会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 12. 发明专利
    • 割当装置
    • 分配单元
    • JP2016200283A
    • 2016-12-01
    • JP2015078246
    • 2015-04-07
    • 三菱電機株式会社
    • 横内 裕人
    • F41H11/02F41G9/00
    • 【課題】時刻の変化に伴う地理空間上の脅威度の変化に応じて、対処装置の割当を変更することのできる割当装置を提供する。 【解決手段】割当装置は、脅威度算出部1と、割当部2と、耐久度更新部3を備えて構成される。脅威度算出部1は、観測情報5、防護施設の情報6、空間制約条件7、脅威種別に応じた脅威度8、および脅威の耐久度9が入力される。脅威度算出部1は、観測情報5、防護施設の情報6、空間制約条件7、脅威種別に応じた脅威度8及び脅威の耐久度9に基づき脅威度を算出する。割当部2は、脅威度算出部1により算出された脅威度と、対処力情報10に基づき、対処装置の対処力の割当を求め、求めた対処力割当情報4を割当装置のメモリに出力する。また、耐久度更新部3は、割当部2から入力される対処力割当情報4に基づいて、脅威の耐久度を算出する。 【選択図】図1
    • 甲响应于在地理空间伴随时间的变化,提供分配装置,该装置可改变被寻址设备的分配的CR的变化。 的分配系统中,威胁计算器1,并且分配单元2,具有耐久性更新单元3构成。 威胁计算器1是观测信息5,保护属性信息如图6所示,空间的限制7,CR 8根据威胁类型和威胁耐久性9,被输入。 威胁计算器1是观测信息5,保护属性信息如图6所示,基于所述空间限制7,CR 8和威胁耐久性9响应于所述威胁类型来计算CR。 通过的地址输出信息10的基础上,威胁计算器1计算分配单元2,和威胁级别,获得应对的应对设备的力的分配,输出在存储器分配单元获得的地址功率分配信息4 。 另外,耐久性的寻址力分配信息4是从分配单元2输入的基础上更新单元3计算的威胁的耐久性。 点域1
    • 13. 发明专利
    • Air defense system
    • 空中防御系统
    • JP2014052138A
    • 2014-03-20
    • JP2012197218
    • 2012-09-07
    • Toshiba Corp株式会社東芝
    • YONEZAWA TORU
    • F41H11/02F41G3/00
    • PROBLEM TO BE SOLVED: To provide an air defense system capable of reducing a computation amount at each unit and a network communication amount, on a target processing.SOLUTION: In an embodiment, an air defense system includes: a plurality of sensors for observing each of their targets; a plurality of missile launchers; and a network for connecting the plurality of sensors; and the plurality of missile launchers. Each of the plurality of sensors includes: transmission means, and each of the plurality of missile launchers includes: first processing means and second processing means. The transmission means transmits target information including a target observed time and an observed position to the plurality of missile launchers via a network. The first processing means receives target information from the plurality of sensors transmitted over a network, and stores it on a memory. The second processing means estimates a target position at a current time based on each of the latest target information within the plurality of target information stored in the memory by the first processing means.
    • 要解决的问题:提供能够在目标处理中减少每个单元的计算量和网络通信量的防空系统。解决方案:在一个实施例中,防空系统包括:多个传感器,用于观察每个 的目标; 多枚导弹发射器; 以及用于连接所述多个传感器的网络; 和多个导弹发射器。 多个传感器中的每一个包括:传输装置,并且多个导弹发射器中的每一个包括:第一处理装置和第二处理装置。 发送装置经由网络向多个导弹发射装置发送包括目标观察时间和观察位置的目标信息。 第一处理装置从通过网络发送的多个传感器接收目标信息,并将其存储在存储器上。 第二处理装置基于由第一处理装置存储在存储器中的多个目标信息中的每个最新目标信息来估计当前时间的目标位置。
    • 14. 发明专利
    • Target detection apparatus
    • 目标检测装置
    • JP2012237563A
    • 2012-12-06
    • JP2011104887
    • 2011-05-10
    • Mitsubishi Electric Corp三菱電機株式会社
    • SUETANI TAKANORINAKAMURA YUICHI
    • G01S3/785F41H11/02
    • PROBLEM TO BE SOLVED: To provide a target detection apparatus for separating exhaust gas of a flying object from a background and highly accurately detecting the flying object.SOLUTION: The target detection apparatus includes: an S sensor 10 for detecting an angle position θ1 of a first target candidate corresponding to high-temperature gas exhausted from the flying object; an LW sensor 20 for detecting an angle position θ2 of a second target candidate corresponding to the background of which temperature is lower than that of the high-temperature gas; and a target selection processing part 30 for selecting an angle position obtained by removing the angle position θ2 of the second target candidate from the angle position θ1 of the first target candidates out of the angle positions θ1, θ2 of the first and second target candidates acquired by simultaneously detecting a common area by the S sensor 10 and the LW sensor 20, as a target angle position θo.
