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    • 91. 发明授权
    • High-frequency colpitts circuit
    • 高频弹簧电路
    • US08154355B2
    • 2012-04-10
    • US12654606
    • 2009-12-24
    • Takashi Matsumoto
    • Takashi Matsumoto
    • H03B5/32
    • H03B5/36
    • A high-frequency Colpitts circuit having a feedback transistor Q2 in addition to an oscillation transistor Q1 is provided, wherein a collector of the transistor Q1 is connected to a base of the transistor Q2, a supply voltage is applied to a collector of the transistor Q2 through a resistance R5 and is connected to an output terminal, the collector is connected to a base of the transistor Q1 through a feedback resistance Rf, a crystal oscillator and one end of capacitors C1 and C2 connected in series are connected to the base, the other end of the capacitors is grounded, and a point between the capacitors C1 and C2 is connected to an emitter of the transistor Q1 and is grounded through a resistance R4.
    • 提供了具有除了振荡晶体管Q1之外的反馈晶体管Q2的高频Colpitts电路,其中晶体管Q1的集电极连接到晶体管Q2的基极,电源电压被施加到晶体管Q2的集电极 通过电阻R5并连接到输出端子,集电极通过反馈电阻Rf连接到晶体管Q1的基极,晶体振荡器和串联连接的电容器C1和C2的一端连接到基极, 电容器的另一端接地,并且电容器C1和C2之间的点连接到晶体管Q1的发射极,并通过电阻R4接地。
    • 93. 发明申请
    • CONTROL DEVICE FOR MOBILE BODY
    • 移动体控制装置
    • US20110022232A1
    • 2011-01-27
    • US12841603
    • 2010-07-22
    • Takahide YoshiikeToru TakenakaTakashi Matsumoto
    • Takahide YoshiikeToru TakenakaTakashi Matsumoto
    • G05B15/00
    • B62D57/032
    • A control device for a mobile body makes it possible to smoothly correct the deviation of an actual posture of a base body of a mobile body, which travels with the base body thereof moving up and down, from a desired posture of the base body while restraining an overshoot or an undershoot from occurring. To determine a required manipulated variable according to a feedback control law in order to converge a state amount deviation related to the posture of the base body of the mobile body to zero, the feedback gain of the feedback control law is determined by using the time series in a period from current time to predetermined time in the future in the time series of a desired inertial force of the mobile body or the base body. The required manipulated variable is determined by the calculation of the feedback control law on the basis of the determined feedback gain and an observed value of the state amount deviation.
    • 用于移动体的控制装置使得可以平滑地校正移动体的基体的实际姿态与基体的所需姿势同时上下移动的基体的偏离,同时抑制 发生过冲或下冲。 为了将与移动体的基体的状态相关的状态量偏差收敛到零,根据反馈控制律确定所需的操作变量,反馈控制律的反馈增益通过使用时间序列 在从移动体或基体的期望的惯性力的时间序列中的从现在到现在的时间到预定时间的期间。 所需的操纵变量通过基于确定的反馈增益和状态量偏差的观测值的反馈控制律的计算来确定。
    • 95. 发明授权
    • Control device of legged mobile robot
    • 腿式移动机器人控制装置
    • US07664572B2
    • 2010-02-16
    • US10512231
    • 2003-04-28
    • Toru TakenakaTakashi MatsumotoTakahide YoshiikeKazushi Akimoto
    • Toru TakenakaTakashi MatsumotoTakahide YoshiikeKazushi Akimoto
    • G05B19/18G06F19/00G05B19/408
    • B62D57/032
    • A control device of a legged mobile robot, wherein a state amount error (for example, an error of a vertical position of a body 3), which is a difference between an actual state amount and a state amount of a desired gait related to a translational motion in a predetermined direction (for example, a translational motion in a vertical direction) of a legged mobile robot 1, is determined, and then a desired motion of the desired gait is determined such that the state amount error approaches zero. The desired motion is determined using a dynamic model by additionally inputting a virtual external force determined on the basis of the state amount error to the dynamic model for generating desired gaits. At the same time, a desired floor reaction force of the robot 1 is corrected on the basis of a state amount error of zero, and compliance control is carried out to make the motion and the floor reaction force of the robot 1 follow the desired motion and the desired floor reaction force of the desired gait.
