摘要：【中文】本发明属于直升机载荷测试领域，公开了一种直升机平尾载荷标定方法，包括：S1，确定直升机平尾的载荷测试变量；S2，确定直升机平尾的贴片位置；S3，确定直升机平尾的载荷标定桥路构建方式；S4，根据S1‑S3确定的结果实施直升机平尾的载荷标定试验，获取载荷标定数据；S5，根据所述载荷标定数据，获得载荷测试变量和载荷标定桥路输出矩阵之间的标定矩阵；决了平尾载荷测试过程中复杂载荷标定的工程问题。 【EN】The invention belongs to the field of helicopter load testing, and discloses a helicopter horizontal tail load calibration method, which comprises the following steps: s1, determining a load test variable of the horizontal tail of the helicopter; s2, determining the position of a patch of the horizontal tail of the helicopter; s3, determining a load calibration bridge circuit construction mode of the horizontal tail of the helicopter; s4, carrying out a load calibration test of the horizontal tail of the helicopter according to the result determined by the S1-S3, and acquiring load calibration data; s5, obtaining a calibration matrix between the load test variable and the output matrix of the load calibration bridge circuit according to the load calibration data; the engineering problem of complicated load calibration in the horizontal tail load test process is solved.

摘要：【中文】本申请适用于计算机技术领域，提出一种磁共振成像方法，包括：并行采集多通道的动态多帧K空间数据；利用预先训练完成的多维度深度学习先验模型，对所述K空间数据进行动态多帧并行成像，得到目标磁共振图像；所述预先训练完成的多维度深度学习先验模型包括至少两个深度学习先验模型，每个所述深度学习先验模型分别用于从不同的预设维度对所述K空间数据进行动态多帧并行成像，得到所述目标磁共振图像。与现有技术相比，通过多维度深度学习先验模型对K空间数据进行动态多帧并行成像，能够在保证成像效果的技术上提高成像速度。 【EN】The application is applicable to the technical field of computers, and provides a magnetic resonance imaging method, which comprises the following steps: acquiring multi-channel dynamic multi-frame K space data in parallel; carrying out dynamic multi-frame parallel imaging on the K space data by utilizing a multi-dimensional depth learning prior model trained in advance to obtain a target magnetic resonance image; the pre-trained multi-dimensional depth learning prior model comprises at least two depth learning prior models, and each depth learning prior model is respectively used for carrying out dynamic multi-frame parallel imaging on the K space data from different preset dimensions to obtain the target magnetic resonance image. Compared with the prior art, the multi-dimensional depth learning prior model is used for carrying out dynamic multi-frame parallel imaging on the K space data, and the imaging speed can be improved on the technology of ensuring the imaging effect.

摘要：【中文】本发明提供了PLCE1抑制剂和重组p53腺病毒的用途，具体涉及PLCE1抑制剂与重组p53腺病毒联合在制备治疗食管鳞癌的药物中的应用。本发明还提供了一种治疗食管鳞癌的药物，其特征在于，包含PLCE1抑制剂和重组p53腺病毒。本发明属于医药领域，提供了一种PLCE1抑制剂与重组p53腺病毒联合在制备治疗食管鳞癌的药物中的应用。本发明联合运用PLCE1抑制剂与重组p53腺病毒，可以有效地抑制食管鳞癌细胞和异种移植肿瘤的生长。本发明以PLCE1检测为基础，联合使用重组p53腺病毒，提出了食管鳞癌的个性化治疗方案，易于临床使用推广。 【EN】The invention provides an application of a PLCE1 inhibitor and a recombinant p53 adenovirus, and particularly relates to an application of a combination of a PLCE1 inhibitor and a recombinant p53 adenovirus in preparation of a medicine for treating esophageal squamous carcinoma. The invention also provides a medicament for treating esophageal squamous carcinoma, which is characterized by comprising a PLCE1 inhibitor and a recombinant p53 adenovirus. The invention belongs to the field of medicines, and provides an application of a combination of a PLCE1 inhibitor and a recombinant p53 adenovirus in preparation of a medicine for treating esophageal squamous cell carcinoma. The invention combines the PLCE1 inhibitor and the recombinant p53 adenovirus, and can effectively inhibit the growth of esophageal squamous carcinoma cells and xenograft tumors. The invention provides a personalized treatment scheme for esophageal squamous carcinoma by using the recombinant p53 adenovirus in combination based on PLCE1 detection, and is easy to use and popularize clinically.

