Description

Course Description:

The Smart Sensors for Engineers Certified credential is a rigorous, certification designed for professionals working with advanced sensing technologies and Industry 4.0 environments. Administered by the Smart Automation Certification Alliance (SACA), this credential prepares participants to connect, configure, program, monitor, and operate smart sensors, including analog pressure/ultrasonic types, photoelectric sensors, stack lights, barcode readers, and RFID systems The program entails approximately 80–85 instructional hours, encompassing both a hands-on practical assessment and a formal written online examination   Professionals who earn the certification demonstrate competency.

Key Features of Course Divine:

• Collaboration with E‑Cell IIT Tirupati
• 1:1 Online Mentorship Platform
• Credit-Based Certification
• Live Classes Led by Industry Experts
• Live, Real-World Projects
• 100% Placement Support
• Potential Interview Training
• Resume-Building Activities

Career Opportunities After Smart Sensors for Engineers Certified Course:

• Embedded it T Engineer
• Prototyping Engineer
• Platform Developer
• It Network Engineer
• Data Scientist
• Security Specialist
• Solution Architect
• AI Engineer

Essential Skills you will Develop Smart Sensors for Engineers Certified Course:

• Sensor Selection & Characteristics
• Electronics & Hardware Integration
• Embedded Software & Firmware Development
• Communication Protocols & Connectivity
• Cloud & Edge Integration

Tools Covered:

• Adriano IDE
• Raspberry Pi
• MATLAB / Semolina
• Lab VIEW
• Python with Sens

Syllabus:

Module 1: Introduction to Smart Sensors Definition and types of sensors Evolution of smart sensors Basic characteristics and classifications Applications in engineering fields.

Module 2: Sensor Technologies and Principles Working principles of Temperature sensors (RTD, Thermocouples) Pressure sensors Proximity and position sensors Humidity, light, and motion sensors Selection criteria for sensors.

Module 3: Signal Conditioning and Data Acquisition Analog to Digital Conversion (ADC) Digital to Analog Conversion (DAC) Amplification, filtering, and noise reduction Signal processing basics.

Module 4: Microcontrollers and Embedded Systems Introduction to Arduino and Raspberry Pi Interfacing sensors with microcontrollers Basic programming using Arduino IDE/Python Data logging and basic automation.

Module 5: Wireless Sensor Networks (WSN) Introduction to WSN architecture Communication protocols: ZigBee, Wi-Fi, Lora, Bluetooth Power management in WSN Case studies.

Module 6: Internet of Things (IoT) Integration IoT overview and sensor role in IoT Cloud platforms: Thing Speak, Blank, AWS IoT Real-time monitoring and alert systems Security and data privacy in smart systems.

Module 7: Sensor Calibration and Testing Need for calibration Calibration methods Testing and error analysis Use of LabVIEW/MATLAB for calibration tasks.

Module 8: Smart Sensor Applications Smart homes and buildings Industrial automation Health monitoring systems Environmental monitoring.

Module 9: Data Analytics and Visualization Data acquisition tools Data visualization using Python/Excel/MATLAB Basics of machine learning with sensor data Predictive maintenance using sensor data.

Module 10: Capstone Project & Case Studies Design and implement a smart sensor system Real-world use case (e.g., smart water system, energy meter, health tracker) Documentation and presentation Review of recent trends and future scope.

Industry Projects:

• Smart Home Automation System
• Industrial Machine Health Monitoring
• Smart Agriculture Monitoring System
• Smart Water Quality Monitoring System

 Who is this program for?

• Engineering Students (UG/PG)
• Academicians and Researchers
• Working Professionals & Engineers

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com