Abstract: A method for route handling of a regional centralized control station is based on a CTC3.0 technology, and includes the following steps: step (1): generating multi-station train and shunting plans according to a multi-station planning terminal, and executing steps (2) and (4) at the same time; step (2): sending the train plan to an autonomous computer to generate a train route sequence, and executing step (3); step (3): sending, by the autonomous computer, the train route sequence to a regional centralized control route handling terminal; step (4): compiling, by the multi-station planning terminal, an automatically generated shunting route sequence in the shunting plan, and executing step (5); and step (5): synchronizing, by a center service, the shunting route sequence to the regional centralized control route handling terminal.

Abstract: Disclosed are a control method for outputting ultrasound energy, a control host, a system, and a therapy instrument. The control method for outputting the ultrasound energy includes: detecting a moving speed of an ultrasound therapy probe; and controlling a transducer to output the ultrasound energy according to the detected moving speed; when the detected moving speed is less than or equal to a first preset speed value, the transducer is controlled to stop outputting the ultrasound energy.

Abstract: The present invention relates to a dynamic parameter calculation method based on a CTC simulation training procedure and an apparatus thereof. The method includes the following steps: step S1: establishing a parameterized multi-branch emergency response procedure template; and step S2: performing dynamic parameter calculation and substitution on CTC data by using a combinatorial computational branching method. Compared with the related art, the present invention has the advantages of strong applicability, high real-time performance, and high accuracy.

Abstract: A safe early warning method and device for full-section tunneling of a tunnel featuring dynamic water and weak surrounding rock, comprising establishing a dynamic coordinate system with an origin thereof moving along a tunnel excavation line, recording the moving distance of the origin, conducting three-dimensional laser scanning with the origin as a center to obtain point cloud data including coordinate data, collecting surrounding rock data; conducting deformation fitting on the point cloud data, calculating a fitting residual error, removing a noisy point, and conducting preprocessing; combining data of preprocessed point cloud, surrounding rock, and the tunnel excavation line to construct a tunnel excavation dynamic model; conducting stress analysis according to the model and determining whether to send out a safety early warning signal.

Abstract: The present invention relates to a CTC3.0-based implementation method for route handling of a regional centralized control station. The method is based on a CTC3.0 technology, and includes the following steps: step (1): generating multi-station train and shunting plans according to a multi-station planning terminal, and executing steps (2) and (4) at the same time; step (2): sending the train plan to an autonomous computer to generate a train route sequence, and executing step (3); step (3): sending, by the autonomous computer, the train route sequence to a regional centralized control route handling terminal; step (4): compiling, by the multi-station planning terminal, an automatically generated shunting route sequence in the shunting plan, and executing step (5); and step (5): synchronizing, by a center service, the shunting route sequence to the regional centralized control route handling terminal.

Abstract: A safe early warning method and device for full-section tunneling of a tunnel featuring dynamic water and weak surrounding rock, comprising establishing a dynamic coordinate system with an origin thereof moving along a tunnel excavation line, recording the moving distance of the origin, conducting three-dimensional laser scanning with the origin as a center to obtain point cloud data including coordinate data, collecting surrounding rock data; conducting deformation fitting on the point cloud data, calculating a fitting residual error, removing a noisy point, and conducting preprocessing; combining data of preprocessed point cloud, surrounding rock, and the tunnel excavation line to construct a tunnel excavation dynamic model; conducting stress analysis according to the model and determining whether to send out a safety early warning signal.

Abstract: A textile having a surface that is coated with a compound of formula I or formula II.

Abstract: A permanent magnet direct-drive bogie and a rail vehicle thereof are disclosed.

Abstract: Systems and methods according to the principles of the present disclosure include determining whether a volatile organic compound (VOC) characteristic within a cabin of a vehicle exceeds a predefined volatile organic compound threshold. Systems and methods can also include causing a blower of a Heating, Ventilation, and Cooling (HVAC) system of the vehicle to generate an airflow within the cabin for a predefined time period, an air distribution mode of operation to transition from a non-operational state to an operational state, cause an air intake mode of operation to transitions from a non-operational state to an operational state, or causing at least one window of the vehicle to transition from a closed position to an open position for the predefined time period when the volatile organic compound characteristic exceeds the predefined volatile organic compound threshold to reduce volatile organic compounds within the vehicle.

