['In this paper, a system integration of Gmapping, environmental exploration and path planning is provided based on Robot Operating System (ROS) and multiple Udoo single board computers in order to develop a mobile navigation robot. As such, the robot is capable of navigating in an unknown indoor environment using light-weight, low-cost, and high-computing platforms. To estimate the robot pose as well as building a top-view map, Gmapping is used due to its robust performances. Moreover, a clustering and frontier-based exploration method is proposed such that the robot is able to efficiently explore nearby environments before moving to newly observed ones. As for path planning, an improved A* algorithm is proposed to provide an optimal path without colliding with obstacles. To effectively operate the overall navigation system, a distributed computing system using ROS is designed so that algorithms can perform in parallel without decreasing the efficiencies of Udoos. To verify the performances of the proposed navigation system, various experiments are conducted, and experimental results show that the robot can reliably navigate and explore an unknown indoor environment.']