Your search keyword '"Hong, Jiesheng"' showing total 4 results

1. Effect and mechanism of phosphate enhanced sulfite activation with cobalt ion for effective iohexol abatement

Author

Song, Yifan, Hong, Jiesheng, Shao, Shujing, Wen, Jiayi, and Zhao, Xiaodan

Published

2024

2. Effect and mechanism of phosphate enhanced sulfite activation with cobalt ion for effective iohexol abatement

Author

Song, Yifan, primary, Hong, Jiesheng, additional, Shao, Shujing, additional, Wen, Jiayi, additional, and Zhao, Xiaodan, additional

Published

2023

3. DISTRIBUTED MARITIME OPERATIONS AND UNMANNED SYSTEMS TACTICAL EMPLOYMENT

Author

Popa, Christopher H., Stone, Sydney P., Aw, Ee Hong Aw, Teo, Choon Pei Jeremy, Cai, Licun Edwin, Chong, Wai Hoe, Cline, Rachel, Hong, Jiesheng Jackson, Koh. Chong Khai Roger, Lee, Wee Leong, Lim, Jun Jie, Lin, Xinhong, Liraz, Shay Paz, Mok, Kai Boon Eugene, Ryan, Alex W. Ryan, Teow, Boon Hong Aaron, Whitmer, Andrew R., Winstead, Peter J., Chia,Yong Jie Chia, SEA Cohort SEA-27, Atkinson, Michael P., Beery, Paul T., SEA Cohort SEA-27, Systems Engineering (SE), Applied Mathematics (MA), Operations Research (OR), Computer Science (CS), and Systems Engineering (SE)/Operations Research (SE/OR)

Subjects

DMO, Distributed Maritime Operations, Tactical Employment of Unmanned Systems

Abstract

The concept of Distributed Maritime Operations intends to enable a force that is capable of winning a fleet-on-fleet engagement through the integration of manned and unmanned systems, execution of deceptive tactics, and emboldening of units to conduct offensive strikes. This report contributes to the concept of DMO in the 2030-2035 timeframe through the development of an operational simulation that examines the ability for various compositions of multi-domain fleet assets to perform tactical operations in a naval combat environment. This project studies the impact of the friendly force employment of deception and tactics against an enemy force, and the resulting impact on the adversary’s ability to progress through the various stages of a kill chain. Through the development and analysis of a discrete event simulation, this research investigates the ability for naval forces in the air, surface, and electromagnetic warfare domains to contribute to DMO through the performance of tactical offensive operations and employment of deceptive tactics. The analysis resulted in two major findings. In terms of force composition, an increased number of missile carrying assets had the largest impact on operational effectiveness and survivability. Tactically, the utilization of electronic jamming, coupled with the utilization of unmanned deceptive swarms, provided a significant improvement in the survivability of friendly force assets as well as the attrition of enemy forces. OPNAV N9I http://archive.org/details/distributedmarit1094559587 Lieutenant, United States Navy Lieutenant, United States Navy Major, Singapore Army Civilian, Other, Singapore Major, Singapore Army Major, Singapore Air Force Captain, United States Marine Corps Lieutenant Commander, Singapore Navy Civilian, Other, Singapore Major, Singapore Air Force Civilian, Other, Singapore Major, Singapore Air Force Captain, Israel Army Captain, United States Marine Corps Major, Singapore Army Major, Singapore Army Lieutenant, United States Navy Lieutenant, United States Navy Captain, Singapore Army Approved for public release; distribution is unlimited.

Published

2018

4. DISTRIBUTED MARITIME OPERATIONS AND UNMANNED SYSTEMS TACTICAL EMPLOYMENT

Author

Atkinson, Michael P., Beery, Paul T., SEA Cohort SEA-27, Systems Engineering (SE), Applied Mathematics (MA), Operations Research (OR), Computer Science (CS), Systems Engineering (SE)/Operations Research (SE/OR), Popa, Christopher H., Stone, Sydney P., Aw, Ee Hong Aw, Teo, Choon Pei Jeremy, Cai, Licun Edwin, Chong, Wai Hoe, Cline, Rachel, Hong, Jiesheng Jackson, Koh. Chong Khai Roger, Lee, Wee Leong, Lim, Jun Jie, Lin, Xinhong, Liraz, Shay Paz, Mok, Kai Boon Eugene, Ryan, Alex W. Ryan, Teow, Boon Hong Aaron, Whitmer, Andrew R., Winstead, Peter J., Chia,Yong Jie Chia, Atkinson, Michael P., Beery, Paul T., SEA Cohort SEA-27, Systems Engineering (SE), Applied Mathematics (MA), Operations Research (OR), Computer Science (CS), Systems Engineering (SE)/Operations Research (SE/OR), Popa, Christopher H., Stone, Sydney P., Aw, Ee Hong Aw, Teo, Choon Pei Jeremy, Cai, Licun Edwin, Chong, Wai Hoe, Cline, Rachel, Hong, Jiesheng Jackson, Koh. Chong Khai Roger, Lee, Wee Leong, Lim, Jun Jie, Lin, Xinhong, Liraz, Shay Paz, Mok, Kai Boon Eugene, Ryan, Alex W. Ryan, Teow, Boon Hong Aaron, Whitmer, Andrew R., Winstead, Peter J., and Chia,Yong Jie Chia

Abstract

The concept of Distributed Maritime Operations intends to enable a force that is capable of winning a fleet-on-fleet engagement through the integration of manned and unmanned systems, execution of deceptive tactics, and emboldening of units to conduct offensive strikes. This report contributes to the concept of DMO in the 2030-2035 timeframe through the development of an operational simulation that examines the ability for various compositions of multi-domain fleet assets to perform tactical operations in a naval combat environment. This project studies the impact of the friendly force employment of deception and tactics against an enemy force, and the resulting impact on the adversary’s ability to progress through the various stages of a kill chain. Through the development and analysis of a discrete event simulation, this research investigates the ability for naval forces in the air, surface, and electromagnetic warfare domains to contribute to DMO through the performance of tactical offensive operations and employment of deceptive tactics. The analysis resulted in two major findings. In terms of force composition, an increased number of missile carrying assets had the largest impact on operational effectiveness and survivability. Tactically, the utilization of electronic jamming, coupled with the utilization of unmanned deceptive swarms, provided a significant improvement in the survivability of friendly force assets as well as the attrition of enemy forces.

Published

2018