During wartime, the operation of engineering equipment plays a pivotal role in bolstering the combat prowess of military units. To fully harness this combat potential, it is imperative to provide efficient support precisely when and where it is needed most. While previous research has predominantly focused on optimizing equipment combinations to expedite individual mission performance, our model considers routing challenges encompassing multiple missions and temporal constraints. We implement a comprehensive analysis of potential wartime missions and developed a routing model for the operation of engineering equipment that takes into account multiple missions and their respective time windows of required start and completion time. Our approach focused on two primary objectives: maximizing overall capability and minimizing mission duration, all while adhering to a diverse set of constraints, including mission requirements, equipment availability, geographical locations, and time constraints.

1. 서 론
2. 유사 연구 고찰 및 이론적 배경
3. 문제정의 및 수리모형
    3.1 문제정의 및 해결절차
    3.2 수리모형
4. 실험계획 및 결과분석
    4.1 실험 인스턴스
    4.2 결과 및 분석
5. 결론 및 향후 연구방향
References

• 이재형(국방대학교 국방과학학과) | Jae-Hyeong Lee (Department of National Defense Science, Korea National Defense University)
• 이문걸(국방대학교 국방과학학과) | Moon-Gul Lee (Department of National Defense Science, Korea National Defense University) Corresponding author