摘要：【中文】本发明提供一种OLED阵列基板及其制备方法和显示装置。该制备方法包括：先后在基板上形成驱动晶体管、平坦层和发光元件的阳极，形成平坦层包括形成第一过孔的图形，第一过孔的位置对应阳极和驱动晶体管的漏极，在形成驱动晶体管之后且在形成平坦层之前还包括：形成氧化阻挡层，氧化阻挡层覆盖整个驱动晶体管。该制备方法，通过在形成平坦层之前且在驱动晶体管形成之后形成氧化阻挡层，且使氧化阻挡层覆盖整个驱动晶体管，能在形成平坦层及其中的第一过孔后，对平坦层的烘干过程中阻挡氧气对漏极表面的氧化，从而减小漏极与阳极之间的接触电阻，进而减小OLED阵列基板的功耗。 【EN】The invention provides an OLED array substrate, a preparation method thereof and a display device. The preparation method comprises the following steps: successively forming a driving transistor, a flat layer and an anode of a light-emitting element on a substrate, wherein the step of forming the flat layer comprises the step of forming a pattern of a first through hole, the position of the first through hole corresponds to the anode and the drain of the driving transistor, and the step of forming the flat layer after the step of forming the driving transistor further comprises the following steps: and forming an oxidation barrier layer, wherein the oxidation barrier layer covers the whole drive transistor. According to the preparation method, the oxidation barrier layer is formed before the flat layer is formed and after the drive transistor is formed, and the oxidation barrier layer covers the whole drive transistor, so that the oxidation of oxygen to the surface of the drain electrode can be prevented in the drying process of the flat layer after the flat layer and the first via hole in the flat layer are formed, the contact resistance between the drain electrode and the anode electrode is reduced, and the power consumption of the OLED array substrate is further reduced.

摘要：【中文】本发明属于机器人设备领域，公开了一种物流搬运机器人系统，设有驱动车，驱动车从上至下依次安装有车体第三层板、车体第二层板、车体第一层板；车体第一层板的前端安装有多个红外传感器，红外传感器连接陀螺仪模块；车体第一层板的后端安装有多个超声波模块，车体第一层板上固定安装有电机驱动板，电机驱动板连接有电机；红外传感器、超声波模块、电机驱动板均与控制板相连接，控制板通过电源分配板连接电源模块，控制板上还安装有扩展板。该物流搬运机器人系统通过自主行驶、上下桥、抓取物品、躲避障碍物、识别左右转标识、送回物品到指定位置、识别停车和禁停标识后自主停车入位，适用于物流搬运、仓储等。 【EN】The invention belongs to the field of robot equipment, and discloses a logistics carrying robot system which is provided with a driving vehicle, wherein the driving vehicle is sequentially provided with a third laminate of a vehicle body, a second laminate of the vehicle body and a first laminate of the vehicle body from top to bottom; the front end of a first laminate of the vehicle body is provided with a plurality of infrared sensors, and the infrared sensors are connected with the gyroscope module; the rear end of a first laminate of the vehicle body is provided with a plurality of ultrasonic modules, a motor driving plate is fixedly arranged on the first laminate of the vehicle body, and the motor driving plate is connected with a motor; the infrared sensor, the ultrasonic module and the motor driving board are all connected with the control board, the control board is connected with the power supply module through the power distribution board, and the expansion board is further installed on the control board. The logistics transfer robot system is suitable for logistics transfer, warehousing and the like by autonomously driving, loading and unloading an axle, grabbing articles, avoiding obstacles, identifying left and right turning marks, sending the articles back to a designated position, identifying parking and stopping the marks and then autonomously parking the articles in the position.

摘要：【中文】本发明提供了一种柔性显示屏、其检测方法及显示装置，柔性显示屏分为显示区和包围显示区的非显示区；显示区包括交叉设置的数据线和栅线，非显示区包括分别设置在每条所述栅线两侧的外围驱动电路，以及与外围驱动电路电连接的测试电路；外围驱动电路包括两组级联的移位寄存器，一个移位寄存器与一条栅线电连接，测试电路包括多个测试开关和多条测试线，一个测试开关与一个移位寄存器电连接，测试线与测试开关一一对应连接，测试线至少设置在非显示区的外侧边缘且具有与数据线延伸方向一致的线段，测试电路用于在连接的测试线所在位置发生断裂时，向电连接的移位寄存器加载信号，使对应的栅线加载点亮信号。 【EN】The invention provides a flexible display screen, a detection method and a display device thereof, wherein the flexible display screen is divided into a display area and a non-display area surrounding the display area; the display area comprises data lines and grid lines which are arranged in a crossed manner, and the non-display area comprises peripheral driving circuits which are respectively arranged at two sides of each grid line and a testing circuit which is electrically connected with the peripheral driving circuits; the peripheral driving circuit comprises two groups of cascaded shift registers, one shift register is electrically connected with one grid line, the testing circuit comprises a plurality of testing switches and a plurality of testing lines, one testing switch is electrically connected with one shift register, the testing lines are connected with the testing switches in a one-to-one correspondence mode, the testing lines are at least arranged on the outer edge of the non-display area and are provided with line segments consistent with the extending direction of the data lines, and the testing circuit is used for loading signals to the electrically connected shift registers when the positions of the connected testing lines are broken, so that the corresponding grid lines are loaded with lighting signals.

