We proposed a scheme for designing an optical launch system that can make the light intensity more uniform on the receiving plane via a compound eye lens combined with a sunflower plano-convex lens. The simulation results demonstrate that the light converges on the optical axis after passing through the sunflower-shaped plano-convex lens array and compound eye lens. The divergence angle and central light intensity of the receiving plane are, respectively, 26.57° and 80.50% of the total emitted light power for the array structure of the compact compound eye plano-convex lens, while those are 21.80° and 62.50% for the discrete compound eye lens. From the above results, it can be seen that the compact compound eye lens is more conducive to the uniform distribution of light intensity on the receiving plane compared with the discrete compound eye lens, taking into account the dual application of illumination and communication.

中文翻译：

---

可见光通信和照明用复式眼镜的设计与仿真

我们提出了一种设计光学发射系统的方案，该方案可以通过将复眼透镜与向日葵平凸透镜组合在一起使接收面上的光强度更加均匀。仿真结果表明，光通过向日葵形平凸透镜阵列和复眼透镜后会聚在光轴上。对于紧凑型复眼平凸透镜的阵列结构，接收平面的发散角和中心光强度分别为总发射光功率的26.57°和80.50％，而对于平视复凸平凸透镜的阵列结构，它们分别为21.80°和62.50％。分立式复眼眼镜。从以上结果可以看出，与分立式复眼眼镜相比，紧凑型复眼眼镜更有利于光强在接收面上的均匀分布，