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Hybrid Neural Networks for Time Series Learning: TreNet Captures Local Trends

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Time series is prevalent in the IoT environment and used for monitoring the evolving behavior of involved entities or objects over time. Analyzing and mining such time series data serve for revealing insightful long-term and instantaneous information behind the data, e.g., trend, event, correlation and causality and so on. Inspired by the recent successes of neural networks, in this talk we present a novel end-to-end hybrid neural network for learning the local and global contextual features of time series. In particular, we explore the idea of hybrid neural networks in a specific time series learning problem, namely learning the local trend of time series. Local trends of time series characterize the intermediate upward and downward patterns of time series. Learning and forecasting the local trend in time series data play an important role in many real applications, ranging from investing in the stock market, resource allocation in data centers and load schedule in the smart grid. We propose TreNet, a hybrid neural network which leverages convolutional neural networks (CNNs) to extract salient features from local raw data of time series and a long-short term memory recurrent neural network (LSTM) to capture such dependency of local trends. Preliminary experimental results on real datasets demonstrate the superiority of TreNet over conventional CNN, LSTM, HMM method and various kernel based baselines.

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Hybrid Neural Networks for Time Series Learning Tian Guo Ph.D. 24 Nov. 2016
Outline • Introduction • Hybrid Neural Network (HNN) • HNN for Real • Preliminaries • TreNet: a HNN for learning the local trend of time series • Experiment results • Conclusion 2
Introduction 3Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Time series data: a sequence of data points consisting of successive measurements made over time. • Internet of Things • Sensor networks • Mobile phones • And more… 4Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Time series analytics in a variety of applications • Classification • Prediction • Anomaly detection • Pattern discovery • And more… 5 Pattern 1 Pattern 2 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Time series analytics tools • Statistics • Hidden Markov Model (HMM) • State Space Model • ARIMA • Machine learning • Random Forest • SVM • Gaussian Process • 6 Random Forest Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Neural Network and Deep Learning • Language translation • E.g., Google’s Multilingual Neural Machine Translation System • Computer vision • E.g., Microsoft Research’s PReLU network outperforms Human-Level performance on ImageNet Classification • Speech recognition • E.g., Amazon Echo, Apple Siri • Time series classification • E.g. recognize patterns in multivariate time series of clinical measurements 7 Z. Lipton, et al. “Learning to Diagnose with LSTM Recurrent Neural Networks”. ICLR, 2016. Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Fundamental network architectures • Convolutional neural network: input two-dimensional data, e.g., image • Recurrent neural network: input 8 Unfolded recurrent connections in a RNN Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Convolutional Neural Network (CNN) • Feature learning for images • To extract high-level features from raw data • Such high-level features are further used for classification or regression. 9 K. He, et al. “Delving deep into rectifiers: Surpassing Human-Level Performance on ImageNet Classification”. arxiv.org, 2015 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Convolutional Neural Network (CNN) • CNN in the Human Activity Recognition Problem • Multichannel time series acquired from a set of body-worn sensors • To predict human activities by training a CNN over time series 10 J. Yang, et al. “Deep Convolutional Neural Networks On Multichannel Time Series For Human Activity Recognition”. IJCAI 2015 Value Time Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Introduction • Recurrent Neural Network (RNN) • A powerful tool to model sequence data • To capture dependency in sequence data • Long-short term memory network (LSTM) • A widely used variant of RNNs • Equipped with memory and gate mechanism • To overcome gradient vanishing and explosion 11 S. Hochreiter, et al. “Long short-term memory’’. Neural computation, 1997. Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks 12Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • CNN or RNN • Work well for respective data, i.e. images and sequence data 13Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • A cascade of CNN and RNN • Classification of EEG data • Electroencephalogram (EEG) : multiple time series corresponding to measurements across different spatial locations over the cortex. • Mental load classification task: measures the working memory responsible for transient retention of information in the brain. 14 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • A cascade of CNN and RNN • Classification of EEG data • A key challenge in correctly recognizing mental states • EEG data often contains translation and deformation of signal in space, frequency, and time, due to inter- and intra-subject differences 15 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • A cascade of CNN and RNN • Classification of EEG data 16 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • A cascade of CNN and RNN • EEG data classification 17 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • Time Series • Noisy • Non-stationary • Hidden information: states, dynamics • Auto-correlated on the temporal dimension • Manual feature engineering • Preprocessing: de-trending, outlier removal, etc. • Dimension reduction: Fourier Transformation • Piecewise approximation: PAA, PCA, PLA, etc. • Application-specific, domain knowledge 18 Why do we need hybrid architectures? Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • Hybrid architectures: end-to-end learning framework • Loss function driven training • Learning representative features • Capturing sequential dependency in data 19 Why do we need hybrid architectures? Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Hybrid Neural Networks • A cascade of CNN and RNN 20 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
