摘要：【中文】本发明实施例提供一种用于显示屏的图像处理方法和显示驱动装置，显示屏包括有像素点的显示区域和无像素点的非显示区域，二者彼此邻接，该图像处理方法包括：接收整个显示屏的图像数据；将图像数据中与非显示区域对应的第一组像素点设置为黑点；对图像数据中与显示区域边缘相对应的第二组像素点进行平滑处理；以及将处理后的图像数据发送至显示屏，其中，平滑处理包括根据显示区域边缘的形状，对第二组像素点进行增益补偿。本发明根据显示屏的形状补偿增益，所以每个显示屏都能补偿到最佳平滑效果，应用于具有弧线边缘的显示屏则解决了显示屏弧形边缘处图像锯齿化的现象。 【EN】The embodiment of the invention provides an image processing method and a display driving device for a display screen, wherein the display screen comprises a display area with pixel points and a non-display area without the pixel points, which are adjacent to each other, and the image processing method comprises the following steps: receiving image data of the whole display screen; setting a first group of pixel points corresponding to a non-display area in image data as black points; smoothing a second group of pixel points corresponding to the edge of the display area in the image data; and sending the processed image data to a display screen, wherein the smoothing process comprises gain compensation on a second group of pixel points according to the shape of the edge of the display area. The invention compensates the gain according to the shape of the display screen, so that each display screen can compensate the optimal smooth effect, and when the invention is applied to the display screen with arc edges, the problem of image jagging at the arc edges of the display screen is solved.

摘要：【中文】本发明提供的化妆品乳液将雪花状的纳米金与保湿成分和抗菌消炎成分结合，其中纳米金具有良好的抗氧化功能，能够有效清除羟基自由基促进人体表皮细胞增殖并起到抗衰老功能，通过动态成核结晶的方式在密封水热条件下控制反应的热力和动力学因素，最终得到雪花状形貌的Au纳米粒子，雪花状纳米形貌的金表面台阶原子多，活性位密度高可以有效降低成本。 【EN】The cosmetic emulsion provided by the invention combines the snowflake-shaped nanogold with the moisturizing component and the antibacterial and anti-inflammatory component, wherein the nanogold has a good antioxidant function, can effectively remove hydroxyl free radicals to promote human epidermal cell proliferation and has an anti-aging function, the thermal and kinetic factors of the reaction are controlled under a sealed hydrothermal condition in a dynamic nucleation and crystallization mode, and finally the snowflake-shaped Au nanoparticles are obtained, and the snowflake-shaped nanogold-shaped gold has more surface step atoms and high active site density and can effectively reduce the cost.

摘要：【中文】本发明涉及一种雪花形貌的Au纳米粒子及其制备方法。本发明采用氯金酸钠作为前驱体，柠檬酸三钠作为还原剂，以PVP为形貌保护剂，并加入NaBr作为形貌调控剂，通过动态成核结晶的方式在密封水热条件下控制反应的热力和动力学因素，最终得到Au纳米粒子，通过TEM表征显示出其具体形貌为雪花状，通过XPS表征可知Au4f_7/2、Au4f_5/2结合能分别为83.5、86.9eV，对应为金属态Au(Au⁰)的结合能。本发明提供的制备方法简单，无需有机物作溶剂，方法简单绿色清洁，获得的雪花状纳米粒子台阶原子多，活性位密度高，具有良好的催化甲醛性能以及成像效果和抗氧化功能，可用于污染治理催化、临床医学CT成像造影剂以及个人护肤品等多种领域。 【EN】The invention relates to a snowflake-shaped Au nano particle and a preparation method thereof. The method adopts sodium chloroaurate as a precursor, trisodium citrate as a reducing agent, PVP as a morphology protective agent, NaBr as a morphology regulating agent is added, the thermodynamic and kinetic factors of the reaction are controlled under a sealed hydrothermal condition in a dynamic nucleation crystallization mode, Au nanoparticles are finally obtained, the specific morphology of the Au nanoparticles is snowflake-shaped through TEM characterization, and Au4f can be known through XPS characterization_7/2、Au4f_5/2The binding energy is 83.5 eV and 86.9eV respectively, which correspond to metallic Au (Au)⁰) The binding energy of (1). The preparation method provided by the invention is simple, organic matters are not needed as solvents, the method is simple, green and clean, and the obtained snowflake-shaped sodiumThe rice grains have many step atoms and high active site density, have good formaldehyde catalysis performance, imaging effect and antioxidation function, and can be used in various fields such as pollution control catalysis, clinical medicine CT imaging contrast agents, personal skin care products and the like.

