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Publication search results
found 29 matches
- 2024
- Dan Wu, Liming Wang, Jian Li, Meiyan Liang, Yunpeng Kang, Qi Jiao:
Securing Fast and High-Precision Localization for Shallow Underground Explosive Source: A Curiosity-Driven Deep Reinforcement Learning Approach. IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens. 17: 3940-3955 (2024) - 2023
- Frank W. Marrs, Jack V. Davis, Alexandra C. Burch, Geoffrey W. Brown, Nicholas Lease, Patricia L. Huestis, Marc J. Cawkwell, Virginia W. Manner:
Chemical Descriptors for a Large-Scale Study on Drop-Weight Impact Sensitivity of High Explosives. J. Chem. Inf. Model. 63(3): 753-769 (2023) - Andrea Civilini, Onkar Sadekar, Federico Battiston, Jesús Gómez-Gardeñes, Vito Latora:
Explosive cooperation in social dilemmas on higher-order networks. CoRR abs/2303.11475 (2023) - Chandrika Kamath, Juliette S. Franzman, Brian H. Daub:
Spatio-Temporal Surrogates for Interaction of a Jet with High Explosives: Part I - Analysis with a Small Sample Size. CoRR abs/2307.01393 (2023) - Chandrika Kamath, Juliette S. Franzman:
Spatio-Temporal Surrogates for Interaction of a Jet with High Explosives: Part II - Clustering Extremely High-Dimensional Grid-Based Data. CoRR abs/2307.01400 (2023) - 2022
- Matthew J. Hobbs, Andrew Barr, Scott Woolford, Dain Farrimond, Sam D. Clarke, Andrew Tyas, Jon Raffe Willmott:
High-Speed Infrared Radiation Thermometer for the Investigation of Early Stage Explosive Development and Fireball Expansion. Sensors 22(16): 6143 (2022) - Alexander N. Pchelintsev:
On a High-Precision Method for Studying Attractors of Dynamical Systems and Systems of Explosive Type. CoRR abs/2206.08195 (2022) - 2021
- Hao Qin, Mark G. Stewart:
Casualty Risks Induced by Primary Fragmentation Hazards from High-explosive munitions. Reliab. Eng. Syst. Saf. 215: 107874 (2021) - Jérémie Tartière, Michel Arrigoni, Alain Nême, Hugo Groeneveld, Sjoerd van der Veen:
PVDF Based Pressure Sensor for the Characterisation of the Mechanical Loading during High Explosive Hydro Forming of Metal Plates. Sensors 21(13): 4429 (2021) - Bo He, Wen-Zhong Lou, Heng-Zhen Feng, Yue-Cen Zhao, Yi Sun:
Research on Integrated Reliable Micro-High Explosive Train Model. NEMS 2021: 935-938 - 2020
- David Ornai, Sima Michal Elkabets, Yosef Kivity, Gabi Ben-Dor, Liran Chadad, Erez Gal, Barak Tavron, Erez Gilad, Robert Levy, Igal M. Shohet:
A methodology of risk assessment, management, and coping actions for nuclear power plant (NPP) hit by high-explosive warheads. Adv. Eng. Informatics 46: 101192 (2020) - Sen Zhang, Xiaowei Guo, Chao Li, Yi Liu, Ran Zhao, Canqun Yang:
Numerical Study of Fluid-Structure Interaction Dynamics under High-explosive Detonation on Massively Parallel Computers. HPCC/DSS/SmartCity 2020: 525-531 - Jin Wang, Masayoshi Tanaka, Mina Okochi:
Quartz Crystal Microbalance Sensor Based on Peptide Anchored Single-Walled Carbon Nanotubes for Highly Selective TNT Explosive Detection. IEEE SENSORS 2020: 1-3 - 2019
- Stephen A. Andrews, Tariq D. Aslam:
On the direct construction of the steady traveling solution to high explosive sandwich, cylinder and aquarium tests via a streamline finite volume approximation. J. Comput. Phys. 395: 653-670 (2019) - Christopher M. Romick, Tariq D. Aslam:
An extension of high-order shock-fitted detonation propagation in explosives. J. Comput. Phys. 395: 765-771 (2019) - Guoqing Shi, Lin Zhang, Shengqiang Wang, Fan Wu, Yong Wu:
A Kind of High Fidelity Assessment Method for Explosive Power of Anti-ship Missile Warhead. ICCA 2019: 616-621 - Ana P. Millán, Joaquín J. Torres, Ginestra Bianconi:
Explosive higher-order Kuramoto dynamics on simplicial complexes. CoRR abs/1912.04405 (2019) - 2018
- Paul T. Charles, Varun Wadhwa, Amara Kouyate, Kelly J. Mesa-Donado, André A. Adams, Jeffrey R. Deschamps, Anne W. Kusterbeck:
A High Aspect Ratio Bifurcated 128-Microchannel Microfluidic Device for Environmental Monitoring of Explosives. Sensors 18(5): 1568 (2018) - Fridon Shubitidze, Benjamin E. Barrowes, Irma Shamatava:
Detection and Identification of Buried Explosive Hazards Using High Frequency EMI Sensing. IGARSS 2018: 6769-6772 - 2017
- Christopher M. Romick, Tariq D. Aslam:
High-order shock-fitted detonation propagation in high explosives. J. Comput. Phys. 332: 210-235 (2017) - 2016
- Martin Berzins, Jacqueline C. Beckvermit, Todd Harman, Andrew Bezdjian, Alan Humphrey, Qingyu Meng, John A. Schmidt, Charles A. Wight:
Extending the Uintah Framework through the Petascale Modeling of Detonation in Arrays of High Explosive Devices. SIAM J. Sci. Comput. 38(5) (2016) - 2014
- Tuan Son Nguyen, Tien Thanh Nguyen, Thi Thu Thuy Nguyen, Anh Hai Nguyen:
Application of digital technology in ballistic mortar for determining the power of high explosives. ICSAI 2014: 471-476 - 2013
- Joseph R. Peterson, Charles A. Wight, Martin Berzins:
Applying High-Performance Computing to Petascale Explosive Simulations. ICCS 2013: 2259-2268 - 2012
- Daniel Finkenstadt, Samuel George Lambrakos, Noam Bernstein, Verne L. Jacobs, Lulu Huang, Lou Massa, Andrew Shabaev:
Construction of permittivity functions for high-explosives using density functional theory. Int. J. Intell. Def. Support Syst. 5(1): 24-43 (2012) - Joseph R. Peterson, Jacqueline C. Beckvermit, Todd Harman, Martin Berzins, Charles A. Wight:
Multiscale modeling of high explosives for transportation accidents. XSEDE 2012: 32:1-32:8 - 2009
- Tsai-Hung Fan, Chia-Chen Chang:
A Bayesian zero-failure reliability demonstration test of high quality electro-explosive devices. Qual. Reliab. Eng. Int. 25(8): 913-920 (2009) - Ivo Häring, M. Schönherr, C. Richter:
Quantitative hazard and risk analysis for fragments of high-explosive shells in air. Reliab. Eng. Syst. Saf. 94(9): 1461-1470 (2009) - David G. Pfau, D. A. Suarez, S. E. DeFisher:
In Search of a Better Mechanical Response Continuum Model for High Explosives for Insensitive Munitions. HSC 2009: 149-155 - 1963
- Robert Palmer:
Computer calculations on the initiation of high-explosive detonation. Comput. J. 6(1): 39-43 (1963)
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