期刊文献+
共找到5篇文章
< 1 >
每页显示 20 50 100
FDI in Hi-tech Service Sector and Hi-tech Manufacturing Increased
1
作者 Press Conference of Ministry of Commerce 《China's Foreign Trade》 2016年第5期24-25,共2页
China’s foreign trade from January to July According to the Customs statistics,China’s total import and export in January-July reached RMB 13.21trillion,down 3%year on year.Among these,the export was RMB 7.6 trillio... China’s foreign trade from January to July According to the Customs statistics,China’s total import and export in January-July reached RMB 13.21trillion,down 3%year on year.Among these,the export was RMB 7.6 trillion,down 1.6%;the import RMB 5.61trillion,down 4.8%.The surplus was RMB 1.99 trillion,up 8.7%.(In 展开更多
关键词 FDI in Hi-tech service Sector and Hi-tech manufacturing Increased DOWN USS
下载PDF
面向工业互联网平台的二维制造服务协作优化
2
作者 Shibao Pang Shunsheng Guo +2 位作者 Xi Vincent Wang Lei Wang Lihui Wang 《Engineering》 SCIE EI CAS CSCD 2023年第3期34-48,共15页
工业互联网平台被公认为智能制造的必要推动者,使物理制造资源得以虚拟化,并允许资源以服务的形式进行协作。作为平台的核心功能,制造服务协作优化致力于为制造任务提供高质量的服务协作解决方案。这种优化与任务的功能和数量要求密不可... 工业互联网平台被公认为智能制造的必要推动者,使物理制造资源得以虚拟化,并允许资源以服务的形式进行协作。作为平台的核心功能,制造服务协作优化致力于为制造任务提供高质量的服务协作解决方案。这种优化与任务的功能和数量要求密不可分,在编排服务时必须满足这些要求。然而,现有的制造服务协作优化方法主要关注服务之间针对功能需求的横向协作,很少考虑纵向协作来覆盖所需的数量。为了解决这一差距,本文提出了一种结合功能和数量协作的二维服务协作方法。首先,提出了一种描述服务的多粒度制造服务建模方法。在此基础上,建立了二维制造服务协同优化模型。在垂直维度上,多个功能等效的服务组成一个服务集群来完成一个子任务;在水平维度上,互补服务集群协作完成整个任务。服务的选择和所选服务的金额分配是模型中的关键问题。为了解决这个问题,设计了一种具有多个局部搜索算子的多目标模因算法。将该算法嵌入竞争机制来动态调整本地搜索算子的选择概率。实验结果表明,与常用算法相比,该算法在收敛性、解质量和综合度量方面具有优势。 展开更多
关键词 manufacturing service collaboration service optimal selection service granularity Industrial Internet platform
下载PDF
Deep learning Optical Character Recognition in PCB Dark Silk Recognition
3
作者 Bowen Cai 《World Journal of Engineering and Technology》 2023年第1期1-9,共9页
For Automatic Optical Inspection (AOI) machines that were introduced to Printed Circuit Board market more than five years ago, illumination technique and light devices are outdated. Images captured by old AO... For Automatic Optical Inspection (AOI) machines that were introduced to Printed Circuit Board market more than five years ago, illumination technique and light devices are outdated. Images captured by old AOI machines are not easy to be recognized by typical optical character recognition (OCR) algorithms, especially for dark silk. How to effectively increase silk recognition accuracy is indispensable for improving overall production efficiency in SMT plant. This paper uses fine tuned Character Region Awareness for Text Detection (CRAFT) method to build model for dark silk recognition. CRAFT model consists of a structure similar to U-net, followed by VGG based convolutional neural network. Continuous two-dimensional Gaussian distribution was used for the annotation of image segmentation. CRAFT model is good at recognizing different types of printed characters with high accuracy and transferability. Results show that with the help of CRAFT model, accuracy for OK board is 95% (error rate is 5%), and accuracy for NG board is 100% (omission rate is 0%). 展开更多
关键词 Deep Learning Dark Silk Computer Vision Pattern Recognition CRAFT Model Printed Circuit Board Electronics manufacturing services
下载PDF
Fully Connected Convolutional Neural Network in PCB Soldering Point Inspection
4
作者 Bowen Cai 《Journal of Computer and Communications》 2022年第12期62-70,共9页
In Electronics Manufacturing Services (EMS) industry, Printed Circuit Board (PCB) inspection is tricky and hard, especially for soldering point inspection due to the extremely tiny size and inconsistent appearance for... In Electronics Manufacturing Services (EMS) industry, Printed Circuit Board (PCB) inspection is tricky and hard, especially for soldering point inspection due to the extremely tiny size and inconsistent appearance for uneven heating in reflow soldering process. Conventional computer vision technique based on OpenCV or Halcon usually cause false positive call for originally good soldering point on PCB because OpenCV or Halcon use the pre-defined threshold in color proportion for deciding whether the specific soldering point is OK or NG (not good). However, soldering point forms are various after heating in reflow soldering process. This paper puts forward a VGG structure deep convolutional neural network, which is named SolderNet for processing soldering point after reflow heating process to effectively inspect soldering point status, reduce omission rate and error rate, and increase first pass rate. SolderNet consists of 11 hidden convolution layers and 3 densely connected layers. Accuracy reports are divided into OK point recognition and NG point recognition. For OK soldering point recognition, 92% is achieved. For NG soldering point recognition, 99% is achieved. The dataset is collected from KAGA Co. Ltd Plant in Suzhou. First pass rate at KAGA plant is increased from 25% to 80% in general. 展开更多
关键词 Deep Learning Soldering Point Computer Vision Pattern Recognition Convolutional Neural Network Printed Circuit Board Electronics manufacturing services
下载PDF
Industrial Internet for intelligent manufacturing:past, present, and future
5
作者 Chi XU Haibin YU +3 位作者 Xi JIN Changqing XIA Dong LI Peng ZENG 《Frontiers of Information Technology & Electronic Engineering》 SCIE EI 2024年第9期1173-1192,共20页
Industrial Internet, motivated by the deep integration of new-generation information and communication technology(ICT) and advanced manufacturing technology, will open up the production chain, value chain, and industr... Industrial Internet, motivated by the deep integration of new-generation information and communication technology(ICT) and advanced manufacturing technology, will open up the production chain, value chain, and industry chain by establishing complete interconnections between humans, machines, and things. This will also help establish novel manufacturing and service modes, where personalized and customized production for differentiated services is a typical paradigm of future intelligent manufacturing. Thus, there is an urgent requirement to break through the existing chimney-like service mode provided by the hierarchical heterogeneous network architecture and establish a transparent channel for manufacturing and services using a flat network architecture. Starting from the basic concepts of process manufacturing and discrete manufacturing, we first analyze the basic requirements of typical manufacturing tasks. Then, with an overview on the developing process of industrial Internet, we systematically compare the current networking technologies and further analyze the problems of the present industrial Internet.On this basis, we propose to establish a novel “thin waist” that integrates sensing, communication, computing, and control for the future industrial Internet. Furthermore, we perform a deep analysis and engage in a discussion on the key challenges and future research issues regarding the multi-dimensional collaborative sensing of task–resource, the end-to-end deterministic communication of heterogeneous networks, and virtual computing and operation control of industrial Internet. 展开更多
关键词 Intelligent manufacturing Industrial Internet Thin waist Transparent service manufacturing as a service
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部