Transfer learning
Transfer learning (TL) is a technique in machine learning (ML) in which knowledge learned from a task is re-used in order to boost performance on a related task.[1] For example, for image classification, knowledge gained while learning to recognize cars could be applied when trying to recognize trucks. This topic is related to the psychological literature on transfer of learning, although practical ties between the two fields are limited. Reusing/transferring information from previously learned tasks to new tasks has the potential to significantly improve learning efficiency.[2]
Since transfer learning makes use of training with multiple objective functions it is related to Cost-sensitive machine learning and multi-objective optimization[3]
History
In 1976, Bozinovski and Fulgosi published a paper addressing transfer learning in neural network training.[4][5] The paper gives a mathematical and geometrical model of the topic. In 1981, a report considered the application of transfer learning to a dataset of images representing letters of computer terminals, experimentally demonstrating positive and negative transfer learning.[6]
In 1992, Pratt formulated the discriminability-based transfer (DBT) algorithm.[7]
In 1997, Pratt and Thrun guest-edited a special issue of Machine Learning devoted to transfer learning,[8] and by 1998, the field had advanced to include multi-task learning,[9] along with more formal theoretical foundations.[10] Learning to Learn,[11] edited by Thrun and Pratt, is a 1998 review of the subject.
Transfer learning has been applied in cognitive science. Pratt guest-edited an issue of Connection Science on reuse of neural networks through transfer in 1996.[12]
Ng said in his NIPS 2016 tutorial[13][14][15] that TL would become the next driver of machine learning commercial success after supervised learning.
In the 2020 paper, "Rethinking Pre-Training and self-training",[16] Zoph et al. reported that pre-training can hurt accuracy, and advocate self-training instead.
Applications
Algorithms are available for transfer learning in Markov logic networks[17] and Bayesian networks.[18] Transfer learning has been applied to cancer subtype discovery,[19] building utilization,[20][21] general game playing,[22] text classification,[23][24] digit recognition,[25] medical imaging and spam filtering.[26]
In 2020 it was discovered that, due to their similar physical natures, transfer learning is possible between electromyographic (EMG) signals from the muscles and classifying the behaviors of electroencephalographic (EEG) brainwaves, from the gesture recognition domain to the mental state recognition domain. It was noted that this relationship worked in both directions, showing that electroencephalographic can likewise be used to classify EMG.[27] The experiments noted that the accuracy of neural networks and convolutional neural networks were improved[28] through transfer learning both prior to any learning (compared to standard random weight distribution) and at the end of the learning process (asymptote). That is, results are improved by exposure to another domain. Moreover, the end-user of a pre-trained model can change the structure of fully-connected layers to improve performance.[29]
Software
Several compilations of transfer learning and domain adaptation algorithms have been implemented:
See also
- Crossover (genetic algorithm)
- Domain adaptation
- General game playing
- Multi-task learning
- Multitask optimization
- Transfer of learning in educational psychology
- Zero-shot learning
References
- ↑ West, Jeremy; Ventura, Dan; Warnick, Sean (2007). "Spring Research Presentation: A Theoretical Foundation for Inductive Transfer". Brigham Young University, College of Physical and Mathematical Sciences. http://cpms.byu.edu/springresearch/abstract-entry?id=861.
- ↑ George Karimpanal, Thommen; Bouffanais, Roland (2019). "Self-organizing maps for storage and transfer of knowledge in reinforcement learning". Adaptive Behavior 27 (2): 111–126. doi:10.1177/1059712318818568. ISSN 1059-7123.
- ↑ Cost-Sensitive Machine Learning. (2011). USA: CRC Press, Page 63, https://books.google.de/books?id=8TrNBQAAQBAJ&pg=PA63
- ↑ Stevo. Bozinovski and Ante Fulgosi (1976). "The influence of pattern similarity and transfer learning upon the training of a base perceptron B2." (original in Croatian) Proceedings of Symposium Informatica 3-121-5, Bled.
- ↑ Stevo Bozinovski (2020) "Reminder of the first paper on transfer learning in neural networks, 1976". Informatica 44: 291–302.
- ↑ S. Bozinovski (1981). "Teaching space: A representation concept for adaptive pattern classification." COINS Technical Report, the University of Massachusetts at Amherst, No 81-28 [available online: UM-CS-1981-028.pdf]
- ↑ Pratt, L. Y. (1992). "Discriminability-based transfer between neural networks". NIPS Conference: Advances in Neural Information Processing Systems 5. Morgan Kaufmann Publishers. pp. 204–211. http://papers.nips.cc/paper/641-discriminability-based-transfer-between-neural-networks.pdf.
- ↑ Pratt, L. Y.; Thrun, Sebastian (July 1997). "Machine Learning - Special Issue on Inductive Transfer". Springer. https://link.springer.com/journal/10994/28/1/page/1.
- ↑ Caruana, R., "Multitask Learning", pp. 95-134 in Thrun & Pratt 2012
- ↑ Baxter, J., "Theoretical Models of Learning to Learn", pp. 71-95 Thrun & Pratt 2012
- ↑ Thrun & Pratt 2012.
- ↑ Pratt, L. (1996). "Special Issue: Reuse of Neural Networks through Transfer". Connection Science 8 (2). http://www.tandfonline.com/toc/ccos20/8/2. Retrieved 2017-08-10.
- ↑ (in en) NIPS 2016 tutorial: "Nuts and bolts of building AI applications using Deep Learning" by Andrew Ng, https://www.youtube.com/watch?v=wjqaz6m42wU, retrieved 2019-12-28
- ↑ "NIPS 2016 Schedule". https://nips.cc/Conferences/2016/Schedule?showEvent=6203.
