This study focused on developing a quadruped robot system NC-F4-2010 which could autonomous across discontinuous terrain. The quadruped robot contains an embedded single board computer (DM&P RoBoard RB-100) and a servo controller. We have successfully installed the Windows Embedded System on the single board computer to control the autonomous quadruped robot. The new developed quadruped robot uses the single board computer as the main local controller, instead of a desktop PC, and uses servo motors as actuators to drive the four legs to move. The experimental platform also integrates several softwares for implementing motion control, image processing etc. The new quadruped robot NC-F4-2010 is a new prototype, according to the design of the robot NC-F4-09. The NC-F4-09, designed by our laboratory, has 12 servo motors mounted on the four legs. In this study, the new robot's main controller is replaced by DM&P RoBoard RB-100 single board computer, instead of the original Basic Atom single chip. The single board computer can communicate with various types of device such as wireless network card through USB interface. The servo Controller SSC-32 with implements the command from the single board computer to control the servo motor’s action via the interface of RS232. In the study, the new robot system NC-F4-2010 has successfully demonstrated autonomous motion ability crossing a so called River-stone discontinuous terrain. The terrain pattern identified module of the robot-system provides the function of image capture and terrain recognition. The system can execute the developed path generating MATLAB program to calculate the gait processes of the quadruped robot through the terrain. The path generating program designed by our laboratory has integrated with motion control module. The servo controllers perform the action of gait processes and drive the robot cross the discontinuous terrain. The results of these tests have proved the robot current developed theory and quadruped robot system can successfully perform an autonomous robot motion across a River-stone discontinuous terrain.