    • 一种有腿式移动机器人的控制装置,其中,状态量误差(例如,主体3的垂直位置的误差)是与实际状态量和期望步态的状态量之间的差异 确定有腿可移动机器人1的预定方向(例如,垂直方向的平移运动)的平移运动,然后确定所需步态的期望运动,使得状态量误差接近零。 使用动态模型通过将基于状态量误差确定的虚拟外力输入到用于产生期望步态的动态模型来确定期望的运动。 同时,基于零的状态量误差来校正机器人1的期望的地板反作用力,并且执行顺从性控制以使机器人1的运动和地面反作用力遵循所需的运动 和期望的步态的期望的地板反作用力。
    • 96. 发明授权
    • Control device for mobile body
    • 移动体控制装置
    • US07606634B2
    • 2009-10-20
    • US10596055
    • 2004-11-29
    • Toru TakenakaTakashi MatsumotoTakahide Yoshiike
    • Toru TakenakaTakashi MatsumotoTakahide Yoshiike
    • G05B15/00
    • B25J13/085B62D57/032
    • Ground contact portions 10 are classified into a tree structure such that each of the ground contact portions 10 of a mobile body 1 (mobile robot) equipped with three or more ground contact portions 10 becomes a leaf node and that an intermediate node exists between the leaf node and a root node having all the leaf nodes as its descendant nodes. On each node (a C-th node) having child nodes, the correction amounts of the desired relative heights of the ground contact portions 10 of the C-th node are determined such that the relative relationship among the actual node floor reaction forces of the child nodes of the C-th node approximates the relative relationship among the desired node floor reaction forces of the child nodes of the C-th node, and joints of the mobile body 1 are operated so that a desired relative height obtained by combining the correction amounts is satisfied.
    • 接地部分10分为树结构,使得配备有三个或更多个接地部分10的移动体1(移动机器人)的每个接地接触部分10成为叶节点,并且中间节点存在于叶片之间 节点和具有所有叶节点作为其后代节点的根节点。 在具有子节点的每个节点(第C个节点)上,确定第C个节点的接地部分10的期望相对高度的校正量,使得第C节点的实际节点楼层反作用力之间的相对关系 第C节点的子节点近似于第C节点的子节点的期望节点楼层反作用力之间的相对关系,并且操作移动体1的关节,使得通过组合校正而获得的期望相对高度 金额满意
    • 97. 发明授权
    • Controller of legged mobile robot
    • 腿式移动机器人控制器
    • US07603234B2
    • 2009-10-13
    • US10562327
    • 2004-06-28
    • Toru TakenakaTakashi MatsumotoTakahide Yoshiike
    • Toru TakenakaTakashi MatsumotoTakahide Yoshiike
    • G06F19/00
    • B62D57/032
    • The occurrence of a slippage of a robot in operation, following a desired gait, is determined, and the permissible range of a restriction object amount, such as a floor reaction force horizontal component or a floor reaction force moment vertical component to be applied to the robot, is variably set according to a slippage determination result. A provisional motion of a desired gait is determined using a dynamic model, and if the restriction object amount defined by the provisional motion deviates from the permissible range, then the motion of a desired gait is determined by correcting the provisional motion by changing the changing rate of the angular momentum of the robot from the provisional motion so as to limit the restriction object amount to the permissible range, while satisfying a dynamic balance condition.