摘要：本申请实施例提供了一种存储设备定时模式校准延时组合确定方法和装置，涉及存储技术领域。方法包括：获取预先为存储设备的写通道设置的a个第一延时值，以及预先为存储设备的读通道设置的b个第二延时值，分别采用各第一延时值与各第二延时值形成的所有延时组合进行定时模式校准测试；根据定时模式校准测试的测试结果，确定各延时组合各自对应的第一元素，并确定第一测试结果集合；根据第一测试结果集合中各第一元素对应的延时组合，确定目标延时组合并将存储设备的写通道的延时设置为目标延时组合中的第一延时值，将存储设备的读通道的延时设置为目标延时组合中的第二延时值。采用本申请实施例，可以提高数据传输的稳健性。

摘要：本发明实施例提供一种资源分配方法及装置，该方法包括：根据总带宽容量和每一个终端设备发送一个数据包的带宽容量需求量，确定每一个终端设备的带宽需求比；根据总中央处理器CPU资源量和处理每一个终端设备的一个数据包的CPU资源需求量，确定每一个终端设备的CPU资源需求比；根据每一个终端设备的带宽需求比和每一个终端设备的CPU资源需求比，确定每一个终端设备的瓶颈资源需求比；根据每一个终端设备的带宽容量需求量、CPU资源需求量、瓶颈资源需求比、总带宽容量、及总CPU资源量，确定为每一个终端设备分配的CPU资源和带宽资源。用于提高CPU资源和带宽资源分配的合理性。

摘要：【中文】本发明公开了一种喷墨打印装置及打印方法，包括待打印物体夹具装配、底座部分、打印小车和横梁，底座部分设置在装置底部，在底座部分的上方设置待打印物体夹具装配，在待打印物体夹具装配的上方设置一横梁，横梁上安装一打印小车，其特征在于，夹具装配上的待打印物体长度方向与第二方向平行安装，打印小车上安装至少一排喷头，该排喷头至少设置两个，每个喷头的喷孔连线与第二方向平行，且该排喷头沿自身宽度方向即第一方向并排间隔排列、首尾对齐，在打印过程中，喷头的所有喷孔均参与每个待打印物体上方设定区域的喷墨，且所述设定区域中距离喷头喷孔不同高度的位置处墨滴提前喷射的时间不同。本发明在提高打印效率的同时，确保了喷墨质量。 【EN】The invention discloses an ink-jet printing device and a printing method, which comprises a clamp assembly of an object to be printed, a base part, a printing trolley and a cross beam, wherein the base part is arranged at the bottom of the device, an object to be printed is arranged above the base part and assembled by a clamp, a beam is arranged above the object to be printed and assembled by the clamp, a printing trolley is arranged on the beam, it is characterized in that the length direction of an object to be printed on the clamp assembly is parallel to the second direction, at least one row of spray heads is arranged on the printing trolley, the row of spray heads is at least two, the spray hole connecting line of each spray head is parallel to the second direction, and the spray heads of the row are arranged side by side at intervals along the width direction of the spray heads, namely the first direction, and are aligned end to end, in the printing process, all the jet holes of the spray head participate in the ink jet of the set area above each object to be printed, and the time for ejecting the ink drops in advance at the positions with different heights from the spray orifice of the spray head in the set area is different. The invention ensures the ink-jet quality while improving the printing efficiency.

