GALS architecture of H.264 video encoding system on DN-DualV6-PCIe-4 FPGA platform

Yang, Qihua; Wang, Teng; Su, Xindong; Wang, Lijia; Wang, Xinan

doi:10.1109/icosp.2012.6491520

Cited by 3 publications

(2 citation statements)

References 7 publications

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“…At the same time, since the new generation of the video encoding standard-H.264 has been promulgated, it has been widely applied for its excellent compression performance, good affinity of network and great power on error resistance. But in the past, the technology was mainly focused on the applications on PC platform, which relied on the software to complete the H.264 [4,5]codec, so it had been restricted in many occasions. In the embedded Linux environment, the inner module-MFC of ARM can serve as the H.264 codec and undertake the tasks of video acquisition, transmission, real-time display and data storage, etc.…”

Section: Introductionmentioning

confidence: 99%

Video Transmission Control System Based on 3G Wireless Network

Wang

Xiong

Yang

et al. 2013

AMM

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A wireless video transmission system is put forward in this paper. It is constituted by 3G wireless networks and ARM11. Collecting video data is used by V4L2 technology, and the H.264 video codec is used by S3C6410 processors the MFC module. The video codec is sent to remote monitoring center via 3G wireless network. The System can complete video capture, coding, wireless transmission and decoding, and displaying on the LCD. The experiment show the system can achieve wireless remote monitoring.

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Section: Introductionmentioning

confidence: 99%

Video Transmission Control System Based on 3G Wireless Network

Wang

Xiong

Yang

et al. 2013

AMM

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“…The reverse excess current can be generally limited by connecting a bypass diode in parallel with the solar cells to avoid irreversible damage of a commercial module due to a hot spot [5]. A partially reversebiased module with and without an operating bypass diode was tested in order to predict the output, the surface temperature distribution, and the hot spots in the solar cells [9,14,15]. Therefore, the installation conditions for a bypass diode were extensively studied with respect to the performance factors of the module, such as the number of solar cells connected, the shading ratio, and the number of shaded solar cells, in an effort to reduce the heat generated by the hot spot as well as the power dissipated there [12,16].…”

Section: Introductionmentioning

confidence: 99%

Optimal Design of PV Module with Bypass Diode to Reduce Degradation due to Reverse Excess Current

Jung¹,

Kang

Ahn³

2014

Transactions on Electrical and Electronic Materials

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In this paper, we present an economical and practical standard to install a bypass diode in a thin-film PV module. This method helps to reduce heat generation and to prevent module degradation due to excess current from reverse bias. The experimental results confirm that for different numbers of solar cells, there is a relation between the excess reverse current and the degradation of solar cells in a-Si:H modules. The optimal number of solar cells that can be connected per bypass diode could be obtained through an analysis of the results to effectively suppress the degradation and to reduce the heat generated by the module. This technique could be expanded for use in high power crystalline Si PV modules.

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