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A novel hybrid intelligent optimization strategy for multi-objective trajectory planning of robotic arms in precision assembly scenarios

Changtian Zhang, Hang Jiaxuan, Xinyang Li (1543561), Chen Xuhao
June 7, 2026
Published Date

Research Abstract & Technology Focus

For precision assembly tasks, the accuracy and efficiency of robotic arm trajectory planning directly impact product quality and production efficiency in manufacturing, making it a core technology driving industrial automation upgrades. This research endeavors to establish a sophisticated multi-objective trajectory planning model, specifically engineered to cater to the intricate demands of precision assembly scenarios. The model optimizes for “maximum efficiency, minimum energy consumption, and minimal impact,” quantifying time costs, energy expenditure, and the influence of mechanical impact on assembly precision during the process. To enhance the performance of traditional multi-objective particle swarm optimization (MOPSO), this study proposes an improved CEMOPSO algorithm. This approach enhances initial population diversity by incorporating Chebyshev mapping strategies, dynamically adjusts particle search directions through evolutionary elimination mechanisms, and optimizes constraint handling capabilities via a designed infeasibility evaluation function. Engineering experiments using pyrotechnic grain assembly as a typical scenario validate CEMOPSO’s practical application value. Implementing this algorithm increased robotic arm assembly efficiency by 15.2%, reduced energy consumption by 20.4%, and decreased impact by 26.4%. This demonstrates the effectiveness and engineering applicability of the theoretical methods developed in this study for complex precision assembly tasks.
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What is the core focus of the research titled 'A novel hybrid intelligent optimization strategy for multi-objective trajectory planning of robotic arms in precision assembly scenarios'?

This literature focuses on: For precision assembly tasks, the accuracy and efficiency of robotic arm trajectory planning directly impact product quality and production efficiency in manufacturing, making it a core technology driving industrial automation upgrades. This resea...

Which startups are commercializing the technology behind A novel hybrid intelligent optimization strategy for multi-objective trajectory planning of robotic arms in precision assembly scenarios?

Products like Gemini Robotics ER 1.6 are bringing this to market. Their focus is: Google's SOTA robotics model for visual & spatial reasoning!.

What other academic literature is closely related to 'A novel hybrid intelligent optimization strategy for multi-objective trajectory planning of robotic arms in precision assembly scenarios'?

Yes, highly correlated activity was mapped. An entry titled 'Development of a New Intelligent Algorithm to Improve Autonomous Car Operation' discusses this: Autonomous Driving Systems (ADS) are transforming modern transportation by enabling safer, more efficient vehicle operation. Among their core compo...

Are there commercial applications of 'A novel hybrid intelligent optimization strategy for multi-objective trajectory planning of robotic arms in precision assembly scenarios' in market news publications?

Yes, highly correlated activity was mapped. An entry titled 'Robotic Arm' discusses this: Robotic arm applications are diversifying into military platforms for mortar handling and sustainable construction using 3D printing with corn wast...

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