The purpose of this research was to construct a diagnostic model of adaptive e-learning condition based on the theories of dynamic assessment and cognitive load. By using data mining technology, the learners were grouped according to the characteristics of their learning style, self-efficacy, and learning efficiency. To construct a diagnostic model of adaptive e-learning condition, the characterized learning load curve patterns were developed by the real-time dynamic quantitative measurement mechanism of learning load, the variation rate tendency and respective critical figures among each group was analyzed. One hundred and sixty-five freshmen students from a university of technology at southern Taiwan participated in this research. The personal learning characteristic was taken into consideration in the adaptive e-learning mechanism design and the real-time dynamic, non-interference diagnostic model of adaptive e-learning condition was established accordingly. The user-friendly interactive interface enabled the learner and instructor to recognize the learning condition continuously in the learning process and assist a learner in making the optimal learning decision according to the adaptive learning path suggested by the e-learning system. The results of the study can be applied in planning and developing the new generation real-time dynamic adaptive e-learning system in order to improve the defects of existing one and achieve the following purposes: (1) real-time dynamic, non-interference interactive learning, (2) real-time dynamic, non-interference quantitative learning condition feedback, (3) user-controlled learning decision, (4) real-time dynamic user-friendly interactive interface.