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    • 1. 外观设计
    • Cosmetic brush cleaning device
    • USD1045263S1
    • 2024-10-01
    • US29915197
    • 2023-10-26
    • Yang Xu
    • Yang Xu
    • FIG. 1 is a front, top perspective view of a first embodiment of a cosmetic brush cleaning device, showing my new design;
      FIG. 2 is a rear, bottom perspective view thereof;
      FIG. 3 is a front elevation view thereof;
      FIG. 4 is a rear elevation view thereof;
      FIG. 5 is a left side elevation view thereof;
      FIG. 6 is a right side elevation view thereof;
      FIG. 7 is a top plan view thereof;
      FIG. 8 is a bottom plan view thereof;
      FIG. 9 is a front, top perspective view of a second embodiment of the cosmetic brush cleaning device;
      FIG. 10 is a rear and bottom perspective view thereof;
      FIG. 11 is a front view thereof;
      FIG. 12 is a rear view thereof;
      FIG. 13 is a left side view thereof;
      FIG. 14 is a right side view thereof;
      FIG. 15 is a top view thereof; and,
      FIG. 16 is a bottom view thereof.
      The broken lines in the figures illustrate portions of the cosmetic brush cleaning device that form no part of the claimed design.
    • 7. 发明授权
    • Automatically matching data sets with storage components
    • 自动将数据集与存储组件进行匹配
    • US08949293B2
    • 2015-02-03
    • US12972137
    • 2010-12-17
    • Magdi A. MorsiWai Ho AuYing SunSanjeev KatariyaYang XuNina Sarawgi
    • Magdi A. MorsiWai Ho AuYing SunSanjeev KatariyaYang XuNina Sarawgi
    • G06F17/30G06F11/34
    • G06F17/30289G06F11/3442G06F11/3485
    • An administrator of an enterprise storage set may be tasked with storing a large number and variety of data sets on a large number and variety of storage components. However, the manual selection of a physical schema by an administrator may be time-consuming, may generate inefficient physical schemata, and may not be easily reevaluated as the data sets and storage set change. Presented herein are techniques for automatically determining a physical schema by comparing the storage factors of each data set (e.g., data size, relationships with other data sets, and usages of the data set by users) with the storage capabilities of the storage components, selecting a suitable storage component, and implementing the storage of the data set on the storage component. An embodiment of these techniques may thereby achieve an automated identification of a physical schema with improved efficiency and flexibility of the physical schema while conserving administrative resources.
    • 企业存储集的管理员可以负责在大量和多种存储组件上存储大量和多种数据集。 然而,由管理员手动选择物理模式可能是耗时的,可能产生低效的物理模式,并且可能不会随数据集和存储集改变而容易地重新评估。 这里提出的技术是通过将每个数据集的存储因子(例如,数据大小,与其他数据集的关系以及用户的数据集的使用)与存储组件的存储能力进行比较来自动确定物理模式,选择 合适的存储组件,以及在存储组件上实现数据集的存储。 因此,这些技术的实施例可以实现物理模式的自动识别,同时节省管理资源,同时提高物理模式的效率和灵活性。
    • 8. 发明授权
    • Using a tunable finite automaton for regular expression matching
    • 使用可调谐有限自动机进行正则表达式匹配
    • US08938454B2
    • 2015-01-20
    • US13648438
    • 2012-10-10
    • H. Jonathan ChaoYang Xu
    • H. Jonathan ChaoYang Xu
    • G06F7/00G06F17/30
    • G06F17/30985
    • Deterministic Finite Automatons (DFAs) and Nondeterministic Finite Automatons (NFAs) are two typical automatons used in the Network Intrusion Detection System (NIDS). Although they both perform regular expression matching, they have quite different performance and memory usage properties. DFAs provide fast and deterministic matching performance but suffer from the well-known state explosion problem. NFAs are compact, but their matching performance is unpredictable and with no worst case guarantee. A new automaton representation of regular expressions, called Tunable Finite Automaton (TFA), is described. TFAs resolve the DFAs' state explosion problem and the NFAs' unpredictable performance problem. Different from a DFA, which has only one active state, a TFA allows multiple concurrent active states. Thus, the total number of states required by the TFA to track the matching status is much smaller than that required by the DFA. Different from an NFA, a TFA guarantees that the number of concurrent active states is bounded by a bound factor b that can be tuned during the construction of the TFA according to the needs of the application for speed and storage. A TFA can achieve significant reductions in the number of states and memory space.
