Description
Course Name: Certificate in Internet of Things (IOT)
Course Id: CIOT/Q0001.
Eligibility: 10th Grade (high school) or Equivalent.
Objective: The Certificate in Internet of Things (IoT) course is designed to provide learners with a solid understanding of IoT concepts, architecture, and applications. The course covers the fundamentals of IoT devices, communication protocols, sensor integration, data processing, and cloud connectivity.
Duration: One Month.
How to Enroll and Get Certified in Your Chosen Course:
Step 1: Choose the course you wish to get certified in.
Step 2: Click on the “Enroll Now” button.
Step 3: Proceed with the enrollment process.
Step 4: Enter your billing details and continue to course fee payment.
Step 5: You will be redirected to the payment gateway. Pay the course and exam fee using one of the following methods:
Debit/Credit Card, Wallet, Paytm, Net Banking, UPI, or Google Pay.
Step 6: After successful payment, you will receive your study material login ID and password via email within 48 hours of fee payment.
Step 7: Once you complete the course, take the online examination.
Step 8: Upon passing the examination, you will receive:
• A soft copy (scanned) of your certificate via email within 7 days of examination.
• A hard copy (original with official seal and signature) sent to your address within 45 day of declaration of result.
Step 9: After certification, you will be offered job opportunities aligned with your area of interest.
Online Examination Detail:
Duration- 60 minutes.
No. of Questions- 30. (Multiple Choice Questions).
Maximum Marks- 100, Passing Marks- 40%.
There is no negative marking in this module.
| Marking System: | ||||||
| S.No. | No. of Questions | Marks Each Question | Total Marks | |||
| 1 | 10 | 5 | 50 | |||
| 2 | 5 | 4 | 20 | |||
| 3 | 5 | 3 | 15 | |||
| 4 | 5 | 2 | 10 | |||
| 5 | 5 | 1 | 5 | |||
| 30 | 100 | |||||
| How Students will be Graded: | ||||||
| S.No. | Marks | Grade | ||||
| 1 | 91-100 | O (Outstanding) | ||||
| 2 | 81-90 | A+ (Excellent) | ||||
| 3 | 71-80 | A (Very Good) | ||||
| 4 | 61-70 | B (Good) | ||||
| 5 | 51-60 | C (Average) | ||||
| 6 | 40-50 | P (Pass) | ||||
| 7 | 0-40 | F (Fail) | ||||
Key Benefits of Certification- Earning a professional certification not only validates your skills but also enhances your employability. Here are the major benefits you gain:
Practical, Job-Ready Skills – Our certifications are designed to equip you with real-world, hands-on skills that match current industry demands — helping you become employment-ready from day one.
Lifetime Validity – Your certification is valid for a lifetime — no renewals or expirations. It serves as a permanent proof of your skills and training.
Lifetime Certificate Verification – Employers and institutions can verify your certification anytime through a secure and reliable verification system — adding credibility to your qualifications.
Industry-Aligned Certification –All certifications are developed in consultation with industry experts to ensure that what you learn is current, relevant, and aligned with market needs.
Preferred by Employers – Candidates from ISO-certified institutes are often prioritized by recruiters due to their exposure to standardized, high-quality training.
Free Job Assistance Based on Your Career Interests – Receive personalized job assistance and career guidance in your preferred domain, helping you land the right role faster.
Syllabus:-
Fundamentals of IoT: Introduction to Internet of Things, Evolution and history of IoT, IoT architecture and components, IoT applications across industries, IoT ecosystem and stakeholders, Role of sensors and actuators in IoT, IoT communication models, IoT reference architecture, Challenges and opportunities in IoT, Future trends in IoT.
IoT Hardware & Devices: Introduction to IoT hardware platforms, Microcontrollers and development boards (Arduino, Raspberry Pi, ESP32), Sensors and actuators basics, Connectivity modules (Wi-Fi, Bluetooth, Zigbee), Power management for IoT devices, Interfacing peripherals with microcontrollers, Data acquisition from sensors, Device-to-device communication, Wearable IoT devices, Smart home IoT devices.
IoT Communication Protocols: IoT networking basics, Short-range communication protocols (Bluetooth, Zigbee, Z-Wave), Long-range communication protocols (LoRaWAN, Sigfox), Internet protocols for IoT (MQTT, CoAP, HTTP), Role of IPv6 in IoT, Wireless sensor networks, Cloud-based IoT communication, Edge vs. cloud communication, Data transmission security in IoT, Real-time communication in IoT.
IoT Software & Cloud Platforms: Introduction to IoT operating systems, IoT development environments and tools, Basics of embedded programming (Python, C, Node-RED), Cloud computing for IoT, IoT cloud platforms (AWS IoT, Azure IoT, Google Cloud IoT), Data storage and analytics in IoT, Integration of IoT with AI and ML, Mobile apps for IoT control, Edge computing for IoT, Hands-on cloud-based IoT project.
IoT Security & Privacy: Introduction to IoT security challenges, Common IoT vulnerabilities, Data encryption techniques, Secure device authentication, Network security in IoT, Privacy and data protection in IoT, Role of blockchain in IoT security, Security frameworks and standards for IoT, Risk assessment in IoT systems, Case studies on IoT security breaches.
IoT Applications & Project Development: IoT in smart cities, IoT in healthcare and wearables, IoT in agriculture and environment monitoring, IoT in transportation and logistics, IoT in industrial automation (IIoT), IoT in energy management and smart grids, IoT in retail and customer engagement, Building an end-to-end IoT prototype, Project report preparation and presentation, Future career opportunities in IoT.
