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    • 1. 发明专利
    • Optimal solution relation display apparatus, method, and program
    • 最佳解决方案关系显示设备,方法和程序
    • JP2010061439A
    • 2010-03-18
    • JP2008226962
    • 2008-09-04
    • Fujitsu Ltd富士通株式会社
    • YANAMI HITOSHIANAI HIROKAZU
    • G06F17/50
    • G06F17/50G06F2217/08
    • PROBLEM TO BE SOLVED: To suggest a plurality of design shapes resulting in high performance and to provided a hint for considering a new base shape to a designer in a multiobjective optimization design support technology used in designing a slider shape etc. of a hard disk. SOLUTION: Design parameter sets that interpolate between respective adjacent design parameter sets in an optimal design parameter set candidate are calculated as interpolating design parameter sets; for each of the calculated interpolating design parameter sets, a plurality of objective functions are approximated using a plurality of objective function approximating equations, and an interpolating design parameter set corresponding to a non-dominated solution is selected as an optimal interpolating design parameter set and is integrated with the optimal design parameter candidate to make them as a new optimal design parameter candidate; and similar interpolation processing is repeated for the new optimal design parameter set candidate while determining a parameter distance between respective design parameter sets constituting the new optimal design parameter set candidate. Each slider shape corresponding to each optimal design parameter set thus finally obtained is displayed. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提出多个设计形状,从而提供高性能,并且提供了一种用于在设计滑块形状等的多目标优化设计支持技术中向设计者考虑新的基本形状的提示 硬盘。 解决方案:在最优设计参数集候选中,相邻相邻设计参数集之间插值的设计参数集被计算为内插设计参数集; 对于每个计算的内插设计参数集,使用多个目标函数近似方程近似多个目标函数,并且选择与非主导解相对应的内插设计参数集作为最佳内插设计参数集,并且是 集成最优设计参数候选,使其成为新的最优设计参数候选者; 并且在确定构成新的最优设计参数集候选的各个设计参数集之间的参数距离的同时,针对新的最优设计参数集候选重复类似的内插处理。 显示对应于由此最终获得的每个最优设计参数集合的每个滑块形状。 版权所有(C)2010,JPO&INPIT
    • 2. 发明专利
    • Control plan generation method, control plan generation device, and program
    • 控制计划生成方法,控制计划生成装置和程序
    • JP2013132195A
    • 2013-07-04
    • JP2012055007
    • 2012-03-12
    • Fujitsu Ltd富士通株式会社
    • IWANE HIDENAOANAI HIROKAZUYANAMI HITOSHIMURAKAMI MASAHIKOSHINOHARA MASAKO
    • H02J3/00G06F19/00
    • PROBLEM TO BE SOLVED: To optimize a plan of controlling a plurality of devices efficiently.SOLUTION: A second control plan consisting of second commands is generated by replacing some of first commands included in a first control plan determining a plurality of times of control command repeated for a plurality of apparatuses at intervals by other commands. State transition is simulated when a plurality of apparatuses are controlled according to the plurality of times of second command in the second control plan. Based on the simulation results, a determination is made whether the state transition by the second control plan is closer to a predetermined target than the state transition by the first control plan. If it is closer to the target, a processing for updating first control plan by the second control plan is repeated. When a continuation command meaning repetition of the second command is included in the second control plan, in the simulation, the state transition is determined by performing the control of the continuation command with the previous second command.
