Decomposition of the Wave Field into Optimized Gaussian Packets

We describe a new method for remote emotional state assessment using multispectral face videos, and present our findings: unique transdermal, cardiovascular and spatiotemporal facial patterns associated with different emotional states. The method does not rely on stereotypical facial expressions but utilizes different wavelength sensitivities (visible spectrum, near-infrared, and long-wave infrared) to gauge correlates of autonomic nervous system activity spatially and temporally distributed across the human face (e.g., blood flow, hemoglobin concentration, and temperature). We conducted an experiment where 110 participants viewed 150 short emotion-eliciting videos and reported their emotional experience, while three cameras recorded facial videos with multiple wavelengths. Spatiotemporal multispectral features from the multispectral videos were used as inputs to a machine learning model that was able to classify participants’ emotional state (i.e., amusement, disgust, fear, sexual arousal, or no emotion) with satisfactory results (average ROC AUC score of 0.75), while providing feature importance analysis that allows the examination of facial occurrences per emotional state. We discuss findings concerning the different spatiotemporal patterns associated with different emotional states as well as the different advantages of the current method over existing approaches to emotion detection.

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VisionISP: Repurposing the Image Signal Processor for Computer Vision Applications

Isikdogan

Sushma

et al. 2019

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Traditional image signal processors (ISPs) are primarily designed and optimized to improve the image quality perceived by humans. However, optimal perceptual image quality does not always translate into optimal performance for computer vision applications. We propose a set of methods, which we collectively call VisionISP, to repurpose the ISP for machine consumption. VisionISP significantly reduces data transmission needs by reducing the bit-depth and resolution while preserving the relevant information. The blocks in VisionISP are simple, content-aware, and trainable. Experimental results show that VisionISP boosts the performance of a subsequent computer vision system trained to detect objects in an autonomous driving setting. The results demonstrate the potential and the practicality of VisionISP for computer vision applications.

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Automatic ISP Image Quality Tuning Using Nonlinear Optimization

Nishimura¹,

Gerasimow²,

Sushma³

et al. 2018

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Fig. 1. Comparison of ISP output images with different tunings on IMX260 ISO400. From left to right: Not-tuned, Hand-tuned by image quality expert, Auto-tuned. ABSTRACTImage Signal Processor (ISP) comprises of various blocks to reconstruct image sensor raw data to final image consumed by human visual system or computer vision applications. Each block typically has many tuning parameters due to the complexity of the operation. These need to be hand tuned by Image Quality (IQ) experts, which takes considerable amount of time. In this paper, we present an automatic IQ tuning using nonlinear optimization and automatic reference generation algorithms. The proposed method can produce high quality IQ in minutes as compared with weeks of handtuned results by IQ experts. In addition, the proposed method can work with any algorithms without being aware of their specific implementation. It was found successful on multiple different processing blocks such as noise reduction, demosaic, and sharpening.

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Eye Contact Correction using Deep Neural Networks

Isikdogan

Gerasimow

Michael

2020

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Example based demosaicing

Michael

Kiryati

2014

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Demosaicing is an algorithm used to reconstruct a color image from the incomplete color samples of a color filter array (CFA). Most demosaicing algorithms can be broadly classified into spatial-domain and frequency-domain approaches. Despite significant progress in the past decade, current state of the art demosaicing algorithms still tend to produce artifacts at high-saturation edges. In this paper we propose a new approach to demosaicing -example based. Comparative experimental evaluation shows that example-based demosaicing (EBD) produces visually superior, artifact-free results.

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Gilad Michael

Classification of emotional states via transdermal cardiovascular spatiotemporal facial patterns using multispectral face videos

VisionISP: Repurposing the Image Signal Processor for Computer Vision Applications

Automatic ISP Image Quality Tuning Using Nonlinear Optimization

Eye Contact Correction using Deep Neural Networks

Example based demosaicing

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