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    • 5. 发明申请
    • Unbiased Active Learning
    • 无偏见主动学习
    • US20100217732A1
    • 2010-08-26
    • US12391511
    • 2009-02-24
    • Linjun YangBo GengXian-Sheng Hua
    • Linjun YangBo GengXian-Sheng Hua
    • G06F15/18
    • G06N99/005
    • Techniques described herein create an accurate active-learning model that takes into account a sample selection bias of elements, such as images, selected for labeling by a user. These techniques select a first set of elements for labeling. Once a user labels these elements, the techniques calculate a sample selection bias of the selected elements and train a model that takes into account the sample selection bias. The techniques then select a second set of elements based, in part, on a sample selection bias of the elements. Again, once a user labels the second set of elements the techniques train the model while taking into account the calculated sample selection bias. Once the trained model satisfies a predefined stop condition, the techniques use the trained model to predict labels for the remaining unlabeled elements.
    • 本文描述的技术创建了一种精确的主动学习模型,其考虑了由用户选择进行标签选择的元素(例如图像)的样本选择偏差。 这些技术选择用于标记的第一组元素。 一旦用户标记了这些元素,这些技术就会计算所选元素的样本选择偏差,并训练考虑样本选择偏倚的模型。 然后,技术部分地基于元素的样本选择偏差来选择第二组元素。 同样,一旦用户标记第二组元素,则该技术训练模型,同时考虑计算的样本选择偏差。 一旦训练的模型满足预定义的停止条件,该技术使用经过训练的模型来预测剩余的未标记元素的标签。
    • 7. 发明授权
    • Unbiased active learning
    • 不偏不倚的主动学习
    • US08219511B2
    • 2012-07-10
    • US12391511
    • 2009-02-24
    • Linjun YangBo GengXian-Sheng Hua
    • Linjun YangBo GengXian-Sheng Hua
    • G06F15/18G06F17/10G06N3/08
    • G06N99/005
    • Techniques described herein create an accurate active-learning model that takes into account a sample selection bias of elements, such as images, selected for labeling by a user. These techniques select a first set of elements for labeling. Once a user labels these elements, the techniques calculate a sample selection bias of the selected elements and train a model that takes into account the sample selection bias. The techniques then select a second set of elements based, in part, on a sample selection bias of the elements. Again, once a user labels the second set of elements the techniques train the model while taking into account the calculated sample selection bias. Once the trained model satisfies a predefined stop condition, the techniques use the trained model to predict labels for the remaining unlabeled elements.
    • 本文描述的技术创建了一种精确的主动学习模型,其考虑了由用户选择进行标签选择的元素(例如图像)的样本选择偏差。 这些技术选择用于标记的第一组元素。 一旦用户标记了这些元素,这些技术就会计算所选元素的样本选择偏差,并训练考虑样本选择偏倚的模型。 然后,技术部分地基于元素的样本选择偏差来选择第二组元素。 同样,一旦用户标记第二组元素,则该技术训练模型,同时考虑计算的样本选择偏差。 一旦训练的模型满足预定义的停止条件,该技术使用经过训练的模型来预测剩余的未标记元素的标签。
    • 9. 发明授权
    • Magnetron source, magnetron sputtering apparatus and magnetron sputtering method
    • 磁控管源,磁控溅射装置和磁控溅射法
    • US09399817B2
    • 2016-07-26
    • US13977314
    • 2011-09-30
    • Yangchao LiBo GengXuewei WuGuoqing QiuXu Liu
    • Yangchao LiBo GengXuewei WuGuoqing QiuXu Liu
    • C23C14/35H01J37/34
    • C23C14/35H01J37/3408H01J37/3455H01J37/347
    • Provided is a magnetron source, which comprises a target material, a magnetron located thereabove and a scanning mechanism connected to the magnetron for controlling the movement of the magnetron above the target material. The scanning mechanism comprises a peach-shaped track, with the magnetron movably disposed thereon; a first driving shaft, with the bottom end thereof connected with the origin of the polar coordinates of the peach-shaped track, for driving the peach-shaped track to rotate about the axis of the first driving shaft; a first driver connected to the first driving shaft for driving the first driving shaft to rotate; and a second driver for driving the magnetron to move along the peach-shaped track via a transmission assembly. A magnetron sputtering device including the magnetron and a method for magnetron sputtering using the magnetron sputtering device are also provided.
    • 提供了一种磁控管源,其包括目标材料,位于其上的磁控管和连接到磁控管的扫描机构,用于控制磁控管在目标材料上方的移动。 扫描机构包括桃形轨道,磁控管可移动地设置在其上; 第一驱动轴,其底端与桃形轨道的极坐标的原点连接,用于驱动桃形轨道围绕第一驱动轴的轴线旋转; 连接到第一驱动轴的第一驱动器,用于驱动第一驱动轴旋转; 以及第二驱动器,用于驱动磁控管经由传输组件沿着桃形轨迹移动。 还提供了包括磁控管的磁控溅射装置和使用磁控溅射装置的磁控溅射方法。
    • 10. 发明申请
    • MAGNETRON SOURCE, MAGNETRON SPUTTERING APPARATUS AND MAGNETRON SPUTTERING METHOD
    • MAGNETRON源,MAGNETRON喷溅设备和MAGNETRON喷溅方法
    • US20130277205A1
    • 2013-10-24
    • US13977314
    • 2011-09-30
    • Yangchao LiBo GengXuewei WuGuoqing QiuXu Liu
    • Yangchao LiBo GengXuewei WuGuoqing QiuXu Liu
    • C23C14/35
    • C23C14/35H01J37/3408H01J37/3455H01J37/347
    • Provided is a magnetron source, which comprises a target material, a magnetron located thereabove and a scanning mechanism connected to the magnetron for controlling the movement of the magnetron above the target material. The scanning mechanism comprises a peach-shaped track, with the magnetron movably disposed thereon; a first driving shaft, with the bottom end thereof connected with the origin of the polar coordinates of the peach-shaped track, for driving the peach-shaped track to rotate about the axis of the first driving shaft; a first driver connected to the first driving shaft for driving the first driving shaft to rotate; and a second driver for driving the magnetron to move along the peach-shaped track via a transmission assembly. A magnetron sputtering device including the magnetron and a method for magnetron sputtering using the magnetron sputtering device are also provided.
    • 提供了一种磁控管源,其包括目标材料,位于其上的磁控管和连接到磁控管的扫描机构,用于控制磁控管在目标材料上方的移动。 扫描机构包括桃形轨道,磁控管可移动地设置在其上; 第一驱动轴,其底端与桃形轨道的极坐标的原点连接,用于驱动桃形轨道围绕第一驱动轴的轴线旋转; 连接到第一驱动轴的第一驱动器,用于驱动第一驱动轴旋转; 以及第二驱动器,用于驱动磁控管经由传输组件沿着桃形轨迹移动。 还提供了包括磁控管的磁控溅射装置和使用磁控溅射装置的磁控溅射方法。