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Seminar on blue eyes

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Seminar on blue eyes

  1. 1. SEMINAR ON BLUE EYES<br />Gitesh Kumar Pandey<br />B.Tech (EC), Final Yr<br /> 0721632018<br />SEMINAR GUIDE:CO-ORDINATOR:<br />Mr. Anuj Kumar Mrs. ArunaPathak<br />
  2. 2. CONTENTS<br />• Blue Eyes technology <br />About Blue Eyes<br />System designing<br />System overview<br />DAU<br />CSU<br />Data security<br />Conclusion<br />Reference <br />
  3. 3. BLUE EYES TECHNOLOGY<br />The BLUE EYES technology aims at creating computational machines that have perceptual and sensory ability like those of human beings.<br />
  4. 4. IMPLEMENTATION AND ENGINEERING CONSIDERATION<br />THREE groups of users are:<br />OPERATOR-a person whose physiological parameters are supervised<br /> - authorization in the system<br /> - receiving alerts<br />SUPERVISOR -a person responsible for analyzing operator’s<br /> condition and performance<br />.<br />SYSTEM ADMINISTRATOR- maintains the system<br /> deliver tools for adding<br /> - new operator’s to the database<br /> - defining alarm conditions<br /> - configuring logging tools<br /> - creating new analyzer modules<br />
  5. 5. DESIGNING<br />A personal area network for linking all the operators and the supervising system<br />Two major units <br /><ul><li>DAU (data acquisition unit )
  6. 6. CSU (central system unit )</li></li></ul><li>WORKING<br />The major parts of the blue eyes system are DAU & CSU .<br /> The task of the mobile DAU is to maintain bluetooth connections to get information from the sensor and sending it over the wireless connection.<br />To deliver the alarm message sent from the CSU to the operator & handle personalized ID cards.<br /> CSU maintain the other side of the bluetooth connection, buffers incoming sensor data performs online data analysis, records the conclusion for further exploration & provide visualization interface.<br />
  7. 7. SYSTEM OVERVIEW<br />Data Acquisition Unit<br />Central System Unit<br />Visualization<br />Module<br />Connection<br />Manager<br />Atmel 89C52<br />microcontroller<br />Bluetooth<br />Bluetooth<br />Data<br />Logger<br />Data Analysis<br />Jazz<br />Multisensor<br />Bluetooth technology provides means for creating a Personal Area Network linking the operators and the central system<br />
  8. 8. DAU<br />The DAU consists of the following components<br />ATMEL 8952 microcontroller<br />BLUE TOOTH MODULE – supports synchronous voice data transmission<br />PCM CODEC –used to transmit operator’s voice and central system sound feedback<br />UART –communication between bluetooth module and microcontroller (115200 bps)<br />MAX232 –level shifter<br />ALPHAUNUMERIC LCD display<br />LED indicators<br />ID CARD interface<br />
  9. 9. DAU- FEATURES<br />Lightweight<br />Runs on batteries <br />Easy to use <br />ID cards for operator authorization<br />Voice transmission using hardware PCM codec<br />
  10. 10. IMPLEMENTATION - DAU<br />Bluetooth module inside<br />Microphone andearphone sockets<br />5-key keyboard<br />Two lines, 8characters LCD<br />Powered from batteries<br />
  11. 11. CSU- FEATURES<br />Connection management<br />Data processing<br />Visualization<br />Data recording<br />Access<br />Verification<br />System maintenance<br />
  12. 12. CSU COMPONENTS<br />CONNECTION MANAGER – main task to perform low-level blue tooth communication<br />DATA ANALYSIS MODULE – performs the analysis of the raw sensor data in order to obtain information about operator’s physiological condition<br />DATA LOGGER MODULE – provides support for storing the monitored data.<br />VISULAIZATION MODULE – provides user interface for the supervisors <br />
  13. 13. IMPLEMENTATION - CSU<br />Standard MDI user interface<br />Custom-builtBluetoothcommunicationroutines<br />Intel USB camera<br />ID card programmer<br />Developed using Visual C++ 6.0 <br />
  14. 14. FUTURE IMPROVEMENTS<br />DAU<br />small CMOS camera to monitor the operator’s point of gaze<br />single PCB (SMD technology)<br />low voltage ICs - LiIO batteries power<br />CSU<br />data mining algorithms <br />advanced database encryption using e.g. AES algorithm<br />
  15. 15. DATA SECURITY<br />Only registered mobile devicescan connect to the system<br />Bluetooth connection authentication<br />Bluetooth connection encryption<br />Access rights restrictions<br />Personal and physiological data encryption<br />
  16. 16. APPLICATIONS<br />Generic control rooms<br /> (System can be applied in every working environment<br /> requiring permanent operator’s attention)<br />Power station<br />Captain bridge<br />Flight control centers<br />Common application<br />A simpler system version for drivers<br />
  17. 17. ADVANTAGES<br />Prevention from dangerous incidents<br />Physiological condition monitoring<br />Operators position detection<br />• The reconstruction of the course of operator’s work<br />
  18. 18. DISADVANTAGES<br />Doesn’t predict nor interfere with operator’s thoughts<br />Cannot force directly the operator to work<br />
  19. 19. CONCLUSION<br />In the near future ,ordinary household devices- such as television , refrigerators, ovens may be able to do their jobs when we look at them and speak to them.<br />Unlimited Future applications of blue eye technology would boom the market.<br />
  20. 20. REFERENCES<br />www.scribd.com<br />www.seminar4u.com<br />www.whitepapers.com<br />www.ibmresearchcenter.com<br />
  21. 21. THANK YOU<br />
  22. 22. QUERIES???<br />

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