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Publication search results
found 68 matches
- 2024
- Pengfei Wang, Hua Zhong, Ya-Pei Feng, Liangbiao Gong, Yuxiang Tang, Zhe-Ming Lu, Lixin Wang:
Covert Communication through Robust Fragment Hiding in a Large Number of Images. Sensors 24(2): 627 (2024) - 2023
- Yanyan Diao, Feng Hu, Zihao Shen, Honglin Li:
MacFrag: segmenting large-scale molecules to obtain diverse fragments with high qualities. Bioinform. 39(1) (2023) - Christian Meyenburg, Uschi Dolfus, Hans Briem, Matthias Rarey:
Galileo: Three-dimensional searching in large combinatorial fragment spaces on the example of pharmacophores. J. Comput. Aided Mol. Des. 37(1): 1-16 (2023) - Martin Stroet, Bertrand Caron, Martin S. Engler, Jimi van der Woning, Aude Kauffmann, Marc van Dijk, Mohammed El-Kebir, Koen Visscher, Josef Holownia, Callum Macfarlane, Brian J. Bennion, Svetlana Gelpi-Dominguez, Felice C. Lightstone, Tijs van der Storm, Daan P. Geerke, Alan E. Mark, Gunnar W. Klau:
OFraMP: a fragment-based tool to facilitate the parametrization of large molecules. J. Comput. Aided Mol. Des. 37(8): 357-371 (2023) - Mini Bharati Ahirwar, Milind M. Deshmukh:
Fragments-in-fragments method for efficient and reliable estimates of individual hydrogen bond energies in large molecular clusters. J. Comput. Chem. 44(23): 1861-1874 (2023) - 2022
- Louis Bellmann, Raphael Klein, Matthias Rarey:
Calculating and Optimizing Physicochemical Property Distributions of Large Combinatorial Fragment Spaces. J. Chem. Inf. Model. 62(11): 2800-2810 (2022) - Hiroki Sayama:
Social Fragmentation Transitions in Large-Scale Parameter Sweep Simulations of Adaptive Social Networks. PPAM (2) 2022: 459-469 - Chryssis Georgiou, Nicolas Nicolaou, Andria Trigeorgi:
Fragmented ARES: Dynamic Storage for Large Objects. DISC 2022: 25:1-25:24 - Chryssis Georgiou, Nicolas Nicolaou, Andria Trigeorgi:
Fragmented ARES: Dynamic Storage for Large Objects. CoRR abs/2201.13292 (2022) - Hiroki Sayama:
Social Fragmentation Transitions in Large-Scale Adaptive Social Network Simulations. CoRR abs/2205.10489 (2022) - 2021
- Louis Bellmann, Patrick Penner, Matthias Rarey:
Topological Similarity Search in Large Combinatorial Fragment Spaces. J. Chem. Inf. Model. 61(1): 238-251 (2021) - Govind Mittal, Pawel Korus, Nasir D. Memon:
FiFTy: Large-Scale File Fragment Type Identification Using Convolutional Neural Networks. IEEE Trans. Inf. Forensics Secur. 16: 28-41 (2021) - Rainer Schlosser, Stefan Halfpap:
Robust and Memory-Efficient Database Fragment Allocation for Large and Uncertain Database Workloads. EDBT 2021: 367-372 - Giovane C. M. Moura, Moritz Müller, Marco Davids, Maarten Wullink, Cristian Hesselman:
Fragmentation, Truncation, and Timeouts: Are Large DNS Messages Falling to Bits? PAM 2021: 460-477 - Antonio Fernández Anta, Chryssis Georgiou, Theophanis Hadjistasi, Nicolas Nicolaou, Efstathios Stavrakis, Andria Trigeorgi:
Fragmented Objects: Boosting Concurrency of Shared Large Objects. SIROCCO 2021: 106-126 - Xiaopeng Lu, Tiancheng Zhao, Kyusong Lee:
VisualSparta: Sparse Transformer Fragment-level Matching for Large-scale Text-to-Image Search. CoRR abs/2101.00265 (2021) - 2020
- Chang Hyun Park, Sanghoon Cha, Bokyeong Kim, Youngjin Kwon, David Black-Schaffer, Jaehyuk Huh:
Perforated Page: Supporting Fragmented Memory Allocation for Large Pages. ISCA 2020: 913-925 - 2019
- Sergey A. Samsonov, Martin Zacharias, Isaure Chauvot de Beauchêne:
Modeling large protein-glycosaminoglycan complexes using a fragment-based approach. J. Comput. Chem. 40(14): 1429-1439 (2019) - Nitesh K. Bharadwaj, Upasna Singh:
An intelligent approach for examining and detecting target data fragments in suspected large storage drives. Secur. Priv. 2(4) (2019) - Tove Faber Frandsen, Mette Brandt Eriksen, David Mortan Grøne Hammer, Janne Buck Christensen:
Fragmented publishing: a large-scale study of health science. Scientometrics 119(3): 1729-1743 (2019) - Govind Mittal, Pawel Korus, Nasir D. Memon:
FiFTy: Large-scale File Fragment Type Identification using Neural Networks. CoRR abs/1908.06148 (2019) - 2018
- Chang-Hong Hsu, Qingyuan Deng, Jason Mars, Lingjia Tang:
SmoothOperator: Reducing Power Fragmentation and Improving Power Utilization in Large-scale Datacenters. ASPLOS 2018: 535-548 - Lars Heling, Maribel Acosta, Maria Maleshkova, York Sure-Vetter:
Querying Large Knowledge Graphs over Triple Pattern Fragments: An Empirical Study. ISWC (2) 2018: 86-102 - 2017
- Weile Jia, Jue Wang, Xuebin Chi, Lin-Wang Wang:
GPU implementation of the linear scaling three dimensional fragment method for large scale electronic structure calculations. Comput. Phys. Commun. 211: 8-15 (2017) - Diego Thomas, Akihiro Sugimoto:
Modeling large-scale indoor scenes with rigid fragments using RGB-D cameras. Comput. Vis. Image Underst. 157: 103-116 (2017) - Jaehee Jung, Jong Im Kim, Young-Sik Jeong, Gangman Yi:
A Robust Method for Finding the Automated Best Matched Genes Based on Grouping Similar Fragments of Large-Scale References for Genome Assembly. Symmetry 9(9): 192 (2017) - Wessam Elhefnawy, Min Li, Jianxin Wang, Yaohang Li:
Construction of Protein Backbone Fragments Libraries on Large Protein Sets Using a Randomized Spectral Clustering Algorithm. ISBRA 2017: 108-119 - Theophilus Teo, Mitchell Norman, Matt Adcock, Bruce H. Thomas:
Data fragment: Virtual reality for viewing and querying large image sets. VR 2017: 327-328 - Alfredo Cuzzocrea, Jérôme Darmont, Hadj Mahboubi:
Fragmenting very large XML data warehouses via K-means clustering algorithm. CoRR abs/1701.02190 (2017) - 2016
- Mehedi Hasan, Alexander Kotov, April Idalski Carcone, Ming Dong, Sylvie Naar, Kathryn Brogan Hartlieb:
A study of the effectiveness of machine learning methods for classification of clinical interview fragments into a large number of categories. J. Biomed. Informatics 62: 21-31 (2016)
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