摘要：【中文】用于机动车辆预测性电荷规划和动力系控制的智能车辆系统和逻辑、制造/操作此系统的方法及具有智能电荷规划和动力系控制能力的电驱动车辆。智能电动车辆的基于AI的预测性电荷规划的系统和方法使用机器学习(ML)驾驶员模型，其利用可用交通、位置和道路地图信息估计车辆速度和推进扭矩需求以导出给定行程的总能耗。智能混合动力车辆的基于AI的预测性动力系控制的系统和方法将ML驾驶员模型与深度学习技术一起使用导出具有可用交通、地理位置、地理空间和地图数据的由预览路线限定的驾驶循环简档。利用收集的数据发展ML生成的驾驶员模型来复制驾驶员行为并预测预览路线的驾驶循环简档，包括预测的车辆速度、推进扭矩和加速器/制动踏板位置。 【EN】An intelligent vehicle system and logic for predictive charge planning and powertrain control of a motor vehicle, a method of manufacturing/operating such a system, and an electrically driven vehicle having intelligent charge planning and powertrain control capabilities. Systems and methods for AI-based predictive charge planning for intelligent electric vehicles use a Machine Learning (ML) driver model that estimates vehicle speed and propulsion torque requirements using available traffic, location, and road map information to derive total energy consumption for a given trip. Systems and methods for AI-based predictive powertrain control of intelligent hybrid vehicles use an ML driver model with deep learning techniques to derive a driving cycle profile defined by a preview route with available traffic, geographic location, geospatial, and map data. The ML generated driver model is developed using the collected data to replicate the driver behavior and predict a driving cycle profile for the preview route, including predicted vehicle speed, propulsion torque, and accelerator/brake pedal position.

摘要：【中文】一种正交时钟校正(QCC)电路，包括：第一对时钟校正电路(304i，3042)，其分别输出四相时钟信号(122)的同相时钟信号和反相时钟信号(cki，cki_b)；第二对时钟校正电路(3043，3044)其分别输出四相时钟信号(122)的正交相时钟信号和反正交相时钟信号(ckq、ckq_b)；检测电路(308)，被配置为检测在四相时钟信号(122)中的占空比误差和同相/正交相(IQ)相失配；以及校准电路(310)，其被配置为将第一对控制信号(312h、312b)提供给第一对时钟校正电路(304i、3042)的每个时钟校正电路，并将第二对控制信号(312Qi、312Q2)提供给第二对时钟校正电路(3043、3044)的每个时钟校正电路，以基于检测器电路(308)的输出校正占空比误差和IQ相失配。 【EN】A Quadrature Clock Correction (QCC) circuit, comprising: a first pair of clock correction circuits (304i, 3042) that output in-phase clock signals and inverted clock signals (cki, cki _ b) of the four-phase clock signal (122), respectively; a second pair of clock correction circuits (3043, 3044) which output quadrature-phase clock signals and anti-quadrature-phase clock signals (ckq, ckq _ b) of the four-phase clock signal (122), respectively; a detection circuit (308) configured to detect a duty cycle error and an in-phase/quadrature-phase (IQ) phase mismatch in a four-phase clock signal (122); and a calibration circuit (310) configured to provide a first pair of control signals (312h, 312b) to each clock correction circuit of the first pair of clock correction circuits (304i, 3042) and a second pair of control signals (312Qi, 312Q2) to each clock correction circuit of the second pair of clock correction circuits (3043, 3044) to correct duty cycle errors and IQ phase mismatches based on the output of the detector circuit (308).

摘要：【中文】本公开涉及一种有机电致发光化合物以及一种包含其的有机电致发光装置。通过包含本公开的有机电致发光化合物，可以提供具有改善的驱动电压、发光效率、寿命特征、和/或功率效率的有机电致发光装置。 【EN】The present disclosure relates to an organic electroluminescent compound and an organic electroluminescent device comprising the same. By including the organic electroluminescent compounds of the present disclosure, organic electroluminescent devices having improved driving voltage, luminous efficiency, life span characteristics, and/or power efficiency may be provided.

摘要：【中文】自适应视频编码器的实施例可包括以下的技术：确定与头戴式设备有关的信息，所述与头戴式设备有关的信息包括与聚焦有关的信息以及与运动有关的信息中的至少一项；以及基于所述与头戴式设备有关的信息确定一个或多个视频编码参数。公开了其它的实施例并对其主张权利。 【EN】Embodiments of an adaptive video encoder may include the following techniques: determining information related to a head mounted device, the information related to a head mounted device comprising at least one of information related to focus and information related to motion; and determining one or more video encoding parameters based on the information relating to the head mounted device. Other embodiments are disclosed and claimed.

