This document provides an overview of an embedded IoT course. It defines embedded systems and IoT, and how IoT has impacted industries. The course covers IoT operating systems, development platforms, protocols, tools, and concepts through hands-on projects developing smart home and industrial IoT solutions. The best embedded IoT course is offered in Chennai by Netsui, providing job placement assistance upon completion.
The document describes an internship project on developing a smart home automation system using Internet of Things (IoT) technology. The objectives were to familiarize with basic IoT concepts and analyze home automation using IoT. Over four weeks, the intern studied IoT, its components, latest projects, and implemented a project. The project uses an ESP8266 WiFi module, Arduino, relays and a Blynk app to control appliances remotely. Experimental results showed successful remote control of appliances over WiFi. The system provides home security and automation at low cost. Future work may include cross-platform deployment and controlling more appliances.
This document describes a seminar report on a smart energy efficient home automation system using IoT. The system aims to remotely control home appliances from anywhere using an internet connection to reduce electricity bills and provide safety and security. It proposes using technologies like NodeMCU, IFTTT, Arduino and Google Assistant to operate devices via voice commands or a web interface. The report includes sections on the system framework, architecture, applications used and concludes that the system can make homes more intelligent and efficient while saving energy costs.
The document provides details about Abdul Azeem's 6-week summer training at Electrocus Solution on "Internet of Things (IOT)". It includes a certificate, declaration, acknowledgement, abstract and contents. The training covered embedded system architecture, designing and implementing embedded systems, and fundamentals of Arduino and IOT. Key topics included microcontrollers, sensors like ultrasonic and soil moisture, programming with Arduino IDE, and characteristics and applications of IOT.
This document provides details about a project to implement a smart campus network module at a college using Internet of Things (IoT) technology. The objectives are to present a local area network design suitable for colleges with limited budgets that ensures security, backup and other features of networks in developed countries. The project involves collecting data from various IoT devices on campus, analyzing the big data with techniques like data cleaning and visualization, and communicating between devices using protocols. It proposes a smart campus architecture with modules like campus operations, services and surrounding areas. Screenshots show simulations of the network in Packet Tracer. Advantages include enhanced security, time savings, access to real-time information and efficient electricity use.
Sweenkrishna is seeking a position in embedded systems. He has a Bachelor's degree in Electrical and Electronics Engineering and has worked as an embedded developer for over 2 years. His experience includes designing and developing embedded software and hardware, providing training, and completing projects for clients involving PIC and ARM microcontrollers. His areas of interest include embedded systems, digital electronics, VLSI, and programming languages like C, C++, and Java.
RPL AND COAP PROTOCOLS, EXPERIMENTAL ANALYSIS FOR IOT: A CASE STUDYijasuc
Internet of Things(IoT) in recent days playing a vital role in networking related applications. However,
there are several protocols available for building IoT applications, but RPL and CoAP are important
protocols.There is a customized protocol requirement for specific IoT applications, while working on
specific research problems. Further, adequate platforms are required to evaluate the performance of these
protocols. These platforms need to be configured for the protocol, which is very crucial and timeconsuming task. At present, there is no collective and precise information available to carry out this work.
This paper discusses two different open source platforms available for IoT. Also,various IoT research ideas
need to design of IoT protocols. A few IoT communication technologies are mentioned in the paper. The
detail analysis of, two common protocols, namely Routing Protocol for Low-Power Lossy Networks (RPL)
and Constrained Application layer protocol (CoAP) is carried out with respect to latency delay and packet
delivery ratio. The results, discussion and conclusion presented in this paper are useful for researchers,
who are interested to work with IoT protocols and standards.
This document provides an overview of an embedded IoT course. It defines embedded systems and IoT, and how IoT has impacted industries. The course covers IoT operating systems, development platforms, protocols, tools, and concepts through hands-on projects developing smart home and industrial IoT solutions. The best embedded IoT course is offered in Chennai by Netsui, providing job placement assistance upon completion.
The document describes an internship project on developing a smart home automation system using Internet of Things (IoT) technology. The objectives were to familiarize with basic IoT concepts and analyze home automation using IoT. Over four weeks, the intern studied IoT, its components, latest projects, and implemented a project. The project uses an ESP8266 WiFi module, Arduino, relays and a Blynk app to control appliances remotely. Experimental results showed successful remote control of appliances over WiFi. The system provides home security and automation at low cost. Future work may include cross-platform deployment and controlling more appliances.