    • 要解决的问题:有效地优化控制多个设备的计划。解决方案:通过替换包括在确定多次控制命令的第一控制计划中的一些第一命令来生成由第二命令组成的第二控制计划 对于多个装置,以其他命令间隔。 当在第二控制计划中根据第二命令的多次控制多个设备时,模拟状态转换。 基于模拟结果,确定第二控制计划的状态转换是否比通过第一控制计划的状态转换更接近于预定目标。 如果更靠近目标,则重复通过第二控制计划更新第一控制计划的处理。 当在第二控制计划中包括意图重复第二命令的连续命令时,在仿真中,通过执行具有先前的第二命令的继续命令的控制来确定状态转移。
    • 3. 发明专利
    • Mobile terminal and program for calculating travel path
    • 用于计算旅行路线的移动终端和程序
    • JP2012198147A
    • 2012-10-18
    • JP2011063276
    • 2011-03-22
    • Fujitsu Ltd富士通株式会社
    • IWANE HIDENAOYANAMI HITOSHIHANADA YUICHI
    • G01C21/00G08G1/005
    • PROBLEM TO BE SOLVED: To reduce power consumption while maintaining accuracy in calculation of a travel path.SOLUTION: An absolute position detection unit 30 detects anchor points of a mobile terminal 100. A link information generation unit 22 obtains a line segment (link) where the mobile terminal has moved until the terminal turns. A travel path calculation unit 24 calculates a link angle (a predetermined direction) based on the anchor points detected by the absolute position detection unit 30 while the mobile terminal moves on the link obtained by the link information generation part 22 and calculates a travel path of the mobile terminal from the link angle and a linear traveling distance. Then, if a plurality of the anchor points are detected at the absolute position detection unit while the mobile terminal moves on one link, the travel path calculation unit increases respective weighting coefficients kof a plurality of anchor points so that the magnitude of the increase is larger as the timing at which an anchor point is detected is later, in calculation of the link angles.
    • 要解决的问题:为了降低功耗,同时保持行驶路径的计算精度。 解决方案:绝对位置检测单元30检测移动终端100的固定点。链接信息生成单元22获得移动终端移动直到终端转弯的线段(链接)。 移动路径计算单元24基于由绝对位置检测单元30检测到的锚定点计算链接角度(预定方向),同时移动终端在由链接信息生成部分22获得的链接上移动,并且计算行驶路径 移动终端从链路角度和线性行进距离。 然后,如果在移动终端在一个链路上移动的情况下在绝对位置检测单元检测到多个锚定点,则行进路径计算单元增加各个加权系数k j 多个锚定点,使得在连接角度的计算中随着检测到锚点的时间越晚,增加的幅度越大。 版权所有(C)2013,JPO&INPIT
    • 5. 发明专利
    • Design improvement support device for multi-objective optimization design, method and program
    • 用于多目标优化设计,方法和程序的设计改进支持设备
    • JP2010009342A
    • 2010-01-14
    • JP2008168320
    • 2008-06-27
    • Fujitsu Ltd富士通株式会社
    • ANAI HIROKAZUYANAMI HITOSHI
    • G06F17/50
    • G06F17/50G06F2217/08
    • PROBLEM TO BE SOLVED: To display Pareto optimal solutions on the basis of objective functions, and to present how to change the restriction of parameters in order to achieve much more satisfactory solutions when the obtained solutions are not satisfactory. SOLUTION: A multi-objective optimization design improvement support device calculates a logical expression indicating a logical relationship among arbitrary two or three objective functions of a plurality of mathematically approximated objective functions (101-104) and displays a possibility area in arbitrary objective space according to it (105). When a designer is not satisfied with the Pareto optimal solution, it maps a sample point group out of the initial constraints of a design parameter set in the objective space, an objective function display section 105 displays its result and presents an improvement solution to the designer (107). When the designer finds more optimal solution than the Pareto optimal solution among the displayed improvement solutions and gives instruction, it calculates a sample point in design parameter space (108), corresponding to the optimal improvement solution, overlaps it with a constraint range and displays it as improvement knowledge information (109). COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:在目标函数的基础上显示帕累托最优解,并介绍如何改变参数的限制,以便在获得的解决方案不令人满意时获得更令人满意的解决方案。 解决方案:多目标优化设计改进支持设备计算指示多个数学近似目标函数(101-104)中的任意两个或三个目标函数之间的逻辑关系的逻辑表达式,并且显示任意目标中的可能区域 根据它的空间(105)。 当设计者对帕累托最优解不满意时,将样本点组映射到目标空间中设定参数集的初始约束之中,目标函数显示部分105显示其结果,并向设计者呈现改进解决方案 (107)。 当设计者在显示的改进解决方案中找到比Pareto最优解更多的最优解,并给出指令时,计算设计参数空间(108)中的采样点,对应于最优改进解,将其与限制范围重叠并显示 作为改进知识信息(109)。 版权所有(C)2010,JPO&INPIT
    • 6. 发明专利
    • Multipurpose optimization design support device, method, and program
    • 多用途优化设计支持设备,方法和程序
    • JP2009169557A
    • 2009-07-30
    • JP2008005104
    • 2008-01-14
    • Fujitsu Ltd富士通株式会社
    • ANAI HIROKAZUYANAMI HITOSHINAKADA TSUNEO
    • G06F17/50
    • G06F17/50G06F2217/08G11B5/6005
    • PROBLEM TO BE SOLVED: To utilize a multipurpose optimization design support technology to be used for the design of the slider shape of hard disk etc. available for design support by executing visualization based on objective functions subjected to formula manipulation in a short period of time.
