| Title: |
An Airborne Gravity Gradient Compensation Method Based on Convolutional and Long Short-Term Memory Neural Networks. |
| Authors: |
Zhou, Shuai1 (AUTHOR), Yang, Changcheng1 (AUTHOR), Cheng, Yi1 (AUTHOR), Jiao, Jian1 (AUTHOR) jiaojian001@jlu.edu.cn |
| Source: |
Sensors (14248220). Jan2025, Vol. 25 Issue 2, p421. 28p. |
| Subject Terms: |
*LONG short-term memory, *MULTILAYER perceptrons, *GRAVIMETRY, *DEEP learning, *NATURAL gas prospecting |
| Abstract: |
As gravity exploration technology advances, gravity gradient measurement is becoming an increasingly important method for gravity detection. Airborne gravity gradient measurement is widely used in fields such as resource exploration, mineral detection, and oil and gas exploration. However, the motion and attitude changes of the aircraft can significantly affect the measurement results. To reduce the impact of the dynamic environment on the accuracy of gravity gradient measurements, compensation algorithms and techniques have become a research focus. This paper proposes a post-error compensation algorithm using convolutional and long short-term memory neural networks (CNN-LSTMs). By leveraging convolution feature extraction capabilities and considering the temporal dependencies of dynamic measurement parameters with LSTM, the model demonstrates a stronger ability to learn from severely coupled time series data, resulting in a significant improvement in the compensation performance. This method outperforms traditional neural networks' multi-layer perceptrons (MLPs) in terms of compensation accuracy on both simulated and measured airborne gravity gradient data from Heilongjiang Province. [ABSTRACT FROM AUTHOR] |
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