Related papers: Enhanced Gaussian Process Dynamical Models with Knowledge Transfer for Long-term Battery Degradation Forecasting

Enhanced Gaussian Process Dynamical Models with Knowledge Transfer for Long-term Battery Degradation Forecasting

URL: http://arxiv.org/abs/2212.01609v3
Date: Fri, 2 Jun 2023 16:38:29 GMT
Title: Enhanced Gaussian Process Dynamical Models with Knowledge Transfer for Long-term Battery Degradation Forecasting
Authors: Wei W. Xing, Ziyang Zhang, Akeel A. Shah
Abstract summary: Predicting the end-of-life or remaining useful life of batteries in electric vehicles is a critical and challenging problem. A number of algorithms have incorporated features that are available from data collected by battery management systems. We develop a highly-accurate method that can overcome this limitation.
Score: 0.9208007322096533
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Predicting the end-of-life or remaining useful life of batteries in electric vehicles is a critical and challenging problem, predominantly approached in recent years using machine learning to predict the evolution of the state-of-health during repeated cycling. To improve the accuracy of predictive estimates, especially early in the battery lifetime, a number of algorithms have incorporated features that are available from data collected by battery management systems. Unless multiple battery data sets are used for a direct prediction of the end-of-life, which is useful for ball-park estimates, such an approach is infeasible since the features are not known for future cycles. In this paper, we develop a highly-accurate method that can overcome this limitation, by using a modified Gaussian process dynamical model (GPDM). We introduce a kernelised version of GPDM for a more expressive covariance structure between both the observable and latent coordinates. We combine the approach with transfer learning to track the future state-of-health up to end-of-life. The method can incorporate features as different physical observables, without requiring their values beyond the time up to which data is available. Transfer learning is used to improve learning of the hyperparameters using data from similar batteries. The accuracy and superiority of the approach over modern benchmarks algorithms including a Gaussian process model and deep convolutional and recurrent networks are demonstrated on three data sets, particularly at the early stages of the battery lifetime.

Related papers

Convolutional Monge Mapping Normalization for learning on sleep data [63.22081662149488]
We propose a new method called Convolutional Monge Mapping Normalization (CMMN) CMMN consists in filtering the signals in order to adapt their power spectrum density (PSD) to a Wasserstein barycenter estimated on training data. Numerical experiments on sleep EEG data show that CMMN leads to significant and consistent performance gains independent from the neural network architecture.
arXiv Detail & Related papers (2023-05-30T08:24:01Z)
Learning battery model parameter dynamics from data with recursive Gaussian process regression [0.0]
We propose a hybrid approach combining data- and model-driven techniques for battery health estimation. Specifically, we demonstrate a Bayesian data-driven method, Gaussian process regression, to estimate model parameters as functions of states, operating conditions, and lifetime. Results show the efficacy of the method, on both simulated and measured data, including accurate estimates and forecasts of battery capacity and internal resistance.
arXiv Detail & Related papers (2023-04-26T16:40:34Z)
CyFormer: Accurate State-of-Health Prediction of Lithium-Ion Batteries via Cyclic Attention [1.4542411354617986]
We present a transformer-based cyclic time sequence model for State-of-Health (SoH) prediction. Our method attains an MAE of 0.75% with only 10% data for fine-tuning on a testing battery.
arXiv Detail & Related papers (2023-04-17T02:16:40Z)
GAETS: A Graph Autoencoder Time Series Approach Towards Battery Parameter Estimation [0.0]
Lithium-ion batteries are powering the ongoing transportation revolution. Precise estimation of battery parameters is vital to estimate the available range in an electric vehicle. Graph-based estimation techniques enable us to understand the variable underpinning them to improve estimates.
arXiv Detail & Related papers (2021-11-17T16:04:01Z)
Comparing seven methods for state-of-health time series prediction for the lithium-ion battery packs of forklifts [1.1470070927586016]
This paper demonstrates the capabilities of gradient boosting regression for predicting the state-of-health timeseries. We are in possession of a unique data set of 45 lithium-ion battery packs with large variation in the data.
arXiv Detail & Related papers (2021-07-06T10:52:56Z)
Statistical learning for accurate and interpretable battery lifetime prediction [1.738360170201861]
We develop simple, accurate, and interpretable data-driven models for battery lifetime prediction. Our approaches can be used both to quickly train models for a new dataset and to benchmark the performance of more advanced machine learning methods.
arXiv Detail & Related papers (2021-01-06T06:05:24Z)
Learning to Continuously Optimize Wireless Resource In Episodically Dynamic Environment [55.91291559442884]
This work develops a methodology that enables data-driven methods to continuously learn and optimize in a dynamic environment. We propose to build the notion of continual learning into the modeling process of learning wireless systems. Our design is based on a novel min-max formulation which ensures certain fairness" across different data samples.
arXiv Detail & Related papers (2020-11-16T08:24:34Z)
Evaluating Prediction-Time Batch Normalization for Robustness under Covariate Shift [81.74795324629712]
We call prediction-time batch normalization, which significantly improves model accuracy and calibration under covariate shift. We show that prediction-time batch normalization provides complementary benefits to existing state-of-the-art approaches for improving robustness. The method has mixed results when used alongside pre-training, and does not seem to perform as well under more natural types of dataset shift.
arXiv Detail & Related papers (2020-06-19T05:08:43Z)
Tracking Performance of Online Stochastic Learners [57.14673504239551]
Online algorithms are popular in large-scale learning settings due to their ability to compute updates on the fly, without the need to store and process data in large batches. When a constant step-size is used, these algorithms also have the ability to adapt to drifts in problem parameters, such as data or model properties, and track the optimal solution with reasonable accuracy. We establish a link between steady-state performance derived under stationarity assumptions and the tracking performance of online learners under random walk models.
arXiv Detail & Related papers (2020-04-04T14:16:27Z)
Transformer Hawkes Process [79.16290557505211]
We propose a Transformer Hawkes Process (THP) model, which leverages the self-attention mechanism to capture long-term dependencies. THP outperforms existing models in terms of both likelihood and event prediction accuracy by a notable margin. We provide a concrete example, where THP achieves improved prediction performance for learning multiple point processes when incorporating their relational information.
arXiv Detail & Related papers (2020-02-21T13:48:13Z)
Convolutional Tensor-Train LSTM for Spatio-temporal Learning [116.24172387469994]
We propose a higher-order LSTM model that can efficiently learn long-term correlations in the video sequence. This is accomplished through a novel tensor train module that performs prediction by combining convolutional features across time. Our results achieve state-of-the-art performance-art in a wide range of applications and datasets.
arXiv Detail & Related papers (2020-02-21T05:00:01Z)

This list is automatically generated from the titles and abstracts of the papers in this site.