Yu Sha | Deep Learning | Best Researcher Award

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Dr. Yu Sha | Deep Learning | Best Researcher Award

Yu Sha at Xidian University, China.

Yu Sha is a doctoral researcher specializing in artificial intelligence applications for cavitation detection and intensity recognition. He is pursuing a Doctor of Engineering at Xidian University, China, and was a visiting PhD student at the Frankfurt Institute for Advanced Studies, Germany. His research focuses on AI-driven fault detection in industrial systems, with multiple publications, patents, and academic honors to his name.

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Education Background

1.  Xidian University, China (2019 – Present)

    • Ph.D. in Computer Science and Technology (College of Artificial Intelligence)
    • Research Focus: Cavitation detection and intensity recognition via deep learning
    • Anticipated Graduation: June 2024

2.  Frankfurt Institute for Advanced Studies, Germany (2020 – 2022)

    • Visiting PhD Researcher (Cavitation and leakage detection using AI)

3.  Lanzhou University of Technology, China (2015 – 2019)

    • B.Sc. in Information and Computing Science
    • Ranked 1st out of 54 students

Professional Development

Yu Sha has contributed to multiple research projects at Xidian University, including AI-driven battlefield situation analysis and decision-making. His work at the Frankfurt Institute for Advanced Studies focused on AI-based cavitation and leakage detection in large-scale pump and pipeline systems. His research expertise extends to deep learning, fault diagnosis in industrial systems, and reinforcement learning.

Research Focus

  • AI-driven cavitation detection and intensity recognition
  • Fault diagnosis and predictive maintenance in industrial systems
  • Deep learning and reinforcement learning applications in engineering

Author Metrics:

  • Publications: Articles accepted in high-impact journals like Machine Intelligence Research and Mechanical Systems and Signal Processing.
  • Conferences: Research presented at ACM SIGKDD and other international venues.
  • Patents: Multiple invention patents related to cavitation detection, face aging estimation, and heart rate estimation

Awards and Honors:

  • Outstanding Doctoral Student, Xidian University (2021, 2022)
  • Multiple Graduate Student Academic Scholarships (First & Second Level)
  • National Encouragement Scholarship (2016, 2017)
  • First Prize in multiple mathematical modeling and AI competitions, including MCM/ICM, MathorCup, and Teddy Cup Data Mining Challenge

Publication Top Notes

1. A Multi-Task Learning for Cavitation Detection and Cavitation Intensity Recognition of Valve Acoustic Signals

  • Authors: Yu Sha, Johannes Faber, Shuiping Gou, Bo Liu, Wei Li, Stefan Schramm, Horst Stoecker, Thomas Steckenreiter, Domagoj Vnucec, Nadine Wetzstein, Andreas Widl, Kai Zhou
  • Published In: Engineering Applications of Artificial Intelligence, Volume 113, August 2022, Article 104904
  • DOI: 10.1016/j.engappai.2022.104904
  • Publisher: Elsevier Ltd.
  • Abstract: The paper proposes a novel multi-task learning framework using 1-D double hierarchical residual networks (1-D DHRN) for simultaneous cavitation detection and cavitation intensity recognition in valve acoustic signals. The approach addresses challenges such as limited sample sizes and poor separability of cavitation states by employing data augmentation techniques and advanced neural network architectures. The framework demonstrated high prediction accuracies across multiple datasets, outperforming other deep learning models and conventional methods.
  • Access: The full paper is available at https://www.sciencedirect.com/science/article/pii/S0952197622001361

2. An Acoustic Signal Cavitation Detection Framework Based on XGBoost with Adaptive Selection Feature Engineering

  • Authors: Yu Sha, Johannes Faber, Shuiping Gou, Bo Liu, Wei Li, Stefan Schramm, Horst Stoecker, Thomas Steckenreiter, Domagoj Vnucec, Nadine Wetzstein, Andreas Widl, Kai Zhou
  • Published In: Measurement, Volume 192, June 2022, Article 110897
  • DOI: 10.1016/j.measurement.2022.110897
  • Publisher: Elsevier Ltd.
  • Abstract: This study introduces a framework combining XGBoost with adaptive selection feature engineering (ASFE) for detecting cavitation in valves using acoustic signals. The methodology includes data augmentation through a non-overlapping sliding window, feature extraction using fast Fourier transform (FFT), and adaptive feature engineering to enhance input features for the XGBoost algorithm. The framework achieved satisfactory prediction performance in both binary and four-class classifications, outperforming traditional XGBoost models.
  • Access: The full paper is available at https://www.sciencedirect.com/science/article/pii/S0263224122001798

