Ling Jiang

Title: Innovations of Ling Jiang in Welding Technology

Introduction

Ling Jiang is a prominent inventor based in Nantong, China. He has made significant contributions to the field of welding technology, particularly through his innovative methods and systems that enhance the quality determination of welded joints. With a total of 3 patents, Jiang's work reflects a deep understanding of acoustic information recognition and image processing techniques.

Latest Patents

One of Jiang's latest patents is the "Smart acoustic information recognition-based welded weld impact quality determination method and system." This invention involves controlling an ultrasonic impact gun to perform impact treatment on welded joints under various conditions. By obtaining and analyzing acoustic signals during this treatment, Jiang's method allows for the assessment of weld quality through a multi-weight neural network model.

Another notable patent is the "Quaternion multi-degree-of-freedom neuron-based multispectral welding image recognition method." This method utilizes three cameras to capture multispectral images of the weld pool. By employing advanced image processing techniques, Jiang's invention enhances the classification and recognition of weld features, offering improved accuracy and anti-interference capabilities compared to traditional methods.

Career Highlights

Ling Jiang is affiliated with Nantong University, where he continues to advance research in welding technology. His academic background and innovative spirit have positioned him as a key figure in the development of new methodologies in this field.

Collaborations

Jiang collaborates with notable colleagues, including Liang Hua and Juping Gu, who contribute to his research endeavors. Their combined expertise fosters a collaborative environment that enhances the quality and impact of their work.

Conclusion

Ling Jiang's contributions to welding technology through his innovative patents demonstrate his commitment to advancing the field. His work not only improves the quality assessment of welded joints but also showcases the potential of integrating advanced technologies in traditional manufacturing processes.