DHT11 Humidity & Temperature Sensor (with PCB)
Original price was: ₹125.00.₹65.00Current price is: ₹65.00. (Incl. GST)
Deep Learning for Cotton Leaf Disease Detection: College Major & Minor Project
Original price was: ₹7,500.00.₹5,500.00Current price is: ₹5,500.00.
-63%
NEONATAL INTENSIVE CARE UNIT – Kit
Including source code, Circuit Diagram, Documentation (Latex Format available) & PPT
🔔 Order-Based Project
This project is built to order. Kindly contact us before purchasing to confirm availability, customisation & delivery timeline.
Original price was: ₹12,000.00.₹4,500.00Current price is: ₹4,500.00.
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Description
The Neonatal Intensive Care Unit (NICU) plays a crucial role in providing specialized care to
premature and debilitated newborns. This report introduces an innovative NICU monitoring system
that employs a microcontroller and a range of sensors to ensure the well-being of neonates. The
system integrates sensors such as DHT11, DS18B20, LDR, gas, and heartbeat sensors to continuously
monitor vital parameters, temperature levels, ambient lighting, and the presence of harmful gases.
The collected data is stored in the cloud, and healthcare professionals access this information through
an IoT platform. The system’s alert mechanism promptly notifies caregivers in case of any anomalies,
allowing for early intervention and potentially improving the chances of recovery for the affected
infants.
Keywords: Neonatal Intensive Care Unit (NICU), microcontroller, sensors, vital parame-
ters, temperature levels, ambient lighting, harmful gases, cloud, IoT platform, alert mechanism.
premature and debilitated newborns. This report introduces an innovative NICU monitoring system
that employs a microcontroller and a range of sensors to ensure the well-being of neonates. The
system integrates sensors such as DHT11, DS18B20, LDR, gas, and heartbeat sensors to continuously
monitor vital parameters, temperature levels, ambient lighting, and the presence of harmful gases.
The collected data is stored in the cloud, and healthcare professionals access this information through
an IoT platform. The system’s alert mechanism promptly notifies caregivers in case of any anomalies,
allowing for early intervention and potentially improving the chances of recovery for the affected
infants.
Keywords: Neonatal Intensive Care Unit (NICU), microcontroller, sensors, vital parame-
ters, temperature levels, ambient lighting, harmful gases, cloud, IoT platform, alert mechanism.
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