Kinetic architecture can be divided into permanent architecture and temporary light fabrication. Development of tensegrity architecture which often used in temporary architecture is very limited, and majority of the architecture was expressed by massive sculptures or outdoor public art. Its advantages of lightness and morphing are less applied to the architecture. Temporary and morphing are investigated in this study, which we make a variety of discussions in kinetic tensegrity architecture and made the best available module. Expected the module can be apply to architecture skin or temporary light fabrication in the future. In the study we discuss different combination method. The final kinetic structure of the research has the advantages of lightness and morphing, in the end we made the best available module. The module has to consider the self-stress and self-balancing feature in tensegrity module, also consider the variability range of activities and motion vector. In the last chapter, The final kinetic structure combine with memory alloy, the parts of the stretchable cables of the final struture replace memory alloy, and observed that how the memory alloy drive in large kinectic structure system . In this study, the morphing of final structure is more variable, broader moveable range than tensegrity architecture and reducing the deformation damage. A single structure can be combined infinitely with each other in horizontal or vertical, then modular function is achieved by different conditions. Different with the giant sculpture used in tensegrity architecture, our research is highly flexible and good at plasticity. Because it is short of self-supporting, structure applications need other outside-supporting as being fixed in attachment structure by hanging or suspension. Like concept of architecture skin, which by different usage of telescopic rod and sensor combination, it shows more diverse than traditional tensegrity architecture and more convenient in controlling deformation.