SONNET: Enhancing Time Delay Estimation by Leveraging Simulated Audio
- URL: http://arxiv.org/abs/2411.13179v1
- Date: Wed, 20 Nov 2024 10:23:21 GMT
- Title: SONNET: Enhancing Time Delay Estimation by Leveraging Simulated Audio
- Authors: Erik Tegler, Magnus Oskarsson, Kalle Åström,
- Abstract summary: We show that learning based methods can, even based on synthetic data, significantly outperform GCC-PHAT on novel real world data.
We provide our trained model, SONNET, which is runnable in real-time and works on novel data out of the box for many real data applications.
- Score: 17.811771707446926
- License:
- Abstract: Time delay estimation or Time-Difference-Of-Arrival estimates is a critical component for multiple localization applications such as multilateration, direction of arrival, and self-calibration. The task is to estimate the time difference between a signal arriving at two different sensors. For the audio sensor modality, most current systems are based on classical methods such as the Generalized Cross-Correlation Phase Transform (GCC-PHAT) method. In this paper we demonstrate that learning based methods can, even based on synthetic data, significantly outperform GCC-PHAT on novel real world data. To overcome the lack of data with ground truth for the task, we train our model on a simulated dataset which is sufficiently large and varied, and that captures the relevant characteristics of the real world problem. We provide our trained model, SONNET (Simulation Optimized Neural Network Estimator of Timeshifts), which is runnable in real-time and works on novel data out of the box for many real data applications, i.e. without re-training. We further demonstrate greatly improved performance on the downstream task of self-calibration when using our model compared to classical methods.
Related papers
- PeFAD: A Parameter-Efficient Federated Framework for Time Series Anomaly Detection [51.20479454379662]
We propose a.
Federated Anomaly Detection framework named PeFAD with the increasing privacy concerns.
We conduct extensive evaluations on four real datasets, where PeFAD outperforms existing state-of-the-art baselines by up to 28.74%.
arXiv Detail & Related papers (2024-06-04T13:51:08Z) - TSLANet: Rethinking Transformers for Time Series Representation Learning [19.795353886621715]
Time series data is characterized by its intrinsic long and short-range dependencies.
We introduce a novel Time Series Lightweight Network (TSLANet) as a universal convolutional model for diverse time series tasks.
Our experiments demonstrate that TSLANet outperforms state-of-the-art models in various tasks spanning classification, forecasting, and anomaly detection.
arXiv Detail & Related papers (2024-04-12T13:41:29Z) - SMORE: Similarity-based Hyperdimensional Domain Adaptation for
Multi-Sensor Time Series Classification [17.052624039805856]
We propose SMORE, a novel resource-efficient domain adaptation (DA) algorithm for multi-sensor time series classification.
SMORE achieves on average 1.98% higher accuracy than state-of-the-art (SOTA) DNN-based DA algorithms with 18.81x faster training and 4.63x faster inference.
arXiv Detail & Related papers (2024-02-20T18:48:49Z) - MADS: Modulated Auto-Decoding SIREN for time series imputation [9.673093148930874]
We propose MADS, a novel auto-decoding framework for time series imputation, built upon implicit neural representations.
We evaluate our model on two real-world datasets, and show that it outperforms state-of-the-art methods for time series imputation.
arXiv Detail & Related papers (2023-07-03T09:08:47Z) - DynImp: Dynamic Imputation for Wearable Sensing Data Through Sensory and
Temporal Relatedness [78.98998551326812]
We argue that traditional methods have rarely made use of both times-series dynamics of the data as well as the relatedness of the features from different sensors.
We propose a model, termed as DynImp, to handle different time point's missingness with nearest neighbors along feature axis.
We show that the method can exploit the multi-modality features from related sensors and also learn from history time-series dynamics to reconstruct the data under extreme missingness.
arXiv Detail & Related papers (2022-09-26T21:59:14Z) - A data filling methodology for time series based on CNN and (Bi)LSTM
neural networks [0.0]
We develop two Deep Learning models aimed at filling data gaps in time series obtained from monitored apartments in Bolzano, Italy.
Our approach manages to capture the fluctuating nature of the data and shows good accuracy in reconstructing the target time series.
arXiv Detail & Related papers (2022-04-21T09:40:30Z) - Adaptive Anomaly Detection for Internet of Things in Hierarchical Edge
Computing: A Contextual-Bandit Approach [81.5261621619557]
We propose an adaptive anomaly detection scheme with hierarchical edge computing (HEC)
We first construct multiple anomaly detection DNN models with increasing complexity, and associate each of them to a corresponding HEC layer.
Then, we design an adaptive model selection scheme that is formulated as a contextual-bandit problem and solved by using a reinforcement learning policy network.
arXiv Detail & Related papers (2021-08-09T08:45:47Z) - PSEUDo: Interactive Pattern Search in Multivariate Time Series with
Locality-Sensitive Hashing and Relevance Feedback [3.347485580830609]
PSEUDo is an adaptive feature learning technique for exploring visual patterns in multi-track sequential data.
Our algorithm features sub-linear training and inference time.
We demonstrate superiority of PSEUDo in terms of efficiency, accuracy, and steerability.
arXiv Detail & Related papers (2021-04-30T13:00:44Z) - Deep Cellular Recurrent Network for Efficient Analysis of Time-Series
Data with Spatial Information [52.635997570873194]
This work proposes a novel deep cellular recurrent neural network (DCRNN) architecture to process complex multi-dimensional time series data with spatial information.
The proposed architecture achieves state-of-the-art performance while utilizing substantially less trainable parameters when compared to comparable methods in the literature.
arXiv Detail & Related papers (2021-01-12T20:08:18Z) - Learning summary features of time series for likelihood free inference [93.08098361687722]
We present a data-driven strategy for automatically learning summary features from time series data.
Our results indicate that learning summary features from data can compete and even outperform LFI methods based on hand-crafted values.
arXiv Detail & Related papers (2020-12-04T19:21:37Z) - A Generative Learning Approach for Spatio-temporal Modeling in Connected
Vehicular Network [55.852401381113786]
This paper proposes LaMI (Latency Model Inpainting), a novel framework to generate a comprehensive-temporal quality framework for wireless access latency of connected vehicles.
LaMI adopts the idea from image inpainting and synthesizing and can reconstruct the missing latency samples by a two-step procedure.
In particular, it first discovers the spatial correlation between samples collected in various regions using a patching-based approach and then feeds the original and highly correlated samples into a Varienational Autocoder (VAE)
arXiv Detail & Related papers (2020-03-16T03:43:59Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.