This document describes a seminar report on a smart energy efficient home automation system using IoT. The system aims to remotely control home appliances from anywhere using an internet connection to reduce electricity bills and provide safety and security. It proposes using technologies like NodeMCU, IFTTT, Arduino and Google Assistant to operate devices via voice commands or a web interface. The report includes sections on the system framework, architecture, applications used and concludes that the system can make homes more intelligent and efficient while saving energy costs.
The document provides details about Abdul Azeem's 6-week summer training at Electrocus Solution on "Internet of Things (IOT)". It includes a certificate, declaration, acknowledgement, abstract and contents. The training covered embedded system architecture, designing and implementing embedded systems, and fundamentals of Arduino and IOT. Key topics included microcontrollers, sensors like ultrasonic and soil moisture, programming with Arduino IDE, and characteristics and applications of IOT.
This document provides details about a project to implement a smart campus network module at a college using Internet of Things (IoT) technology. The objectives are to present a local area network design suitable for colleges with limited budgets that ensures security, backup and other features of networks in developed countries. The project involves collecting data from various IoT devices on campus, analyzing the big data with techniques like data cleaning and visualization, and communicating between devices using protocols. It proposes a smart campus architecture with modules like campus operations, services and surrounding areas. Screenshots show simulations of the network in Packet Tracer. Advantages include enhanced security, time savings, access to real-time information and efficient electricity use.
Sweenkrishna is seeking a position in embedded systems. He has a Bachelor's degree in Electrical and Electronics Engineering and has worked as an embedded developer for over 2 years. His experience includes designing and developing embedded software and hardware, providing training, and completing projects for clients involving PIC and ARM microcontrollers. His areas of interest include embedded systems, digital electronics, VLSI, and programming languages like C, C++, and Java.
RPL AND COAP PROTOCOLS, EXPERIMENTAL ANALYSIS FOR IOT: A CASE STUDYijasuc
Internet of Things(IoT) in recent days playing a vital role in networking related applications. However,
there are several protocols available for building IoT applications, but RPL and CoAP are important
protocols.There is a customized protocol requirement for specific IoT applications, while working on
specific research problems. Further, adequate platforms are required to evaluate the performance of these
protocols. These platforms need to be configured for the protocol, which is very crucial and timeconsuming task. At present, there is no collective and precise information available to carry out this work.
This paper discusses two different open source platforms available for IoT. Also,various IoT research ideas
need to design of IoT protocols. A few IoT communication technologies are mentioned in the paper. The
detail analysis of, two common protocols, namely Routing Protocol for Low-Power Lossy Networks (RPL)
and Constrained Application layer protocol (CoAP) is carried out with respect to latency delay and packet
delivery ratio. The results, discussion and conclusion presented in this paper are useful for researchers,
who are interested to work with IoT protocols and standards.
RPL AND COAP PROTOCOLS, EXPERIMENTAL ANALYSIS FOR IOT: A CASE STUDYijasuc
Internet of Things(IoT) in recent days playing a vital role in networking related applications. However,
there are several protocols available for building IoT applications, but RPL and CoAP are important
protocols.There is a customized protocol requirement for specific IoT applications, while working on
specific research problems. Further, adequate platforms are required to evaluate the performance of these
protocols. These platforms need to be configured for the protocol, which is very crucial and timeconsuming task. At present, there is no collective and precise information available to carry out this work.
This paper discusses two different open source platforms available for IoT. Also,various IoT research ideas
need to design of IoT protocols. A few IoT communication technologies are mentioned in the paper. The
detail analysis of, two common protocols, namely Routing Protocol for Low-Power Lossy Networks (RPL)
and Constrained Application layer protocol (CoAP) is carried out with respect to latency delay and packet
delivery ratio. The results, discussion and conclusion presented in this paper are useful for researchers,
who are interested to work with IoT protocols and standards
RPL AND COAP PROTOCOLS, EXPERIMENTAL ANALYSIS FOR IOT: A CASE STUDYijasuc
Internet of Things(IoT) in recent days playing a vital role in networking related applications. However,
there are several protocols available for building IoT applications, but RPL and CoAP are important
protocols.There is a customized protocol requirement for specific IoT applications, while working on
specific research problems. Further, adequate platforms are required to evaluate the performance of these
protocols. These platforms need to be configured for the protocol, which is very crucial and timeconsuming task. At present, there is no collective and precise information available to carry out this work.
This paper discusses two different open source platforms available for IoT. Also,various IoT research ideas
need to design of IoT protocols. A few IoT communication technologies are mentioned in the paper. The
detail analysis of, two common protocols, namely Routing Protocol for Low-Power Lossy Networks (RPL)
and Constrained Application layer protocol (CoAP) is carried out with respect to latency delay and packet
delivery ratio. The results, discussion and conclusion presented in this paper are useful for researchers,
who are interested to work with IoT protocols and standards.
