Under the Ministry of Electronics & Information Technology (MeitY), E&ICT Academy, IIT Kanpur brings you various courses in Emerging Technologies, Computer Sciences, Entrepreneurship, Business and many more. This course is curated and delivered by Industry Experts equipped with a wealth of experience and an in-depth understanding of the subject matter.
Overview:
- The IoT industry is booming, creating a high demand for skilled professionals. Studying IoT can lead to exciting career paths in various fields.
- IoT is a rapidly evolving field, and understanding its principles can foster innovation and creativity.
- Learning about drones enhances skills in robotics, programming, aerodynamics, and remote control. Understanding drone technology can foster creativity and problem-solving skills, leading to innovative applications.
This course is encapsulated with following key materials –
- Fundamentals of IoT IoT Devices and Sensors.
- IoT Networking and Communication IoT Protocols and Standards.
- oT Platforms and Cloud Integration.
- Fundamentals of Drones Drone Flight Mechanics.
- Drone Sensors and Payloads Drone Communication Systems.
- Drone Autonomy and AI Control Systems.
Prerequisites:
- Basic knowledge of Computers .
Target Audience:
- Anyone can opt this course beginner or working professional
- Students who want to work in leading MNC’s or any Top-Tier IT Companies like Intel, Microsoft, IBM, Amazon, Huawei, Cisco, Bosch, DJI, Skydio, and Parrot.
- M.Tech/B.Tech/MCA/BCA/Any Graduate or Diploma Holder can join the course.
Key Learning Outcomes:
When you complete this Course Curriculum, you will be able to accomplish the following:
- Understanding IoT concepts: Grasping the fundamentals of IoT, including its components, architecture, and protocols.
- Sensor and actuator expertise: Acquiring knowledge about various sensors and actuators, their applications, and how to interface them with IoT systems.
- Data handling: Learning to collect, process, analyze, and interpret data generated by IoT devices.
- Communication protocols: Mastering communication protocols like MQTT, HTTP, and CoAP for efficient data transfer.
- Cloud platforms: Understanding cloud-based IoT platforms and their role in data management and analytics.
- Security awareness: Recognizing potential security threats in IoT systems and implementing measures to protect data.
- Problem-solving and critical thinking: Developing the ability to analyze complex IoT problems and devise innovative solutions.
- IoT project development: Building and deploying end-to-end IoT projects, from concept to implementation.
- Hardware and software integration: Combining hardware components with software applications to create functional IoT systems.
- Data visualization: Presenting IoT data in meaningful ways through dashboards and reports.
- IoT system testing and optimization: Evaluating system performance and making necessary improvements.
- Piloting: Proficiency in operating drones safely and efficiently.
- Drone Maintenance: Knowledge of drone components, troubleshooting, and repair.
- Payload Integration: Understanding how to integrate various payloads (cameras, sensors, etc.) for specific applications.
- Programming and Automation: Skills in programming drones for autonomous flight and data collection.
Duration- 50 Hours
Delivery Mode: 100 % Online Live Instructor LED Training
Disclaimer : E&ICT Academy, IIT Kanpur reserves the right to modify or cancel any courses listed on the portal. E&ICT Academy, IIT Kanpur also reserves the right to change the mode of delivery (Online, Offline, Hybrid, Self paced) without notice. However, the student will be given the option to claim 100% refund in case of any of the above modifications.
Curriculum
Module 1- Fundamentals of IoT
- IoT Architecture: Understanding the layered architecture of IoT systems, including devices, gateways, and cloud services.
- Communication Protocols: Key protocols used in IoT, such as MQTT, and HTTP/HTTPS.
- IoT Ecosystem: Overview of the components and stakeholders involved in IoT, including devices, networks, platforms, and applications.
Module 2. IoT Devices and Sensors
- Sensor Types: Different types of sensors used in IoT, such as temperature, humidity, pressure, motion, and proximity sensors.
- Actuators: Devices that perform actions in response to sensor inputs, such as motors, valves, and relays.
- Embedded Systems: Microcontrollers and single-board computers (e.g., Arduino, Raspberry Pi) used in IoT devices.