摘要：【中文】本申请实施例提供了一种显示面板、边缘破损检测方法、制备方法、及显示装置，涉及显示面板技术领域。显示面板包括：显示区域、位于显示区域内的开孔、位于开孔周边的开关器件、环绕开孔设置的栅极信号线、以及发光信号线；开关器件的第一端与发光信号线电连接；开关器件的第二端与栅极信号线的信号输入端电连接；开关器件的控制端与栅极信号线的信号输出端电连接。边缘破损检测方法包括如下步骤：若开孔的边缘没有破损，则开关器件关闭，栅极信号线不输出第一电平信号；若开孔的边缘破损，则开关器件导通，栅极信号线输出第一电平信号至发光信号线上。本申请实施例能够有效地判断AA Hole的开孔的边缘是否破损。 【EN】The embodiment of the application provides a display panel, an edge damage detection method, a preparation method and a display device, and relates to the technical field of display panels. The display panel includes: a display region, an opening in the display region, a switching device around the opening, a gate signal line surrounding the opening, and a light emitting signal line; the first end of the switching device is electrically connected with the light-emitting signal wire; the second end of the switching device is electrically connected with the signal input end of the grid signal line; the control end of the switching device is electrically connected with the signal output end of the grid signal wire. The edge breakage detection method comprises the following steps: if the edge of the opening is not damaged, the switch device is closed, and the grid signal line does not output the first level signal; if the edge of the opening is damaged, the switch device is conducted, and the grid signal line outputs a first level signal to the light-emitting signal line. The embodiment of the application can effectively judge whether the edge of the opening of the AA Hole is damaged.

摘要：【中文】本发明公开了一种显示面板及显示装置。显示面板，包括：衬底基板，包括显示区以及围绕所述显示区的周边区，所述周边区包括扇出区；多条数据线，位于所述衬底基板的一侧且位于所述显示区，从所述显示区延伸到所述扇出区；至少一圈挡墙结构，围绕所述显示区，且至少部分所述挡墙结构位于所述扇出区，挡墙结构位于所述多条数据线远离所述衬底基板的一侧；连接体，位于所述多条数据线和挡墙结构之间，所述连接体的背离所述衬底基板的一端伸入到挡墙结构内以固定挡墙结构。该显示面板，连接体就像一根固定棒，可以起到铆钉的作用，将挡墙结构铆接固定到显示面板上，增加了挡墙结构的稳固性，减少了挡墙结构断裂缺失的风险，避免了显示面板的不良风险。 【EN】The invention discloses a display panel and a display device. A display panel, comprising: the substrate comprises a display area and a peripheral area surrounding the display area, wherein the peripheral area comprises a fan-out area; the plurality of data lines are positioned on one side of the substrate base plate, positioned in the display area and extended from the display area to the fan-out area; at least one circle of retaining wall structure, which surrounds the display area, wherein at least part of the retaining wall structure is positioned in the fan-out area, and the retaining wall structure is positioned on one side of the plurality of data lines, which is far away from the substrate base plate; the connector is located between many data lines and the barricade structure, deviating from of connector the one end of substrate base plate stretches into in order to fix the barricade structure in the barricade structure. This display panel, connector just like a fixed rod, can play the effect of rivet, with barricade structure riveting fixed to display panel on, increased barricade structure's steadiness, reduced the risk of barricade structure fracture disappearance, avoided display panel's bad risk.

摘要：【中文】本发明涉及DNA提取技术领域，特别涉及一种水牛奶中微生物总DNA的提取试剂盒及提取方法，本申请的试剂盒是针对采用现有技术的提取方法提取水牛奶微生物总DNA会存在浓度、纯度低、乳脂、蛋白含量高，导致提取到的DNA不利于后续扩增、测序等技术缺陷设计的，采用该试剂盒能方便、快捷的从水牛奶的鲜奶中提取微生物总DNA，同时利用该试剂盒采用本发明的提取方法提取DNA能有效去除水牛奶中的乳脂、乳蛋白质，提高DNA纯度，方便快捷的进行下一步的分子生物学研究。 【EN】The invention relates to the technical field of DNA extraction, in particular to an extraction kit and an extraction method for total DNA of microorganisms in buffalo milk.

摘要：【中文】本发明属于直升机结构疲劳设计领域，具体涉及一种直升机结构疲劳寿命曲线计算方法及装置。该方法包括：确定相应结构的全范围S‑N曲线；获取直升机结构的载荷谱并对直升机结构的载荷谱进行处理得到预处理载荷谱；根据全范围S‑N曲线和预处理载荷谱计算疲劳寿命曲线点；根据疲劳寿命曲线点确定直升机结构疲劳寿命曲线。本方法能基于全范围S‑N曲线，得到更精确的直升机结构疲劳寿命曲线。 【EN】The invention belongs to the field of helicopter structure fatigue design, and particularly relates to a helicopter structure fatigue life curve calculation method and device. The method comprises the following steps: determining a full-range S-N curve of a corresponding structure; acquiring a load spectrum of a helicopter structure and processing the load spectrum of the helicopter structure to obtain a preprocessed load spectrum; calculating fatigue life curve points according to the full-range S-N curve and the pretreatment load spectrum; and determining a fatigue life curve of the helicopter structure according to the fatigue life curve points. The method can obtain a more accurate fatigue life curve of the helicopter structure based on the full-range S-N curve.