Abstract: The present disclosure discloses a method for preparing a tensile specimen and a vibration curing device. The method includes obtaining a colloid mixture and putting it into a beaker and using a stirring device to stir the colloid mixture mixed evenly. The method further includes putting the colloid mixture into a vacuum dryer, and spraying a release agent on cleaned tensile specimen mold, and using a needle to inject the colloid mixture into a molding groove of the tensile specimen mold and filling the molding groove, fixing the pressing plate and the tensile specimen mold together to form a whole mold, fixing it on a vibration platform of a vibration device, turning on the vibration device to vibrate the whole mold and to heat the whole mold to a predetermined temperature, cooling the whole mold, and demolding the whole mold to obtain the tensile specimen of the structural adhesive.

Abstract: The embodiments of the present application provide a multipath interference detection method and apparatus, and an optical module and a communication device. The method comprises: receiving a first signal; and performing detection on a frequency in the first signal, wherein if a first optical module detects, from the first signal, only a first frequency corresponding to first information, it is determined that multipath interference is not detected, and/or if the first optical module detects, from the first signal, at least a second frequency corresponding to second information, it is determined that multipath interference is detected, the first information being service information sent by a second optical module, and the second information being service information sent by the first optical module.

Abstract: The present disclosure provides an information transmission method, an information transmission device, a communication device and a readable storage medium. The information transmission method includes: obtaining OAM information from an optical network; encapsulating the obtained OAM information to form an OAM frame, the OAM frame including N data frames each having a frame length of L, N varying along with a volume of the OAM information, L being a constant value regardless of the volume of the OAM information; and transmitting the OAM frame. The OAM information is transmitted in a length-constant frame, so it is able to facilitate encoding and decoding of a message, simplifying the processing and reduce the time consumption, and facilitate the extension in accordance with a message content and ensure the extendibility, thereby to solve such problems as complicated processing, being time-consuming, and poor extendibility in the conventional OAM information transmission scheme.

Abstract: A wavelength division multiplexing structure comprises a first wavelength division multiplexer and a second wavelength division multiplexer, each comprises N filtering units, a branch side interface connected to each filtering units, and a line side interface, N being a positive integer; each filtering unit corresponds to one central wavelength; the line side interface of the first wavelength division multiplexer and that of the second wavelength division multiplexer are connected by an optical fiber; the N filtering units are divided into multiple filtering unit groups, and the multiple filtering unit groups are cascaded in series or cascaded in a series-parallel combination; filter units in each filtering unit group are cascaded in series; and a cascade mode and/or cascade position corresponding to each filter unit in the first wavelength division multiplexer and the second wavelength division multiplexer is at least related to the center wavelengths corresponding to the filter unit.

Abstract: A method for fault location comprises at least one of: sending, by a second optical module, a configuration message, to a first optical module, receiving, by the second optical module, a response message from the first optical module, and performing fault location according to the response message for the configuration message, wherein the response message is a response message sent to the second optical module to confirm a loopback configuration is successful, after the first optical module receives the configuration message from the second optical module and the first optical module configures the loopback configuration; or sending a data stream to a first optical module after a second optical module receives a response message from the first optical module, receiving, by the second optical module, a data stream returned from the first optical module, and performing fault location according to the data stream returned, wherein the response message is a response message sent to the second optical module to c

Abstract: A time slot allocation processing method includes: a node device determining a time delay, in the node device, from a certain input port time slot to another port time slot, wherein the node device is a node device on an end-to-end channel; and the node device determining that the time delay is used for the establishment of end-to-end channel time slot allocation. A time delay sent by each node device is received, and end-to-end channel time slot allocation is performed according to each time delay. By using the present application, a time delay caused by time slot allocation can be reduced in a channel, thereby decreasing an end-to-end channel time delay.

Abstract: This disclosure discloses an operations, administration and maintenance (OAM) message transmission method, apparatus, sending end device, receiving end device and storage medium. The method includes: sending an OAM block by the sending end device; wherein only a single OAM block is sent in each sending period.

Abstract: A wavelength division multiplexing structure comprises a first wavelength division multiplexer and a second wavelength division multiplexer, each comprises N filtering units, a branch side interface connected to each filtering units, and a line side interface, N being a positive integer; each filtering unit corresponds to one central wavelength; the line side interface of the first wavelength division multiplexer and that of the second wavelength division multiplexer are connected by an optical fiber, the N filtering units are divided into multiple filtering unit groups, and the multiple filtering unit groups are cascaded in series or cascaded in a series-parallel combination; filter units in each filtering unit group are cascaded in series; and a cascade mode and/or cascade position corresponding to each filter unit in the first wavelength division multiplexer and the second wavelength division multiplexer is at least related to the center wavelengths corresponding to the filter unit.

Abstract: Provided are an optical module, a management and control information processing method, and a communication system. The optical module includes: a clock recovery unit, an optical transmitting unit, an optical receiving unit, and a micro-control unit. The optical module also includes: a logic processing unit, which is configured to add first management and control information to first service information, the first service information being service information sent by the optical module to an optical module on the other side, and obtain second management and control information from second service information, the second service information being service information sent by the optical module on the other side to the optical module.

Abstract: The present disclosure provides an information transmission method, an information transmission device, a communication device and a readable storage medium. The information transmission method includes: obtaining OAM information from an optical network; encapsulating the obtained OAM information to form an OAM frame, the OAM frame including N data frames each having a frame length of L, N varying along with a volume of the OAM information, L being a constant value regardless of the volume of the OAM information; and transmitting the OAM frame. The OAM information is transmitted in a length-constant frame, so it is able to facilitate encoding and decoding of a message, simplifying the processing and reduce the time consumption, and facilitate the extension in accordance with a message content and ensure the extendibility, thereby to solve such problems as complicated processing, being time-consuming, and poor extendibility in the conventional OAM information transmission scheme.

Abstract: Embodiments of the present disclosure provide an optical signal transmission method, apparatus, and device. The method at a first device side comprises: n first colored optical modules respectively transmit optical signals with the frequency being f and the wavelengths respectively being ?1-?n, wherein ?1-?n are different from each other; and in-band optical layer operation, administration, and maintenance (0AM) information with the modulation frequency being k1-kn is separately superimposed on the optical signals with the wavelengths respectively being ?1-?n.

Abstract: Provided are an optical module, a management and control information processing method, and a communication system. The optical module includes: a clock recovery unit, an optical transmitting unit, an optical receiving unit, and a micro-control unit. The optical module also includes: a logic processing unit, which is configured to add first management and control information to first service information, the first service information being service information sent by the optical module to an optical module on the other side, and obtain second management and control information from second service information, the second service information being service information sent by the optical module on the other side to the optical module.

Abstract: A system, a method and a related device for signal transmission are provided in order to improve utilization efficiency of the fiber.

Abstract: A system, a method and a related device for signal transmission are provided in order to improve utilization efficiency of the fiber.

Abstract: A method, device, system for realizing polarization mode dispersion (PMD) compensation are provided. The method for realizing PMD compensation includes: de-multiplexing a polarization-multiplexed optical signal, to obtain a first polarization light and a second polarization light; and joint-equalizing the first polarization light and the second polarization light, to obtain a first equalization signal and a second equalization signal. Since the polarization-multiplexed optical signal is de-multiplexed and then joint-equalized, not only the intra-channel symbol interference but also the inter-channel symbol interference during transmission of the polarization-multiplexed optical signal is eliminated, so as to realize the PMD compensation.