基于投影映射的物体指向，使用高帧率的摄像机-投影仪系统

IF 1.5 Q3 INSTRUMENTS & INSTRUMENTATION

ROBOMECH Journal Pub Date : 2020-09-18 DOI:10.21203/rs.3.rs-78087/v1

Deepak Kumar, Sushil Raut, Kohei Shimasaki, T. Senoo, I. Ishii

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引用次数: 1

摘要

本研究提出了一种基于可见光通信(VLC)的物理安全新方法，该方法使用信息对象指向和高帧率(HFR)视觉系统的同时识别。在该方法中，基于卷积神经网络(CNN)的目标检测方法用于检测环境目标，以辅助基于时空调制模式(SMP)的不可察觉投影映射来指向所需目标。远距离定位HFR视觉系统以每秒数百帧的速度运行，可以实时识别和定位目标。人工智能相机-投影仪(AiCP)系统的原型被用作发射器，以30 fps的速度实时检测多个物体，并同时通过编码480- hz - smp掩模将检测结果投射到物体上。多个480-fps的HFR视觉系统作为接收机，无需摄像机标定或复杂的识别方法，通过解码HFR序列中像素亮度的变化，即可识别出点目标。几个实验证明了我们提出的方法在各种条件下使用微型和现实世界对象的有效性。

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Projection-mapping-based object pointing using a high-frame-rate camera-projector system

The novel approach to physical security based on visible light communication (VLC) using an informative object-pointing and simultaneous recognition by high-framerate (HFR) vision systems is presented in this study. In the proposed approach, a convolutional neural network (CNN) based object detection method is used to detect the environmental objects that assist a spatiotemporal-modulated-pattern (SMP) based imperceptible projection mapping for pointing the desired objects. The distantly located HFR vision systems that operate at hundreds of frames per second (fps) can recognize and localize the pointed objects in real-time. The prototype of an artificial intelligence-enabled camera-projector (AiCP) system is used as a transmitter that detects the multiple objects in real-time at 30 fps and simultaneously projects the detection results by means of the encoded-480-Hz-SMP masks on to the objects. The multiple 480-fps HFR vision systems as receivers can recognize the pointed objects by decoding pixel-brightness variations in HFR sequences without any camera calibration or complex recognition methods. Several experiments were conducted to demonstrate our proposed method’s usefulness using miniature and real-world objects under various conditions.

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来源期刊

ROBOMECH Journal Mathematics-Control and Optimization

CiteScore

3.20

自引率

7.10%

发文量

审稿时长

13 weeks

期刊介绍： ROBOMECH Journal focuses on advanced technologies and practical applications in the field of Robotics and Mechatronics. This field is driven by the steadily growing research, development and consumer demand for robots and systems. Advanced robots have been working in medical and hazardous environments, such as space and the deep sea as well as in the manufacturing environment. The scope of the journal includes but is not limited to: 1. Modeling and design 2. System integration 3. Actuators and sensors 4. Intelligent control 5. Artificial intelligence 6. Machine learning 7. Robotics 8. Manufacturing 9. Motion control 10. Vibration and noise control 11. Micro/nano devices and optoelectronics systems 12. Automotive systems 13. Applications for extreme and/or hazardous environments 14. Other applications