Gamma Aditya Rahardi, K. Anam, Ali Rizal Chaidir, Devita Ayu Larasati
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Navigation System for Olfactory Mobile Robot by Using Machine Vision System
Combustion of fuels to produce heat or other forms of power has been the cornerstone of industrial processes. Liquefied Petroleum Gas (LPG) is an alternative fuel, which is used primarily as a fuel in most spark-ignited internal combustion engines. Therefore, the incidence of leakage in gas cylinders needs to be considered, in order to avoid fire, poisoning, and even death to those around it. Olfactory mobile robot can be used to detect gas content. Thus, the source of the gas leak in the industry and in the storage area for LPG gas cylinders can be identified. This paper emphasizes on robot navigation by using Machine Vision System (MVS) to speed up the process of finding the exact location of the gas leak source. Several tests were carried out on several aspects. The test results on the motor drivers show that the robot can move well. While the MVS testing shows that the programming algorithm for image processing is able to recognize track borders. Then, the results on gas sensors testing show that the robot can find the source of the gas leak and can adjust it to the required robot speed. The last test, which is on the whole system, shows that the duration needed to find the source of the gas leak is in accordance with the distance from the source of the gas leak.
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