PPT about basic format for attending exams based on internshipPriyangaPrem
1. Priyanga P completed a two-week internship training program at NSIC-Technical Services Centre from July 3 to July 17, 2023 focused on embedded systems with AI and IoT.
2. The program included daily lectures and assessments covering a wide range of topics in embedded systems and IoT to foster comprehensive understanding through theory and practice.
3. Priyanga acquired hands-on experience and knowledge through visits to different departments and successfully finished the internship, applying technical skills learned.
Architecture & data acquisition by embedded systems in automobiles seminar re...Ankit Kaul
This document is a technical seminar report submitted by Ankit Kaul to the Visvesvaraya Technological University. The report discusses the architecture and data acquisition of embedded systems in automobiles. It provides an overview of the layered architecture of digital services enabled by embedded technology in vehicles. This includes modular architecture, layered architecture, and a layered modular architecture continuum. It also describes how remote diagnostic services work using embedded sensors in vehicles to collect data, which is transmitted through networks and analyzed by application programs.
Developing Web-based Interactive Teaching System for Core Network Technology ...drboon
This paper presents an in-house created software application that emulates and virtualizes computer networking laboratory hardware and proprietary equipment on PCs and servers. A user friendly remote laboratory manage system is developed using .NET technology. Through the presented lab management system, the students are able to conduct more than 200 lab assignments covering 10 courses from both lower level routing and switching classes to upper level network management and security classes that demand a large amount of physical equipment and a great number of student lab contact hours prior to the emulated lab. This emulation solution eliminates our dependencies on expensive proprietary networking equipment. It also reduces the burden of system administration. This remote lab has been used and tested in three networking courses. The feedbacks show that the lab delivers similar or better lab experiences for the DE students while the lab construction and maintenance cost is reduced to the minimum.
AccML, co-located with HiPEAC 2021_Pedro Trancoso presentationVEDLIoT Project
VEDLIoT is a project that aims to develop a framework for the next generation internet of things (IoT) based on IoT devices that collaboratively solve complex deep learning applications across distributed systems. The project will improve the performance and cost ratio of AI processing by distributing hardware across the entire chain from embedded devices to the cloud. It will also increase the safety, health and well-being of users through accelerating AI methods for user-home interaction. The project will develop a cognitive IoT platform, deep learning toolchain, and DL accelerators to enable this vision over its three year timeline starting in November 2020.
Simulation, modelling and packet sniffing facilities for IoT: A systematic an...IJECEIAES
Man and Machine in terms of heterogeneous devices and sensors collaborate giving birth to the Internet of Things, Internet of future. Within a short span of time 30billions intelligent devices in form of smart applications will get connected making it difficult to test and debug in terms of time and cost. Simulators play vital role in verifying application and providing security before actually deploying it in real environment. Due to constraint environment in terms of memory, computation, and energy this review paper under a single umbrella will throw insight on comprehensive and in-depth analysis keeping in mind various barriers, critical design characteristics along with the comparison of candidate simulator and packet sniffing tool. Post simulated analysis play vital role in deciding behavior of data and helping research community to satisfy quality of service parameters. This review makes it feasible to make an appropriate choice for simulators and network analyzer tool easy fulfilling needs and making IoT a reality.
In this era of Digitization and Automation, the life of human beings is getting simpler as almost everything is automatic, replacing the old manual systems. Nowadays humans have made internet an integral part of their everyday life without which they are helpless. Internet of things IOT provides a platform that allows devices to connect, sensed and controlled remotely across a network infrastructure. Our project basically focuses on Laboratory automation using smart phone and computer. The IOT devices controls and monitors the electronic electrical and the mechanical systems used in various types of buildings. The devices connected to the cloud server are controlled by a single admin which facilitate a number of users to which a number of sensor and control nodes are connected. The system designed is economical and can be expanded as it allows connection and controlling of a number of different devices. Deepak Adhav | Rahul Pagar | Ravi Sonawane | Sachin Tawade ""Smart Laboratory"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd22840.pdf
Paper URL: https://www.ijtsrd.com/engineering/computer-engineering/22840/smart-laboratory/deepak-adhav
This 4-week course provides an introduction to IoT concepts, embedded systems, programming fundamentals for Arduino IDE, communication protocols, and hands-on projects using Node MCU. The curriculum is designed for beginners and covers essential topics like sensors, networking, cloud integration and applications across industries to provide practical skills for real-world IoT development.
