real time human health monitoring and alert automation system
DESCRIPTION
An advance innovative emerging trend of Biomedical and healthcare Care embedded system project.TRANSCRIPT
Visvesvaraya Technological UniversityJnanasangama, Belgaum
Rajiv Gandhi Institute of Technology Cholanagar, RGC Campus, RT Nagar,
Bangalore, Karnataka 560 032
WELCOME
Real Time human health monitoring and alert
automation system
D Vinayakam(1RG10BM008)
R R Deepthi(1RG10BM900)
Calvin Lenin Dsouza(1RG09BM011)
Varsha P(1RG10BM033)
contents Introduction Literature Survey World’s Accident Survey Need For Implementation Objectives Functional Block Diagram Master Circuit Automobile Module Obstacle Detection Module Hospital And Ambulance Module Hardware Requirements
IC Requirements Software Requirements ARM7 LPC1768 Flowchart Advantage Application Future Advancement Conclusion Queries References
Can Base Automated Car Maneuvering System
A Tracking System of Multiple LiDAR Sensors Using Scan Point Matching
Biomedical Sensing Analyzer (BSA) for Mobile-Health (mHealth) LTE
Motion-based Obstacle Detection and Tracking for Car Driving Assistance
Moving Obstacle Detection From a Navigating Robot
Natural Causes, 0.058
Unatural Causes, 0.942
Different Vehicles,
0.1547
Vital Signs, 0.273
Natural Causes Unatural Causes Different Vehicles Vital Signs
Tele-tracking and health monitoring
Health hazard alert
Alerting nearest Emergency Services
Automation
Pulse Sensors
Heart Rate
PulseRate
Respiration Sensors
RespirationRate
CO2 Level
Temperature Sensors
Temperature
CPU
ROM RAM
ALU
ARM7(LPC1768)
GSM GPS
LCD (2X16) Display
Alert System
Ambulance Alert System
HospitalAlert
System
Emergency TimeAutomation
System
Automobile ControlSystem
Brake Control System
WindowControl System
Por
t 1,
3
Por
t0,2
Voice Message
Alarm
Location of the Vehicle (Patient)
VCC
LCD (2X16)
Brake Control
Window Control
Pulse Sensor
RespirationSensor
TempSensor
Mono stable Multi Vibrator
Mono stable Multi Vibrator
Pre Amplifier
Driver&
Relay
DC Motor
DC Motor
ARM7LPC1768
AlarmAlert
System
GPS
GSM
Buffer
Ring Counter
IR Receiver
Buffer 4050 IR
Sensor
+5v+12v
100
kΩ
47µF
10kΩ
4.7kΩ
470Ω
1µF
470Ω
4.7kΩ
BC 557
BC 547
BC 547
1
3
8
2
LED
Buffer and Driver System
Driver2003
+12v
22 KΩ 1N4148
RL
Buffer4050
+5v
1
8
3
5
9
7
11
2
14
6
4
10
15
12
8
1
3
5
2
6
4
11
14
15
12
16
13
9
Input from Microcontroller
IC 555 Timer
IC 4050 Buffer
555
1
3
2
4
8
7
6
5
Pin No Details
1 GND
2 Trigger Input
3 Output
4 Reset
5 Control
6 Threshold
7 Discharge
8 VCC
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
VCC
VSS
IC 4050
PIN NO Details
1 VCC
8 VSS
3,5,7,9,11,14 Input
2,4,6,10,12,15 Output
13,16 NC
IC ULN 2003
16
14
15
13
12
10
11
9
1
3
2
4
5
7
6
8 VCC
IC ULN 2003
Pin No Details
9 VCC
8 VSS/GND
1,2,3,4,5,6,7 Input
10,11,12,13,14,15,16 Output
IC 4017
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
VCC
VSS
IC 4017Q5
Q1
Q0
Q2
Q7
Q6
CP0
MR
Q3
CP1
Q5-9
Q9
Q4
Q8
Symbol Pin No Details
Q[0:9] 3,2,4,7,10,1,5,6,9,11 Decode Output
GND 8 Ground (0V)
Q 5-9 12 Carry Out (Active Low)
CP1 13 Clock Input (High To Low Edge Triggered)
CP0 14 Clock Input (Low To High Edge Triggered)
MR 15 Master Reset
VCC 16 Supply Voltage
Keil Compiler µ Vision 4
Language
WLPRO Programmer (JTAG Bus)
Software Platform
Compatibility
Embedded C/ Assembly
Hex Code(Error Free)
Compiled
Dumping
Start
Initialize the Port for Input and
Output
Read The Co-ordinates From GPS and The GSM
If P1.19=1
If P1.20=1
Read The Co-ordinates From GPS and The GSM
AB
C
If P1.21=1
If P1.22=1
Stop
Read The Co-ordinates From GPS and The GSM
Read The Co-ordinates From GPS and The GSM
A BC
Controlled the Breaking System and Window System in case of Emergency
Provide Alert for the public help
Provide required location.
Finally we conclude that project is one advance emerging patient monitoring system. Future scope with automation
1. Can based car maneuvering System - IEEE 2013
2. Biomedical Sensing Analyzer (BSA) for Mobile-Health (mHealth)-LTE Sasan Adibi, Senior Member, IEEE 2014
3. Mobile Patient Monitoring: The Mobi Health System Aart Van Halteren, Richard Bults, Katarzyna Wac, Dimitri Konstantas, Ing Widya, Nicolay Dokovsky, George Koprinkov, Val Jones, Rainer Herzog* University of Twente, The Netherlands and * Ericsson GmbH, Germany. The Journal on Information Technology in Healthcare 2004
4. A Tracking System of Multiple LiDAR Sensors Using Scan Point Matching Shuqing Zeng, Senior Member, IEEE 2013
5. Moving Obstacle Detection From a Navigating Robot Dinesh Nair Member, IEEE, and Jagdishkumar K. Aggarwal, Fellow, IEEE 1998
7. Mobile Physiological Measurement Platform With Cloud and Analysis Functions Implemented via IPSO Wen-Tsai Sung, Jui-Ho Chen, and Kung-Wei Chang- IEEE 2014.
8. Essentials of Medical Physiology - K. Sembulingam & P. Sembulingam
9. Human Anatomy and Physiology - Ross and Wilson
10. The Handbook by Biomedical Instrumentation-R.S.Khandpur
11. Analog Electronic Circuits -A . P. Godse and U. A. Bhakshi
12. The 8051 Microcontroller and Embedded Systems-Muhammad Ali Mazid and Janice Gillespie Mazidi
13. Electronic Communication Systems – George Kennedy
13. https://www.pantechsolutions.net
14. https://www.nxp.com/arm7/lpc1768
15. http://www.ti.com
16. https://www.keil.com