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Programming for Robots: Methods, Challenges, and Innovations
Abstract
Programming techniques for robots, encompassing traditional methods, emerging challenges, and innovative solutions. Programming robots involves the development of control algorithms, motion planning strategies, and task-specific behaviors to enable autonomous operation in diverse environments. The abstract outlines key programming paradigms, such as procedural, declarative, and behavior-based programming, and discusses their applications in robotics. Moreover, it highlights challenges such as sensor uncertainty, real-time constraints, and human-robot interaction, and explores recent advancements in programming frameworks, simulation tools, and machine learning approaches. Key insights from the literature are synthesized to provide a comprehensive understanding of programming for robots and identify future research directions.
Cite as:S.J. Mulani. (2024). Programming for Robots: Methods, Challenges, and Innovations. Journal of Advanced Research in Industrial Engineering, 6(2), 24–26.
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