Your search keyword '"Cottrell, Garrison W."' showing total 7 results

1. DeepSAT: Learning Molecular Structures from Nuclear Magnetic Resonance Data.

Author

Kim, Hyun Woo, Zhang, Chen, Reher, Raphael, Wang, Mingxun, Alexander, Kelsey L., Nothias, Louis-Félix, Han, Yoo Kyong, Shin, Hyeji, Lee, Ki Yong, Lee, Kyu Hyeong, Kim, Myeong Ji, Dorrestein, Pieter C., Gerwick, William H., and Cottrell, Garrison W.

Subjects

NUCLEAR magnetic resonance, MOLECULAR structure, NUCLEAR structure, CONVOLUTIONAL neural networks, NUCLEAR magnetic resonance spectroscopy, SINGLE molecule magnets, CHEMICAL shift (Nuclear magnetic resonance)

Abstract

The identification of molecular structure is essential for understanding chemical diversity and for developing drug leads from small molecules. Nevertheless, the structure elucidation of small molecules by Nuclear Magnetic Resonance (NMR) experiments is often a long and non-trivial process that relies on years of training. To achieve this process efficiently, several spectral databases have been established to retrieve reference NMR spectra. However, the number of reference NMR spectra available is limited and has mostly facilitated annotation of commercially available derivatives. Here, we introduce DeepSAT, a neural network-based structure annotation and scaffold prediction system that directly extracts the chemical features associated with molecular structures from their NMR spectra. Using only the 1H-13C HSQC spectrum, DeepSAT identifies related known compounds and thus efficiently assists in the identification of molecular structures. DeepSAT is expected to accelerate chemical and biomedical research by accelerating the identification of molecular structures. [ABSTRACT FROM AUTHOR]

Published

2023

2. Author Correction: Small Molecule Accurate Recognition Technology (SMART) to Enhance Natural Products Research.

Author

Zhang, Chen, Idelbayev, Yerlan, Roberts, Nicholas, Tao, Yiwen, Nannapaneni, Yashwanth, Duggan, Brendan M., Min, Jie, Lin, Eugene C., Gerwick, Erik C., Cottrell, Garrison W., and Gerwick, William H.

Subjects

SMALL molecules, NATURAL products

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper. [ABSTRACT FROM AUTHOR]

Published

2020

3. Hierarchical Cellular Automata for Visual Saliency.

Author

Qin, Yao, Feng, Mengyang, Lu, Huchuan, and Cottrell, Garrison W.

Subjects

CELLULAR automata, COMPUTER vision, SEMANTICS, DEEP learning, BAYESIAN analysis

Abstract

Saliency detection, finding the most important parts of an image, has become increasingly popular in computer vision. In this paper, we introduce Hierarchical Cellular Automata (HCA)—a temporally evolving model to intelligently detect salient objects. HCA consists of two main components: Single-layer Cellular Automata (SCA) and Cuboid Cellular Automata (CCA). As an unsupervised propagation mechanism, Single-layer Cellular Automata can exploit the intrinsic relevance of similar regions through interactions with neighbors. Low-level image features as well as high-level semantic information extracted from deep neural networks are incorporated into the SCA to measure the correlation between different image patches. With these hierarchical deep features, an impact factor matrix and a coherence matrix are constructed to balance the influences on each cell’s next state. The saliency values of all cells are iteratively updated according to a well-defined update rule. Furthermore, we propose CCA to integrate multiple saliency maps generated by SCA at different scales in a Bayesian framework. Therefore, single-layer propagation and multi-scale integration are jointly modeled in our unified HCA. Surprisingly, we find that the SCA can improve all existing methods that we applied it to, resulting in a similar precision level regardless of the original results. The CCA can act as an efficient pixel-wise aggregation algorithm that can integrate state-of-the-art methods, resulting in even better results. Extensive experiments on four challenging datasets demonstrate that the proposed algorithm outperforms state-of-the-art conventional methods and is competitive with deep learning based approaches. [ABSTRACT FROM AUTHOR]

Published

2018

4. Small Molecule Accurate Recognition Technology (SMART) to Enhance Natural Products Research.

Author

Zhang, Chen, Idelbayev, Yerlan, Roberts, Nicholas, Tao, Yiwen, Nannapaneni, Yashwanth, Duggan, Brendan M., Min, Jie, Lin, Eugene C., Gerwick, Erik C., Cottrell, Garrison W., and Gerwick, William H.