    • 要解决的问题:提供一种用于将飞行物体的废气与背景分离并高精度地检测飞行物体的目标检测装置。 解决方案:目标检测装置包括:S传感器10,用于检测对应于从飞行物体排出的高温气体的第一目标候选物的角度位置θ1; LW传感器20,用于检测对应于温度低于高温气体的背景的第二目标候选物的角度位置θ2; 以及目标选择处理部30,用于通过从所获取的第一和第二目标候选的角度位置θ1,θ2中的第一目标候选的角度位置θ1中去除第二目标候选的角度位置θ2而获得的角度位置 通过S传感器10和LW传感器20同时检测公共区域作为目标角度位置θo。 版权所有(C)2013,JPO&INPIT
    • 16. 发明专利
    • Fire-control system, and fire-control method
    • 火灾控制系统和火灾控制方法
    • JP2012122657A
    • 2012-06-28
    • JP2010273314
    • 2010-12-08
    • Toshiba Corp株式会社東芝
    • NAGASAWA TOMOMI
    • F41G9/00F41H11/02
    • PROBLEM TO BE SOLVED: To provide a fire-control system that integrally controls a plurality of firearm apparatuses by few operating persons and shoots a target efficiently.SOLUTION: The fire-control system is connected to a manned operation firearm apparatus 6 and an unmanned operation firearm apparatus 8 via connection devices 3. An information processing unit 1: acquires target information including a position of the target from an upper system 4; acquires apparatus information including positions and operation states of the firearm apparatuses from the manned operation firearm apparatus 6 and the unmanned operation firearm apparatus 8; and assigns coverage ranges of the firearm apparatuses based on the target information and the apparatus information. A display operation unit 2 commands each firearm apparatus to execute firing to the target.
    • 要解决的问题:提供一种消防控制系统,其通过少数操作人员一体地控制多个枪支装置并有效地射击目标。 解决方案:消防控制系统通过连接装置3连接到载人操作枪支装置6和无人操作枪支装置8.信息处理单元1从上位系统获取包括目标的位置的目标信息 4; 从有人操作火器装置6和无人操作枪支装置8获取包括枪支装置的位置和操作状态的装置信息; 并根据目标信息和装置信息分配火器装置的覆盖范围。 显示操作单元2命令每个火器装置对目标进行射击。 版权所有(C)2012,JPO&INPIT
    • 19. 发明专利
    • Target simulator
    • 目标模拟器
    • JP2011169549A
    • 2011-09-01
    • JP2010036009
    • 2010-02-22
    • Mitsubishi Electric Corp三菱電機株式会社
    • NAKAJIMA YOSUKE
    • F41A33/00F41H11/02G09B9/00
    • PROBLEM TO BE SOLVED: To provide a target simulator generating a simulation target on a computer by simulation, making situational determination and giving coping instruction with respect to the simulation target, and capable of simulating up to operation for changing a course of the simulation target to avoid an event occurrence point in accordance with occurrence of an event. SOLUTION: In the course which can be taken by a target from a target point toward which the target moves and the event occurrence point, a linear distance and a closest distance to the event occurrence point and the target point are considered. By calculating an avoidance course toward the target point while avoiding the event occurrence point, the simulation target changing the course to avoid the event occurrence point can be simulated. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种目标模拟器,通过模拟生成计算机上的模拟目标,使得情境确定和相对于模拟目标给出应对指令,并且能够模拟直到操作改变 模拟目标,以避免事件发生点根据事件的发生。

      解决方案:在目标从目标移动的目标点和事件发生点可以采取的过程中,考虑与事件发生点和目标点的线性距离和最近距离。 通过在避免事件发生点的同时计算到目标点的回避过程,可以模拟改变过程以避免事件发生点的模拟目标。 版权所有(C)2011,JPO&INPIT

    • 20. 发明专利
    • Avoidance instruction device
    • 避免指示装置
    • JP2010231382A
    • 2010-10-14
    • JP2009076780
    • 2009-03-26
    • Mitsubishi Electric Corp三菱電機株式会社
    • KUBOTA HIROYUKI
    • G08G5/04F41H11/02G01S13/93G08G3/02
    • PROBLEM TO BE SOLVED: To solve the following problems: when an instruction is given to a moving body such as an airplane to avoid a target or a flying body launched toward the target, the instruction may be delayed or an operator may present a non-optimal course due to manual operation. SOLUTION: The avoidance instruction device includes: a flying body course calculation part calculating a course where the flying body meets the target based on a launch position and a launch velocity of the flying body read from a flying body information storage part, and a position, a velocity, and a course of the target read from a target information storage part; an avoidance target decision part deciding a moving body to be avoided based on the course of the target, the obtained course of the flying body, and a position of the moving body read from a moving body information storage part; an avoidance course calculation part calculating the avoidance course of the moving body based on the position and a velocity of the moving body of the moving body to be avoided, the course of the flying body, and the course of the target; and an avoidance instruction part instructing the moving body about the avoidance course output from the avoidance course calculation part. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:解决以下问题:当向诸如飞机的移动体提供指令以避免目标或飞行物体朝向目标发射时,指令可能被延迟或操作者可能呈现 由于手动操作而导致的非最佳过程。 解决方案:回避指示装置包括:飞行体路线计算部,其基于从飞行体信息存储部读取的发射位置和飞行体的发射速度,计算飞行体与目标相遇的路线;以及 从目标信息存储部分读取的目标的位置,速度和过程; 回避目标决定部,基于目标的过程,所获得的飞行体的行进,以及从移动体信息存储部读取的移动体的位置来决定要避免的移动体。 回避过程计算部,基于要避免的移动体的移动体的位置和速度,飞行体的过程和目标的过程,计算移动体的回避过程; 以及回避指令部分,指示移动体关于回避过程计算部分输出的回避过程。 版权所有(C)2011,JPO&INPIT