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    • 1. 发明授权
    • Air conditioning control based on a human body activity amount
    • 空调控制基于人体活动量
    • US08432445B2
    • 2013-04-30
    • US12877685
    • 2010-09-08
    • Kazumi NagataTakaaki EnoharaKenji BabaShuhei NodaNobutaka Nishimura
    • Kazumi NagataTakaaki EnoharaKenji BabaShuhei NodaNobutaka Nishimura
    • H04N7/18H04N9/47H04N5/235H04N5/228
    • G06T7/254G06T7/194G06T7/246G06T2207/10016G06T2207/20012G06T2207/20224G06T2207/30196
    • According to one embodiment, an image processing apparatus connected to a camera device that images a processing target includes: an image information acquisition unit; an accumulation subtraction image information creation unit; a feature amount information creation unit; and an action content identification unit. The image information acquisition unit sequentially acquires, from the camera device, image information formed by imaging the processing target thereby. Based on a temporal change of the image information acquired by the image information acquisition unit, the accumulation subtraction image information creation unit accumulates subtraction information for a predetermined period, which is made by motions of a person present in a room, and creates multivalued accumulation subtraction image information. The feature amount information creation unit creates feature amount information in the accumulation subtraction image information, which is created by the accumulation subtraction image information creation unit, from a region where there is a density gradient in the accumulation subtraction image information. The action content identification unit identifies an action content of the person present in the room from the feature amount information created by the feature amount information creation unit.
    • 根据一个实施例,连接到对处理目标成像的照相机装置的图像处理装置包括:图像信息获取单元; 累积减影图像信息生成单元; 特征量信息创建单元; 和动作内容识别单元。 图像信息获取单元从相机装置顺序地获取通过对处理对象进行成像而形成的图像信息。 基于由图像信息获取单元获取的图像信息的时间变化,累积减影图像信息创建单元累积由存在于房间中的人的运动而进行的预定时段的减法信息,并且创建多值累加减法 图像信息。 特征量信息创建单元从累积减影图像信息创建单元创建的累积减法图像信息中从积累减法图像信息中存在密度梯度的区域创建特征量信息。 动作内容识别单元根据由特征量信息生成单元生成的特征量信息来识别住在房间中的人的动作内容。
    • 2. 发明申请
    • AIR CONDITIONING CONTROL SYSTEM AND AIR CONDITIONING CONTROL METHOD
    • 空调控制系统和空调控制方法
    • US20110205366A1
    • 2011-08-25
    • US12874309
    • 2010-09-02
    • Takaaki EnoharaKenji BabaKazumi NagataShuhei NodaNobutaka Nishimura
    • Takaaki EnoharaKenji BabaKazumi NagataShuhei NodaNobutaka Nishimura
    • G05D23/19H04N7/18G06K9/00
    • F24F11/0034F24F11/30F24F2120/10F24F2120/14
    • According to one embodiment, an air conditioning control system is connected to a camera device, which is installed in an interior as an inside of a room and an air conditioning control target, and to an air conditioner that performs air conditioning for the interior as the air conditioning target, the air conditioning control system includes:an activity amount calculation unit; a current comfort index value calculation unit; a control parameter calculation unit; and an air conditioner control unit. The activity amount calculation unit acquires and analyzes image information formed by imaging the interior as the air conditioning control target from the camera device, and calculates an activity amount of a person present in the room based on the image information. The current comfort index value calculation unit calculates a current comfort index value of the person present in the room based on the activity amount. The control parameter calculation unit calculates a control parameter regarding an operation of the air conditioner based on the current comfort index value. The air conditioner control unit controls the operation of the air conditioner based on the control parameter.
    • 根据一个实施例,空调控制系统连接到照相机装置,该照相机装置安装在作为房间内部的内部和空调控制目标中,并且连接到空调器,其对于内部进行空调 空调目标,空调控制系统包括:活动量计算单元; 当前舒适指数值计算单元; 控制参数计算单元; 和空调控制单元。 活动量计算单元从照相机装置获取并分析通过对作为空调控制目标的内部进行成像而形成的图像信息,并且基于图像信息计算出存在于房间中的人的活动量。 当前的舒适指标值计算单元基于活动量计算房间中存在的人的当前舒适指标值。 控制参数计算单元基于当前的舒适指标值来计算关于空调的操作的控制参数。 空调控制单元基于控制参数来控制空调机的运转。
    • 3. 发明申请
    • CLEANING BLADE MEMBER
    • 清洁叶片会员
    • US20090003905A1
    • 2009-01-01
    • US12146981
    • 2008-06-26
    • Miyuki UenoShuji AbeShuhei Noda
    • Miyuki UenoShuji AbeShuhei Noda
    • G03G21/00
    • G03G21/0017G03G2221/0005
    • A cleaning blade member includes a cleaning layer and an elastic layer provided on the cleaning layer's back surface. Both are formed of a polyurethane member produced through curing and molding a castable polyurethane composition, the cleaning layer containing a long-chain polyol, a polyisocyanate, and a diamino compound having a melting point ≦80° C., the elastic layer containing a long-chain polyol, a polyisocyanate, a short-chain diol, and a short-chain triol, and has a percent edge drooping ≦7.0%, the cleaning and elastic layers have Young's modulus contribution factors Ra and Rb, respectively. (Rb/Ra)=0.05-6.0. Ra=[TaEa/(Ta+Tb)]. Rb=[TbEb/(Ta+Tb)]. Ea and Eb are Young's modulus of the cleaning and elastic layers, respectively. Ta and Tb represent the thicknesses of the cleaning and elastic layers, respectively, and the overall Young's modulus of the cleaning layer and elastic layer is (Ra+Rb)=5.0-14.0 MPa.
    • 清洁刮板构件包括清洁层和设置在清洁层背面上的弹性层。 两者均由通过固化和模塑浇铸聚氨酯组合物制成的聚氨酯部件形成,该清洁层含有长链多元醇,多异氰酸酯和熔点<= 80℃的二氨基化合物,弹性层含有 长链多元醇,多异氰酸酯,短链二醇和短链三醇,并且具有百分比的边缘下垂<= 7.0%,清洁弹性层分别具有杨氏模量贡献因子Ra和Rb。 (Rb / Ra)= 0.05-6.0。 Ra = [TaEa /(Ta + Tb)]。 Rb = [TbEb /(Ta + Tb)]。 Ea和Eb分别是清洁和弹性层的杨氏模量。 Ta和Tb分别表示清洁弹性层的厚度,清洁层和弹性层的总杨氏模量为(Ra + Rb)= 5.0-14.0MPa。