Module 3. IoT Networking and Communication
- Wireless Communication: Technologies like Wi-Fi, Bluetooth, Zigbee, Z-Wave, and LoRaWAN used in IoT.
- Cellular IoT: Use of cellular networks (e.g., 4G, 5G, NB-IoT) for wide-area IoT connectivity.
- Mesh Networks: Network topologies where devices communicate with each other to extend the range and reliability.
Module 4. IoT Protocols and Standards
- IPv6 and 6LoWPAN: The role of IPv6 in IoT and the 6LoWPAN protocol for low-power wireless networks.
- Industrial IoT (IIoT) Protocols: Standards like OPC-UA, Modbus, and PROFIBUS used in industrial environments.
- Data Formats: Common data formats for IoT communication, such as JSON, XML, and CBOR.
Module 5. IoT Platforms and Cloud Integration
- IoT Platforms: Platforms like AWS IoT, Google Cloud IoT, Microsoft Azure IoT, and open-source platforms like ThingsBoard.
- Edge Computing: Processing data closer to the IoT devices to reduce latency and bandwidth usage.
- Fog Computing: An extension of cloud computing that brings processing power closer to IoT devices.
Module 6. Data Management and Analytics in IoT
- Data Collection: Techniques for gathering data from IoT devices and sensors.
- Data Storage: Methods for storing large volumes of IoT data, including relational databases, NoSQL databases, and time-series databases.
- Big Data Analytics: Analyzing IoT data to extract insights using tools like Hadoop, Spark, and machine learning algorithms.
Module 7. Security and Privacy in IoT
- IoT Security Challenges: Common vulnerabilities in IoT devices and networks, such as weak authentication, insecure interfaces, and firmware vulnerabilities.
- Encryption and Authentication: Techniques for securing IoT communication, including TLS, SSL, and certificate-based authentication.
- Privacy Concerns: Addressing privacy issues in IoT, such as data ownership, consent, and anonymization.
Module 8. IoT Applications and Use Cases
- Smart Home: Applications like home automation, smart lighting, security systems, and energy management.
- Smart Cities: IoT applications for urban planning, traffic management, waste management, and public safety.
- Industrial IoT (IIoT): Use cases in manufacturing, predictive maintenance, supply chain optimization, and asset tracking.
- Healthcare IoT: Remote patient monitoring, wearable devices, and connected medical equipment.
- Agriculture IoT: Precision farming, automated irrigation, livestock monitoring, and crop health analysis.
- Connected Vehicles: Vehicle-to-everything (V2X) communication, autonomous driving, and fleet management.
Module 9. IoT Standards and Interoperability
- Standards Organizations: Bodies like IEEE, IETF, and ETSI that define IoT standards.
- Interoperability Challenges: Ensuring that different IoT devices and systems can work together seamlessly.
- Open Standards: Promoting open-source and open standards for wider adoption of IoT technologies.
Module 10 Legal, Ethical, and Regulatory Aspects of IoT
- Data Protection Laws: Understanding regulations like GDPR that impact IoT data collection and processing.
- Ethical Considerations: Addressing ethical issues related to IoT, such as data privacy, surveillance, and consent.
- Regulatory Compliance: Ensuring IoT devices and systems comply with relevant industry regulations and standards.
Module 11 Fundamentals of Drones
- Drone Anatomy: Understanding the basic components of a drone, including the frame, motors, propellers, ESCs (Electronic Speed Controllers), flight controller, and power system.
- Types of Drones: Different types of drones, such as fixed-wing, multirotor (quadcopters, hexacopters, octocopters), and hybrid VTOL (Vertical Take-Off and Landing) drones.
- Principles of Flight: Basics of aerodynamics, including lift, drag, thrust, and weight, and how they affect drone flight.
Module 12. Drone Flight Mechanics
- Stability and Control: How drones maintain stability in flight, including the role of gyroscopes, accelerometers, and barometers.
- Flight Modes: Various flight modes like manual, GPS-assisted, altitude hold, headless mode, and autonomous flight.
- Path Planning and Navigation: Techniques for planning flight paths, including waypoint navigation, geofencing, and obstacle avoidance.
