实验验证了所建立的时间分辨光学层析成像测量系统的光学参量预测能力、多个测量通道的一致性,表明了本测量系统具有层析成像的潜力.研究了采用特征数据量(平均飞行时间、广义脉冲谱技术为基础的用数据类型R)及全时间分辨数据的图像重建算法在光学参量重建准确度、重建出的对象尺寸、空间分辨率等方面的各自优势. The optical parametric prediction ability and the consistency of multiple measurement channels of the established time-resolved optical tomography measurement system are verified by experiments, which shows the potential of this measurement system with tomographic imaging.It is studied that the characteristic data amount (mean time of flight , Generalized pulse spectrum technique based on the data type R) and full-time resolved data reconstruction algorithm in the optical parametric reconstruction accuracy, the size of the reconstructed object, the spatial resolution of the respective advantages.