摘要：【中文】本发明公开了一种喷墨打印机，包括刮墨维护装置、打印模块、放卷装配、收卷装配、传送装配和底座部分，底座部分位于喷墨打印装置的底部，在底座部分的上方设置传送装配，在传送装配的左右两端分别设置一收卷装配和放卷装配，待打印纸卷安装于放卷装配上，纸卷由放纸装配放纸、经传送装配导向后收卷至收卷装配上，传送装配上方安装一打印模块，打印模块下端设置喷头，喷头安装在喷头底板组件上，打印模块设计一喷头底板整体调节机构，喷头底板整体调节机构包括喷头底板整体偏摆调节机构和喷头底板整体Y轴方向前后移动调节机构。通过喷头底板整体调节机构前后移动喷头底板的整体位置即可保证打印图案的正确位置。 【EN】The invention discloses an ink-jet printer, which comprises an ink scraping maintenance device, a printing module, an unreeling assembly, a reeling assembly, a transmitting assembly and a base part, wherein the base part is positioned at the bottom of the ink-jet printing device, the transmitting assembly is arranged above the base part, the left end and the right end of the transmitting assembly are respectively provided with the reeling assembly and the unreeling assembly, a paper roll to be printed is arranged on the unreeling assembly, the paper roll is reeled to the reeling assembly after being guided by the paper unreeling assembly, a printing module is arranged above the transmitting assembly, the lower end of the printing module is provided with a nozzle, the nozzle is arranged on a nozzle bottom plate assembly, the printing module is provided with a nozzle bottom plate integral adjusting mechanism, and the nozzle bottom plate integral adjusting mechanism comprises a nozzle bottom plate integral deflection adjusting mechanism and a nozzle bottom plate integral Y-axis forward and. The correct position of the printed pattern can be ensured by moving the whole position of the nozzle bottom plate back and forth through the whole adjusting mechanism of the nozzle bottom plate.

摘要：本公开提出一种基于数字孪生的风机控制方法、装置、设备和存储介质，该方法包括：构建风电机组机理模型，其中，机理模型包括风机整机模型、单自由度风机振动模型和尾流效应模型；对机理模型进行模型校准得到初始数字孪生模型；获取风电机组的外部环境参数并输入至初始数字孪生模型，以确定执行预设控制策略的预测发电效益；确定基于外部环境参数执行预设控制策略的真实发电效益；基于预测和真实发电效益对初始数字孪生模型进行调整得到目标数字孪生模型，基于目标数字孪生模型确定目标风机控制策略，其中，目标数字孪生模型的目标函数用于最小化尾流影响。由此，能够基于数字孪生模型综合考虑尾流影响有效提升所得目标风机控制策略的发电效益。

摘要：本申请公开了一种风速随机分布参数的确定方法和装置、存储介质、电子装置、计算机程序产品，该方法包括：获取观测点的历史环境监测数据；基于历史环境监测数据，采用预先建立的贝叶斯网络模型估计观测点的第一风速随机分布参数。采用第一风速随机分布参数和历史环境监测数据作为训练样本，训练长短期记忆神经网络模型，得到风速随机分布参数预测模型；基于观测点的当前环境监测数据，采用风速随机分布参数预测模型，确定观测点的第二风速随机分布参数。利用贝叶斯网络模型和长短期记忆神经网络模型组合起来，能够快速且准确的预测风速随机分布参数。

摘要：本发明公开了联合表面覆盖层和高斯修正估计隐月海厚度的方法，引入表面覆盖层构建包含表面覆盖层、玄武岩层和壳层的三层结构模型来模拟更接近真实状况的隐月海区域内部结构，同时还利用高斯函数来进一步修正密度谱的异常非线性变化，根据建立的三层密度结构模型，确定不同层密度的模型有效密度函数。最后，基于获取的理论有效密度谱和模型有效密度谱，利用贝叶斯函数和MCMC，实现月球上隐月海区域玄武岩层厚度的反演。本发明通过引入更多约束，使得模型值和观测值拟合效果更好，填补了传统密度结构模型对隐月海区域玄武岩厚度反演参数不佳的空白，本发明反演的全月隐月海玄武岩厚度分布是深入研究行星内部构造和热演化的重要数据补充。