With the evolving nature of modern warfare and the rapid advancement of technology, Manned-Unmanned Teaming (MUM-T) has emerged as a core element of future air power. This study systematically identifies evaluation measures for assessing the mission effectiveness of MUM-T in the context of Air Force operations. To this end, a survey of experienced fighter pilots was conducted to derive mission scenarios suitable for MUM-T, and statistical analysis led to the selection of five scenarios. Subsequently, comprehensive evaluation measures for each selected scenario were derived through literature review and expert interviews, and their validity and expert consensus were verified using the Delphi method. Finally, the Analytic Hierarchy Process (AHP) was employed to calculate the relative importance of the evaluation measures (secondary measures only) for each scenario, and a formula-based model was proposed. The findings of this study provide a quantitative evaluation framework for verifying MUM-T mission effectiveness using Modeling and Simulation (M&S) tools, and are expected to serve as a foundational basis for weapon system acquisition and the development of operational concepts.

There is a growing concern on the improvement of water distribution pipeline for multi-regional water supply system in Korea along with its aging infrastructure. Rehabilitation of large diameter pipeline is more efficient in cost and time compared to replacement with trenching. The procedure for rehabilitation are diagnosis, cleaning, spraying coating material, and final inspection. The internal state of pipeline was carefully diagnosed and got C grade, which required rehabilitation. We found that 17,274,787,000 Korean won could be saved after pipe surface coating because of increased C coefficient of Hazen-Williams equation. Optimal coating material was D polyurea. We also found optimal distance between spraying nozzle and pipe wall to be 70 - 80 cm, which were critical factors for coating quality. This study also illustrated the time for spray drying to be more than 30 min. These results could be used in the quality control process during rehabilitation of aged pipelines.