This study investigates a system using a series of ring resonators to trap and stop bright and dark soliton pulses within a nonlinear waveguide. Bright and dark soliton pulses are input into the system consisting of micro and nano ring resonators. Simulation results show that the bright soliton pulse can be stopped at 1556.7 nm with a FWHM of 12.5 pm, while the dark soliton pulse can be stopped at 1558.99 nm with a FWHM of 24 pm. This trapping of soliton pulses using ring resonators has potential applications for optical data storage and secure communication.