IOT BASED HEALTH MONITORING SYSTEM DESIGN USING FPGA
This thesis presents a design and a prototype of a monitor of vital functions of the human body. The prototype will detect the parameters of temperature and electrocardiogram. The system integrates the sensor and the implemented accelerator for QRS algorithm in the FPGA for a biosignal measuremen...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/58874 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | This thesis presents a design and a prototype of a monitor of vital functions
of the human body. The prototype will detect the parameters of temperature
and electrocardiogram. The system integrates the sensor and the implemented
accelerator for QRS algorithm in the FPGA for a biosignal measurement. The
system includes a Zynq SoC FPGA and uses IoT for communication. The proposed
architecture explores the hardware/software co-design capabilities of the
Zynq, which integrates an ARM processor and FPGA fabric in the same chip.
The project was built in which the heart rate and body temperature were monitored
using an ECG module and a thermistor. The data is displayed on the
smart device screen by sending the data through the ESP module. To implement
QRS, we use Pan-Tompkins method. The implemented Pan-Thompkins
algorithm consists of several blocks. They are band pass filter block, derivation
block, squaring operation block, integration block, and decision block.
The blocks were implemented on a FPGA. The calculating operation block
system consists of an adder, register, address loader, memory, and a control
unit that outputs the heart rate from the ECG signal. The implemented architecture
runs on Zynq’s FPGA, which was synthesized from the VHDL/Verilog
code. The proposed system is useful for a real-time health monitoring.
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