by shock waves, which combines the laser radar equation with optical distortion parameters. Second, an… Show more

“…(3) The test equipment (such as the transonic wind tunnel) is used to simulate the flow field environment of the missile-borne pulsed laser forward detection system at a high flight speed. The aerodynamic characteristics of the model and the variation patterns of the pulsed laser echo waveform under different conditions are studied and compared with the simulation results of Reference [28]. The systematic and random errors of test data with Mach number show the same overall trends as those of the simulation data, which verifies the effectiveness of the semi-analytical method-based pulsed laser echo model.…”

Simulation Test of The Aerodynamic Environment of A Missile-Borne Pulsed Laser Forward Detection System at High Flight Speed

“…(3) The test equipment (such as the transonic wind tunnel) is used to simulate the flow field environment of the missile-borne pulsed laser forward detection system at a high flight speed. The aerodynamic characteristics of the model and the variation patterns of the pulsed laser echo waveform under different conditions are studied and compared with the simulation results of Reference [28]. The systematic and random errors of test data with Mach number show the same overall trends as those of the simulation data, which verifies the effectiveness of the semi-analytical method-based pulsed laser echo model.…”

Simulation Test of The Aerodynamic Environment of A Missile-Borne Pulsed Laser Forward Detection System at High Flight Speed

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