Abstract: Techniques for determining depth of a downhole tool in a wellbore include running a first downhole tool into a wellbore on a downhole conveyance; generating time-dependent logging data with the first downhole tool in the wellbore, at least one of the depth-dependent logging data or the time-dependent logging data associated with an electric or a magnetic property of a wellbore casing or a geological formation; correlating at the first downhole tool the time-dependent logging data with the depth-dependent logging data; and based on the correlation, determining at least one of a depth of the first downhole tool in the wellbore or a speed of the first downhole tool in the wellbore.

Abstract: A pneumatic ship and a pneumatic ship system are provided. The pneumatic ship includes a floating body which is suitable for floating on a water surface and a pneumatic propulsion device arranged on the floating body, wherein the pneumatic propulsion device is suitable for forming airflow to generate a propulsive force, so as to push the floating body to move. Technical solutions of the present invention have a higher flexibility.

Abstract: Techniques for determining depth of a downhole tool in a wellbore include running a first downhole tool into a wellbore on a downhole conveyance; generating time-dependent logging data with the first downhole tool in the wellbore, at least one of the depth-dependent logging data or the time-dependent logging data associated with an electric or a magnetic property of a wellbore casing or a geological formation; correlating at the first downhole tool the time-dependent logging data with the depth-dependent logging data; and based on the correlation, determining at least one of a depth of the first downhole tool in the wellbore or a speed of the first downhole tool in the wellbore.

Abstract: The present invention discloses a multi-core processor based image data rotating processing system for high-speed digital textile printers, including a data receiving equipment, a data analysis and processing equipment, a data transmission channel and data output equipment. The present invention also discloses a multi-core processor based image data rotating processing method for high-speed printers; it aims to receive data via the Ethernet interface, use numerous cores of the processor for parallel data processing, and implement data output via FPGA. As compared with prior arts, the system and method of the present invention can significantly improve the data gyration efficiency and output, and implement high yield of digital textile printers.

Abstract: The present invention discloses a multi-core processor based image data rotating processing system for high-speed digital textile printers, including a data receiving equipment, a data analysis and processing equipment, a data transmission channel and data output equipment. The present invention also discloses a multi-core processor based image data rotating processing method for high-speed printers; it aims to receive data via the Ethernet interface, use numerous cores of the processor for parallel data processing, and implement data output via FPGA. As compared with prior arts, the system and method of the present invention can significantly improve the data gyration efficiency and output, and implement high yield of digital textile printers.

Abstract: An implant assembly for creating a neural interface with a central nervous system having at least one biocompatible intracortical electrode is presented along with a method of making and implanting device. The mechanical, electrical and biological characteristics of the assembly support its use as a reliable long term implant.

Abstract: An implant assembly for creating a neural interface with a central nervous system having at least one biocompatible intracortical electrode is presented along with a method of making and implanting device. The mechanical, electrical and biological characteristics of the assembly support its use as a reliable long term implant.