The internet of things (io t) : IoT academy AnkitThakkar46
The Internet of things (IoT) is a system of interrelated computing devices, mechanical and digital machines provided with unique identifiers (UIDs) and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction.
IRJET - Smart Classroom Automation based on IoTIRJET Journal
This document proposes a smart classroom automation system based on IoT. It discusses using various sensors like PIR, temperature, humidity, and door sensors connected to an Arduino microcontroller. The sensors will detect parameters like motion, temperature, humidity, and door openings. The Arduino will create a data package and send it to a server. The server will store the data in a database and compare sensor readings to schedules to detect abnormalities, like motion during non-official hours. If detected, an alert will be sent via SMS to authorized persons. The system will also automatically control lights, fans, and projectors based on PIR motion readings. The goal is to create an affordable and energy efficient smart classroom environment for monitoring and automation
Internet of Things, Examples and IssuesIRJET Journal
This document discusses Internet of Things (IoT), providing examples and issues. It begins by defining IoT and how it is connecting more things like home appliances and facilitating data sharing. Three levels of IoT are mentioned. Examples given include using sensors to optimize fleet management and infrastructure maintenance. However, IoT also poses privacy and security risks if devices are hacked. The document advocates for putting security measures in place to protect IoT devices and users' personal data and control over their information.
A review paper on smart health care system using internet of thingseSAT Journals
Abstract Health is fundament need. And it is human right to get quality Health Care. Nowadays India is facing many health issues because
of less resource. This review paper presents the idea of solving health issues using latest technology, Internet of Things. It
presents the architectural review of smart health care system using Internet of Things which is aimed to provide Quality Health
Care to everyone. Using this system architecture, patients’ body parameters can be measure in real time. Sensors collects patients
body parameters and transfers that data to Arduino Uno which further transfer that data to cloud with the help of WiFI module.
This data is stored into MySql database server which manages data and provides accessibility. User can view this data with the
help of Android App. Which one can install in Smart phone, Tablet or PC. Cloud computing handles authentication, privacy,
security, data management etc. If data is abnormal then patient gets notification also care takers will get mail. With the help of
different decision making algorithms decisions can be made and according to it people have access to database. Patient can check
their medical record Hence, this system provides Quality Health Care to everyone and error free and smooth communication to
patients.
Keywords: IOT, e-health, Arduino Uno
Energy Management with Disaster Intimation and Control using IoTIJEACS
In the area of digitization and automation, the life of
human being is getting simpler as almost everything is
automated. Nowadays humans have made internet an integral
part of their everyday life without which they are helpless.
Internet of things (IoT) gives a platform which allows different
devices to inter-connect, sense and control the things remotely
across a network infrastructure without any limitation to the
coverage area. In our proposed work, we stress on Wireless-
Home-Automation-System (WHAS) using IoT, it is a system uses
computers or smart phone to control basic home functions and
features automatically through internet from anywhere around
the world, an automated home is sometimes called a smart home.
The proposed system is able to monitor the entire things
connected to the internet and also to be maintaining the status of
individual devices for further action. We have built the home
automation with several devices and sensors, here sensor help to
monitor the device status and intimate the authorized person to
take particular action.
The term Internet of Things (Often abbreviated IOT) was coined more than ten years ago by industry researchers but has emerged into mainstream public view only more recently. Some claim the Internet of Things will completely transform how computer networks are used for the next 10 or 100 years, while others believe Internet Of Things is hype that won't much impact the daily lives of most people.
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
The internet of things (io t) : IoT academy AnkitThakkar46
The Internet of things (IoT) is a system of interrelated computing devices, mechanical and digital machines provided with unique identifiers (UIDs) and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction.
IRJET - Smart Classroom Automation based on IoTIRJET Journal
This document proposes a smart classroom automation system based on IoT. It discusses using various sensors like PIR, temperature, humidity, and door sensors connected to an Arduino microcontroller. The sensors will detect parameters like motion, temperature, humidity, and door openings. The Arduino will create a data package and send it to a server. The server will store the data in a database and compare sensor readings to schedules to detect abnormalities, like motion during non-official hours. If detected, an alert will be sent via SMS to authorized persons. The system will also automatically control lights, fans, and projectors based on PIR motion readings. The goal is to create an affordable and energy efficient smart classroom environment for monitoring and automation
Internet of Things, Examples and IssuesIRJET Journal
This document discusses Internet of Things (IoT), providing examples and issues. It begins by defining IoT and how it is connecting more things like home appliances and facilitating data sharing. Three levels of IoT are mentioned. Examples given include using sensors to optimize fleet management and infrastructure maintenance. However, IoT also poses privacy and security risks if devices are hacked. The document advocates for putting security measures in place to protect IoT devices and users' personal data and control over their information.
A review paper on smart health care system using internet of thingseSAT Journals
Abstract Health is fundament need. And it is human right to get quality Health Care. Nowadays India is facing many health issues because
of less resource. This review paper presents the idea of solving health issues using latest technology, Internet of Things. It
presents the architectural review of smart health care system using Internet of Things which is aimed to provide Quality Health
Care to everyone. Using this system architecture, patients’ body parameters can be measure in real time. Sensors collects patients
body parameters and transfers that data to Arduino Uno which further transfer that data to cloud with the help of WiFI module.