The document discusses Internet of Things (IoT) frameworks. It describes that an IoT framework consists of interconnected components like sensors, gateways, apps, and data/analytical platforms that enable machine-to-machine interactions by providing secure connectivity and reliable data transfer. Real-time Innovations and Cisco are mentioned as examples of IoT framework companies that provide connectivity software and platforms for industrial IoT systems. Salesforce's IoT cloud platform is also summarized, which uses Apache technologies like Kafka, Spark, and Cassandra to process and store IoT data.
They have become an essential component of modern-day devices and systems. Due to their popularity, there is a growing demand for engineers and hobbyists who can program and use these microcontrollers. This PIC Microcontroller Training Certification Online Course is designed to introduce PIC microcontrollers and their programming comprehensively.
IRJET- IoT based Classroom Automation SystemIRJET Journal
This document describes an IoT-based classroom automation system that allows teachers to remotely control devices in the classroom using a mobile application. The system uses NodeMCU microcontrollers connected to sensors and appliances via relays to enable on/off control. An ultrasonic sensor detects human presence. Commands sent from the mobile app via WiFi are received by the NodeMCU which controls the relays. This allows automation of lighting, A/C, and other devices for improved energy efficiency, convenience and security while providing remote classroom monitoring capabilities.
Rongali Ramunaidu is seeking a challenging role in a professional organization to contribute to its development and enhance his skills. He has over 3 years of experience as a Software Engineer developing modules for Alcatel Lucent's network management systems using technologies like Java, PHP, and AWS. He has hands-on experience in solving bugs, managing requirements, and deploying solutions. Rongali completed his M.Tech in Embedded Systems and B.Tech in Electronics and Communication Engineering. He is proficient in languages like Java, C, PHP and tools like Eclipse and PHPStorm.
IRJET - Securing Communication among IoT Devices using Blockchain ProxyIRJET Journal
This document proposes a blockchain proxy scheme to secure communication among IoT devices. The proxy requires a slim SDK on IoT devices to connect them to the blockchain while retaining full control over transactions. The proxy offloads communication tasks to save CPU and bandwidth for IoT devices. A preliminary implementation on Hyperledger Fabric shows potential savings. The proposed system uses a custom blockchain and smart contracts to analyze performance and security when IoT data is shared using this proxy scheme.
An IOT Based Low Power Health Monitoring with Active Personal Assistanceijtsrd
Among sensible goals of active and assisted living paradigm is the unobtrusive monitoring of daily living activities. A lot of research has been going on continuous home and personal monitoring applications. There are many solutions were adapted by these technologies to make better remote monitoring applications. The traditional continuous home and personal monitoring systems which are implemented with traditional client server architecture which may fail in factors like low power consumption, un deterministic data delivery time, More sensitive to external connectivity issues temporary failures of servers , adhoc networks using ZigBee and Z wave etc. and also increase the cost of implementation. However, when dealing with the home environment, and especially with older adults, obtrusiveness, usability, and cost concerns are of the utmost relevance for active and assisted Living AAL joint program. With advent of cloud services, the continuous remote monitoring based applications became truly plug and play' approach implementation and also reduce the problems of temporary failures. One of the biggest challenges in this area is to make such application devices work with low power battery based applications . The main drawback comes from the higher power consumption, inherently needed to sustain much higher data rates. In this project, a solution is proposed to improve the low power consumption in Wi Fi sensors by making use of advanced RF based Microprocessor from Texas instruments CC3200 . Bed Occupancy sensor automation has been designed and implemented to test the feasibility of the approach. The TI CC3200 comes with ARM Cortex M4 as a core and inbuilt Wi Fi subsystem. The CC3200 provides different power modes to make the device enter into sleep or hibernate mode. This device will only enter only in work phase when the sensor is active state. During this phase, the processor sample and processes the sensor data and uploads to the cloud using REST API. Thing speak is an IoT cloud service used to present the sensory data as graphs, bar charts, and dashboards on the cloud remaining time it will enter into sleep phase to save the power of the device, so that it will extend the battery life time of the device. B. N. Meenakshi | Mrs. N. V. Durga "An IOT Based Low Power Health Monitoring with Active Personal Assistance" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-1 , December 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29603.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/29603/an-iot-based-low-power-health-monitoring-with-active-personal-assistance/b-n-meenakshi
A survey on Internet of Things (IoT) security : Challenges and Current statusvivatechijri
When Internet of Things (IoT) applications become a part of people’s daily life, security issues in IoT have caught substantial attention in both academia and industry. Compared to traditional computing systems, IoT systems have more inherent vulnerabilities, and in the intervening time, could have higher security requirements. However, the current design of IoT does not successfully address the higher security requirements postured by those vulnerabilities. Many recent attacks on IoT systems have shown that novel security solutions are needed to defend this emerging system. This paper purposes to examine security challenges resulted from the special characteristics of the IoT systems and the new features of the IoT applications. This could help pave the road to better security solution design. Furthermore, three architectural security designs are suggested and analyzed. Examples of how to implement these designs are discussed. Finally, for each layer in IoT architecture, open issues are also identified.
