太阳电池标准标定实验室的研究计划主要包括两部分：

一是结合现有合理有效的规范标准，融入多年的太阳电池制造测试经验，自主研制一级标准太阳电池，研究标准太阳电池的存储和复检工作，同时规范化标准太阳电池的复制和传递工作；

二是研究和对比不同标定方法，结合高山标定、高空气球标定以及空间标定，得到全面和准确的空间光谱下的太阳电池性能参数。

The research plan of the solar cell standard and calibration laboratory mainly focus on two parts:

(1) Combining existing reasonable and effective standards, integrating years of experience in solar cell manufacturing and testing, independently developing first-class standard solar cells, researching the storage and re-inspection work of standard solar cells, and standardizing the replication and transmission work of standard solar cells;

(2) To study and compare different calibration methods, combining the alpine calibration, high-altitude balloon calibration and space calibration, to obtain comprehensive and accurate solar cell performance parameters in the space spectrum.

建立基于人工智能的光伏组件全场景要素发电量检测和评估实验室。首先充分探究影响组件发电量的全场景要素，其次，建立室内全场景要素检测实验室和高精度户外实证平台，利用人工智能技术对发电量评估模型进行持续性优化，最终得到高精度的光伏发电室内检测和评估技术。

Propose to establish an artificial intelligence-based laboratory for detecting and evaluating the power generation of photovoltaic modules in all scene elements. Firstly, fully explore the full scenario factors that affect the power generation of modules. Secondly, establish an indoor full scenario factor detection laboratory and a high-precision outdoor empirical platform, use artificial intelligence technology to continuously optimize the power generation evaluation model, and ultimately obtain high-precision photovoltaic power generation indoor detection and evaluation technology.