%0 Book %1 NowozinGehlerEtAl2014 %B Neural Information Processing %C Cambridge, MA %D 2014 %E Nowozin, Sebastian %E Gehler, Peter V. %E Jancsary, Jeremy %E Lampert, Christoph H. %I MIT Press %K 01801 101 mitpress book shelf ai knowledge processing data pattern recognition analysis learn algorithm theory %T Advanced Structured Prediction %X The goal of structured prediction is to build machine learning models that predict relational information that itself has structure, such as being composed of multiple interrelated parts. These models, which reflect prior knowledge, task-specific relations, and constraints, are used in fields including computer vision, speech recognition, natural language processing, and computational biology. They can carry out such tasks as predicting a natural language sentence, or segmenting an image into meaningful components. These models are expressive and powerful, but exact computation is often intractable. A broad research effort in recent years has aimed at designing structured prediction models and approximate inference and learning procedures that are computationally efficient. This volume offers an overview of this recent research in order to make the work accessible to a broader research community. The chapters, by leading researchers in the field, cover a range of topics, including research trends, the linear programming relaxation approach, innovations in probabilistic modeling, recent theoretical progress, and resource-aware learning. %@ 978-0-262-02837-0

@book{NowozinGehlerEtAl2014, abstract = {The goal of structured prediction is to build machine learning models that predict relational information that itself has structure, such as being composed of multiple interrelated parts. These models, which reflect prior knowledge, task-specific relations, and constraints, are used in fields including computer vision, speech recognition, natural language processing, and computational biology. They can carry out such tasks as predicting a natural language sentence, or segmenting an image into meaningful components. These models are expressive and powerful, but exact computation is often intractable. A broad research effort in recent years has aimed at designing structured prediction models and approximate inference and learning procedures that are computationally efficient. This volume offers an overview of this recent research in order to make the work accessible to a broader research community. The chapters, by leading researchers in the field, cover a range of topics, including research trends, the linear programming relaxation approach, innovations in probabilistic modeling, recent theoretical progress, and resource-aware learning.}, added-at = {2016-06-12T15:37:10.000+0200}, address = {Cambridge, MA}, biburl = {https://www.bibsonomy.org/bibtex/2ee9ade123fb69e30ed70d864de5a9157/flint63}, editor = {Nowozin, Sebastian and Gehler, Peter V. and Jancsary, Jeremy and Lampert, Christoph H.}, file = {MIT Press Product Page:https\://mitpress.mit.edu/books/advanced-structured-prediction:URL;Amazon Search inside:http\://www.amazon.de/gp/reader/0262028379/:URL}, groups = {public}, interhash = {c104486575d2e8db9fb10ac3074c02e9}, intrahash = {ee9ade123fb69e30ed70d864de5a9157}, isbn = {978-0-262-02837-0}, keywords = {01801 101 mitpress book shelf ai knowledge processing data pattern recognition analysis learn algorithm theory}, publisher = {MIT Press}, series = {Neural Information Processing}, timestamp = {2018-04-16T12:39:01.000+0200}, title = {Advanced Structured Prediction}, username = {flint63}, year = 2014 }