会议名称(英文): Optics and Photonics for Information Processing VIII
所属学科: 光学
开始日期: 2014-08-17
结束日期: 2014-08-21
所在国家: 美国
所在城市: 美国
具体地点: San Diego, California
主办单位: 国际光学和光子学学会
[ 重要日期 ]
摘要截稿日期: 2014-03-03
[ 会务组联系方式 ]
联系人:
联系电话: +1 360 685 5600
传真:
E-MAIL: saral@spie.org
会议网站: http://spie.org/OPO/conferencedetails/optics-photonics-information-processing
会议背景介绍:
This conference is intended to provide a forum for interchange on various algorithms, systems, sensors, and architectures for novel applications in optics and photonics in information processing. Original unpublished contributions reporting recent advances in analog and hybrid optical information systems and techniques are solicited. All abstracts will be reviewed by the program committee for originality and merit. Topics of interest include, but are not limited to, the following:
Algorithms
optical pattern recognition, devices, optical correlation hardware, nonlinear techniques for pattern recognition
nonlinear, neural networks algorithms
novel transforms for optical imaging systems, including wavelets transforms
optical image processing algorithms
task-specific information for pattern recognition
algorithms for large scale data (Big Data) processing.
Architecture and systems
spatial light modulators (SLMs), photorefractive materials for optical information systems
holographic techniques in information processing, and information display systems
optical storage/memory systems for information processing
optical systems for 3D pattern recognition, 3D imaging, and Big Data image processing
applications of novel optical materials for information processing
novel diffractive optics structures and devices.
Optical switching and interconnects
optics in server architecture
waveguide, optical-fiber-based, polarization, and intensity switching, optical limit switches, optical multiplexing
interconnection networks: fiber optic, free-space, massively parallel optical interconnections, static and reconfigurable interconnects, optical backplanes and VCSEL and VLSI implementation of interconnects
optical back bones for conventional computers, optical/hybrid interconnects for electronic computers.
Digital optical processing
multi-valued logic, linear algebra processor, system demonstrations, fault-tolerant computing, optical logic and memory
holographic memory-based computing, integrated optics, and soliton-based and semiconductor devices for optical computing
modeling of holographic elements, joint optimization
computational sensing, computational imaging for Big Data processing
digital holography applications.
Applications in biophotonics
optical processing for biophotonics
applications of optical systems to information security
optical systems for biometrics sensing and recognition
optical encryption, watermarking.
Image forming and processing applications
imaging: 2D, 3D, integral, holographic, optical, digital
novel x-ray-based image processing, algorithms and systems, noise processing, applications in medical, EUV, modeling, etc.
image processing of optical images for large scale systems such as laser fusion facilities, applications in optical alignment, optics inspection, off-normal detection
optical systems and algorithms for Big Data SAR/IR/visible/medical image processing and recognition.
Parallel digital computing architecture
high-speed digital computation circuitry for Big Data
application of FPGAs in optical data processing
signed-digit based computing
memristor-based computing.
Optical information processing in different countries
review of optical information processing research over decades around the globe. |