Module 13. Drone Sensors and Payloads
- Camera Systems: Different types of cameras used on drones, including RGB, thermal, infrared, and multispectral cameras.
- LiDAR and Radar: Advanced sensors for 3D mapping, obstacle detection, and autonomous navigation.
- Specialized Payloads: Payloads for specific applications, such as spraying systems for agriculture, delivery payloads, or scientific instruments.
Module 14. Drone Communication Systems
- Radio Frequency (RF) Communication: Basics of RF communication used in drone remote controls, including frequencies (e.g., 2.4 GHz, 5.8 GHz) and protocols (e.g., DSMX, PPM).
- FPV (First-Person View): Systems for real-time video transmission from the drone to the pilot, including analog and digital FPV systems.
- Telemetry: Data communication between the drone and the ground station, including battery status, GPS coordinates, and sensor data.
Module 15. Drone Autonomy and AI
- Autonomous Navigation: Algorithms for autonomous flight, including GPS-based navigation, SLAM (Simultaneous Localization and Mapping), and visual odometry.
- Computer Vision: Using AI and computer vision for tasks like object detection, tracking, and obstacle avoidance.
- Swarm Intelligence: Coordination of multiple drones to perform tasks collaboratively, inspired by natural systems like bird flocks or bee swarms.
Module 16. Drone Control Systems
- Flight Controllers: The brain of the drone, managing sensors, inputs, and outputs to stabilize and control flight.
- PID Control: Proportional-Integral-Derivative control systems used for precise control of drone flight dynamics.
- Gimbals and Stabilization: Systems to stabilize cameras and sensors, ensuring smooth and steady footage.
Module 17. Drone Power Systems
- Batteries: Types of batteries used in drones, including LiPo (Lithium Polymer) batteries, and factors affecting battery life and safety.
- Charging Systems: Safe charging practices, battery management systems (BMS), and wireless charging technologies.
- Energy Harvesting: Exploring alternative power sources, such as solar power, hydrogen fuel cells, and kinetic energy recovery.
Module 18. Drone Design and Engineering
- Aero-structural Design: Designing drone frames for optimal aerodynamics, weight, and strength.
- Materials: Common materials used in drone construction, such as carbon fiber, aluminum, and composite materials.
- Prototyping: Techniques for building and testing drone prototypes, including 3D printing, CNC machining, and CAD design.
Module 19. Drone Software Development
- Flight Control Software: Open-source and proprietary flight control software platforms like ArduPilot, PX4, and DJI SDKs.
- Mission Planning: Software tools for planning and executing autonomous missions, such as QGroundControl, Mission Planner, and DJI Ground Station.
- Data Processing: Software for processing data collected by drones, such as photogrammetry tools (Pix4D, DroneDeploy) and GIS applications (ArcGIS, QGIS).
Module 20. Drone Applications
- Aerial Photography and Videography: Techniques for capturing high-quality images and videos, including camera settings, flight techniques, and post-processing.
- Agriculture: Precision agriculture applications, such as crop monitoring, spraying, and soil analysis.
- Surveying and Mapping: Use of drones for topographic mapping, 3D modeling, and land surveying.
- Inspection and Monitoring: Drones in industrial inspection, such as inspecting power lines, wind turbines, pipelines, and infrastructure.
- Search and Rescue: Applications in emergency response, including search and rescue missions, disaster assessment, and delivery of medical supplies.
- Delivery Services: Drone delivery systems for transporting goods, focusing on logistics, safety, and regulatory challenges.
- Military and Defense: Military applications of drones, including reconnaissance, surveillance, and unmanned combat aerial vehicles (UCAVs).
Module 21. Drone Regulations and Compliance
- Airspace Management: Understanding airspace classifications, no-fly zones, and the rules for flying drones in different regions.
- Licensing and Certification: Requirements for commercial drone pilots, including Part 107 (USA), PfCO (UK), and other international regulations.
- Privacy and Ethics: Addressing privacy concerns related to drone operations, including data protection, surveillance, and ethical considerations.
Module 22. Drone Safety and Risk Management
- Pre-flight Checks: Procedures for ensuring drone safety before flight, including equipment checks, weather conditions, and flight planning.
