High level modular implementation of a lossy hyperspectral image compression algorithm on a FPGA

机译：有损高光谱图像压缩算法在FPGA上的高级模块化实现

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In this paper, a Field Programmable Gate Array (FPGA) implementation of the LCE (Lossy Compression for ExoMars) algorithm is presented. This algorithm shows a good quality/compression ratio tradeoff for hyperspectral images, at the expenses of a higher complexity with respect to lossless algorithms. In order to deal with this complexity levels, high level synthesis (HLS) tools, such as Catapult C, have been used together with Precision RTL so that a final implementation was obtained in a Virtex-5 FPGA. The results show a performance slightly higher than a previous losslessear-lossless algorithm implementation, in terms of operating frequency (87 MHz vs. 81 MHz), with a reduced number of memory blocks, at the expenses of an increase in the number of digital signal processing (DSP) slices used.

机译：本文介绍了LCE（ExoMars的有损压缩）算法的现场可编程门阵列（FPGA）实现。该算法显示了高光谱图像的良好质量/压缩比折衷，但相对于无损算法而言，具有更高的复杂性。为了处理这种复杂性级别，已将诸如Catapult C之类的高级综合（HLS）工具与Precision RTL一起使用，以便在Virtex-5 FPGA中获得最终实现。结果表明，就工作频率（87 MHz与81 MHz）而言，与以前的无损/近无损算法实现相比，其性能略有提高，但存储块的数量却有所减少，但增加了存储模块的数量。使用的数字信号处理（DSP）切片。

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《Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing》|2013年|1-4|共4页
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Aday García; Lucana Santos; Sebastián López; Gustavo Marrero; José Fco. López; Roberto Sarmiento;
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Random access memory; Image coding; Hardware; Algorithm design and analysis; Field programmable gate arrays; Hyperspectral imaging; Prediction algorithms;

机译：随机存取存储器;图像编码;硬件;算法设计与分析;现场可编程门阵列;高光谱成像;预测算法;

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2. FPGA implementation of a lossless to lossy bitonal image compression system [J] . ANDREAS SAVAKIS, MARCIN LUKOWIAK, JEREMY PYLE Kwartalnik Elektroniki i Telekomunikacji . 2008,第4期

机译：无损到有损二值图像压缩系统的FPGA实现
3. Lossy-to-Lossless Compression of Hyperspectral Image Using the 3D Set Partitioned Embedded ZeroBlock Coding Algorithm [J] . Ying Hou Journal of Software Engineering and Applications . 2009,第2期

机译：使用3D集分区嵌入式零块编码算法对高光谱图像进行无损压缩
4. High level modular implementation of a lossy hyperspectral image compression algorithm on a FPGA [C] . Aday García, Lucana Santos, Sebastián López, Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing . 2013

机译：FPGA上有损高光谱图像压缩算法的高电平模块化实现
5. An FPGA implementation of the image space reconstruction algorithm for hyperspectral imaging analysis. [D] . Morales Morales, Javier. 2007

机译：用于高光谱成像分析的图像空间重建算法的FPGA实现。
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7. Lossy Hyperspectral Image Compression on a Reconfigurable and Fault-Tolerant FPGA-Based Adaptive Computing Platform [O] . Yubal Barrios, Alfonso Rodríguez, Antonio Sánchez, 2020

机译：基于可重构和容错FPGA的自适应计算平台上的有损高光谱图像压缩

High level modular implementation of a lossy hyperspectral image compression algorithm on a FPGA

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