In this study, we used CO2/O2 gas sensor and applied image analysis for exploring that Strobilanthes cusia plant varied in the indigo dyeing process. We picked the leaves from Strobilanthes cusia growing in Yangmingshan for our experiments. There were five results coming out in the end. First, it was found that measuring the density of CO2 and O2 generated in the process of indigo production can adopt to assess the production of indigo. Second, the effect of hot spring is better than other type of water and the best production and color are yielded under the condition at the water temperature of 30 degrees; however, the effect of hot spring diminishes under the condition at the water temperature higher than 40 degrees. Third, the reaction of producing indigo will first generate CO2 before consuming O2. Fourth, after leaves are picked from Strobilanthes cusia, indican will gradually lose along with the increase of storage time. Fifth, the production of indigo yielded from young leaves is higher than that yielded from old leaves, and the production of indigo yielded from leaves is higher than that yielded from stems. In this study, sodium dithionite (Na2S2O4) was used as the reductant, and HBV image analysis was applied to compare the range for dyeing from pH 3 to pH 13. There are three findings proven after our analysis. First, we proved that dyeing can be conducted at any pH. The best dyeing effect is reached under the condition of pH 13, and the dyeing effect dramatically decline when pH value is below 11. Second, the best ratio of indigo to sodium dithionite is 1:14, which makes the dyeing effect closest to the theoretical value. Third, the best temperature for dyeing is about 30°C. Additionally, we employ the RGB image analysis to establish three stages of building solution for indigo dyeing. In the initial period during 0-25th minutes, the R value rises slowly and the dyeing effect is poor. In the growth period during 25th-70th minutes, the R value rises quickly and the dyeing effect is increase, and the dyeing effect is optimal at 70th minutes; in the decline period during the last 70th-180th minutes, the R value decreases along with time and the dyeing effect decreases as well. In conclusion, we found the best reaction conditions for dyeing through analytical methods in this study.