      SOLUTION: The set of a plurality of objective functions corresponding to the set of the samples of input parameters is calculated by 101. 102 calculates the objective functions by polynomial approximation based on the calculation result of 101. On the basis of a QE method or the like, 103 calculates a logical expression showing a logical relationship between optional two or three objective functions among the plurality of objective functions calculated by mathematical expression approximation, as an inter-objective function logical expressions. On the basis of the inter-objective function logical expression, 104 displays a region which can be taken by the values of the objective functions, as a possible region, and at the same time, when a user traces on the palate boundary of the possible region, the 104 displays the way of change of design parameters. Also, when the user traces on the palate boundary of the possible region related with a certain objective space, the 104 displays the way of change of the objective function values of the other objective space.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了利用多用途优化设计支持技术,用于通过基于在短时间内进行公式处理的目标函数执行可视化来设计支持的滑块形状的硬盘等 的时间。 解决方案:通过101计算对应于输入参数的样本集合的多个目标函数的集合。102.基于101的计算结果,通过多项式近似来计算目标函数。基于QE 103计算表示通过数学表达式近似计算的多个目标函数中的可选择的两个或三个目标函数之间的逻辑关系的逻辑表达式作为对象间函数逻辑表达式。 基于目标函数逻辑表达式,104显示可以通过目标函数的值作为可能区域的区域,并且同时当用户在可能的腭边界上追踪时 区域,104显示设计参数的变化方式。 此外,当用户在与特定目标空间相关的可能区域的腭边界上进行跟踪时,104显示另一个目标空间的目标函数值的改变方式。 版权所有(C)2009,JPO&INPIT
    • 8. 发明专利
    • Mobile terminal and program for calculating travel path
    • 用于计算旅行路线的移动终端和程序
    • JP2012198146A
    • 2012-10-18
    • JP2011063265
    • 2011-03-22
    • Fujitsu Ltd富士通株式会社
    • YANAMI HITOSHIIWANE HIDENAOHANADA YUICHI
    • G01C21/28G01S19/34G01S19/49
    • PROBLEM TO BE SOLVED: To reduce power consumption while maintaining accuracy in calculation of a travel path.SOLUTION: A travel path calculation unit 24 calculates a travel path based on a result of an absolute position detection unit 30 detecting the absolute positions of a mobile terminal 100 and a result of a link information generation unit 22 generating a line segment (link) showing a linear traveling distance of the mobile terminal. In this case, the travel path calculation unit calculates, when calculating the travel path, correction parameters r, r, r, and so on, for correcting a link length obtained by the link information generation unit 22 and link directions (angles t, t, t, and so on) based on distances between the absolute positions detected by the absolute position detection unit 30 and points on a link where the mobile terminal has moved when the absolute positions are detected.
