Sensors-based Mobile Robot for Harsh Environments: Functionalities, Energy Consumption Analysis and Characterization

Mobile robots, especially, mini-robots and mini-rovers are playing an important role in different industrial applications. Under certain constraints, they are mostly suitable for harsh environments where hard conditions take place such as to be unfit for the protracted human activity, or even where this latter is not allowed. In many circumstances, the energy issues for autonomous and wheeled mobile robots need to be optimized taking into account the mechanical and electrical consumptions. The paper illustrates the design of a semi-custom wheeled mobile robot with integrated a photovoltaic (PV) system on the roof, namely a high-efficiency mono- or poly-crystalline PV panel, for supporting the Li-Ion batteries during particular tasks (rough terrain, obstacles or paths with steep slopes), in order to extend the robot autonomy. An electronic control has been designed and data acquisitions, related to power consumption, have been performed by means of a specific experimental setup. The robot was used for detecting different parameters such as temperature, humidity, concentrations of toxic gas species, and presence of flames, therefore particularly suitable for contaminated environments or industrial plants. For this aim, the mobile robot has been equipped with a wide range of commercial sensors and a Global Positioning System (GPS) receiver for keeping track of the robotic vehicle position. In addition, the robot is equipped with a HC-06 Bluetooth transceiver for sending the acquired data to the developed IoTool smartphone application where they are displayed to be analyzed by the user, and for receiving commands and instructions.