Implementation of IoT in Agriculture: A Scientific Approach for Smart Irriga...Springer
This document describes an IoT-based smart irrigation prototype that was designed and implemented. The prototype automatically turns a motor pump on and off based on soil moisture levels, taking into account temperature and humidity. It uses an ESP32 microcontroller connected to DHT11 and moisture sensors. The data is sent to the Arduino IoT cloud via MQTT protocol and can be accessed worldwide. Test data from the prototype over the cloud and locally is presented. The document also provides background on IoT architectures and protocols, and discusses related work on smart agriculture applications using IoT and machine learning.
Internet of Things -Indoor Environmental Monitoring And Control Systemsalim lakade
This document describes an IOT-based indoor environment monitoring and control system. It discusses:
1) The system architecture uses various sensors to monitor indoor conditions and send data to a Raspberry Pi controller over I2C or serial ports.
2) The Raspberry Pi executes instructions to control hardware devices and interact with a server based on sensor readings.
3) The system was tested by monitoring temperature and detecting fires. It showed advantages like remote control, automatic adjustment, and scalability. Future work could expand functions and improve the interface and hardware/software.
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
Rainfall intensity duration frequency curve statistical analysis and modeling...bijceesjournal
Using data from 41 years in Patna’ India’ the study’s goal is to analyze the trends of how often it rains on a weekly, seasonal, and annual basis (1981−2020). First, utilizing the intensity-duration-frequency (IDF) curve and the relationship by statistically analyzing rainfall’ the historical rainfall data set for Patna’ India’ during a 41 year period (1981−2020), was evaluated for its quality. Changes in the hydrologic cycle as a result of increased greenhouse gas emissions are expected to induce variations in the intensity, length, and frequency of precipitation events. One strategy to lessen vulnerability is to quantify probable changes and adapt to them. Techniques such as log-normal, normal, and Gumbel are used (EV-I). Distributions were created with durations of 1, 2, 3, 6, and 24 h and return times of 2, 5, 10, 25, and 100 years. There were also mathematical correlations discovered between rainfall and recurrence interval.
Findings: Based on findings, the Gumbel approach produced the highest intensity values, whereas the other approaches produced values that were close to each other. The data indicates that 461.9 mm of rain fell during the monsoon season’s 301st week. However, it was found that the 29th week had the greatest average rainfall, 92.6 mm. With 952.6 mm on average, the monsoon season saw the highest rainfall. Calculations revealed that the yearly rainfall averaged 1171.1 mm. Using Weibull’s method, the study was subsequently expanded to examine rainfall distribution at different recurrence intervals of 2, 5, 10, and 25 years. Rainfall and recurrence interval mathematical correlations were also developed. Further regression analysis revealed that short wave irrigation, wind direction, wind speed, pressure, relative humidity, and temperature all had a substantial influence on rainfall.
Originality and value: The results of the rainfall IDF curves can provide useful information to policymakers in making appropriate decisions in managing and minimizing floods in the study area.
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RPL AND COAP PROTOCOLS, EXPERIMENTAL ANALYSIS FOR IOT: A CASE STUDYijasuc
Internet of Things(IoT) in recent days playing a vital role in networking related applications. However,
there are several protocols available for building IoT applications, but RPL and CoAP are important
protocols.There is a customized protocol requirement for specific IoT applications, while working on
specific research problems. Further, adequate platforms are required to evaluate the performance of these
protocols. These platforms need to be configured for the protocol, which is very crucial and timeconsuming task. At present, there is no collective and precise information available to carry out this work.
This paper discusses two different open source platforms available for IoT. Also,various IoT research ideas
need to design of IoT protocols. A few IoT communication technologies are mentioned in the paper. The
detail analysis of, two common protocols, namely Routing Protocol for Low-Power Lossy Networks (RPL)
and Constrained Application layer protocol (CoAP) is carried out with respect to latency delay and packet
delivery ratio. The results, discussion and conclusion presented in this paper are useful for researchers,
who are interested to work with IoT protocols and standards
RPL AND COAP PROTOCOLS, EXPERIMENTAL ANALYSIS FOR IOT: A CASE STUDYijasuc
Internet of Things(IoT) in recent days playing a vital role in networking related applications. However,
there are several protocols available for building IoT applications, but RPL and CoAP are important
protocols.There is a customized protocol requirement for specific IoT applications, while working on
specific research problems. Further, adequate platforms are required to evaluate the performance of these
protocols. These platforms need to be configured for the protocol, which is very crucial and timeconsuming task. At present, there is no collective and precise information available to carry out this work.
