Abstract: Embodiments of this application disclose a transmission processing method and apparatus, a device, and a storage medium. The method is applied to a first device, and includes: receiving a pre-scheduling message that is transmitted by a second device through a first channel; reading, from the pre-scheduling message, a pre-scheduling moment and a pre-scheduling band that are used for pre-scheduling transmission between the first device and the second device; and transmitting, before the pre-scheduling moment is reached, indication information to the second device by using any band other than the pre-scheduling band, the indication information being used for indicating cancellation of the pre-scheduling transmission.

Abstract: A surface acoustic wave resonator device, and method for manufacturing the same and filter, the method includes: forming an interdigital transducer including interdigital electrodes on the piezoelectric substrate; forming the interdigital transducer includes: forming initial interdigital electrodes on the piezoelectric substrate, wherein each initial interdigital electrode has a first width, and every two adjacent initial interdigital electrodes have an initial interdigital gap with a first spacing therebetween; and forming additional interdigital electrodes on the piezoelectric substrate, wherein each initial interdigital gap has a portion filled by one of additional interdigital electrodes; each interdigital electrode includes an initial interdigital electrode and an additional interdigital electrode connected to each other; each interdigital electrode has a second width, and every two adjacent interdigital electrodes have a second spacing therebetween; the second width is greater than the first width, and

Abstract: A road information detection method is applied to automatic driving or intelligent driving and includes receiving a front-looking image from at least one front-looking camera apparatus; receiving a rear-looking image from at least one rear-looking camera apparatus; obtaining front-looking lane line information based on the front-looking image; obtaining rear-looking lane line information based on the rear-looking image; and obtaining target lane line information based on the front-looking lane line information and the rear-looking lane line information.

Abstract: A half-wave back-folding directional microwave detection antenna includes a half-wave oscillator and a reference ground. The half-wave oscillator has an electrical length greater than or equal to ½ wavelength and less than or equal to ¾ wavelength. The half-wave oscillator is folded back to form a feed point that a distance between two ends of the half-wave oscillator is greater than or equal to ?/128 and is lesser than or equal to ?/6. The two ends of the half-wave oscillator are spaced apart from the reference ground with a distance greater than or equal to ?/128. A distance between at least one end of the half-wave oscillator and the reference ground is lesser than or equal to ?/16. The two ends of the half-wave oscillator form a phase difference and are coupled to each other, wherein ? is wavelength parameter corresponding to frequency of the excitation signal.

Abstract: The present application provides an ultrasonic wake-up system. The system includes an ultrasonic imaging device, an ultrasound stimulation device, and an ultrasound stimulation effect evaluation device, and acquires an ultrasonic image of a target object through the ultrasonic imaging device, transmits an ultrasound to the target object based on the ultrasonic image through the ultrasound stimulation device, and adjusts the transmitted ultrasound required through the ultrasound stimulation effect evaluation device. Therefore, peripheral nerves are accurately stimulated, an uplink reticular wake-up system is activated, so as to wake up patients with disorders of consciousness.

Abstract: A computing device and a computing system are provided. The computing device comprises: a plurality of computing modules; and serial communication paths between/among the plurality of computing modules. Each computing module comprises: an internal circuit for performing an operation on a signal received from a corresponding serial communication path; and an extension circuit for receiving a signal from the internal circuit as an input signal. The extension circuit comprises: a delay module for delaying the input signal, the delay module comprising one or more delay units; one or more extension select modules for selectively performing a level extension on the input signal through the signal delayed by corresponding one or more delay units to generate one or more respective level-extended signals; and an output module for outputting one or more of the one or more level-extended signals.

Abstract: A light control film and a display panel are provided. Light blocking members of the light control film are disposed on a side of a first base material layer, and light transmissive regions are defined between the light blocking members. Light transmissive members are filled in the light transmissive regions. Light control members are disposed on the light transmissive members corresponding to the light transmissive regions and are configured to decrease light emission angles of light passing through the light transmissive members. Therefore, when a specific light emission angle is realized, an area of the light transmissive regions can be increased to remedy a problem that a low light transmittance rate exists in current anti-peep films.

Abstract: A single-photon avalanche diode and a manufacturing method thereof, a detector array, and an image sensor are disclosed. The back-side illuminated single-photon avalanche diode is disposed with a light-trapping structure and a sidewall reflection wall. Incident light is reflected, scattered, and refracted by the light-trapping structure and then dispersed to various angles, and with the addition of the reflection effect of the sidewall reflection wall, the effective optical path of the light in the back-side illuminated single-photon avalanche diode can be extended. The manufacturing method of a back-side illuminated single-photon avalanche diode achieves the manufacturing of the back-side illuminated single-photon avalanche diode.