所长信箱  |  联系我们  |  English  |  中国科学院
首 页 研究生教育 出版物 信息公开
当前位置:首页 > 新闻动态 > 会议信息
2017 SPIE 新兴成像和感应技术专题会议
作者: 发布时间:2017-07-19 阅读次数:
会议名称(中文): 2017 SPIE 新兴成像和感应技术专题会议 

 

  会议名称(英文): Emerging Imaging and Sensing Technologies 

  所属学科: 光学,信号与信息处理,光电子学 

  开始日期: 2017-09-11 

  结束日期: 2017-09-14 

  所在国家: 波兰 

  所在城市: 波兰 

  具体地点: Warsaw, Poland 

  主办单位: 国际光学工程学会 

  会议网站: 

    http://spie.org/ESD/conferencedetails/emerging-imaging-sensing-technologies 

  会议背景介绍:  

  Challenges posed when sensing under the difficult conditions encountered in military environments lie at the heart of many applications of photonics. This conference brings together emerging activities in sensor and optical technologies within the context of their associated defence and potential civilian application. As interests shift towards the exploitation of autonomous platforms, unmanned systems and small satellites, there are requirements to address size, weight, power and manufacturing cost issues for those components and devices. Emerging microscale and nanoscale device concepts can support the realization of low-cost, power-efficient solutions, especially those required for use in hand-held systems. For example, the understanding of plasmonics and sub-wavelength scale metallo-dielectric structures is advancing, as is the realization of metamaterials at optical wavelengths. New approaches exploiting micro and nano-technologies can also provide for unprecedented advance in the ability to control the propagation of light, providing the basis for devices capable of being exploited in adaptive optical systems. In addition, techniques to understand and improve target discrimination, to enable more accurate target tracking and provide vision through turbulent atmospheres, can benefit from the application of both pre-detector and post-detector processing techniques. The relevance of embedded software is becoming increasingly important, driving the search for improved algorithms to support the management of large streaming datasets to avoid adverse impact on communication channels in networked environments. Improved active and passive components are required, including laser sources, modulators and photo-detectors, which in some cases can be brought together in photonic integrated circuits. New materials eg graphene are emerging, as well as those exploiting quantum-scale effects (eg quantum dots) that offer the potential for disruptive advance in many areas of photonics. Spectral filters are used widely in optics for security and defence, and technologies that offer a better trade-off between bandwidth and field of view are being sought for many applications. New optical techniques and devices can enable the processing of RF signals as well as the evolution of new techniques for the extraction of patterns in data streams as would be relevant to challenges in cyber security. In the area of chemical and biological sensing, some existing capabilities already exploit photonic devices such as quantum cascade lasers, but these can also support the detection of concealed energetic materials and the remote sensing of precursor materials. Advanced quantum detection technologies provide the basis for wide area terrain mapping as well as quantum communications, navigation, quantum sensing, quantum-enhanced imaging and other applications, especially when there are requirements for operating in covert environments. New approaches in the area of single-photon avalanche diode (SPAD) array technologies are relevant here to allow operation across wide spectral ranges, especially in the SWIR band. New approaches to the processing of sparse photon images are also highly relevant. 

  征文范围及要求: 

  This conference seeks papers ranging from the underlying physics associated with photonic device technologies through to the exploitation of those devices in defence systems, including the following areas of activity: · lasers, modulators, switches, filters and detectors · materials, especially emerging 2D materials and those exploiting quantum-scale effects · additive manufacturing techniques · low-cost sensors for unmanned systems and small satellites · microwave photonic devices including integration and interconnect techniques · optical sampling and A to D converters · metamaterials and plasmonics, both for the microwave and optical regimes · nanophotonics including plasmonic filters, optical antennae, moth eye coatings and ultra-thin lenses · optical signal processing including spectral synthesis · advanced focal plane detector concepts, including on-chip optics and processing · techniques for exploiting heterogeneous integration eg III-Vs on silicon · architectures and techniques for discriminative imaging, including active imaging and imaging through turbulence · computational imaging techniques and compressive sensing, including image reconstruction from under-sampled data sets (sparse imaging), computational multispectral imaging using mosaic filters and SAR techniques · devices and architectures to support the evolution of quantum sensing, imaging, communications and navigation · exploitation of low-cost imaging techniques into civilian applications such as those relevant to healthcare · micro-optical-electro-mechanical systems · algorithms and software for improving sensor exploitation · novel approaches to micro- and nanophotonics · devices for chemical and biological sensing exploiting photonic techniques · optical components including coatings, films, and devices for control of spectral and polarimetric characteristics · bio-optics, bioinspiration and biometric techniques. 

  来源:SPIE

 
【打印本页】【关闭本页】
中国科学院   版权所有 © 中国科学院光电技术研究所  单位邮编:610209 备案号:蜀ICP备05022581号
单位地址:中国四川省成都市双流350信箱 电子邮件:dangban@ioe.ac.cn