- ↑ Nuts and bolts of building AI applications using Deep Learning, slides
- ↑ Zoph, Barret (2020). "Rethinking pre-training and self-training". Advances in Neural Information Processing Systems 33: 3833–3845. https://proceedings.neurips.cc/paper/2020/file/27e9661e033a73a6ad8cefcde965c54d-Paper.pdf. Retrieved 2022-12-20.
- ↑ Mihalkova, Lilyana; Huynh, Tuyen; Mooney, Raymond J. (July 2007), "Mapping and Revising Markov Logic Networks for Transfer", Learning Proceedings of the 22nd AAAI Conference on Artificial Intelligence (AAAI-2007), Vancouver, BC, pp. 608–614, http://www.cs.utexas.edu/users/ml/papers/mihalkova-aaai07.pdf, retrieved 2007-08-05
- ↑ Niculescu-Mizil, Alexandru; Caruana, Rich (March 21–24, 2007), "Inductive Transfer for Bayesian Network Structure Learning", Proceedings of the Eleventh International Conference on Artificial Intelligence and Statistics (AISTATS 2007), http://www.stat.umn.edu/~aistat/proceedings/data/papers/043.pdf, retrieved 2007-08-05
- ↑ Hajiramezanali, E. & Dadaneh, S. Z. & Karbalayghareh, A. & Zhou, Z. & Qian, X. Bayesian multi-domain learning for cancer subtype discovery from next-generation sequencing count data. 32nd Conference on Neural Information Processing Systems (NeurIPS 2018), Montréal, Canada. arXiv:1810.09433
- ↑ Arief-Ang, I.B.; Salim, F.D.; Hamilton, M. (2017-11-08). "DA-HOC: semi-supervised domain adaptation for room occupancy prediction using CO2 sensor data". 4th ACM International Conference on Systems for Energy-Efficient Built Environments (BuildSys). Delft, Netherlands. pp. 1–10. doi:10.1145/3137133.3137146. ISBN 978-1-4503-5544-5. https://dl.acm.org/citation.cfm?id=3137146.
- ↑ Arief-Ang, I.B.; Hamilton, M.; Salim, F.D. (2018-12-01). "A Scalable Room Occupancy Prediction with Transferable Time Series Decomposition of CO2 Sensor Data". ACM Transactions on Sensor Networks 14 (3–4): 21:1–21:28. doi:10.1145/3217214.
- ↑ Banerjee, Bikramjit, and Peter Stone. "General Game Learning Using Knowledge Transfer." IJCAI. 2007.
- ↑ Do, Chuong B.; Ng, Andrew Y. (2005). "Neural Information Processing Systems Foundation, NIPS*2005". http://papers.nips.cc/paper/2843-transfer-learning-for-text-classification.pdf. Retrieved 2007-08-05.
- ↑ Rajat, Raina; Ng, Andrew Y.; Koller, Daphne (2006). "Twenty-third International Conference on Machine Learning". https://ai.stanford.edu/~ang/papers/icml06-transferinformativepriors.pdf. Retrieved 2007-08-05.
- ↑ Maitra, D. S.; Bhattacharya, U.; Parui, S. K. (August 2015). "CNN based common approach to handwritten character recognition of multiple scripts". 2015 13th International Conference on Document Analysis and Recognition (ICDAR). pp. 1021–1025. doi:10.1109/ICDAR.2015.7333916. ISBN 978-1-4799-1805-8.
- ↑ Bickel, Steffen (2006). "ECML-PKDD Discovery Challenge Workshop". http://www.ecmlpkdd2006.org/discovery_challenge2006_overview.pdf. Retrieved 2007-08-05.
- ↑ Bird, Jordan J.; Kobylarz, Jhonatan; Faria, Diego R.; Ekart, Aniko; Ribeiro, Eduardo P. (2020). "Cross-Domain MLP and CNN Transfer Learning for Biological Signal Processing: EEG and EMG". IEEE Access (Institute of Electrical and Electronics Engineers (IEEE)) 8: 54789–54801. doi:10.1109/access.2020.2979074. ISSN 2169-3536.
- ↑ Maitra, Durjoy Sen; Bhattacharya, Ujjwal; Parui, Swapan K. (August 2015). "CNN based common approach to handwritten character recognition of multiple scripts". 2015 13th International Conference on Document Analysis and Recognition (ICDAR). pp. 1021–1025. doi:10.1109/ICDAR.2015.7333916. ISBN 978-1-4799-1805-8. https://ieeexplore.ieee.org/document/7333916.
- ↑ Kabir, H. M. Dipu; Abdar, Moloud; Jalali, Seyed Mohammad Jafar; Khosravi, Abbas; Atiya, Amir F.; Nahavandi, Saeid; Srinivasan, Dipti (January 7, 2022). "SpinalNet: Deep Neural Network with Gradual Input". IEEE Transactions on Artificial Intelligence: 1–13. doi:10.1109/TAI.2022.3185179. https://ieeexplore.ieee.org/document/9802918.
- ↑ de Mathelin, Antoine and Deheeger, François and Richard, Guillaume and Mougeot, Mathilde and Vayatis, Nicolas (2020) "ADAPT: Awesome Domain Adaptation Python Toolbox"
- ↑ Mingsheng Long Junguang Jiang, Bo Fu. (2020) "Transfer-learning-library"
- ↑ Ke Yan. (2016) "Domain adaptation toolbox"
Sources
- Thrun, Sebastian; Pratt, Lorien (6 December 2012). Learning to Learn. Springer Science & Business Media. ISBN 978-1-4615-5529-2. https://books.google.com/books?id=X_jpBwAAQBAJ.
Original source: https://en.wikipedia.org/wiki/Transfer learning.
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