This paper discusses two different open source platforms available for IoT. Also,various IoT research ideas
need to design of IoT protocols. A few IoT communication technologies are mentioned in the paper. The
detail analysis of, two common protocols, namely Routing Protocol for Low-Power Lossy Networks (RPL)
and Constrained Application layer protocol (CoAP) is carried out with respect to latency delay and packet
delivery ratio. The results, discussion and conclusion presented in this paper are useful for researchers,
who are interested to work with IoT protocols and standards.
PPT about basic format for attending exams based on internshipPriyangaPrem
1. Priyanga P completed a two-week internship training program at NSIC-Technical Services Centre from July 3 to July 17, 2023 focused on embedded systems with AI and IoT.
2. The program included daily lectures and assessments covering a wide range of topics in embedded systems and IoT to foster comprehensive understanding through theory and practice.
3. Priyanga acquired hands-on experience and knowledge through visits to different departments and successfully finished the internship, applying technical skills learned.
Architecture & data acquisition by embedded systems in automobiles seminar re...Ankit Kaul
This document is a technical seminar report submitted by Ankit Kaul to the Visvesvaraya Technological University. The report discusses the architecture and data acquisition of embedded systems in automobiles. It provides an overview of the layered architecture of digital services enabled by embedded technology in vehicles. This includes modular architecture, layered architecture, and a layered modular architecture continuum. It also describes how remote diagnostic services work using embedded sensors in vehicles to collect data, which is transmitted through networks and analyzed by application programs.
Developing Web-based Interactive Teaching System for Core Network Technology ...drboon
This paper presents an in-house created software application that emulates and virtualizes computer networking laboratory hardware and proprietary equipment on PCs and servers. A user friendly remote laboratory manage system is developed using .NET technology. Through the presented lab management system, the students are able to conduct more than 200 lab assignments covering 10 courses from both lower level routing and switching classes to upper level network management and security classes that demand a large amount of physical equipment and a great number of student lab contact hours prior to the emulated lab. This emulation solution eliminates our dependencies on expensive proprietary networking equipment. It also reduces the burden of system administration. This remote lab has been used and tested in three networking courses. The feedbacks show that the lab delivers similar or better lab experiences for the DE students while the lab construction and maintenance cost is reduced to the minimum.
AccML, co-located with HiPEAC 2021_Pedro Trancoso presentationVEDLIoT Project
VEDLIoT is a project that aims to develop a framework for the next generation internet of things (IoT) based on IoT devices that collaboratively solve complex deep learning applications across distributed systems. The project will improve the performance and cost ratio of AI processing by distributing hardware across the entire chain from embedded devices to the cloud. It will also increase the safety, health and well-being of users through accelerating AI methods for user-home interaction. The project will develop a cognitive IoT platform, deep learning toolchain, and DL accelerators to enable this vision over its three year timeline starting in November 2020.
Simulation, modelling and packet sniffing facilities for IoT: A systematic an...IJECEIAES
Man and Machine in terms of heterogeneous devices and sensors collaborate giving birth to the Internet of Things, Internet of future. Within a short span of time 30billions intelligent devices in form of smart applications will get connected making it difficult to test and debug in terms of time and cost. Simulators play vital role in verifying application and providing security before actually deploying it in real environment. Due to constraint environment in terms of memory, computation, and energy this review paper under a single umbrella will throw insight on comprehensive and in-depth analysis keeping in mind various barriers, critical design characteristics along with the comparison of candidate simulator and packet sniffing tool. Post simulated analysis play vital role in deciding behavior of data and helping research community to satisfy quality of service parameters. This review makes it feasible to make an appropriate choice for simulators and network analyzer tool easy fulfilling needs and making IoT a reality.
