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Academic research into Graphical User Interfaces (GUIs) for grass cutting primarily focuses on for semi-autonomous or robotic mowers. These papers examine how to balance automation with user control through mobile applications or web-based dashboards. Key Academic Papers & Concepts
: Published in MDPI , this paper details a Raspberry Pi-based HMI. The GUI allows users to select between slow, inching, and obstacle avoidance modes directly from a smartphone. It also features an input interface for rectangular area coordinates to define the robot's cutting path.
: This ResearchGate paper explores the shift toward IoT-enabled control. It focuses on establishing a Bluetooth-based connection between a mobile GUI and the mower hardware to provide real-time control and status feedback.
: Virtual boundary setting and waypoint identification for path planning.
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Academic research into Graphical User Interfaces (GUIs) for grass cutting primarily focuses on for semi-autonomous or robotic mowers. These papers examine how to balance automation with user control through mobile applications or web-based dashboards. Key Academic Papers & Concepts
: Published in MDPI , this paper details a Raspberry Pi-based HMI. The GUI allows users to select between slow, inching, and obstacle avoidance modes directly from a smartphone. It also features an input interface for rectangular area coordinates to define the robot's cutting path. Grass Cutting GUI
: This ResearchGate paper explores the shift toward IoT-enabled control. It focuses on establishing a Bluetooth-based connection between a mobile GUI and the mower hardware to provide real-time control and status feedback. Academic research into Graphical User Interfaces (GUIs) for
: Virtual boundary setting and waypoint identification for path planning. The GUI allows users to select between slow,
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