Swimming pool is a popular place for many people. During the process of disinfection for pool water, chlorine will react with nitrogenous compound and organic matter brought by human to form by-products. Many studies point out the attendance of indoor swimming pool has relation with the occurrence of upper respiratory symptom. Hence, the airborne disinfection by-products (DBPs) in the indoor swimming pool cause concerns. Considering the occurrences and characteristics, the DBPs including trihalomethanes (chloroform, bromodichloromethane, dibromochloromethane, bromoform) and trichloramine were the compounds of interests for current research. In addition, there is a need to assess the associated airborne concentrations. However, the traditional procedures to determine these DBPs in air were complicated. In addition, no study has been using solid-phase microextraction (SPME) with gas chromatography/mass spectrometer (GC/MS) to determine NCl3 and THMs simultaneously. Hence, this study aimed to develop a sampling and analysis method by using SPME with dynamic exposure system. For method validation, standard solutions of trichloramine and trihalomethanes were first prepared, and were injected into the dynamic generation system for vaporization and exposure afterwards. Besides, field validation at an indoor swimming pool was performed by sampling NCl3 and THMs side-by-side with SPME method as well as traditional methods. It was found that the experimental sampling rates for chloroform, bromodichloromethane, dibromochloromethane, bromoform and trichloramine were 9.17×10-1 cm3/sec, 1.31 cm3/sec, 1.58 cm3/sec, 1.35 cm3/sec and 9.4×10-1 cm3/sec, respectively. The results from field sampling were consistent between traditional method and SPME method for THMs (the coefficient was 0.91 and R2 was 0.948), while the latter provided better sensitivity. In the part of trichloramine, the regression of two method showed the coefficient was 0.93 and R2 was 0.9. These result showed that the method we developed had similar result to traditional methods and can be reliable. The method developed in this study can be used to determine the airborne THMs and NCl3 simultaneously. Compare with traditional methods, the SPME technique has simplified the procedure with higher sensitivity. It can provide a better tool to assess the air quality in indoor swimming pools.