| ID | 原文 | 译文 |
| 26385 | 针对无人机搜索运动目标时,由于目标运动状态的不确定性,传统静态环境下的无人机覆盖搜索航迹规划算法不再适用的问题,分析了无人机覆盖搜索的基本原则,提出了运动目标垂线搜索(moving target withvertical line search pattern,MTVL)算法,证明了在MTVL策略下的任务完成条件。 | For unmanned aerial vehicle (uav) searching for moving target, because of the uncertainty of the target motion state, the traditional static environment of unmanned aerial vehicle (uav) covering search the problem of path planning algorithm is no longer applicable, analyzed the unmanned aerial vehicle (uav) to cover the basic principles of search, puts forward the movement target vertical search (moving target withvertical line search pattern, MTVL) algorithm, and proves that under the MTVL strategy task to complete. |
| 26386 | 对MTVL算法进行了改进,通过控制无人机的运动方向与搜索区域边界的角度,提出了运动目标斜线搜索(moving target with slanting linesearch pattern,MTSL)算法,从理论上分析了在MTSL策略下的任务完成条件并进行了仿真验证。 | The MTVL algorithm is improved, by controlling the movement direction of the unmanned aerial vehicle (uav) and the Angle of the search area boundary, puts forward slash a moving target search (moving target with slanting linesearch pattern, MTSL) algorithm, analyzed theoretically under the MTSL strategy task completion condition and simulation verification. |
| 26387 | 仿真结果表明,提出的两种搜索策略在满足一定条件下都能够完成对指定区域的搜索任务,而无人机完成任务的能力取决于无人机速度与目标速度的比值、无人机数目等因素;完成同样的搜索任务,与MTVL算法相比,MTSL算法对无人机速度和无人机数目的要求更低。 | The simulation results show that the proposed two kinds of search strategy to meet certain conditions to be able to complete the search for the designated area, and unmanned aerial vehicle (uav) to complete the task depends on the ability of unmanned aerial vehicle (uav) speed to such factors as the target speed ratio, number of unmanned aerial vehicle (uav);The same search task, compared with the MTVL algorithm, MTSL algorithm for unmanned aerial vehicle (uav) lower speed and the number of unmanned aerial vehicle (uav) requirements. |
| 26388 | 以舰艇编队网络化防空作战为背景,基于目标的攻击能力、攻击意图、攻击速度和舰舰相对价值给出了一种新的空袭目标威胁评估方法。 | In fleet air defense combat network as the background, based on the target ability of attack, attack, attack speed and anti-ship relative value gives a new method for air targets threat evaluation. |
| 26389 | 首先根据编队当前任务以及各舰完成任务的能力、目标类型、敌我相对态势分别建立舰舰相对价值、目标攻击能力、攻击意图的量化模型; | First of all, according to the formation of the current task and the ship's ability to complete tasks, the target type, relative value against relative situation respectively establish anti-ship, quantitative model of target attack ability, attack intention; |
| 26390 | 然后基于最大威判距离、目标攻击意图确定目标威胁等级划分方法; | Then based on the greatest distance, target intention to determine the dividing method for grade of target threat; |
| 26391 | 最后以目标飞临时间作为目标攻击速度的衡量指标,结合目标攻击能力、攻击意图以及舰舰相对价值建立目标对编队的威胁评估模型。 | Finally fly to target as the target to attack speed between temporary measure, combining with the target ability, attack intention and anti-ship relative value target for formation of threat assessment model is established. |
| 26392 | 仿真结果表明,该方法符合一般战术推理和经验判断,能较好地描述空袭目标威胁大小,可为编队网络化防空作战决策研究提供一定的参考。 | Simulation results show that this method conforms to the general tactics reasoning and experience judgment, can well describe the targets threat size, but for the study of the formation networked air combat decision-making to provide some reference. |
| 26393 | 二元决策图(binary decision diagram,BDD)方法和直接仿真法在评估测控资源规模大、阶段任务多的测控任务的可靠性时都存在局限性。 | Binary decision diagram (binary decision diagram, BDD) method and the direct simulation method in the evaluation stage of tt&c resources in large scale and task of the reliability of the measurement and control tasks when there are limitations. |
| 26394 | 从分析单个阶段任务的可靠性损失量出发,提出一种测控任务可靠性分析的解析模型,并基于强制法快速获取解析模型所需的输入数据。 | Starting from the analysis of the reliability of a single stage task loss, analytical model of the reliability analysis in this paper, a measurement and control task, and quickly get analytical model based on the force method, the required input data. |