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IEEE International School of Imaging


October 14-16, 2014, Island of Santorini, Greece

In conjunction with IEEE International Conference on Imaging Systems and Techniques, Island of Santorini, Greece

Sponsored by the
IEEE Instrumentation and Measurement Society

TC-19 Technical Committee on Imaging Systems and Measurements

The IEEE International School of Imaging (I2SI) will take place the beautiful island of Santorini, Greece, October 14-17, 2014. The objectives of the IEEE International School of Imaging (I2SI) are to explore physical, engineering, molecular, biochemical and imaging principles, aimed to the advancement and generation of new knowledge related to the design, development, and applications of imaging and spectroscopy technologies, medical diagnostics, pharmaco-imaging, molecular and omics technologies, remote sensing, robotics, space instrumentation, and material characterization. Engineers, scientists and medical professionals from Industry, Government, Academia, and Healthcare who want to bridge technology and clinical disciplines in the multidisciplinary areas of imaging, spectroscopy and medical diagnostic device industry, are invited to attend the School and interact with major worldwide experts, aimed at advancing the science of imaging, the development of visualization technologies, to increase the understanding of pathophysiology and metabolism and measure therapeutic efficacy of drugs; remote sensing, space instrumentation and material characterization; exploring multifaceted design principles and new applications of imaging that would lead ultimately to novel devices and technologies, standards and metrology with unsurpassed image quality, scalability, reconfigurability, and miniaturization capabilities.   Click HERE for more details and a full announcement. Updated October 14, 2014.

At this stage, the IEEE International School of Imaging focuses on the following four areas:

Medical Diagnostics, Theranostics, Pharmaco-Imaging in Drugs and Medicine

  • Medical diagnostics
  • Translational theranostics
  • Pharmaco-imaging in drugs and medicine
  • Bioinformatics
  • Neuroimaging
  • Robotics, and surgical guidance imaging
  • Molecular imaging and biology
  • Nanooncology and nanoscale flow-mediated medicine tumors strategies
  • Biomarkers, metabolites, omics and translational imaging and spectroscopy
  • Image processing and pattern recognition
  • Miniaturization of diagnostic and analytical devices

Remote Sensing, Space Defense and Commercialization of Space

  • Defense and space surveillance imaging technologies
  • Automatic Target Recognition (ATR)
  • Advanced space instruments and satellite imaging
  • Remote Sensing, ladars, and lidars
  • Sensors and sensor systems for aerospace applications
  • Image processing and pattern recognition

Visualization, Inspection and Manufacturing

  • Semiconductor wafers, nanomaterials and composites
  • Biomaterial Characterization
  • Sensors and image acquisition
  • Illumination architectures
  • In-line inspection rapid, whole wafer defect detection
  • Off-line inspection for defect review and failure analysis,
  • Techniques for critical dimension (CD) and overlay metrology
  • Automatic defect classification
  • Pharmaceutical and food processing vision Inspection Systems
  • Image processing and pattern recognition

Imaging Modalities and Techniques

  • Cameras, microscopy and displays
  • Polarimetry, multispectral imaging
  • Immunohistochemical Digital Imaging
  • MRI, PET, SPECT, CT, ECT Tomography
  • Photoacoustic Molecular Imaging
  • Omics imaging
  • Translational Clinical Imaging Research
  • Microwave imaging and inverse scattering
  • Ultrasound and laser acoustics
  • Multimodality Imaging
  • Energy harvesting and imaging technologies
  • Emerging imaging trends