From compressive sampling to compressive tasking: retrieving semantics in compressed domain with low bandwidth

IF 15.7 Q1 OPTICS
Zhihong Zhang, Bo Zhang, Xin Yuan, Siming Zheng, Xiongfei Su, Jinli Suo, David J. Brady, Qionghai Dai
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引用次数: 7

Abstract

High-throughput imaging is highly desirable in intelligent analysis of computer vision tasks. In conventional design, throughput is limited by the separation between physical image capture and digital post processing. Computational imaging increases throughput by mixing analog and digital processing through the image capture pipeline. Yet, recent advances of computational imaging focus on the “compressive sampling”, this precludes the wide applications in practical tasks. This paper presents a systematic analysis of the next step for computational imaging built on snapshot compressive imaging (SCI) and semantic computer vision (SCV) tasks, which have independently emerged over the past decade as basic computational imaging platforms.

SCI is a physical layer process that maximizes information capacity per sample while minimizing system size, power and cost. SCV is an abstraction layer process that analyzes image data as objects and features, rather than simple pixel maps. In current practice, SCI and SCV are independent and sequential. This concatenated pipeline results in the following problems: i) a large amount of resources are spent on task-irrelevant computation and transmission, ii) the sampling and design efficiency of SCI is attenuated, and iii) the final performance of SCV is limited by the reconstruction errors of SCI. Bearing these concerns in mind, this paper takes one step further aiming to bridge the gap between SCI and SCV to take full advantage of both approaches.

After reviewing the current status of SCI, we propose a novel joint framework by conducting SCV on raw measurements captured by SCI to select the region of interest, and then perform reconstruction on these regions to speed up processing time. We use our recently built SCI prototype to verify the framework. Preliminary results are presented and the prospects for a joint SCI and SCV regime are discussed. By conducting computer vision tasks in the compressed domain, we envision that a new era of snapshot compressive imaging with limited end-to-end bandwidth is coming.

Abstract Image

从压缩采样到压缩任务:低带宽压缩域语义检索
在计算机视觉任务的智能分析中,高通量成像是非常需要的。在传统的设计中,吞吐量受到物理图像捕获和数字后处理之间的分离的限制。计算成像通过图像捕获管道混合模拟和数字处理来增加吞吐量。然而,计算成像的最新进展主要集中在“压缩采样”上,这阻碍了在实际任务中的广泛应用。本文系统分析了基于快照压缩成像(SCI)和语义计算机视觉(SCV)任务的计算成像的下一步,这两个任务在过去十年中作为基本的计算成像平台独立出现。SCI是一种物理层过程,它使每个样本的信息容量最大化,同时使系统尺寸、功率和成本最小化。SCV是一个抽象层过程,它将图像数据分析为对象和特征,而不是简单的像素图。在目前的实践中,SCI和SCV是独立的、顺序的。这种串联的管道导致了以下问题:1)大量资源被花费在与任务无关的计算和传输上;2)SCI的采样和设计效率被削弱;3)SCI的重构误差限制了SCV的最终性能。考虑到这些问题,本文更进一步,旨在弥合SCI和SCV之间的差距,充分利用这两种方法。在回顾SCI研究现状的基础上,我们提出了一种新的联合框架,通过对SCI捕获的原始测量数据进行SCV,选择感兴趣的区域,然后对这些区域进行重建,以加快处理时间。我们使用我们最近建立的SCI原型来验证该框架。提出了初步结果,并讨论了联合SCI和SCV制度的前景。通过在压缩领域执行计算机视觉任务,我们设想一个端到端带宽有限的快照压缩成像的新时代即将到来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
25.70
自引率
0.00%
发文量
0
审稿时长
13 weeks
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