摘要：【中文】本申请提供一种基于数据驱动的通风系统态势动态评价方法具体包括以下步骤：S1：确定可靠性评价方法的评价指标，所述评价指标包括一级可靠性评价指标、二级可靠性评价指标和三级可靠性评价指标；S2：采集目标煤矿井下监控系统的监控数据，并根据所述监控数据更新所述一级可靠性评价指标中的动态指标的指标值；S3：对所述一级可靠性评价指标进行可靠性进行评价，获得所述一级可靠性评价指标的可靠性等级；S3：从一级可靠性评价指标到目标矿井通风系统的可靠性等级逐级评价；S4：根据当前已有的通风系统可靠性评价结果，利用三次平滑算法预测未来某个时刻的通风系统的可靠性。通过煤矿井下实时动态数据更新可靠性评价指标，动态评价提升评价结果的精确性。 【EN】The application provides a ventilation system situation dynamic evaluation method based on data driving, which specifically comprises the following steps: s1: determining evaluation indexes of a reliability evaluation method, wherein the evaluation indexes comprise a primary reliability evaluation index, a secondary reliability evaluation index and a tertiary reliability evaluation index; s2: collecting monitoring data of a target coal mine underground monitoring system, and updating index values of dynamic indexes in the primary reliability evaluation indexes according to the monitoring data; s3: evaluating the reliability of the primary reliability evaluation index to obtain the reliability grade of the primary reliability evaluation index; s3: evaluating the reliability grade of the target mine ventilation system step by step from the first-stage reliability evaluation index; s4: and predicting the reliability of the ventilation system at a certain future moment by utilizing a cubic smoothing algorithm according to the current reliability evaluation result of the existing ventilation system. And updating reliability evaluation indexes through real-time dynamic data under the coal mine, and dynamically evaluating to improve the accuracy of evaluation results.

摘要：【中文】一种基于深度学习的配电网线路故障预测方法，包括：构造神经网络训练模型；采集配电网运行状态的历史数据，并从中得到与配电网故障成因有关的电网固有属性数据；获取与配电网运行状态的历史数据相对应的外部天气状态数据；将电网固有属性数据和外部天气状态数据进行融合，组成有利于配电网故障成因故障预测的样本数据；整合样本数据，采用长短期记忆神经网络进行建模，得到神经网络训练模型；利用神经网络训练模型进行故障的预测，得到配电网故障预测模型；分析配电网故障历史数据与当前的运行状态数据，天气状态数据，固有属性等数据，构建配电网故障预测模型。该方法能对全部线路的运行状态进行预测，能有效减少导致停电事件发生的概率。 【EN】A power distribution network line fault prediction method based on deep learning comprises the following steps: constructing a neural network training model; collecting historical data of the running state of the power distribution network, and obtaining inherent attribute data of the power distribution network related to the fault cause of the power distribution network from the historical data; acquiring external weather state data corresponding to historical data of the running state of the power distribution network; fusing the inherent attribute data of the power grid and the external weather state data to form sample data beneficial to the prediction of the fault cause fault of the power distribution network; integrating sample data, and modeling by adopting a long-term and short-term memory neural network to obtain a neural network training model; predicting faults by using the neural network training model to obtain a power distribution network fault prediction model; analyzing historical data of the power distribution network fault and data such as current running state data, weather state data and inherent attributes, and constructing a power distribution network fault prediction model. The method can predict the running states of all lines, and can effectively reduce the probability of causing power failure events.

摘要：【中文】本发明涉及一种车辆的动力传输装置，其可以包括：第一输入轴，其固定地连接到电动机/发电机；第二输入轴，其能够选择性地连接到第一输入轴；第三输入轴，其能够选择性地连接到第一输入轴；扭矩调节轴，其在第一输入轴的外部设置；中间轴；空转轴；输出轴；第一变速部分，其选择性地接收来自第三输入轴的扭矩，使接收的扭矩改变并输出改变的扭矩；第二变速部分，其将从第一输入轴到扭矩调节轴的扭矩改变，或者用于停止扭矩调节轴的旋转；以及第三变速部分，其选择性地接收来自所述第一变速部分和第二变速部分的扭矩并选择性地接收来自第二输入轴的扭矩，并且将改变的扭矩输出到输出轴。 【EN】The present invention relates to a power transmission apparatus of a vehicle, which may include: a first input shaft fixedly connected to the motor/generator; a second input shaft selectively connectable to the first input shaft; a third input shaft selectively connectable to the first input shaft; a torque adjustment shaft provided outside the first input shaft; an intermediate shaft; an idle shaft; an output shaft; a first shifting portion that selectively receives torque from the third input shaft, changes the received torque, and outputs the changed torque; a second shifting portion that changes torque from the first input shaft to the torque adjusting shaft or for stopping rotation of the torque adjusting shaft; and a third shifting portion selectively receiving the torques from the first and second shifting portions and selectively receiving the torque from the second input shaft, and outputting the changed torque to the output shaft.