    • 要解决的问题:为了降低功耗,同时保持行驶路径的计算精度。 解决方案:行驶路径计算单元24基于检测移动终端100的绝对位置的绝对位置检测单元30的结果和生成线段的链接信息生成单元22的结果来计算行驶路径( 链接),其显示移动终端的线性行进距离。 在这种情况下,行驶路径计算单元在计算行驶路径时,计算校正参数r 1 ,r 2 ,r 用于校正由链接信息生成单元22获得的链接长度和链接方向(角度t 1 )的 3 ,基于由绝对位置检测单元30检测到的绝对位置之间的距离,t 2 ,t 3 等等) 并且当检测到绝对位置时移动终端移动的链路上的点。 版权所有(C)2013,JPO&INPIT
    • 9. 发明专利
    • Display processing program, display processing method and information processor
    • 显示处理程序,显示处理方法和信息处理器
    • JP2012043125A
    • 2012-03-01
    • JP2010183013
    • 2010-08-18
    • Fujitsu Ltd富士通株式会社
    • YANAMI HITOSHIANAI HIROKAZUIWANE HIDENAO
    • G06F17/50
    • G06F17/11G06F2217/08
    • PROBLEM TO BE SOLVED: To present a route in a design parameter space corresponding to a given route expressed by an equation in a cost space.SOLUTION: In this method, a constraint equation is generated from an approximate equation of a cost function, a route in a cost space and a search range in a design parameter space; a logic expression of the solution of the constraint equation is acquired by a qualifier removal method; and the coordinate values of a plurality of points in the search range in the design parameter space are substituted in the logic expression of the solution of the constraint equation. As a result, it is determined whether the logic expression of the solution is true or false with regard to each of the plurality of points, and the design parameter space in which display objects containing the points determined to be true are disposed at the points is displayed.
    • 要解决的问题:在与由成本空间中的等式表示的给定路线相对应的设计参数空间中呈现路线。 解决方案:在该方法中,从成本函数的近似方程,成本空间中的路线和设计参数空间中的搜索范围生成约束方程; 约束方程的解的逻辑表达式通过限定符去除方法获得; 并且设计参数空间中的搜索范围中的多个点的坐标值在约束方程式的解的逻辑表达式中被替换。 结果,确定解决方案的逻辑表达式对于多个点中的每一个是否为真或假,并且其中包含被确定为真的点的显示对象设置在这些点处的设计参数空间是 显示。 版权所有(C)2012,JPO&INPIT
    • 10. 发明专利
    • Portable mobile terminal and moving-shape calculation program
    • 便携式移动终端和移动形状计算程序
    • JP2011209057A
    • 2011-10-20
    • JP2010076052
    • 2010-03-29
    • Fujitsu Ltd富士通株式会社
    • HANADA YUICHIMORI SHINICHIROYANAMI HITOSHI
    • G01C21/00G08G1/005
    • G01S19/34G01S19/49
    • PROBLEM TO BE SOLVED: To reduce power consumption, while maintaining calculation accuracy of a moving shape.SOLUTION: A moving shape calculating unit 24 calculates a moving shape based on a result in which an absolute position detection unit 30 detects the absolute position of a terminal body 10; and a result in which a link information generation unit 22 generates a line segment (link), showing a linear traveling distance of the terminal body 10. Then, a detection control unit 21 for determining the detection timing of the absolute position detection unit 30 sets the timing at each prescribed time as a temporary detection timing; and when bending is not detected by the time the temporary detection timing arrives, after immediately prior to the detection timing, the detection control unit determines a timing, when bending is detected in the next time as a detection timing, and performs absolute position detection using the absolute position detection unit 30.
    • 要解决的问题:在保持运动形状的计算精度的同时,降低功耗。解决方案:移动形状计算单元24基于绝对位置检测单元30检测到终端的绝对位置的结果来计算移动形状 身体10 链接信息生成部22生成表示终端主体10的线性行进距离的线段(link)的结果。然后,用于确定绝对位置检测部30的检测定时的检测控制部21 每个规定时间的定时作为临时检测定时; 当在临时检测定时到达之前没有检测到弯曲时,在检测定时之前,检测控制单元确定在下一次检测到弯曲时的定时作为检测定时,并且使用 绝对位置检测单元30。