- Emergency Procedures: Handling in-flight emergencies, such as GPS loss, battery failure, or motor malfunction.
- Risk Assessment: Evaluating and mitigating risks associated with drone operations, especially in populated or hazardous areas.
Module 23. Drone Industry and Market Trends
- Commercial Drone Market: Analysis of market trends, growth areas, and key players in the drone industry.
- Drone Startups and Innovation: Emerging startups and innovative technologies in the drone space.
- Future of Drones: Predictions on the evolution of drone technology, including autonomous urban air mobility (UAM) and drone taxis.
Module 24. Drone Maintenance and Troubleshooting
- Routine Maintenance: Best practices for maintaining drones, including cleaning, lubrication, and part replacement.
- Troubleshooting: Common issues with drones, such as signal loss, calibration errors, and mechanical failures, and how to resolve them.
- Firmware Updates: Updating drone firmware and software to ensure optimal performance and access to new features.
Module 25. Emerging Technologies in Drones
- Quantum Drones: Exploring the potential of quantum technologies in drone communication, sensing, and computation.
- Drone-to-Drone Communication: Techniques for enabling direct communication between drones, enhancing coordination and swarm capabilities.
- AI-Enhanced Drones: Integrating artificial intelligence for advanced autonomous operations, real-time decision-making, and adaptive learning.
Module 26. Environmental and Ethical Impacts of Drones
- Environmental Impact: Assessing the ecological footprint of drones, including noise pollution, wildlife disturbance, and energy consumption.
Ethical Dilemmas: Ethical considerations in deploying drones for surveillance, military use, and automated decision-making.
FAQs
1. Why should I join Winter Training Program 2024-25 from E&ICT Academy, IIT Kanpur?
E&ICT Academy, IIT Kanpur are designed to equip with latest techniques and concepts of the Industry. Throughout these courses, you will engage in hands-on sessions and projects. The practical experience will enable you to tackle to real world challenges effectively. Upon successful completion you will be awarded an Industry recognised certificate from E&ICT Academy, IIT Kanpur.
2. Who can do this Training program / Eligibility for the program?
Any student who is an Undergraduate, Graduate or Postgraduate which includes all B.Tech / MCA/M.Sc IT/B.Sc IT/BCA/PGDCA/MBA/BBA/PGDM and IT aspirants. Faculty members teaching at Undergraduate, Graduate and Postgraduate or at school levels. Working professionals who wish to improve/upgrade their skills
3. What is the last date for enrollment?
The enrollment process is on a “FIRST COME, FIRST SERVE” basis. Only 150 Seats are available at each and every course, Once seats are filled then particular batch admission will be closed
4. Is there a hostel facility available for Winter Training Program 2024-2025?
Hostel facility is NOT available for Winter Training Program 2024-2025 at IIT Kanpur Campus.
5. What is criteria of the certificate?
In order to get a certificate a minimum of 80% attendance is mandatory failing which the student will not be eligible for any certificate. The student who is absent during the examination or fails in the exam shall not be allowed for re- examination under any circumstances. Student who will be absent during assessment will be provided course attended certificate provided his/her attendance is 80%.
6. Can I switch from one course to another course ?
Usually we do not support change of courses. But if it is necessary then a student can request by dropping an email at eict@iitk.ac.in with payment invoice.
7. Can I switch from one batch to another batch?
Batch switching is dependent on the availability of the seats .To switch batches a student can request by dropping an email at eict@iitk.ac.in .
8. What is the Fee Refund Policy?
Usually, we do not provide refunds once the enrollment process has been completed. However, if a participant is unable to join the course due to unavoidable circumstances, they may apply for a refund. The request for a refund should be made 48 hours before the start date of the course/program, whether it is conducted live online or offline. To initiate the refund process, please send an email to eict@iitk.ac.in. We will then acknowledge your refund application via email.
Please note that students who do not join, attend, or inform us of their absence from classes will not be eligible for any refunds under any circumstances. The refunded amount will be returned to the same account from which the payment was made. The processing time for refund applications is approximately 2 to 3 weeks from the date of acceptance by our team.
The refund amount will be transferred to the account through which the original payment was made and only through electronic transfer.
Enquiry
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