    • 确定在期望的步态之后操作的机器人的滑动的发生,并且将限制对象量的允许范围,例如地板反作用力水平分量或地板反作用力矩垂直分量施加到 机器人,根据滑动判定结果可变地设定。 使用动态模型确定期望步态的临时运动,并且如果由临时动作限定的限制对象量偏离允许范围,则通过改变变化率来校正临时动作来确定期望步态的运动 的机器人的角动量从临时动作开始,以将限制对象量限制在允许范围内,同时满足动态平衡条件。
    • 99. 发明授权
    • Semiconductor device and manufacturing method of the same
    • 半导体器件及其制造方法相同
    • US07501347B2
    • 2009-03-10
    • US11446137
    • 2006-06-05
    • Junji NoguchiTakashi MatsumotoTakayuki OshimaToshihiko Onozuka
    • Junji NoguchiTakashi MatsumotoTakayuki OshimaToshihiko Onozuka
    • H01L21/311
    • H01L21/7682H01L21/76811H01L21/76832H01L21/76834H01L21/76843
    • In a semiconductor device, capacitance between copper interconnections is decreased and the insulation breakdown is improved simultaneously, and a countermeasure is taken for misalignment via by a manufacturing method including the steps of forming an interconnection containing copper as a main ingredient in an insulative film above a substrate, forming insulative films and a barrier insulative film for a reservoir pattern, forming an insulative film capable of suppressing or preventing copper from diffusing on the upper surface and on the lateral surface of the interconnection and above the insulative film and the insulative film, forming insulative films of low dielectric constant, in which the insulative film is formed such that the deposition rate above the opposing lateral surfaces of the interconnections is larger than the deposition rate therebelow to form an air gap between the adjacent interconnections and, finally, planarizing the insulative film by interlayer CMP.
    • 在半导体器件中,铜互连之间的电容降低,并且同时提高绝缘击穿,并且通过包括以下步骤的制造方法采取不对准的对策:包括在绝缘膜上方形成包含铜作为主要成分的互连 基板,形成绝缘膜和用于储存器图案的隔离绝缘膜,形成能够抑制或防止铜在互连的上表面和侧表面上以及在绝缘膜和绝缘膜上方形成的绝缘膜,形成 绝缘膜的绝缘膜形成为使得相互连接的相对侧面上方的沉积速率大于其下方的沉积速率,以形成相邻互连之间的气隙,最后将绝缘膜平坦化 膜层间CMP。
    • 100. 发明授权
    • Gait producing device for leg type movable robot
    • 腿式可移动机器人步态生产装置
    • US07496428B2
    • 2009-02-24
    • US10499839
    • 2002-12-26
    • Toru TakenakaTakashi MatsumotoTakahide Yoshiike
    • Toru TakenakaTakashi MatsumotoTakahide Yoshiike
    • G06F19/00
    • B62D57/032B62D57/02
    • A desired gait is generated so as to satisfy a dynamical equilibrium condition concerning the resultant force of gravity and an inertial force applied to a legged mobile robot 1 using a dynamics model which describes a relationship among at least a horizontal translation movement of a body 24 of the robot 1, a posture varying movement in which the posture of a predetermined part, such as the body 24, of the robot 1 is varied while keeping the center of gravity of the robot 1 substantially unchanged and floor reaction forces generated due to the movements and is defined on the assumption that a total floor reaction force generated due to a combined movement of the movements is represented as a linear coupling of the floor reaction forces associated with the movements. The dynamics model represents movements as a movement of a body material particle or the like and a rotational movement of a flywheel. The desired gait adapted for not only walking but also running or the like can be generated with a reduced amount of calculation.
    • 产生期望的步态,以满足关于合成重力的动力平衡条件和施加到有腿可移动机器人1的惯性力,该动力学模型描述了至少一个主体24的主体24的水平平移运动之间的关系 机器人1,其中机器人1的诸如身体24的预定部分的姿势在保持机器人1的重心基本不变的同时变化并且由于移动而产生的地板反作用力的姿势变化运动 并且假设由于运动的组合运动而产生的总楼面反作用力被表示为与运动相关联的地面反作用力的线性联接。 动力学模型表示作为身体材料颗粒等的运动和飞轮的旋转运动的运动。 可以以减少的计算量生成适于不仅行走而且行驶等的期望步态。