VIBRATION EVALUATION METHOD AND APPARATUS, COMPUTER DEVICE, STORAGE MEDIUM, AND COMPUTER PROGRAM PRODUCT

Organization Name

Tencent Technology (Shenzhen) Company Limited

Inventor(s)

Shili Xu of Shenzhen (CN)

Lina Gao of Shenzhen (CN)

Qitian Zhang of Shenzhen (CN)

Yajun Zhang of Shenzhen (CN)

Hao Wang of Shenzhen (CN)

Kai Hong of Shenzhen (CN)

Zhuan Liu of Shenzhen (CN)

VIBRATION EVALUATION METHOD AND APPARATUS, COMPUTER DEVICE, STORAGE MEDIUM, AND COMPUTER PROGRAM PRODUCT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18239081 titled 'VIBRATION EVALUATION METHOD AND APPARATUS, COMPUTER DEVICE, STORAGE MEDIUM, AND COMPUTER PROGRAM PRODUCT

Simplified Explanation

Abstract Explanation

This patent application describes a method for evaluating vibrations using a computer device. The method involves generating a curve that represents the vibration attributes of a target object at different timestamps. The method then determines any delay in the transformation of the actual vibration attributes based on the difference between the reference vibration attributes and the actual ones. The actual vibration attributes are then corrected using this delay information to obtain a corrected curve. Finally, the method acquires information about the deviation between the reference curve and the corrected curve, and adjusts the vibration effect of the target object based on this deviation.

Bullet Points

• Method for evaluating vibrations using a computer device
• Generates a curve representing vibration attributes of a target object
• Determines delay in transformation of actual vibration attributes
• Corrects the actual vibration attributes using the delay information
• Acquires information about deviation between reference curve and corrected curve
• Adjusts vibration effect of the target object based on the deviation

Potential Applications

• Industrial machinery: This technology can be used to evaluate the vibration effects of various industrial machinery, allowing for better maintenance and optimization.
• Structural engineering: The method can be applied to assess the vibrations in buildings, bridges, and other structures, aiding in their design and safety.
• Automotive industry: The technology can be utilized to evaluate the vibrations in vehicles, helping to improve ride comfort and reduce noise levels.
• Consumer electronics: This method can be used to assess the vibrations in smartphones, laptops, and other electronic devices, ensuring their performance and durability.

Problems Solved

• Improved accuracy: The method enhances the accuracy of evaluating the vibration effects of a target object, leading to more reliable results.
• Efficient analysis: By using a computer device, the evaluation process can be automated and performed more efficiently, saving time and resources.
• Real-time adjustments: The ability to correct the actual vibration attributes in real-time allows for immediate adjustments to the vibration effect of the target object, improving its performance.

Benefits

• Enhanced maintenance: By accurately evaluating vibrations, potential issues in machinery and structures can be identified early, enabling proactive maintenance and preventing costly breakdowns.
• Improved safety: The method helps in assessing the vibrations in structures, ensuring their stability and safety.
• Enhanced user experience: By evaluating and adjusting vibrations in consumer electronics and vehicles, the technology improves user comfort and satisfaction.
• Cost savings: The efficient evaluation process and proactive maintenance enabled by this technology can result in cost savings by reducing downtime and avoiding major repairs.

Original Abstract Submitted

Embodiments of this application provide a vibration evaluation method performed by a computer device. The method includes: generating an actual vibration attribute curve of a target object including reference vibration attribute values at a plurality of timestamps; determining at least one delay duration of N actual transformation points according to a time difference between a reference vibration attribute curve of the reference vibration attribute information and the actual vibration attribute curve; correcting the actual vibration attribute curve by using the delay duration to obtain a corrected vibration attribute curve; and acquiring target curve deviation information between the reference vibration attribute curve and the corrected vibration attribute curve, and adjusting a vibration effect of the target object based on the target curve deviation information. Through this application, the accuracy of an evaluation result of the vibration effect of the target object can be improved.