3. Regional-Local Adversarially Learned One-Class Classifier Anomalous Sound Detection in Global Long-Term Space

  • Authors: Yu Sha, Shuiping Gou, Johannes Faber, Bo Liu, Wei Li, Stefan Schramm, Horst Stoecker, Thomas Steckenreiter, Domagoj Vnucec, Nadine Wetzstein, Andreas Widl, Kai Zhou
  • Published In: Proceedings of the 28th ACM SIGKDD Conference on Knowledge Discovery and Data Mining, August 2022
  • DOI: 10.1145/3534678.3539133
  • Publisher: Association for Computing Machinery (ACM)
  • Abstract: This paper introduces a multi-pattern adversarial learning one-class classification framework for anomalous sound detection (ASD) in mechanical equipment monitoring. The framework utilizes two auto-encoding generators to reconstruct normal acoustic data patterns, extending the discriminator’s role to distinguish between regional and local pattern reconstructions. A global filter layer is also presented to capture long-term interactions in the frequency domain without human priors. The proposed method demonstrated superior performance on four real-world datasets from different industrial domains, outperforming recent state-of-the-art ASD methods.
  • Access: The full paper is available at https://dl.acm.org/doi/10.1145/3534678.3539133

4. A Study on Small Magnitude Seismic Phase Identification Using 1D Deep Residual Neural Network

  • Authors: Wei Li, Megha Chakraborty, Yu Sha, Kai Zhou, Johannes Faber, Georg Rümpker, Horst Stöcker, Nishtha Srivastava
  • Published In: Artificial Intelligence in Geosciences, Volume 3, December 2022, Pages 115-122
  • DOI: 10.1016/j.aiig.2022.10.002
  • Publisher: KeAi Publishing Communications Ltd.
  • Abstract: This study develops a 1D deep Residual Neural Network (ResNet) to address the challenges of seismic signal detection and phase identification, particularly for small magnitude events or signals with low signal-to-noise ratios. The proposed method was trained and tested on datasets from the Southern California Seismic Network, demonstrating high accuracy and robustness in identifying seismic phases, thereby offering a valuable tool for seismic monitoring and analysis.
  • Access: The full paper is available at https://www.sciencedirect.com/science/article/pii/S2666544122000284

5. Deep Learning-Based Small Magnitude Earthquake Detection and Seismic Phase Classification

  • Authors: Wei Li, Yu Sha, Kai Zhou, Johannes Faber, Georg Ruempker, Horst Stoecker, Nishtha Srivastava
  • Published In: arXiv preprint arXiv:2204.02870, April 2022
  • DOI: N/A
  • Publisher: arXiv
  • Abstract: This paper investigates two deep learning-based models, namely 1D

Conclusion

Dr. Yu Sha is a highly deserving candidate for the Best Researcher Award due to his pioneering contributions to AI-driven cavitation detection, deep learning applications, and fault diagnosis in industrial systems. His strong academic record, international exposure, high-impact publications, and patent portfolio make him a standout researcher in deep learning for industrial applications. With further industry collaborations and expanded leadership roles, he could solidify his reputation as a global leader in AI-based fault detection.

Aakash Kumar | Deep Learning | Best Researcher Award

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Dr. Aakash Kumar | Deep Learning | Best Researcher Award

Postdoc Researcher at Zhongshan Institute of Changchun University of Science and Technology, China.

Dr. Aakash Kumar is a dedicated researcher in control science and engineering, with expertise in deep learning, machine learning, and artificial intelligence applications. He is currently a Postdoctoral Researcher at Zhongshan Institute of Changchun University of Science and Technology in China. His work focuses on developing computational techniques to optimize deep neural networks for image analysis and robotic systems. Throughout his career, Dr. Kumar has contributed to cutting-edge research in AI-driven fault detection, spiking neural networks, and generative models. Fluent in English, Chinese, Urdu, and Sindhi, he has built an international academic and professional profile.

Professional Profile:

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Education Background

Dr. Kumar earned his Doctor of Engineering in Control Science and Engineering from the University of Science and Technology of China (USTC) in 2022. His research was fully funded by the Chinese Academy of Sciences-The World Academy of Sciences President’s Fellowship. Prior to this, he obtained his Master of Engineering in Control Science and Engineering from USTC in 2017 under the Chinese Government Scholarship. He also completed a Diploma in Chinese Language (HSK-4 Level) at Anhui Normal University in 2014. His academic journey began with a Bachelor of Science in Electronic Engineering from the University of Sindh, Jamshoro, Pakistan, in 2011.

Professional Development

Since 2022, Dr. Kumar has been serving as a Postdoctoral Researcher at Zhongshan Institute of Changchun University of Science and Technology, where he is engaged in pioneering work on deep learning applications, computational intelligence, and machine learning-based fault detection. Prior to this, he worked remotely as a Machine Learning Engineer at COSIMA.AI Inc., New York, where he developed AI models for healthcare, computer vision, and smart systems. His early career included roles as a Data Scientist at Japan Cooperation Agency in Pakistan (2012–2013), where he analyzed agricultural and livestock data using statistical tools, and as a Lecturer at The Pioneers College, Jamshoro (2011–2012).

