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Published byRachel Cross Modified over 9 years ago
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ChemSecure An RFID project with NASA Dieter Gawlick, Ronny Fehling Oracle Corporation March, 15 2006
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Event Symposium 2 March 15, 2006 The Scenario Source: ChemSecure White Paper 1.6
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Event Symposium 3 March 15, 2006 The Problem Increased safety – Provide first-aid and critical data to support first responders and decision makers so they are equipped to make appropriate and timely decisions necessary for the safety, security and protection of people, physical assets and the environment during an emergency situation involving a hazardous material. – Ensure chemical is placed in appropriate and safe location such that there is no adverse reaction to other chemicals. – Notifications sent when chemical is moved by unauthorized person Increased security – Manage hazardous material/waste tracking, producing real-time end-to-end visibility – Determine authorization and training of employee carrying chemical – Determine approved location of chemical storage – Protection and security for all transactions captured via RFID tracking – Strong audit capabilities – Mobile and wireless capabilities Overall goal: – Deployment planning based on Security/Safety Exception Analysis – Capturing of every move for full accounting of every action – Capturing of state at any moment for full supervision – not yet done completely
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Event Symposium 4 March 15, 2006 NASA – ChemSecure ACCOMPLISHMENTS Track & Trace environmentally hazardous chemicals Leverage existing sensor based technologies Enhance NASA Dryden Business Practices Provide automatic Alerts and Notifications Identifies, integrates and deploys strategies to critical incident responders emergency first responders law enforcement medical personnel fire professionals Provides technology solution for management detection Non -events BENEFITS Increased Safety Provides first-aid and critical data to first responders and decision makers Ensures Chemicals are placed in appropriate and safe locations Increase security Person and chemical are scanned and verified thus reducing theft, error, and fraud Increased Security Manages hazardous material/waste tracking Determines authorization and training of employee Protection and Security for all transactions captured via RFID tracking Strong Audit Capabilities Mobile and Wireless notifications
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Event Symposium 5 March 15, 2006 Lessons Learned: The Classical Model Selected sensor readings Sensors Actuators Interpretation of physical world Process – Applications Analyze Visualize Information sharing ‘ Event ’ Bus High cost of data acquisition dictates to acquire only as much data as minimally needed Bus acts only a message system Application required to fully understand the physical world based on sensor readings
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Event Symposium 6 March 15, 2006 Lessons Learned: The Emerging Model Any possible sensor reading Sensors Actuators Active Sensor Archive of the interaction with the physical world ‘ Organized ’ Measurements Interpretation of physical world Organize Analyze Visualize Process - Applications Information sharing Low cost of data acquisition allows to capture ‘ everything ’ Active Sensor Archive ‘ virtualizes ’ physical world – applications will be isolated from acquisition details Active Archive will remember ‘ everything ’ Archive will provide context – through topology Active Archive will activate/call applications immediately based on the applications ’ needs/requests
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Event Symposium 7 March 15, 2006 SensorNet Distributed Operations Centers Strategic Sites Human and Automated Response Automated Hazards Analysis Sensor Systems Control and Enhanced Communications Ubiquitous Sensing for Protection and Utility
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Event Symposium 8 March 15, 2006 VIRT: The Helicopter’s Pilot Perspective Flight Planned Route
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Event Symposium 9 March 15, 2006 A Q & Q U E S T I O N S A N S W E R S
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