HNN for Real: TreNet for Learning the Local Trend 21 T. Guo, et al. TreNet: Hybrid Neural Networks for Learning the Local Trend in Temporal Data. In submission to ICLR, 2017 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Preliminaries • Conventional trend analysis in time series is the seasonal component at time t is the trend component at t is the remainder 22Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Preliminaries • Local trend • Measure the intermediate local behaviour, i.e. upward or downward pattern of time series • For instance, the time series of household power consumption and the local trends are shown as follows: • Time series • Extracted local trend , is the duration and is the slope 23Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Preliminaries • Learning and forecasting the local trend • Predict , • Useful in many applications • Smart energy • Stock market • And more … 24Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Preliminaries • Learning and forecasting the local trend • Local raw data • Global contextual information in the historical sequence of trend • To learn a function is either or 25Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
TreNet • Overview of TreNet • is derived by training the LSTM over sequence to capture the dependency in the trend evolving. • corresponds to local features extracted by CNN from 26Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
is derived by training the LSTM over sequence to capture the dependency in the trend evolving. corresponds to local features extracted by CNN from TreNet • Overview • 27Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
TreNet • Learning 28Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
TreNet • LSTM • Feed the sequence of • Output 29Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
TreNet • CNN • Output 30Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
TreNet • Feature Fusion and output layers 31Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
TreNet • Learning • Gradient descent 32Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Experiments • Datasets • Daily Household Power Consumption (HousePC) • Gas Sensor (GasSensor) • Stock Transaction (Stock) 33 E Keogh, et al. “An online algorithm for segmenting time series”. ICDM, 2001 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Experiments • Baselines • CNN • LSTM • Support Vector Regression (SVR) • Radial Basis kernel (SVRBF) • Polynomial kernel (SVPOLY) • Sigmoid kernel (SVSIG) • Pattern-based Hidden Markov Model (pHMM) 34Introduction Hybrid Neural Network(HNN) TreNet for Local Trend P. Wang, et al. “Finding Semantics in Time Series”, SIGMOD 2011
Experiments • Results: overall accuracy 35Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Experiments • Results: prediction visualization 36Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
Conclusion 37
Conclusion 38 • Hybrid neural networks • TreNet for the Local Trend Learning • Future work: a generic idea • Social media streams • Heterogeneous data • Influence analysis • And more…
Thanks! Q & A This work is supported by EU OpenIoT Project (Open Source Solution for the Internet of Things) http://www.openiot.eu/ Feel free to contact: tian.guo0980@gmail.com, tian.guo@epfl.ch

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Hybrid Neural Networks for Time Series Learning: TreNet Captures Local Trends

  • 1. Hybrid Neural Networks for Time Series Learning Tian Guo Ph.D. 24 Nov. 2016
  • 2. Outline • Introduction • Hybrid Neural Network (HNN) • HNN for Real • Preliminaries • TreNet: a HNN for learning the local trend of time series • Experiment results • Conclusion 2
  • 3. Introduction 3Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 4. Introduction • Time series data: a sequence of data points consisting of successive measurements made over time. • Internet of Things • Sensor networks • Mobile phones • And more… 4Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 5. Introduction • Time series analytics in a variety of applications • Classification • Prediction • Anomaly detection • Pattern discovery • And more… 5 Pattern 1 Pattern 2 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 6. Introduction • Time series analytics tools • Statistics • Hidden Markov Model (HMM) • State Space Model • ARIMA • Machine learning • Random Forest • SVM • Gaussian Process • 6 Random Forest Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 7. Introduction • Neural Network and Deep Learning • Language translation • E.g., Google’s Multilingual Neural Machine Translation System • Computer vision • E.g., Microsoft Research’s PReLU network outperforms Human-Level performance on ImageNet Classification • Speech recognition • E.g., Amazon Echo, Apple Siri • Time series classification • E.g. recognize patterns in multivariate time series of clinical measurements 7 Z. Lipton, et al. “Learning to Diagnose with LSTM Recurrent Neural Networks”. ICLR, 2016. Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 8. Introduction • Fundamental network architectures • Convolutional neural network: input two-dimensional data, e.g., image • Recurrent neural network: input 8 Unfolded recurrent connections in a RNN Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 9. Introduction • Convolutional Neural Network (CNN) • Feature learning for images • To extract high-level features from raw data • Such high-level features are further used for classification or regression. 