Your search keyword '"Chih-Ping Hsu"' showing total 2 results

1. Screw Slot Quality Inspection System Based on Tactile Network

Author

Mu Yen Chen, Yan-Chun Chen, Chih-Ping Hsu, Chih-Chin Wen, and Ren-Hung Hwang

Subjects

Router, Computer Networks and Communications, Computer science, Node (networking), Real-time computing, 020206 networking & telecommunications, 02 engineering and technology, Autoencoder, Default gateway, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, System on a chip, Anomaly detection, Latency (engineering), Data transmission

Abstract

The popularity of 5G networks has made smart manufacturing not limited to high-tech industries such as semiconductors due to its high speed, ultra-high reliability, and low latency. With the advance of system on chip (SoC) design and manufacturing, 5G is also suitable for data transmission in harsh manufacturing environments such as high temperatures, dust, and extreme vibration. The defect of the screw head is caused by the wear and deformation of the die forming the head after mass production. Therefore, the screw quality inspection system based on the tactile network in this article monitors the production quality of the screw; the system will send a warning signal through the router to remind the technician to solve the production problem when the machine produces a defective product. Sensors are embedded into the traditional screw heading machine, and sensing data are transmitted through a gateway to the voluntary computing node for screw slot quality inspection. The anomaly detection data set collected by the screw heading machine has a ratio of anomaly to normal data of 0.006; thus, we propose a time-series deep AutoEncoder architecture for anomaly detection of screw slots. Our experimental results show that the proposed solution outperforms existing works in terms of efficiency and that the specificity and accuracy can reach 97% through the framework proposed in this article.

Published

2021

2. Screw Slot Quality Inspection System Based on Tactile Network.

Author

YAN-CHUN CHEN, REN-HUNG HWANG, MU-YEN CHEN, CHIH-CHIN WEN, and CHIH-PING HSU

Subjects

ANOMALY detection (Computer security), PROBLEM solving, MASS production, DATA transmission systems, 5G networks, TACTILE sensors, MANUFACTURING defects, SCREWS

Abstract

The popularity of 5G networks has made smart manufacturing not limited to high-tech industries such as semiconductors due to its high speed, ultra-high reliability, and low latency. With the advance of system on chip (SoC) design and manufacturing, 5G is also suitable for data transmission in harsh manufacturing environments such as high temperatures, dust, and extreme vibration. The defect of the screw head is caused by the wear and deformation of the die forming the head after mass production. Therefore, the screw quality inspection system based on the tactile network in this article monitors the production quality of the screw; the system will send awarning signal through the router to remind the technician to solve the production problem when the machine produces a defective product. Sensors are embedded into the traditional screw heading machine, and sensing data are transmitted through a gateway to the voluntary computing node for screw slot quality inspection. The anomaly detection data set collected by the screw heading machine has a ratio of anomaly to normal data of 0.006; thus, we propose a time-series deep AutoEncoder architecture for anomaly detection of screw slots. Our experimental results show that the proposed solution outperforms existing works in terms of efficiency and that the specificity and accuracy can reach 97% through the framework proposed in this article. [ABSTRACT FROM AUTHOR]

Published

2021