In this era of Digitization and Automation, the life of human beings is getting simpler as almost everything is automatic, replacing the old manual systems. Nowadays humans have made internet an integral part of their everyday life without which they are helpless. Internet of things IOT provides a platform that allows devices to connect, sensed and controlled remotely across a network infrastructure. Our project basically focuses on Laboratory automation using smart phone and computer. The IOT devices controls and monitors the electronic electrical and the mechanical systems used in various types of buildings. The devices connected to the cloud server are controlled by a single admin which facilitate a number of users to which a number of sensor and control nodes are connected. The system designed is economical and can be expanded as it allows connection and controlling of a number of different devices. Deepak Adhav | Rahul Pagar | Ravi Sonawane | Sachin Tawade ""Smart Laboratory"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd22840.pdf
Paper URL: https://www.ijtsrd.com/engineering/computer-engineering/22840/smart-laboratory/deepak-adhav
This 4-week course provides an introduction to IoT concepts, embedded systems, programming fundamentals for Arduino IDE, communication protocols, and hands-on projects using Node MCU. The curriculum is designed for beginners and covers essential topics like sensors, networking, cloud integration and applications across industries to provide practical skills for real-world IoT development.
The document discusses Internet of Things (IoT) frameworks. It describes that an IoT framework consists of interconnected components like sensors, gateways, apps, and data/analytical platforms that enable machine-to-machine interactions by providing secure connectivity and reliable data transfer. Real-time Innovations and Cisco are mentioned as examples of IoT framework companies that provide connectivity software and platforms for industrial IoT systems. Salesforce's IoT cloud platform is also summarized, which uses Apache technologies like Kafka, Spark, and Cassandra to process and store IoT data.
They have become an essential component of modern-day devices and systems. Due to their popularity, there is a growing demand for engineers and hobbyists who can program and use these microcontrollers. This PIC Microcontroller Training Certification Online Course is designed to introduce PIC microcontrollers and their programming comprehensively.
IRJET- IoT based Classroom Automation SystemIRJET Journal
This document describes an IoT-based classroom automation system that allows teachers to remotely control devices in the classroom using a mobile application. The system uses NodeMCU microcontrollers connected to sensors and appliances via relays to enable on/off control. An ultrasonic sensor detects human presence. Commands sent from the mobile app via WiFi are received by the NodeMCU which controls the relays. This allows automation of lighting, A/C, and other devices for improved energy efficiency, convenience and security while providing remote classroom monitoring capabilities.
Rongali Ramunaidu is seeking a challenging role in a professional organization to contribute to its development and enhance his skills. He has over 3 years of experience as a Software Engineer developing modules for Alcatel Lucent's network management systems using technologies like Java, PHP, and AWS. He has hands-on experience in solving bugs, managing requirements, and deploying solutions. Rongali completed his M.Tech in Embedded Systems and B.Tech in Electronics and Communication Engineering. He is proficient in languages like Java, C, PHP and tools like Eclipse and PHPStorm.
IRJET - Securing Communication among IoT Devices using Blockchain ProxyIRJET Journal
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An IOT Based Low Power Health Monitoring with Active Personal Assistanceijtsrd
Among sensible goals of active and assisted living paradigm is the unobtrusive monitoring of daily living activities. A lot of research has been going on continuous home and personal monitoring applications. There are many solutions were adapted by these technologies to make better remote monitoring applications. The traditional continuous home and personal monitoring systems which are implemented with traditional client server architecture which may fail in factors like low power consumption, un deterministic data delivery time, More sensitive to external connectivity issues temporary failures of servers , adhoc networks using ZigBee and Z wave etc. and also increase the cost of implementation. However, when dealing with the home environment, and especially with older adults, obtrusiveness, usability, and cost concerns are of the utmost relevance for active and assisted Living AAL joint program. With advent of cloud services, the continuous remote monitoring based applications became truly plug and play' approach implementation and also reduce the problems of temporary failures. One of the biggest challenges in this area is to make such application devices work with low power battery based applications . The main drawback comes from the higher power consumption, inherently needed to sustain much higher data rates. In this project, a solution is proposed to improve the low power consumption in Wi Fi sensors by making use of advanced RF based Microprocessor from Texas instruments CC3200 . Bed Occupancy sensor automation has been designed and implemented to test the feasibility of the approach. The TI CC3200 comes with ARM Cortex M4 as a core and inbuilt Wi Fi subsystem. The CC3200 provides different power modes to make the device enter into sleep or hibernate mode. This device will only enter only in work phase when the sensor is active state. During this phase, the processor sample and processes the sensor data and uploads to the cloud using REST API. Thing speak is an IoT cloud service used to present the sensory data as graphs, bar charts, and dashboards on the cloud remaining time it will enter into sleep phase to save the power of the device, so that it will extend the battery life time of the device. B. N. Meenakshi | Mrs. N. V. Durga "An IOT Based Low Power Health Monitoring with Active Personal Assistance" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-1 , December 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29603.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/29603/an-iot-based-low-power-health-monitoring-with-active-personal-assistance/b-n-meenakshi
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1. KLS
Vishwanathrao Deshpande Institute of Technology.
