5.advantages and disadvantages
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Transcript 5.advantages and disadvantages
Student’s Name with USN No.
Guide Name
HOD Name
College Name, Dept
CONTENTS:
1.
Abstract.
2.
Objective.
3.
Block diagram.
4.
Methodology.
5.
Advantages and Disadvantages.
6.
Applications.
7.
Conclusion.
1.ABSTRACT:
Industrial Disaster Management plays an important role in the field of
modern industry control. India is developing as a key global player in industrial
and technology sector. Rapid industrialization has increased the hazard, risk and
vulnerability of the industry and the environment. It is simply the process of
bringing a real-world signal, such as a voltage, into the computer, for processing,
analysis, storage or other data manipulation. A Physical phenomena represents the
real-world signal you are trying to measure. In order to optimize the characteristics
of a system in terms of performance, handling capacity and cost, the relevant
subsystem can be combined together. Analog data is generally acquired and
transformed into the digital form for the purpose of processing, transmission and
display. In this sophisticated world every activity is getting atomized with the help
of embedded concepts.
2.OBJECTIVE:
This main goal of this project is to maintain the Industries Disaster
Management System, to reduce the work load of a human beings and to sense the
parameters like Gas, Temperature, and Humidity. After sensing it has to take
appropriate action via ARM controller.
3.BLOCK DIAGRAM:
BUFFER
RELAY
DRIVER
OUTPUT DEVICES
BUZZER
OR
TEMPERATURE
SENSOR LM35
DC MOTOR FOR
GATE CONTROL
M
OR
VISUAL
INDICATION
HUMIDITY
GAS SENSOR
ARM PROCESSOR
128 X 64 DISPLAY
+12 Volts
+5 Volts
GND
230 V, AC
Supply
TRANSFORMER
RECTIFIER
FILTER
REGULATOR
HARDWARE REQUIREMENTS:
ARM 7 / Cortex M3, LCD, Relay Driver, Relays, Resistors, Capacitors, LEDs, Crystal, Diodes, Transformer, Voltage Regulator,
Push Button.
SOFTWARE REQUIREMENTS:
Keil compiler uVision 4, Language: Embedded C or Assembly, WLPRO Programmer
4.METHODOLOGY:
This project is developed to maintain the Industries Disaster
Management System, to reduce the work load of human beings and to sense the
parameters like Gas, Temperature, and Humidity. After sensing those parameter
depending on the scenario the ARM controller will take appropriate action. The
main modules in this project are Sensors (Temperature Sensor LM 35, Humidity
Sensor and Gas Sensor), ARM controller unit with LCD display and output
device.
This whole model can be placed in the Industries to manage the
Disasters. This model has three Sensors as an input device to sense the disaster in
Industries and depending on the parameter measured the controller will take
appropriate action. This module continuously monitors the disaster condition of
the Industries where it is placed. If the temperature varies, Gas detected, and
Humidity of the Industries varies, then the ARM controller will activates the
buzzer to convey the information.
5.ADVANTAGES AND DISADVANTAGES:
ADVANTAGES:
All the components required are easily available.
It is accurate [Errors are nullified] & precise as it is Digital.
It is much Economical compare to other analogue systems.
Manual errors can be avoided to some extent.
Automatically controlled & Easy to use.
Unnecessary wastage of electricity can be controlled to a greater extend.
DISADVANTAGES:
In this project usage of relays leads to consume more power.
6. APPLICATIONS:
This project can be implemented in Home, School, Colleges, and Companies
etc…
Where we have to reduce the work load of human and to sense the parameters
like Gas, Temperature, and Humidity there we can implement this project.
7.CONCLUSION:
The proposed Industrial Disaster Management System Using ARM 7
With Various Parameter Monitoring On GLCD has been implemented successfully
and is tested on hardware. Experimental results verify the effective developed operation.
This System is designed to provide the continuous monitoring of disaster
management in Industries, to reduce the work load of a human beings and to sense the
parameters like Gas, Temperature, and Humidity. After sensing it has to take appropriate
action via ARM controller.
THANK YOU
ANY QUESTIONS?