摘要：【中文】本发明公开了一种车载式移动施工电源的现场安装方法，包括施工准备、接地网施工、垫层施工、设备安装、设备调试、进出线电缆续接和质量验评。本发明的有益效果是：在整体吊装前吊装人员明确设备的大致重量，重心位置，消除存在着的安全隐患，施工准备时在现场设置移动回收箱，并将废弃物分类收集、保管，进行无害化处理，能达到优化设备利用率、降低成本、提高工作效率的目的，并实现环保目的，进行设备安装时，应对设备基础设木质保护条进行保护，避免施工时损坏基础边角。 【EN】The invention discloses a field installation method of a vehicle-mounted mobile construction power supply, which comprises construction preparation, grounding grid construction, cushion layer construction, equipment installation, equipment debugging, incoming and outgoing cable splicing and quality inspection. The invention has the beneficial effects that: before integral hoisting, the general weight of equipment is made clear to hoisting personnel, the potential safety hazard of existence is eliminated to the focus position, sets up the removal collection box on the scene during construction preparation to with discarded object classification collection, keep, carry out innocent treatment, can reach the purpose of optimizing equipment utilization ratio, reduce cost, improvement work efficiency, and realize the environmental protection purpose, when carrying out equipment fixing, should establish wooden protection strip to the equipment foundation and protect, damage the basis corner when avoiding the construction.

摘要：【中文】本发明提供一种网源协调互动的AGC运行机组负荷变化速率优化方法和系统，通过实时采集机组运行参数，确定机组调节性能指标和安全指标，根据所述指标计算机组的紧急调用允许/禁止信号和紧急负荷调节速率信号；电力调度控制中心接收所述信号，根据当前全网功率调节需求，输出紧急调用投入/退出信号；切换模块根据机组自身的紧急调用允许/禁止信号和调度下发的紧急调用投入/退出信号，在正常负荷调节速率和紧急负荷调节速率进行切换，输出最终的机组负荷变化速率信号。本发明考虑电网当前调节需求的紧迫程度和机组的真实调节性能，动态对机组负荷调节速率进行管理，实现了网源协调控制，提高了电网频率的稳定性。 【EN】The invention provides a method and a system for optimizing the load change rate of an AGC (automatic gain control) running unit with network source coordination interaction, wherein the method comprises the steps of determining a unit regulation performance index and a safety index by acquiring unit running parameters in real time, and calculating an emergency call permission/prohibition signal and an emergency load regulation rate signal of the unit according to the indexes; the power dispatching control center receives the signal and outputs an emergency call input/exit signal according to the current power regulation requirement of the whole network; and the switching module switches between the normal load regulation rate and the emergency load regulation rate according to the emergency call enable/disable signal of the unit and the emergency call input/exit signal issued by scheduling, and outputs a final unit load change rate signal. The invention dynamically manages the load regulation rate of the unit by considering the urgency degree of the current regulation requirement of the power grid and the real regulation performance of the unit, realizes the network source coordination control and improves the stability of the power grid frequency.

摘要：【中文】本发明涉及一种混凝土坝动态监控系统，包括现场监测模块、远程控制模块以及信息中转模块；现场监测模块包括压力传感器、收集并处理监测数据的数据采集器以及报警器；远程控制模块包括对采集数据进行处理分析的远程服务器、对现场监测模块进行远程控制的远程控制器以及通讯模块；信息中转模块包括用于信息转换的交换机以及信号放大器，现场监测模块还包括视频监控系统，视频监控系统包括滑行轨道、滑车以及摄像机，摄像机与数据采集器连接，远程服务器上设置有视频显示器，显示摄像机拍摄到的视频信号，远程控制器对滑车进行远程控制。本发明能够更准确、及时的监控混凝土大坝的状态，做到提前预警，消除安全隐患。 【EN】The invention relates to a concrete dam dynamic monitoring system, which comprises a field monitoring module, a remote control module and an information transfer module, wherein the field monitoring module is used for monitoring the field of a concrete dam; the field monitoring module comprises a pressure sensor, a data collector for collecting and processing monitoring data and an alarm; the remote control module comprises a remote server for processing and analyzing the acquired data, a remote controller for remotely controlling the field monitoring module and a communication module; the information transfer module comprises a switch and a signal amplifier which are used for information conversion, the field monitoring module further comprises a video monitoring system, the video monitoring system comprises a sliding track, a pulley and a camera, the camera is connected with a data acquisition unit, a video display is arranged on a remote server, video signals shot by the camera are displayed, and the remote controller is used for remotely controlling the pulley. The invention can more accurately and timely monitor the state of the concrete dam, early warning is realized, and potential safety hazards are eliminated.