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    • 11. 发明授权
    • Plant controller
    • 工厂控制器
    • US08725304B2
    • 2014-05-13
    • US13239787
    • 2011-09-22
    • Michinori TaniKenichi MaedaAtsuhiro MiyauchiSeiji Watanabe
    • Michinori TaniKenichi MaedaAtsuhiro MiyauchiSeiji Watanabe
    • G06F19/00
    • G05B13/04F02D41/1401F02D2041/141
    • A plant controller includes a feedback controller configured to calculate a control input provided to a plant so that a control output of the plant matches a target value. The feedback controller includes a controller transfer function that is a transfer function of the feedback controller. The controller transfer function is expressed by a product of an inverse transfer function of a transfer function of a control target model obtained by modeling the plant and a disturbance sensitivity correlation function defined using a sensitivity function. The sensitivity function indicates sensitivity of a disturbance to be applied to the plant with respect to the control output. The sensitivity function is defined by using a response characteristic parameter that indicates a response characteristic of the plant.
    • 工厂控制器包括反馈控制器,其被配置为计算提供给工厂的控制输入,使得设备的控制输出与目标值匹配。 反馈控制器包括作为反馈控制器的传递函数的控制器传递函数。 控制器传递函数由通过对工厂进行建模获得的控制目标模型的传递函数的反向传递函数和使用灵敏度函数定义的干扰敏感度相关函数的乘积表示。 灵敏度功能表示相对于控制输出对工厂施加扰动的灵敏度。 灵敏度函数通过使用指示工厂的响应特性的响应特性参数来定义。
    • 17. 发明申请
    • PLANT CONTROLLER
    • 工厂控制器
    • US20120101641A1
    • 2012-04-26
    • US13239787
    • 2011-09-22
    • Michinori TANIKenichi MaedaAtsuhiro MiyauchiSeiji Watanabe
    • Michinori TANIKenichi MaedaAtsuhiro MiyauchiSeiji Watanabe
    • G05D11/00G06F1/26
    • G05B13/04F02D41/1401F02D2041/141
    • A plant controller includes a feedback controller configured to calculate a control input provided to a plant so that a control output of the plant matches a target value. The feedback controller includes a controller transfer function that is a transfer function of the feedback controller. The controller transfer function is expressed by a product of an inverse transfer function of a transfer function of a control target model obtained by modeling the plant and a disturbance sensitivity correlation function defined using a sensitivity function. The sensitivity function indicates sensitivity of a disturbance to be applied to the plant with respect to the control output. The sensitivity function is defined by using a response characteristic parameter that indicates a response characteristic of the plant.
    • 工厂控制器包括反馈控制器,其被配置为计算提供给工厂的控制输入,使得设备的控制输出与目标值匹配。 反馈控制器包括作为反馈控制器的传递函数的控制器传递函数。 控制器传递函数由通过对工厂进行建模获得的控制目标模型的传递函数的反向传递函数和使用灵敏度函数定义的干扰敏感度相关函数的乘积表示。 灵敏度功能表示相对于控制输出对工厂施加扰动的灵敏度。 灵敏度函数通过使用指示工厂的响应特性的响应特性参数来定义。
    • 19. 发明申请
    • Ozone purifier for vehicle
    • 车用臭氧净化器
    • US20050123455A1
    • 2005-06-09
    • US10994301
    • 2004-11-23
    • Koichi InabaTatsuya OkayamaTsuyoshi EguchiAtsuhiro Miyauchi
    • Koichi InabaTatsuya OkayamaTsuyoshi EguchiAtsuhiro Miyauchi
    • B60H3/06A61L9/00A61L9/015B01D53/86
    • A61L9/015Y02A50/2347
    • An ozone purifier for a vehicle is configured of an ozone purification catalyst mounted on the vehicle; a first ozone concentration detection mechanism for detecting an ozone concentration in air before its passing the ozone purification catalyst; a second ozone concentration detection mechanism for detecting an ozone concentration in air after its passing the ozone purification catalyst; a deterioration detection mechanism for using output values of the first and second ozone concentration detection mechanisms and detecting deterioration of the ozone purification catalyst; and furthermore a mechanism for calibrating the output values of the first and second ozone concentration detection mechanisms, and when detecting the deterioration of the ozone purification catalyst, the purifier calibrates the output values of the first and second ozone concentration detection mechanisms.
    • 用于车辆的臭氧净化器由安装在车辆上的臭氧净化催化剂构成; 第一臭氧浓度检测机构,用于在通过臭氧净化催化剂之前检测空气中的臭氧浓度; 第二臭氧浓度检测机构,用于在通过臭氧净化催化剂之后检测空气中的臭氧浓度; 劣化检测机构,用于使用第一和第二臭氧浓度检测机构的输出值,并检测臭氧净化催化剂的劣化; 以及用于校准第一和第二臭氧浓度检测机构的输出值的机构,并且当检测到臭氧净化催化剂的劣化时,净化器校准第一和第二臭氧浓度检测机构的输出值。
    • 20. 发明申请
    • Air bypass valve failure detection device in supercharging device for engine
    • 发动机增压装置中的旁通阀故障检测装置
    • US20080022968A1
    • 2008-01-31
    • US11878117
    • 2007-07-20
    • Atsuhiro MiyauchiHirofumi HaraKazuhiko ImamuraYoshinori Andou
    • Atsuhiro MiyauchiHirofumi HaraKazuhiko ImamuraYoshinori Andou
    • F02D41/00
    • F02D41/221F02B37/16F02D41/0007F02D2200/0406Y02T10/144
    • An air bypass valve failure detecting device outputs an opening command to an air bypass valve when a throttle valve suddenly closes, thereby prevent surging from occurring in a second intake passage between a turbocharger and a throttle valve. When the opening command is outputted to the air bypass valve, failure detection for the air bypass valve is permitted only if an intake air quantity of an engine immediately before a closing command is changed to the opening command is equal to or larger than a predetermined value. Thus, it is possible to prevent the failure detecting device from erroneously determining that the air bypass valve is normal although valve closing failure of the air bypass valve has occurred. This is because, when the intake air quantity is smaller than the predetermined value, surging does not occur in the second intake passage even if the valve closing failure of the airy bypass valve has occurred.
    • 当节气门突然闭合时,空气旁通阀故障检测装置向空气旁通阀输出打开命令,从而防止在涡轮增压器和节流阀之间的第二进气通道中发生喘振。 当打开命令被输出到空气旁通阀时,只有紧接关闭命令之前的发动机的进气量改变为打开命令,才允许空气旁通阀的故障检测等于或大于预定值 。 因此,尽管发生了空气旁通阀的关闭故障,但是可以防止故障检测装置错误地确定空气旁通阀是正常的。 这是因为,当进气量小于预定值时,即使发生通风旁通阀的关闭故障,也不会在第二进气通道中产生喘振。