    • 确定性有限自动机(DFA)和非确定性有限自动机(NFAs)是网络入侵检测系统(NIDS)中使用的两种典型自动机。 虽然它们都执行正则表达式匹配,但它们具有非常不同的性能和内存使用属性。 DFA提供快速和确定性的匹配性能,但遭受着名的国家爆炸问题。 NFAs是紧凑的,但它们的匹配性能是不可预测的,没有最坏的情况保证。 描述了称为可调谐有限自动机(TFA)的正则表达式的新自动机表示。 TFAs解决了DFA的状态爆炸问题和NFAs不可预测的性能问题。 与仅具有一个活动状态的DFA不同,TFA允许多个并发活动状态。 因此,TFA跟踪匹配状态所需的状态总数远远小于DFA所要求的状态总数。 与NFA不同,TFA保证并行活动状态的数量受绑定因子b的约束,根据应用速度和存储的需要,可以在构建TFA期间进行调整。 TFA可以显着减少状态和记忆空间的数量。
    • 9. 发明授权
    • Ball valve seats and ball valves designed with equilateral triangle section methods
    • 球阀座和球阀采用等边三角截面法设计
    • US08864105B2
    • 2014-10-21
    • US13126495
    • 2009-03-17
    • Changxiang XuMao Yang XuZhanji Chen
    • Changxiang XuMao Yang XuZhanji Chen
    • F16J15/34F16K5/06F16K5/20
    • F16K5/0668F16K5/204
    • It is inevitable for the tight closure of a ball valve to be disturbed by its ball's wedging action, and its ball seat is an upset impulse amplifier with an inherent disturbance resistance index or a sealing maintaining factor m. The ball valve seat designed with equilateral triangle section methods of the invention can positively ensure itself a resistance to ball-wedged disturbance from eccentric drive to make a ball valve realize its tight closure by the floated pressure of balls or seats onto each other and ensure that the ultimate rotational resistance to the ball only relates to the ultimate pressure from/on one seat. Because the seat of the prior art can not ensure balls or seats against each other a floated pressure sufficient to resist to the ball-wedged disturbance from eccentric drive, the tight closure of the ball valve has to be realized by either larger preclamping force or larger spring preload between seats and balls so as for the ultimate rotational resistance to balls to be from larger ball-clamping forces from two seats. Therefore, the ball valve in accordance with the invention is a real floating or mounted ball valve, whose operation torque can be at most half of that of a formal or false floating ball valve of the prior art.
    • 球阀的紧密封闭是不可避免的受到球的楔入动作的干扰,球座是具有固有的抗干扰指数或密封保持因子m的镦锻脉冲放大器。 本发明的等边三角形截面方法设计的球阀座可以确保自身抵抗偏心驱动的球形扰动,使球阀通过球或座的浮动压力实现其紧密关闭,并确保 对球的极限旋转阻力仅与一个座椅上的最大压力有关。 由于现有技术的座椅不能确保球或座彼此具有足以抵抗来自偏心驱动的球楔扰动的浮动压力,所以球阀的紧闭必须通过较大的预夹紧力或较大的 在座椅和球之间的弹簧预加载,以便对球的极限旋转阻力来自两个座椅的较大的球夹紧力。 因此,根据本发明的球阀是真正的浮动或安装的球阀,其操作扭矩可以是现有技术的形式或假浮球阀的最大一半。
    • 10. 发明授权
    • Enabling coexistence between FDD and TDD wireless networks
    • 实现FDD和TDD无线网络之间的共存
    • US08830985B2
    • 2014-09-09
    • US13660545
    • 2012-10-25
    • Yang XuMichael HartPeter GelbmanHerkole Sava
    • Yang XuMichael HartPeter GelbmanHerkole Sava
    • H04J3/06H04W56/00
    • H04W56/00H04J11/0023H04L1/0026H04L5/0044H04L5/0062H04W72/0406H04W72/082H04W72/085
    • Systems and methods for detecting and mitigating interference between from a wireless time division duplex (TDD) communications device and a wireless frequency division duplex (FDD) communications device includes processing quality-indicator reports received from the FDD device to determine if the FDD device has experienced interference from the TDD device. Such interference may be mitigated by adjusting a downlink configuration of the FDD base station in communication with the FDD device. To detect and mitigate interference from an FDD device to a TDD device, it is determined if a monitored value of an operational parameter of the FDD device is within a fixed range of a maximum value of the operational parameter, and if so, a specific time interval or frequency of the FDD device is assigned for communication purposes. Similar interference detection and mitigation techniques may also be used for interference scenarios between two TDD systems including TDD devices.
    • 用于检测和减轻来自无线时分双工(TDD)通信设备和无线频分双工(FDD)通信设备之间的干扰的系统和方法包括处理从FDD设备接收的质量指标报告,以确定FDD设备是否经历过 来自TDD设备的干扰。 可以通过调整与FDD设备通信的FDD基站的下行链路配置来减轻这种干扰。 为了检测和减轻从FDD设备到TDD设备的干扰,确定FDD设备的操作参数的监视值是否在操作参数的最大值的固定范围内,如果是,则具体时间 FDD设备的间隔或频率被分配用于通信目的。 类似的干扰检测和减轻技术也可以用于包括TDD设备的两个TDD系统之间的干扰场景。