Abstract: Systems and methods according to the principles of the present disclosure include determining whether a volatile organic compound (VOC) characteristic within a cabin of a vehicle exceeds a predefined volatile organic compound threshold. Systems and methods can also include causing a blower of a Heating, Ventilation, and Cooling (HVAC) system of the vehicle to generate an airflow within the cabin for a predefined time period, an air distribution mode of operation to transition from a non-operational state to an operational state, cause an air intake mode of operation to transitions from a non-operational state to an operational state, or causing at least one window of the vehicle to transition from a closed position to an open position for the predefined time period when the volatile organic compound characteristic exceeds the predefined volatile organic compound threshold to reduce volatile organic compounds within the vehicle.

Abstract: The present invention provides a preamble sequence sending and receiving method and apparatus, and a system. The preamble sequence sending method includes: generating, by a transmit end, a frequency offset estimation sequence, where the frequency offset estimation sequence includes N subsequences each with a length of M, N is a positive integer greater than or equal to 2, and M is a positive integer; generating, by the transmit end, a prefix and a suffix based on the frequency offset estimation sequence; adding, by the transmit end, the prefix and the suffix before and after the frequency offset estimation sequence respectively to form a preamble sequence, where the prefix and the suffix are used for canceling multipath interference; and adding, by the transmit end, the preamble sequence to a data packet and sending the data packet to a receive end.

Abstract: A textile having a surface that is coated with a compound of formula I or formula II.

Abstract: The present invention provides a preamble sequence sending and receiving method and apparatus, and a system. The preamble sequence sending method includes: generating, by a transmit end, a frequency offset estimation sequence, where the frequency offset estimation sequence includes N subsequences each with a length of M, N is a positive integer greater than or equal to 2, and M is a positive integer; generating, by the transmit end, a prefix and a suffix based on the frequency offset estimation sequence; adding, by the transmit end, the prefix and the suffix before and after the frequency offset estimation sequence respectively to form a preamble sequence, where the prefix and the suffix are used for canceling multipath interference; and adding, by the transmit end, the preamble sequence to a data packet and sending the data packet to a receive end.

Abstract: Embodiments of the present invention disclose a queue scheduling method and apparatus, which can not only implement scheduling of a large number of queues, but also ensure that the queues uniformly send service data. The method includes: determining whether service data exists in each to-be-scheduled data queue and determining whether the to-be-scheduled data queues are allowed to send data; if it is determined that the service data exists in the to-be-scheduled data queues and the to-be-scheduled data queues are allowed to send data, placing queue marks of the to-be-scheduled data queues into a mark queue; scheduling queue marks of the to-be-scheduled data queues from the mark queue in sequence, scheduling the to-be-scheduled data queues corresponding to the queue marks, and enabling the to-be-scheduled data queues corresponding to the queue marks to send service data not exceeding predetermined data amounts.

Abstract: A composition and method for generating patient- or person-specific proliferative and substantially pure cardiac myocyte cell lines from pluripotent stem cells (iPSCs) is described herein. The patient-specific cardiac myocyte cell lines of the present invention find applications in research, drug screening and autologous cell-based therapy. The method of the present invention is simple and reproducible and generates cardiac myocyte cells having high purities and proliferating capacities.

Abstract: Embodiments of the present invention disclose a queue scheduling method and apparatus, which can not only implement scheduling of a large number of queues, but also ensure that the queues uniformly send service data. The method includes: determining whether service data exists in each to-be-scheduled data queue and determining whether the to-be-scheduled data queues are allowed to send data; if it is determined that the service data exists in the to-be-scheduled data queues and the to-be-scheduled data queues are allowed to send data, placing queue marks of the to-be-scheduled data queues into a mark queue; scheduling queue marks of the to-be-scheduled data queues from the mark queue in sequence, scheduling the to-be-scheduled data queues corresponding to the queue marks, and enabling the to-be-scheduled data queues corresponding to the queue marks to send service data not exceeding predetermined data amounts.

Abstract: A composition and method for generating patient- or person-specific proliferative and substantially pure cardiac myocyte cell lines from pluripotent stem cells (iPSCs) is described herein. The patient-specific cardiac myocyte cell lines of the present invention find applications in research, drug screening and autologous cell-based therapy. The method of the present invention is simple and reproducible and generates cardiac myocyte cells having high purities and proliferating capacities.

Abstract: Novel therapies for the treatment of Fabry disease by using androgen/androgen receptor (AR) pathway-related molecules as biomarkers and use of approaches targeting androgen/AR pathway are presented herein. The involvement of aberrant androgen/AR pathway in Fabry disease has never been previously described. The present invention describes, (i) use of approaches that target androgen/AR pathway as therapeutic treatments for Fabry disease and (2) use of the levels of androgen/AR pathway-related molecules in body fluids or tissues as biomarkers for evaluation of disease progression and efficacy of treatments in Fabry patients.