Course Information
- Course Price $250
- Total Students 800+
- Course Duration 4 Weeks
Description
The Internet of Things is the start of a new era in technology. In IoT, things interact with each other to take decisions, offering solutions that could be not possible otherwise. The IoT is the network of devices, utilities, buildings, etc. that is integrated with smart electronics, network connectivity and sensors. This capability makes these objects to gather data, process, make decisions with coded logic and also exchange data, The IoT has the potential to change human lives with regard to consumer habits, personalization etc.
Benefits
- IoT is an ecosystem of interlinked physical objects that are accessible through the internet.
- It has become an important aspect of our lives. People have begun using more and more devices that are linked to internet.
- Organizations are also shifting towards building technologies that will be internet enabled.
- Internet saves time, raises effectiveness, and assist manage economy. Devices equipped with IoT like smart watches, fitness trackers, smart beds etc. are in the market and people are embracing them whole-heartedly.
- IoT will contribute to industries including utilities, oil and gas, healthcare, transportation, manufacturing etc.
Syllabus
- Concepts and Definitions of The Internet of Things (IOT).
- History of IOT.
- Requirements, Functionalists and structure of IOT.
- IOT enabling technologies.
- IOT Architecture.
- Major component of IOT (Hardware & Software).
- IOT communication and networking protocols, Role of wired and wireless communication.
- IOT services and applications.
- IOT Standards, Connectivity
- Project Case Study
- Project Requirement (hardware & software)
- How to Design IOT Application (Web, Mobile, Device)
- Projects on every technology (At least 4 Project)
- Data generator
- Microcontrollers (Arduino UNO/mega2560, Raspberry-Pi, ARM), Real-time systems and embedded software
- OS and Drivers (End Device Program)
- Hardware & Software Requirements.
- How to transfer data by Wireless / Wired connectivity.
- Ipv4/Ipv6, Ethernet/GigE.
- MIPI, M-PHY, UniPro, SPMI, BIF, SuperSpeed USB Inter-Chip (SSIC), Mobile PCIe (M-PCIe) and SPI
- GSM, 2g ,3g ,4g & 5g
- IEEE 802.15.4, IEEE 802.15.4e, 802.11ah
- Relay Access Point (AP)
- Grouping of station
- Target Wake Time (TWT)
- Overview and Role of Storage in Cloud / Server /Inhouse Storage.
- Databases Connectivity with IOT and uses.
- Case Study over Mysql / NoSql / NewSql.
- Case Study over Cloud Services and Administration.
- Case Study of Big Data & Hadoop Platforms.
- Analysis of data using python Module.
- Visualization and interpretation of Data.
- Data Cleaning in IOT
- Attack, Defence, and Network Robustness of Internet of Things
- Malware Propagation and Control in Internet of Things
- Privacy Preservation Data Dissemination
- Trust and Trust Models for the IoT
- Authentication in IoT
- Computational Security for the IoT
- Security Protocols for IoT Access Networks
- Security Testing
- Embedded systems
- Networking
- Computer programming
- Data management
- Network security
- Machine Learning
- UX/UI design
- Mobile development
IoT is one of the most happening things in the present IT industry. To begin a career in IoT, the initial thing required is the fundamental knowledge of electronics. In order to flourish in it, one must have a strong command on the following:
