Laser wireless power transmission technology avoids the traditional cable transmission requirements regarding the territory and environment, and facilitates vehicle-mounted laser wireless power transmission to provide accompanying power supplies to multi-target unmanned clusters. This can reduce the dependence of unmanned equipment (especially unmanned aerial vehicles) on power storage batteries, providing broad application prospects for the battlefield. However, the current laser wireless power transmission technology lacks a standardized technical index system and mature test and evaluation method; this is not conducive to the application of this technology in diverse combat scenarios. Accordingly, this paper proposes specific indicators for the component-level and system-level performance testing of laser wireless power transmission technology and constructs a corresponding test system and evaluation method, providing a yardstick for selecting laser wireless power transmission systems adapted to the battlefield.

激光无线电力传输技术避免了传统的有线传输对地域和环境的要求，便于车载激光无线电力传输，为多目标无人集群提供伴随电源。这可以减少无人机（尤其是无人机）对动力蓄电池的依赖，为战场提供广阔的应用前景。然而，目前的激光无线电能传输技术缺乏标准化的技术指标体系和成熟的测试评价方法；这不利于该技术在多样化作战场景中的应用。因此，