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Telebiometrics: Enhancing Telepresence Hierarchical Networks ITU Workshop: “Radio-Activity Safety and Security Threats Protection and Telemedical Support for Irradiated People” ITU, GENEVA SWITZERLAND AUGUST, 2011 Agenda Architectural Overview of Telepresence Hierarchical Network: • Briefly delineate the network layers and their function. • Review the flow of information and physiological limitations • Present the network challenges and advantages Telebiometrics and Standardization: • The importance of Physiological Standardization • Interoperability • Integrating Wetware/Hardware/Software • Urgency and Benefits Market Validation: • Market Segmentation • Real World Applications • Market Trends ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks Telepresence Hierarchical Network by layer 1 Consciousness and Computation 2 Primary Detection via the 5 - Senses 3 Wetware Integration 4 Information Sensory Perception 5 Algorithm Filtration/Security (Signal/Noise) 6 Sensor Layer (Hardware and Software) 7 Sampling Environments ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks Telebiometrics and Standardization: 1 Interoperability 2 Hardware, Software, and Wetware 3 Market Timing 4 Urgency and Benefits ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks Telebiometrics: Platform of Life Benefits and Urgency Benefits Telebiometrics Hardware Each person contains unique biological features and habits, information obtained from the body is difficult to steal or replicate. Telebiometrics enables a reliable from of identification and can provide a more robust fraud and identity theft protection than other methods. Wetware • • • • • • • • • Software ITU, GENEVA SWITZERLAND AUGUST, 2011 Monitor, Identify, Authenticate, Repeatable Measurements Expedite Management of the Crisis Optimize the use of scarce resources Platform of Quantifiable Biological Metrics Quality of Health (QOH) Combining Data from multiple sites. Improve statistical Analysis Share Imaging Data Telebiometrics: Enhancing Telepresence Hierarchal Networks Phase 1. Remove Clothes and Wash Patient Phase 2. Determine Radiation Exposure Phase 4. Select medical protocol based on the spacial coordinates of radiation contamination The Role of Telebiometrics in Managing the Aftermath of a Radiation Incident After an ionizing radiation incident and the ensued confusion Telebiometrics technology may be used to significantly expedite the management of the crisis, optimizing the use of scarce resources. Diagram 1, below, offers a qualitative process flow for a small-scale radiation event. Time and an error-free intervention are of essence in radiation incidents. Telebiometrics may be employed during phases 2, 3 and 4, shown below, to help identify the individual, associate the measured radiation contamination with a unique ID, and assist authorities to match the appropriate treatment to the individual. For example, Telebiometrics’ feature can work in concert with utilizing the primary principles of radiation safety, i.e., time/distance/shielding, in phase 2 and the ensued medical care to the appropriate individual in phases 3 and 4. In addition to the multimodal biometrics systems, gathering data from different sensors and contexts, the radiation dosimetry data, acquired in phase 3, may be used by a medical practitioner for short- and a long-term follow-up of the exposed individuals. Further, following the standard for Quantities and Units set by ITU-T Study Group 17, the anonymized data from different sites may be combined to improve statistical analysis and share imaging data via telemedicine. Data mining of the collected meta-data may be used to accurately correlate biological reaction under different scales of a radiation incident. Dr. Kevin Khadivi (Radiation Imaging Scientist) Acute Care ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks Telebiometrics – Market Validation: 1 Market Segmentation 2 Market Trends 3 Real World Applications ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks Target Applications Automotive Safety Port Entry Environmental Impact Telemedicine Gaming Mobile Identity Urban Inforgraphics using Telebiometrics ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks Automotive Application Telebiometric Sensing ITU, GENEVA SWITZERLAND AUGUST, 2011 Telebiometrics: Enhancing Telepresence Hierarchal Networks THANK YOU!