Abstract

Various algorithms comparing 2D NMR spectra have been explored for their ability to dereplicate natural products as well as determine molecular structures. However, spectroscopic artefacts, solvent effects, and the interactive effect of functional group(s) on chemical shifts combine to hinder their effectiveness. Here, we leveraged Non-Uniform Sampling (NUS) 2D NMR techniques and deep Convolutional Neural Networks (CNNs) to create a tool, SMART, that can assist in natural products discovery efforts. First, an NUS heteronuclear single quantum coherence (HSQC) NMR pulse sequence was adapted to a state-of-the-art nuclear magnetic resonance (NMR) instrument, and data reconstruction methods were optimized, and second, a deep CNN with contrastive loss was trained on a database containing over 2,054 HSQC spectra as the training set. To demonstrate the utility of SMART, several newly isolated compounds were automatically located with their known analogues in the embedded clustering space, thereby streamlining the discovery pipeline for new natural products. [ABSTRACT FROM AUTHOR]

Published

2017

5. Color Constancy Algorithms for Object and Face Recognition.

Author

Kanan, Christopher, Flores, Arturo, and Cottrell, Garrison W.

Abstract

Brightness and color constancy is a fundamental problem faced in computer vision and by our own visual system. We easily recognize objects despite changes in illumination, but without a mechanism to cope with this, many object and face recognition systems perform poorly. In this paper we compare approaches in computer vision and computational neuroscience for inducing brightness and color constancy based on their ability to improve recognition. We analyze the relative performance of the algorithms on the AR face and ALOI datasets using both a SIFT-based recognition system and a simple pixel-based approach. Quantitative results demonstrate that color constancy methods can significantly improve classification accuracy. We also evaluate the approaches on the Caltech-101 dataset to determine how these algorithms affect performance under relatively normal illumination conditions. [ABSTRACT FROM AUTHOR]

Published

2010

6. A Connectionist Simulation of the Empirical Acquisition of Grammatical Relations.

Author

Sun, Ron, Wermter, Stefan, Morris, William C., Cottrell, Garrison W., and Elman, Jeffrey

Abstract

This paper proposes an account of the acquisition of grammatical relations using the basic concepts of connectionism and a construction-based theory of grammar. Many previous accounts of first-language acquisition assume that grammatical relations (e.g., the grammatical subject and object of a sentence) and linking rules are universal and innate; this is necessary to provide a first set of assumptions in the target language to allow deductive processes to test hypotheses and/or set parameters. In contrast to this approach, we propose that grammatical relations emerge rather late in the language-learning process. Our theoretical proposal is based on two observations. First, early production of childhood speech is formulaic and becomes systematic in a progressive fashion. Second, grammatical relations themselves are family-resemblance categories that cannot be described by a single parameter. This leads to the notion that grammatical relations are learned in a bottom up fashion. Combining this theoretical position with the notion that the main purpose of language is communication, we demonstrate the emergence of the notion of "subject" in a simple recurrent network that learns to map from sentences to semantic roles. We analyze the hidden layer representations of the emergent subject, and demonstrate that these representations correspond to a radially-structured category. We also claim that the pattern of generalization and undergeneralization demonstrated by the network conforms to what we expect from the data on children's generalizations. [ABSTRACT FROM AUTHOR]

Published

2000

7. Towards Instructable Connectionist Systems.

Author

Sun, Ron, Bookman, Lawrence A., Noelle, David C., and Cottrell, Garrison W.

Abstract

At least three disparate channels have been used to install new knowledge into artificial intelligence systems. The first of these is the programmer channel, through which the knowledge in the system is simply edited to include the desired new knowledge. While this method is often effective, it may not be as efficient as learning directly from environmental interaction. The second channel may be called the linguistic channel, through which knowledge is added by explicitly telling the system facts or commands encoded as strings of quasi-linguistic instructions in some appropriate form. Finally, there is, for want of a better phrase, the learning channel, through which the system learns new knowledge in an inductive way via environmental observations and simple feedback information. These latter two channels are the ones upon which we wish to focus, as they are the hallmarks of instructable systems. Most instructable systems depend upon, or at least heavily favor, one of these two channels for the bulk of their knowledge acquisition. Specifically, symbolic artificial intelligence systems have generally depended upon the explicit use of sentential logical expressions, rules, or productions for the transmission of new knowledge to the system. In contrast, many connectionist network models have relied solely on inductive generalization mechanisms for knowledge creation. There is no apparent reason to believe that this rough dichotomy of technique is necessary, however. Systems which are capable of receiving detailed instruction and also generalizing from experience the both possible and potentially very useful. [ABSTRACT FROM AUTHOR]

Published

1994