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Dynamic stepless racemization system and method based on high-level integration of large-scale integrated circuit

A large-scale integrated circuit, high-level synthesis technology, applied in electrical components, details involving anti-aliasing, details involving image processing hardware, etc., can solve the problem of low latency, low response speed, complex processing technology, large system volume and power consumption And other issues

Active Publication Date: 2022-01-21
BEIHANG UNIV
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Problems solved by technology

At present, there are three common derotation methods in practical engineering applications, namely electronic derotation, optical derotation and physical derotation. Optical derotation is currently the most used method, which corrects the image by rotating the derotation prism in the imaging optical path , although this method has low delay and fast response speed, but its processing technology is complex, the accuracy of race-rotation angle is low, and the system volume and power consumption are large

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  • Dynamic stepless racemization system and method based on high-level integration of large-scale integrated circuit
  • Dynamic stepless racemization system and method based on high-level integration of large-scale integrated circuit
  • Dynamic stepless racemization system and method based on high-level integration of large-scale integrated circuit

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Embodiment Construction

[0042] The specific embodiments of the present invention will be further described below in conjunction with the accompanying drawings.

[0043] Such as figure 1 As shown, the derotation system of the present invention includes a video acquisition module, a video decoding module, a core processing module and a video encoding module; the core processing module adopts a heterogeneous system-on-chip of FPGA+ARM architecture; FPGA includes a dynamic stepless derotation module, a video converter AXI bus video stream module, AXI video stream DDR read-write module and the pixel combination module innovatively designed for reducing algorithm delay and improving bus bandwidth utilization in the present invention are four-in-one modules; ARM includes video storage module DDR and RS422 serial port Communication module, data communication between FPGA and ARM is carried out by AXI control bus.

[0044] The video acquisition module is an industrial camera with a resolution of 1920×1080, ...

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Abstract

The invention relates to a dynamic stepless racemization system and method based on high-level integration of a large-scale integrated circuit. The system comprises a video acquisition module, a video decoding module, a video storage module, a data communication module, a video coding module, a dynamic stepless racemization module and a pixel merging module, namely a four-in-one module, which is innovatively designed for reducing algorithm delay and improving the utilization rate of bus bandwidth. According to the invention, the dynamic stepless racemization function is realized by adopting the high-level comprehensive technology, real-time racemization processing can be carried out on the acquired video image in a photoelectric platform, and compared with an existing racemization technology, the characteristics of FPGA parallel acceleration and assembly line optimization are fully utilized, the system and method have the excellent characteristics of high video resolution, large racemization range, high racemization precision, clear and sawtooth-free processed images, low output delay, high system stability, easiness in processing, low power consumption, small size and the like.

Description

technical field [0001] The invention relates to the field of intelligent embedded video processing, in particular to a dynamic stepless derotation system and method based on high-level synthesis of large-scale integrated circuits. Background technique [0002] During the video recording and aiming process of the airborne pod, the outer frame structure of the TV will inevitably undergo rolling motion, which will cause relative movement of the optical system relative to the carrier aircraft, resulting in image rotation; During the process, the fuselage often rolls at a large angle (even up to 360°), which causes the TV screen to rotate at a large angle, which seriously affects the perception of the operator. Therefore, in many optical sighting devices or photoelectric pod systems, in order to eliminate the image rotation problem caused by the attitude change of the aircraft, it is necessary to perform anti-rotation processing on the original video image acquired by the TV syst...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T1/20G06T1/60G06T5/00H04N19/436
CPCG06T1/20G06T1/60H04N19/436G06T2200/28G06T2200/12G06T5/90
Inventor 张弘宋剑波杨一帆邢万里袁丁李旭亮
Owner BEIHANG UNIV
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