In recent years, robots have grown vigorously worldwide. In order to enhance the convenience of life, there have been more and more dangerous and laborious tasks gradually replaced by robots. While the type of tasks and the environment becomes more and more complex, the components loaded on robots are also increased. It is more efficient to utilize the characteristics of group robots, like teamwork ability and coordination ability, to decrease the complexity of tasks. Because they are able to share the information with each other, group robots are more advantageous and efficient than individual robots in implementing tasks. Group robots mainly send out the order to each individual robot by central controlling, and then command each robot to complete tasks. Therefore, this study constructed a Master-Slave structure to coordinate the Multi-Robot system with a model of communication and localization, and to carry out route planning. Master-Slave Multi-Robot could automatically communicate with each other in unknown environment of barriers, convey one’s position to others, plan routes to reach the destination, and finally complete the assigned tasks. The model of one master and two slaves was used to do routing in five different environments with barriers. The experimental results showed that the purposed algorithm can reach the goal efficiently.