(Accredited by NAAC with “A” Grade)
Department of Electronics and Communication Engineering
A Internship Presentation entitled
“Embedded Systems with Full Stack IOT”
Presented by
Mr. Vivek Venkatesh Palankar
2VD20EC066
Under the Guidance of
Prof. Suraj Kadli
Visvesvaraya Technological University, Jnana Sangma,
Belagavi – 590 018
2. Motivation
Introduction
Overview
Training Program
Embedded Systems
IOT
Importance Of Full Stack IOT
Skills And Technologies Covered
Projects Completed
Weather Monitoring System
Certificate
Contents
3. Motivation
1. Passion for merging hardware and software: My internship experience in
embedded systems ignited my enthusiasm for integrating hardware
components with software solutions.
2. Innovation-driven mindset: Throughout my internship, I embraced
challenges, fostering a mindset focused on innovative problem-solving
within the realm of IoT development.
3. Cross-disciplinary expertise: Equipped with skills in both embedded
systems and full-stack development, I bring a unique blend of technical
proficiency to any project.
4. Dedication to efficiency and optimization: My internship taught me the
value of optimizing systems for performance and efficiency, a principle I
prioritize in all endeavors.
5. Adaptable learner: Constantly adapting to new technologies and
methodologies, I am ready to tackle dynamic challenges in IoT development
with a proactive approach.
6. Commitment to impactful solutions: With a keen understanding of the
intersection between embedded systems and IoT, I am driven to create
solutions that positively impact society and industry.
4. Introduction
Internship on Embedded system with full stack IOT at GTTC,
Hubballi.
GTTC aims to bridge the gap between academic learning and
industry requirements
The institute collaborates closely with leading industries and
organizations to offer internship opportunities to students
The institute is renowned for its high-quality technical
education and training programs in various fields
5. Overview
I have competed the internship from GTTC on Embedded
systems with full stack IOT. The duration of internship was
from 22 august 2023 to 22 September.
It was an offline internship
This program focuses on the convergence of embedded
systems and IoT, providing hands-on experience across the full
stack of technologies.
In this we worked on projects spanning hardware design,
firmware development, software programming, and cloud
integration.
After the completion of the internship we are assigned with
different projects.
6. Training program
Week Description
Week 1 Introduction to IOT
Week 2 Front End Programming (HTML)
Week 3 Front End Programming (CSS, Bootstrap)
Week 4 Back End Programming (python, Flask, SqLite)
Week 5 Projects
7. Internet of Things(IOT)
1. "Connecting the unconnected" - IoT enables the interconnection of everyday
objects to the internet, transforming them into smart devices.
2. "Data-driven insights" - IoT gathers and analyzes data from sensors
embedded in various devices, providing valuable insights for informed
decision-making.
3. "Enhanced efficiency and automation" - IoT facilitates automation and
remote control of devices, optimizing processes and saving time and
resources.
4. "Enabling new business models" - IoT opens up opportunities for innovative
business models, such as predictive maintenance, subscription services, and
personalized experiences.
5. "Empowering a smarter, interconnected world" - IoT is revolutionizing
industries, cities, and homes, creating a more efficient, sustainable, and
connected world.
8. Embedded Systems
1. Embedded systems are specialized computing systems designed to perform
specific tasks within larger systems or products, often with real-time constraints.
2. They are omnipresent in everyday life, powering devices such as smartphones,
household appliances, automotive systems, medical devices, and industrial
machinery.
3. Embedded systems optimize performance, efficiency, and reliability by executing
dedicated functions tailored to their applications.
4. They enable automation, control, and monitoring in various sectors, enhancing
productivity, safety, and convenience.
5. Embedded systems play a critical role in IoT (Internet of Things) ecosystems,
facilitating seamless connectivity and intelligent interaction between devices.
6. With advancements in technology, embedded systems continue to evolve,
enabling innovations in fields like artificial intelligence, robotics, and
autonomous systems.
9. Importance of full Stack IOT
1. Seamless Integration: Full-stack IoT development ensures smooth
integration of hardware, firmware, back-end, and front-end
components, resulting in cohesive and efficient IoT solutions.
2. End-to-End Control: By mastering the full stack, developers gain
complete control over every aspect of the IoT ecosystem, from device
management to data processing and user interface design.
3. Rapid Prototyping: Full-stack capabilities enable rapid prototyping
and iteration, facilitating agile development cycles and quicker time-
to-market for IoT products and services.
4. Enhanced Scalability and Flexibility: With expertise across all layers,
developers can design IoT systems that scale effortlessly and adapt to
evolving requirements, providing flexibility to accommodate future
growth and innovation.