Research Focus

Dr. Kumar’s research focuses on the optimization of deep neural networks, reinforcement learning, and computational intelligence. His notable projects include the development of a Deep Spiking Q-Network (DSQN) for mobile robot path planning, a CNN-LSTM-AM framework for UAV fault detection, and a Deep Conditional Generative Model for Dictionary Learning (DCGMDL) to enhance classification efficiency. His interests extend to collaborative data analysis, regression modeling, clustering techniques, and Bayesian networks. He is also actively guiding research scholars, including two Ph.D. candidates and a master’s student.

Author Metrics:

Dr. Kumar has presented his research at prestigious conferences, including the International Symposium of Space Optical Instrument and Application in Beijing and academic meetings at USTC. His work on generative AI, deep learning, and autonomous systems has been recognized in academic circles. He has also served as a reviewer for reputed journals such as Neural Processing LettersJournal of Machine Learning and CyberneticsThe Big Data, and Neural Computing and Applications, all published by Springer. His contributions to AI research and computational intelligence have garnered citations, reflecting his impact in the field.

Honors & Awards

Dr. Kumar has received multiple prestigious scholarships and fellowships, including the Chinese Academy of Sciences-The World Academy of Sciences President’s Fellowship for his Ph.D. and the Chinese Government Scholarship for both his master’s degree and language studies. He has been recognized for his contributions to AI and deep learning applications in autonomous systems, earning invitations to present his work at international conferences. Additionally, his innovative projects in AI-driven fault detection and predictive modeling have gained recognition in the research community.

Publication Top Notes

1. Pruning filters with L1-norm and capped L1-norm for CNN compression

  • Authors: A Kumar, AM Shaikh, Y Li, H Bilal, B Yin
  • Journal: Applied Intelligence
  • Volume: 51, Pages: 1152-1160
  • Citations: 144 (2021)
  • Key Contribution:
    • Introduced an L1-norm and capped L1-norm-based pruning method for CNN model compression.
    • Reduced redundant filters, leading to efficient deep learning models with lower computational cost and minimal performance degradation.

2. Jerk-bounded trajectory planning for rotary flexible joint manipulator: an experimental approach

  • Authors: H Bilal, B Yin, A Kumar, M Ali, J Zhang, J Yao
  • Journal: Soft Computing
  • Volume: 27 (7), Pages: 4029-4039
  • Citations: 115 (2023)
  • Key Contribution:
    • Developed a jerk-bounded trajectory planning method to improve the performance of a rotary flexible joint manipulator.
    • Conducted experimental validation, proving improved stability and accuracy in robotic movement.

3. Real-time lane detection and tracking for advanced driver assistance systems

  • Authors: H Bilal, B Yin, J Khan, L Wang, J Zhang, A Kumar
  • Conference: 2019 Chinese Control Conference (CCC)
  • Pages: 6772-6777
  • Citations: 99 (2019)
  • Key Contribution:
    • Proposed a real-time lane detection and tracking system for ADAS (Advanced Driver Assistance Systems).
    • Used computer vision and deep learning to enhance road safety and autonomous driving technologies.

4. Reduction of multiplications in convolutional neural networks

  • Authors: M Ali, B Yin, A Kumar, AM Sheikh, H Bilal
  • Conference: 2020 39th Chinese Control Conference (CCC)
  • Pages: 7406-7411
  • Citations: 85 (2020)
  • Key Contribution:
    • Developed a method to reduce the number of multiplications in CNN computations, improving efficiency.
    • Aimed at hardware acceleration for deep learning models.

5. Using feature entropy to guide filter pruning for efficient convolutional networks

  • Authors: Y Li, L Wang, S Peng, A Kumar, B Yin
  • Conference: Artificial Neural Networks and Machine Learning – ICANN 2019: Deep Learning
  • Citations: 16 (2019)
  • Key Contribution:
    • Introduced feature entropy-based filter pruning to optimize CNN performance while maintaining accuracy.
    • Focused on reducing computational complexity in deep learning applications.

Conclusion

Dr. Aakash Kumar is an exceptional candidate for the Best Researcher Award due to his strong publication record, impactful AI research, interdisciplinary contributions, and academic leadership. His high citation count, expertise in CNN compression, deep learning efficiency, and AI-driven fault detection, along with his postdoctoral research at a leading Chinese university, make him a compelling nominee.

To further strengthen his candidacy, expanding into patents, industry applications, and first-author publications in top AI journals would enhance his global research impact.