manoj Internship ppt.pptx embedded system

Internship Presentation On “ EMBEDDED SYSTEM AND IOT ” By Manoj G Y 1SP19EC016 Under the Guidance of Mrs. Gayathiri K At Take it smart

Content Introduction Embedded system IOT Internship Responsibilities Skills and Knowledge Internship Project Mentorship and Support Benefits and opportunities Conclusion

Introduction An "Embedded and IoT" internship typically involves working with embedded systems and Internet of Things (IoT) devices. Embedded systems are computer systems that are integrated into other devices or products and are designed to perform specific functions. IoT devices, on the other hand, are physical objects that are connected to the internet and can send and receive data. During an Embedded and IoT internship, you may be involved in designing, developing, and testing software and hardware for embedded systems and IoT devices. You may also work on integrating sensors, communication protocols, and cloud services to build innovative solutions that can be used in various industries. This type of internship is a great opportunity to gain hands-on experience in the field of embedded systems and IoT, and to learn about the latest technologies and trends in this exciting area

EMBEDDED SYSTEM The combination of hardware and software either fixed in capability or programmable is know Embedded system , that is designed for a specific function. Embedded systems is device used to control, monitor the operation of equipment’s , machinery or plant. “Embedded” refers to the internal An embedded system is a computer system that is designed to perform a specific function within a larger device or product. Examples of products that use embedded systems include smart home devices, medical equipment, automotive systems, and industrial machinery. Embedded systems typically have limited processing power, memory, and storage compared to desktop computers or smartphones. Embedded systems can be programmed using various programming languages, including C, C++, Python, and Java. Real-time operating systems (RTOS) are often used in embedded systems to ensure timely and predictable responses to external events or inputs Embedded systems often rely on low-level hardware interfaces, such as I/O ports and interrupts, to interact with the physical world. Debugging embedded systems can be challenging due to limited visibility and access to the system.

IOT The Internet of Things (IoT) refers to a network of physical objects or devices that are connected to the internet and can communicate with each other and with humans. IoT devices can be embedded in various objects, such as appliances, wearables, vehicles, and infrastructure, to collect, analyze, and share data. IoT technologies can enable various applications, such as smart homes, smart cities, industrial automation, and environmental monitoring. IoT devices typically use sensors, actuators, and communication technologies, such as Wi-Fi, Bluetooth, Zigbee, or cellular networks, to connect to the internet and to each other. Security and privacy are important challenges in IoT, as the large number of devices and the diversity of their functions and vulnerabilities can create new risks and threats

Internship Responsibilities: Developing and testing software for embedded systems and IoT devices, using programming languages such as C, C++, or Python. Designing and implementing hardware interfaces and communication protocols for embedded systems and IoT devices, such as SPI, I2C, UART, or Ethernet. Integrating sensors and actuators with embedded systems and IoT devices, and analyzing the data collected from these sensors using tools such as MATLAB or Python. Participating in team meetings and collaborating with other engineers to design and build innovative solutions that meet the needs of customers or clients. Documenting and presenting project work to supervisors or team members, and maintaining accurate records of project progress and results

Skills and Knowledge: Basic programming skills in languages such as C and Python. Familiarity with basic electronics concepts such as voltage, current, resistance, and capacitance Knowledge of basic circuit design Basic understanding of hardware components and interfaces Familiarity with IoT architectures and platforms Ability to work in a team environment and communicate effectively Basic project management and documentation skills

Internship Project Reduces municipal street lighting costs by 50% to 70% Uses sensors to adjust light output based on usage and occupancy Wireless system controls energy consumption and uses power conditioning and control measures Real-time system allows for access to street light (ON/OFF status) from anywhere, anytime through the internet Street controller installed on pole light uses NodeMcu ESP8266 Wireless technology transfers data from street light controller to base station for monitoring Auto mode operation switches lights on/off as required and varies street light intensity according to requirement Iot street light monitoring and control system:

Highly reliable Highly accurate. Processing speed is fast Economical technology Less Memory Space Easy to use and user friendly Merits: Limitations Limited to area Depends on network connectivity Need continues power supply. APPLICATIONS Industries Backyard garden National highways Streets Home

Mentorship and Support: Assigned mentor or supervisor who provides guidance and feedback on project work Regular check-ins with mentor or supervisor to discuss progress and provide support Access to online resources and documentation for learning and troubleshooting Opportunities to participate in training or professional development activities, such as workshops or seminars Opportunities to collaborate with other interns or engineers on team projects Access to hardware and software tools needed for project work Opportunities to present project work to other engineers or stakeholders for feedback and review Regular performance feedback and evaluation from mentor or supervisor to identify areas for improvement and development Access to a supportive and inclusive work environment that values diversity and encourages open communication

Benefits and Opportunities: Gain hands-on experience with designing, developing, and testing embedded systems and IoT devices Develop technical skills and knowledge in programming, electronics, and IoT architectures and platforms Gain exposure to real-world engineering challenges and problem-solving techniques Work on a variety of projects and technologies, gaining experience in multiple areas Develop project management and documentation skills for communicating project progress and results. Build a professional network and connect with other engineers and industry professionals Gain exposure to cutting-edge technologies and tools used in the industryOpportunities to work with and learn from experienced mentors and supervisors Opportunities for career growth and advancement within the company or industry Competitive compensation and benefits package.

Conclusion: In conclusion, an Embedded Systems and IoT internship provides a unique opportunity for students or entry-level engineers to gain hands-on experience in designing, developing, and testing complex embedded systems and IoT devices. Through this internship, interns can develop technical skills in programming, electronics, and IoT architectures and platforms, while also gaining valuable project management and documentation skills. Additionally, interns have the opportunity to work with experienced mentors and supervisors, and to build a professional network within the industry. Overall, an Embedded Systems and IoT internship provides a solid foundation for a career in the growing field of IoT, and can open up many opportunities for personal and professional growth

manoj Internship ppt.pptx embedded system

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