This was the first time for Taiwan to conduct such a detailed field measurement of large-scale flows inside a large, close-loop, circulation type of water tunnel. Stereoscopic Particle Image Velocimetry (SPIV) was used to measure the mean velocity fields and turbulence characteristics of the inflow to the test section of the Large Cavitation Tunnel (LCT) located at the National Taiwan Ocean University (NTOU). The core of the SPIV technique consists in the three-dimensional (3D) calibration procedures, which transform the two-dimensional (2D) displacements of particle images acquired by two PIV cameras into 3D velocity vectors. Therefore, a large amount of 3D instantaneous velocity-vector distributions can be obtained and used to calculate the 3D mean velocity field and Reynolds stress tensors with the statistical operations of ensemble averaging and Reynolds decomposition. The measurement results show that the distribution of the longitudinal mean velocity V_z over the central area of the inflow to the test section is quite uniform, while the nominal inflow velocity (gauge value on the LCT control panel that is measured with a pressure-differential flowmeter) is deviated from the SPIV-measured V_z by a small but not negligible amount, indicating that the LCT's flowmeter needs to be inspected and calibrated; the turbulence intensity in the central area of the inflow to the test section is about 4% at a nominal inflow velocity of 6 m/s; the inflow turbulence is nearly isotropic.