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The main goal of this system was to develop a robust monitoring and control system capable of maintaining the physiological parameters of the anesthetized animal in a predetermined range, using the instrumentation already present in the laboratory, and based on the Lab VIEWR software interface. A single user interface was developed that allowed for monitoring and control of key physiological parameters including body temperature (BT), mean arterial blood pressure (MAP) and end tidal CO2. Embedded within this interface was a fuzzy logic based control system designed to mimic the decision making of an anesthetist. The system was tested by manipulating the blood pressure of a group of anesthetized animal subjects using bolus injections of epinephrine and continuous infusions of phenylephrine (a vasoconstrictor) and sodium nitroprusside (a vasodilator).
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ZEBROS PROJECTS
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : [email protected] mob: 99400 98300
WAY TO YOUR GOAL
EMBEDDED SYSTEM PROJECTS
FINAL YEAR PROJECTS
IEEE PROJECTS 2013-2014
CONTACT: 9940098300, 9500075001
E-Mail:[email protected]
ZEBROS PROJECTS
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : [email protected] mob: 99400 98300
AUTOMATIC ANESTHESIA SYSTEM USING HEART RATE
ABSTRACT
The main goal of this system was to develop a robust monitoring and control
system capable of maintaining the physiological parameters of the anesthetized animal
in a predetermined range, using the instrumentation already present in the laboratory,
and based on the Lab VIEWR software interface. A single user interface was developed
that allowed for monitoring and control of key physiological parameters including
body temperature (BT), mean arterial blood pressure (MAP) and end tidal CO2.
Embedded within this interface was a fuzzy logic based control system designed to
mimic the decision making of an anesthetist. The system was tested by manipulating
the blood pressure of a group of anesthetized animal subjects using bolus injections of
epinephrine and continuous infusions of phenylephrine (a vasoconstrictor) and sodium
nitroprusside (a vasodilator). This testing showed that the system was able to
significantly reduce the deviation from the set pressure (as measured by the root mean
square value) while under control in the hypotension condition (p < 0.10). Though both
the short-term and hypertension testing showed no significant improvement, the
control system did successfully manipulate the anesthetic percentage in response to
changes in MAP. Though currently limited by the control variables being used, this
system is an important first step towards a fully automated monitoring and control
system and can be used as the basis for further research.
EXISTING SYSTEM
The existing system is only monitoring the human health conditions. The old
existing system is low efficiency so we need good efficiency health monitoring system.
But the new proposed system is used monitor and control the oxygen level depends
upon the instructions with good efficiency. This system is fully automated.
ZEBROS PROJECTS
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : [email protected] mob: 99400 98300
BLOCK DIAGRAM
CONTACT: ZEBROS PROJECTS
PHONE: 9940098300, 9500075001
DESCRIPTION
The testing of this technology in-vivo depends critically on the stability of the
anesthetized animal. That is, if the systemic physiological parameters are not tightly
controlled, it is exceedingly difficult to assess the precision and accuracy of the PLI
system or interpret the consequence of disease. Any variation in physiological
parameters such as Blood Pressure (BP), Body Temperature (BT) and Pulmonary
Function (pO2 and pCO2 levels) can be a potential source of variation in the data being
gathered using PLI. In order to ensure that all measurements taken using PLI are not
affected by fluctuations in the systemic physiological state, each animal must be
maintained within a tightly controlled physiologic range. The main goal of this project
was to develop a robust monitoring and control system capable of maintaining the
physiological parameters of an anesthetized animal in a predetermined range, using the
instrumentation already present in the laboratory, and based on the LabVIEWTM
software interface.
In order to achieve the above goals a design had to be developed that allowed for
the most elegant solution possible. A fuzzy logic control strategy was developed to
mimic the decision making of an anesthetist allowing for the automated maintenance of
ETCO2 and BP. The monitoring, control and file transfer systems were developed in
Lab VIEWTM and combined to create a single user interface. This interface was tested
on a total of ten rats in both short and log-term perturbation experiments using bolus
and maintained drug infusions to mimic various systemic physiological conditions.
ZEBROS PROJECTS
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : [email protected] mob: 99400 98300
This testing revealed that the system had limited abilities to control short-term
perturbations but was able to significantly reduce the deviation of the mean arterial
blood pressure (MAP) from the control set point in simulated hypotension experiments.
ADVANTAGES
Low power
Low cost
Good efficiency
Less noise
APPLICATIONS
Hospital applications
Healthcare applications
Sports applications
Security applications
ZEBROS PROJECTS
SOFTWARE BASED HARDWARE BASED
Networking VLSI
Data Mining Mat lab
Grid Computing Robotics
Network Security Embedded
Image Processing Bio Medical
Web Applications Power Systems
Mobile Computing Power Electronics
Software Engineering Java with Embedded
ZEBROS PROJECTS
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : [email protected] mob: 99400 98300
Cloud Computing Android
What is IEEE?
The Institute of Electrical and Electronics Engineers or IEEE (read eye-triple-e) is Incorporated in the State of New York, United States. It was formed in 1963 by the merger of the Institute of Radio Engineers (IRE, founded 1912) and the American Institute of Electrical Engineers (AIEE, founded 1884). A membership organization comprised of engineers, scientists and students that sets standards for computers and communications. It is a nonprofit organization with more than 365,000 members in around 150 countries.
The IEEE describes itself as "the world's largest technical professional society -- promoting the development and application of electro technology and allied sciences for the benefit of humanity, the advancement of the profession, and the well-being of our members."
Why IEEE based projects?
It grantees for standard
It assured latest solution for problems
It delivers new patented technologies at an ever-increasing pace
It access world-class technical information provided by the IEEE and cut down your
research time.
OUR FEATURES
24*7 Call Support
Project Execution through Remote System
20 Days Technical classes taken by Corporate Trainer
ZEBROS PROJECTS
Office Address: No 4 / Flat No 3D, Sai Kiran Apts, First Main Road, Kasturba Nagar, Chennai-20 web: www.zebros.in e mail : [email protected] mob: 99400 98300
Unlimited Project & Technical Support through your academic
Project software Installation support
PROJECT SUPPORT
0th Review 1st Review
Abstract Existing System Disadvantages Proposed System Advantages Objective System Requirements System Architecture
Literature Survey Module List Module Description Data Flow Diagram Level DFD Module Wise DFD Problem Definition Review Document Explanation
2nd Review 3rd Review
Use case Diagram Class Diagram Collaboration Diagram Sequence Diagram Activity Diagram Testing & test cases Partial Code Screenshot for First two
module Review Document Explanation
Conclusion References Future Enhancement 65% code (Executable Format) Required Software Review Document Explanation
Final Review
Complete Code with Enhancement
Final Document (University Standard Format)
Complete Explanation for Project Concept & Code