摘要: 多输入多输出(Multiple Input Multiple Output: MIMO)天线技术在当前高速无线通信领域(LTE, WIFI, WIMAX)，高性能雷达技术(MIMO radar)等得到了飞速发展。市面上越来越多无线终端设备中具有MIMO天线技术，但如何评估这种技术的测试方法却没有达到标准化。国际两大组织3GPP[1], CTIA[2]以及国内中国通信学会CCSA[3]，都在进行测试方法的标准化工作；信道模型概念引入给系统带来复杂性使得进展较慢。其中基于边界阵列的多输入多输出无线终端在空中(Over The Air: OTA)测试方法是一种非常重要的评估方法。本文利用实际的测试系统为背景，通过对边界阵列的方法概念引入，测试链路和系统的校准方法，多方面系统性能验证，以及最终产品性能的测试，希望能够较全面的给出此方法的介绍。同时展望此方法的发展前景和给出相对于其他方法的比较。

Abstract: MIMO antenna technology is commonly used in high speed wireless communication (LTE, WIFI, WIMAX) as well as in high performance radar (MIMO radar). There are more and more wireless terminals with MIMO antenna around the current market. However, there are no current standardized measurement methodologies to evaluate the new technology. The main international standardization organizations, including 3GPP, CTIA and the national organization of China (CCSA), are working to standardize the test methodology. Part of the difficulty in completing a standard of the test method is due to the fact that channel models of multi-path environments complicate the test system to a large degree. Such complexity can be taken into account by the methodology based on boundary array OTA method that makes it a very important evaluation candidate for MIMO OTA performance test. The paper presents a real MIMO OTA test system. After the introduction of boundary array concept, the system calibration is described, including input and output calibration of the entire system. Subsequently, the system validation is examined from several aspects, such as power validation, filed mapping, temporal correlation and so on. Finally, the measurement results of an actual wireless product, with three different antennas, are provided to further elaborate the test methodology. At the end, the current status of the MIMO OTA test methodology standardization is provided to conclude the paper.