9 K. He, et al. “Delving deep into rectifiers: Surpassing Human-Level Performance on ImageNet Classification”. arxiv.org, 2015 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 10. Introduction • Convolutional Neural Network (CNN) • CNN in the Human Activity Recognition Problem • Multichannel time series acquired from a set of body-worn sensors • To predict human activities by training a CNN over time series 10 J. Yang, et al. “Deep Convolutional Neural Networks On Multichannel Time Series For Human Activity Recognition”. IJCAI 2015 Value Time Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 11. Introduction • Recurrent Neural Network (RNN) • A powerful tool to model sequence data • To capture dependency in sequence data • Long-short term memory network (LSTM) • A widely used variant of RNNs • Equipped with memory and gate mechanism • To overcome gradient vanishing and explosion 11 S. Hochreiter, et al. “Long short-term memory’’. Neural computation, 1997. Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 12. Hybrid Neural Networks 12Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 13. Hybrid Neural Networks • CNN or RNN • Work well for respective data, i.e. images and sequence data 13Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 14. Hybrid Neural Networks • A cascade of CNN and RNN • Classification of EEG data • Electroencephalogram (EEG) : multiple time series corresponding to measurements across different spatial locations over the cortex. • Mental load classification task: measures the working memory responsible for transient retention of information in the brain. 14 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 15. Hybrid Neural Networks • A cascade of CNN and RNN • Classification of EEG data • A key challenge in correctly recognizing mental states • EEG data often contains translation and deformation of signal in space, frequency, and time, due to inter- and intra-subject differences 15 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 16. Hybrid Neural Networks • A cascade of CNN and RNN • Classification of EEG data 16 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 17. Hybrid Neural Networks • A cascade of CNN and RNN • EEG data classification 17 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 18. Hybrid Neural Networks • Time Series • Noisy • Non-stationary • Hidden information: states, dynamics • Auto-correlated on the temporal dimension • Manual feature engineering • Preprocessing: de-trending, outlier removal, etc. • Dimension reduction: Fourier Transformation • Piecewise approximation: PAA, PCA, PLA, etc. • Application-specific, domain knowledge 18 Why do we need hybrid architectures? Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 19. Hybrid Neural Networks • Hybrid architectures: end-to-end learning framework • Loss function driven training • Learning representative features • Capturing sequential dependency in data 19 Why do we need hybrid architectures? Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 20. Hybrid Neural Networks • A cascade of CNN and RNN 20 P. Bashivan, et. al. “Learning Representations from EEG with Deep Recurrent-Convolutional Neural Networks”. ICLR, 2016 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 21. HNN for Real: TreNet for Learning the Local Trend 21 T. Guo, et al. TreNet: Hybrid Neural Networks for Learning the Local Trend in Temporal Data. In submission to ICLR, 2017 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 22. Preliminaries • Conventional trend analysis in time series is the seasonal component at time t is the trend component at t is the remainder 22Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 23. Preliminaries • Local trend • Measure the intermediate local behaviour, i.e. upward or downward pattern of time series • For instance, the time series of household power consumption and the local trends are shown as follows: • Time series • Extracted local trend , is the duration and is the slope 23Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 24. Preliminaries • Learning and forecasting the local trend • Predict , • Useful in many applications • Smart energy • Stock market • And more … 24Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 25. Preliminaries • Learning and forecasting the local trend • Local raw data • Global contextual information in the historical sequence of trend • To learn a function is either or 25Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 26. TreNet • Overview of TreNet • is derived by training the LSTM over sequence to capture the dependency in the trend evolving. • corresponds to local features extracted by CNN from 26Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 27. is derived by training the LSTM over sequence to capture the dependency in the trend evolving. corresponds to local features extracted by CNN from TreNet • Overview • 27Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 28. TreNet • Learning 28Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 29. TreNet • LSTM • Feed the sequence of • Output 29Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 30. TreNet • CNN • Output 30Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 31. TreNet • Feature Fusion and output layers 31Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 32. TreNet • Learning • Gradient descent 32Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 33. Experiments • Datasets • Daily Household Power Consumption (HousePC) • Gas Sensor (GasSensor) • Stock Transaction (Stock) 33 E Keogh, et al. “An online algorithm for segmenting time series”. ICDM, 2001 Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 34. Experiments • Baselines • CNN • LSTM • Support Vector Regression (SVR) • Radial Basis kernel (SVRBF) • Polynomial kernel (SVPOLY) • Sigmoid kernel (SVSIG) • Pattern-based Hidden Markov Model (pHMM) 34Introduction Hybrid Neural Network(HNN) TreNet for Local Trend P. Wang, et al. “Finding Semantics in Time Series”, SIGMOD 2011
  • 35. Experiments • Results: overall accuracy 35Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 36. Experiments • Results: prediction visualization 36Introduction Hybrid Neural Network(HNN) TreNet for Local Trend
  • 38. Conclusion 38 • Hybrid neural networks • TreNet for the Local Trend Learning • Future work: a generic idea • Social media streams • Heterogeneous data • Influence analysis • And more…
  • 39. Thanks! Q & A This work is supported by EU OpenIoT Project (Open Source Solution for the Internet of Things) http://www.openiot.eu/ Feel free to contact: tian.guo0980@gmail.com, tian.guo@epfl.ch