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公开(公告)号:KR101668774B1
公开(公告)日:2016-11-09
申请号:KR1020150048430
申请日:2015-04-06
Applicant: 국방과학연구소
Abstract: 본발명은 FBDE 기반의교전계획생성방법및 생성시스템에관한것이다. 본발명의일 실시예에따른 FBDE 기반의교전계획생성방법은 FFFT-table을생성하는단계(S100); SUAT에포함된표적을기 설정된우선순위에따라정렬하는단계(S200); 상기 SUAT에포함된표적이존재하는지여부를판단하는단계(S300); 상기 SUAT에포함된표적중 우선순위가가장높은표적(x)을선택하는단계(S400); 선택된표적(x)의 EFD(Expected Fired Delay)가최소인발사체(s)를선택하는단계(S500); 선택된발사체(s)의 FTL에상기선택된표적(x)을할당하는단계(S600); 및상기선택된발사체(s)의 FET-table의 FET값들을갱신하는단계(S700);를포함한다. 본발명에따르면, 동일발사체에서여러무기를발사하는상황에서 FBDE(Forward/Backward Delay Expectation)기반으로교전계획을산출하여, 최적발사시간으로부터의지연시간을최소화하여초고속표적에대한신속한대응을할 수있다.
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公开(公告)号:KR1020160119575A
公开(公告)日:2016-10-14
申请号:KR1020150048430
申请日:2015-04-06
Applicant: 국방과학연구소
Abstract: 본발명은 FBDE 기반의교전계획생성방법및 생성시스템에관한것이다. 본발명의일 실시예에따른 FBDE 기반의교전계획생성방법은 FFFT-table을생성하는단계(S100); SUAT에포함된표적을기 설정된우선순위에따라정렬하는단계(S200); 상기 SUAT에포함된표적이존재하는지여부를판단하는단계(S300); 상기 SUAT에포함된표적중 우선순위가가장높은표적(x)을선택하는단계(S400); 선택된표적(x)의 EFD(Expected Fired Delay)가최소인발사체(s)를선택하는단계(S500); 선택된발사체(s)의 FTL에상기선택된표적(x)을할당하는단계(S600); 및상기선택된발사체(s)의 FET-table의 FET값들을갱신하는단계(S700);를포함한다. 본발명에따르면, 동일발사체에서여러무기를발사하는상황에서 FBDE(Forward/Backward Delay Expectation)기반으로교전계획을산출하여, 최적발사시간으로부터의지연시간을최소화하여초고속표적에대한신속한대응을할 수있다.
Abstract translation: 技术领域本发明涉及基于FBDE的参与计划生成方法和系统。 根据本发明实施例的基于FBDE的参与计划生成方法包括:生成FFFT表(S100); 根据预定优先级对包括在SUAT中的目标进行排序(S200); 确定是否存在包含在SUAT中的目标(S300); 选择SUAT中包括的目标中具有最高优先级的目标(x)的步骤(S400) 选择(S500)具有所选目标(x)的EFD(预期发射延迟)最小的运载火箭; 将所选目标(x)分配给所选射弹的FTL(S600); 并且更新所选射弹的FET表的FET值(S700)。 按照本发明,通过计算基于所述状况的接合计划FBDE(向前/向后延迟期望)推出数量的臂在同一运载火箭,以从最佳点火时间的延迟时间最小化,以高速目标的快速反应 有。
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公开(公告)号:KR101252484B1
公开(公告)日:2013-04-09
申请号:KR1020120103445
申请日:2012-09-18
Applicant: 국방과학연구소
Abstract: PURPOSE: A weapon resource-task allocating system is provided to support an engagement using the sensor of another system when an attack is possible but the sensor is blocked by geographical features, and to support the engagement by cooperating with a weapon system capable of attacking when the attack is impossible but the sensor is capable of detecting and tracking. CONSTITUTION: A weapon resource-task allocating system includes a preprocessing module(100), a real time weapon source-task allocating module(200), and a conditional information processing module(300). The preprocessing module determines whether or not engagements between multiple sensors and multiple attacking systems are possible. The real time weapon source-task allocating module selects sensors, which are capable of implementing engagements with a target, among the multiple sensors. The real time weapon source-task allocating module selects attacking systems, which are capable of implementing engagements with the target, among the multiple systems. The conditional information processing module processes the conditional information of the selected sensors and attacking systems in real time. The preprocessing module builds cooperative score tables between the multiple sensors and the multiple attacking systems. The preprocessing module divides a space in order to build a map including multiple cells. The preprocessing module builds a first engagement table between the multiple cells and the multiple sensors. The preprocessing module builds a second engagement table between the multiple cells and the multiple attacking systems. [Reference numerals] (100) Preprocessing module; (1000) Weapon source-task allocating system; (200) Weapon source-task allocating module; (300) Conditional information processing module; (AA) Data storage;
Abstract translation: 目的:提供武器资源任务分配系统,以便在可能发生攻击但传感器被地理特征阻挡时支持使用另一系统的传感器的接合,并通过与能够攻击的武器系统配合来支持接合 攻击是不可能的,但传感器能够检测和跟踪。 构成:武器资源任务分配系统包括预处理模块(100),实时武器源任务分配模块(200)和条件信息处理模块(300)。 预处理模块确定多个传感器和多个攻击系统之间的接合是否可能。 实时武器源任务分配模块在多个传感器之间选择能够实现与目标的接合的传感器。 实时武器源任务分配模块选择能够在多个系统中实现与目标的交互的攻击系统。 条件信息处理模块实时处理所选择的传感器和攻击系统的条件信息。 预处理模块在多个传感器和多个攻击系统之间建立协作评分表。 预处理模块划分一个空格,以构建包含多个单元格的地图。 预处理模块在多个单元和多个传感器之间建立第一个接合表。 预处理模块在多个单元和多个攻击系统之间建立第二个参与表。 (附图标记)(100)预处理模块; (1000)武器源任务分配系统; (200)武器源任务分配模块; (300)条件信息处理模块; (AA)数据存储;
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