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	A Novel Divide and Conquer Solution for Long-term Video Salient Object Detection 期刊论文 OAI收割 Machine Intelligence Research, 2024, 卷号: 21, 期号: 4, 页码: 684-703 作者: Yun-Xiao Li; Cheng-Li-Zhao Chen; Shuai Li; Ai-Min Hao; Hong Qin \| 收藏 \| 浏览/下载：13/0 \| 提交时间：2024/07/18 Video salient object detection background consistency analysis weakly supervised learning long-term information background shift
	A 2-D Long Short-Term Memory Fusion Networks for Bearing Remaining Useful Life Prediction 期刊论文 OAI收割 IEEE SENSORS JOURNAL, 2022, 卷号: 22, 期号: 22, 页码: 21806-21815 作者: \| 收藏 \| 浏览/下载：26/0 \| 提交时间：2023/03/20 Hidden Markov models Feature extraction Predictive models Sensors Mathematical models Data models Adaptation models 2-D long short-term memory (2D-LSTM) fault occurrence time (FOT) detection information fusion unit (IFU) remaining useful life (RUL) prediction
	Dense semantic embedding network for image captioning 期刊论文 OAI收割 PATTERN RECOGNITION, 2019, 卷号: 90, 页码: 285-296 作者: Xiao, Xinyu; Wang, Lingfeng; Ding, Kun; Xiang, Shiming; Pan, Chunhong \| 收藏 \| 浏览/下载：76/0 \| 提交时间：2019/04/23 Image captioning Retrieval High-level semantic information Visual concept Densely embedding Long short-term memory
	Fostering ecological data sharing: collaborations in the International Long Term Ecological Research Network SCI/SSCI论文 OAI收割 2015 作者: Vanderbilt K. L.; Lin, C. C.; Lu, S. S.; Kassim, A.; He, H. L. 收藏 \| 浏览/下载：40/0 \| 提交时间：2015/12/09 collaboration culture data sharing ecological networks ILTER information management LTER long term ecological research metadata multilingual Special Feature: International LTER climate-change big data biodiversity information system management metadata pattern future sites
	Packaging technology of polymer/Si arrayed waveguide grating and their environmental stability (EI CONFERENCE) 会议论文 OAI收割 2005 6th International Conference on Electronics Packaging Technology, August 30, 2005 - September 2, 2005, Dameisha, Shenzhen, China 作者: Zhang Y.; Zhang X.; Zhang X.; Zhang X.; Wang F. 收藏 \| 浏览/下载：30/0 \| 提交时间：2013/03/25 Future optical communication systems will use more of the exceptional high bandwidth of optical fiber. Wavelength division multiplexing (WDM) systems are well suited to transport terabits of information via the fiber[1]. Multiplexers/ demultiplexers (MUX/DEMUX) are essential components for dense WDM systems. Several different kinds of multiplexer types have been developed in the past: (a) interference filters (b) fiber gratings and (c) planar lightwave circuit (PLC) MUX/DEMUXers[2 3]. The planar fabrication process of the last mentioned PLCs allows the realization of high performance filters with a large number of wavelength channels. Further an integration with other optical elements seems to be possible. Arrayed waveguide gratings (AWG) are a special kind of PLC-MUX/DEMUXers which are very attractive components for WDM systems because of their great flexibility in filter design[4 5]. Basically an AWG is an optical spectrograph built in planar waveguide technique. Typically AWGs works in a high grating order (50-250). For AWG multiplexer applications in communications systems a precise wavelength controllability and wavelength stability with long term is demanded. Recently a polymeric (especially fluorinated polymer with low optical absorption loss in the infrared region) AWG has attracted much attention because of its easy fabrication low cost possibility and a potential of integration with other polymer devices[6]. Standard AWGs however show a change of center wavelength with temperature. A method to prevent this temperature drift is to package the AWG together with a temperature controller in order to tune and fix the desired filter-wavelength. In this paper a 32-channel AWG was fabricated using a cross-linkable fluorinated poly (ether ether ketone) (FPEEK) its package technology and environmental stability were also discussed. 2005 IEEE.