There are three parts in this thesis. First, the anthocyanin content and DPPH radical scavenging of two Taiwanese purple sweet potatoes (TN73 and Taro-sp) were determined, as well as the anthocyanins’ structures of flesh and skin were identified by using the HPLC/MS-MS. Second, the four Taiwanese freeze-dried sweet potato flesh flour were prepared to be 10% suspension and treated at 40℃/5 min for the modification with endogenous enzymes (alpha and beta-amylase), followed by the additional treatment with 1, 2 and 3 temperature cycles (4℃/22h-30℃/2h). The annealed starch and flour will improve the functionality of sweet potato flour. Third, the sweet potato starch isolated from Taiwanese sweet potatos were be gelatinized and debranched with pullulanase to obtain the debranched starch (DS). The 17% DS suspension was then annealed either at 121℃/15 m-60℃/8h or at 121℃/15 m-60℃/8h-4℃/16h-60℃/8h, and 80% DS suspension was heat-moist treated at 121℃/2h to increase its resistant starch (RS) content. The in vitro digestibility was performed to evaluate the slowly available glucose (SAG) and the RS in hydrothermal treated sweet potato flour and starch, respectively. In addition, the swelling power and wide angle X-ray diffraction (XRD) analysis were carried out to study the changes of flour and starch structures. The anthocyanins content in skin and flesh of Taro-sp (93.0 and 514.5 mg/100 g (db)) were higher than TN73 (46.3 and 121.2 mg/100 g (db)). The DPPH radical scavenging capacity was well correlated to the anthocyanins content (R2=0.9971). There are 15 anthocyanins’ structures well identified, the aglycon of the anthocyanins was cyanidin or peonidin. After the temperature cycles treatment, the starch structure is getting to compact and order, resulting in the slow diffusion rate of water which restricts the amylase acting on the starch molecules. Although the amount of rapidly available glucose (RAG) did not change and SAG did decrease, as a result, the resistant carbohydrates were relatively increased. Through these processes, the functionality of sweet potato flour was improved. However, the anthocyanins were not stable during these processes. The RS% of TN66 native sweet potato starch, DS, and hydrothermal treated DS were 76, 72 and 59-82%, respectively. The annealed sweet potato starch had B-type crystal structure, while the native and heat-moist treated starch had C-type crystal structure.