This data is stored into MySql database server which manages data and provides accessibility. User can view this data with the
help of Android App. Which one can install in Smart phone, Tablet or PC. Cloud computing handles authentication, privacy,
security, data management etc. If data is abnormal then patient gets notification also care takers will get mail. With the help of
different decision making algorithms decisions can be made and according to it people have access to database. Patient can check
their medical record Hence, this system provides Quality Health Care to everyone and error free and smooth communication to
patients.
Keywords: IOT, e-health, Arduino Uno
Energy Management with Disaster Intimation and Control using IoTIJEACS
In the area of digitization and automation, the life of
human being is getting simpler as almost everything is
automated. Nowadays humans have made internet an integral
part of their everyday life without which they are helpless.
Internet of things (IoT) gives a platform which allows different
devices to inter-connect, sense and control the things remotely
across a network infrastructure without any limitation to the
coverage area. In our proposed work, we stress on Wireless-
Home-Automation-System (WHAS) using IoT, it is a system uses
computers or smart phone to control basic home functions and
features automatically through internet from anywhere around
the world, an automated home is sometimes called a smart home.
The proposed system is able to monitor the entire things
connected to the internet and also to be maintaining the status of
individual devices for further action. We have built the home
automation with several devices and sensors, here sensor help to
monitor the device status and intimate the authorized person to
take particular action.
The term Internet of Things (Often abbreviated IOT) was coined more than ten years ago by industry researchers but has emerged into mainstream public view only more recently. Some claim the Internet of Things will completely transform how computer networks are used for the next 10 or 100 years, while others believe Internet Of Things is hype that won't much impact the daily lives of most people.
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
The document discusses the Internet of Things (IoT). It defines IoT as the interconnection of uniquely identifiable embedded computing devices within the existing Internet infrastructure. It provides a brief history of IoT and discusses current and future applications such as home automation, infrastructure management, and medical devices. The document also covers some criticisms of IoT such as privacy concerns and security issues given the large amount of data involved. It concludes by listing additional resources on IoT.
Monitoring Section of IoTs Smart Garbage Systemijtsrd
Nowadays certain actions are taken to improve the level of cleanliness in the country. The proposed system introduces the design and development of smart green environment of garbage monitoring system by measuring the garbage level in real time and to alert the municipality where the bin is full based on the types of garbage. Thus, Smart Garbage bin was built which is interfaced with Ultrasonic sensor, GPS module and Wi Fi module Node MCUs .In this system, we will put a sensor on top of the garbage bin which will detect the total level of garbage inside it according to the total size of the bin. Once the trash increases the threshold level, the notification will pop up in Blynk server. The real time status of how waste collection is being done could be monitored the bins where GPS is shown. Then, the employees can take further actions to empty bins. It is expected that this system can create greener environment by monitoring the collection of garbage smartly through Internet of Things. Thandar Hein | Chaw Myat Nwe "Monitoring Section of IoTs Smart Garbage System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd25284.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/25284/monitoring-section-of-iots-smart-garbage-system/thandar-hein
Internet of Things (IoT) has wide applications in the healthcare sector. It allows for real-time patient monitoring and analysis from remote locations using sensors and devices. IoT improves various areas of hospital operations like patient tracking, hygiene maintenance, record keeping, smart equipment, billing and procurement. However, IoT also faces challenges like privacy concerns, high costs, lack of standards and need for regulations. If these challenges are addressed, IoT has potential to transform healthcare delivery and outcomes in the future.
The Internet helped people to connect with static information available but now it is helping to build connection from people to people, people to physical objects and physical objects to other physical objects.
The speedy growth of Internet data is making networked connections more relevant and valuable. Also it creates exciting business opportunities for industries. Almost all every area, every device, every sensor,
every software are connected to each other. The ability to access these devices through a Smartphone or through a computer is called IoT (Internet of Things). These devices are accessed remotely. The Internet of things (IoT) is one of the top three technological advancements of the next decade together with the mobile, internet and the automation of knowledge work.
The document describes a proposed smart health care system for rural areas in India using IoT and machine learning. Sensors would be attached to patients' bodies to monitor vitals like heart rate, blood pressure, blood sugar, and temperature. The sensor data would be sent to a health care app via an Arduino and node MCU. The app would analyze the data using machine learning algorithms and alert doctors if any readings require attention. This system aims to improve medical care in rural India by remotely monitoring patients and reducing strain on local hospitals and doctors.
Internet of Things (IoT) links the objects of the real world to the virtual world, and enables anytime, anywhere connectivity for anything that has an ON and OFF switch. It constitutes to a world where physical objects and living beings, as well as virtual data and environments, interact with each other. Large amount of data is generated as large number of devices are connected to the internet. So this large amount of data has to be controlled and converted to useful information in order to develop efficient systems. In this paper, we focus on to an application of IoT in military service that is used to reduce the time and increase speed. IoT based intelligent transportation systems, deffense & security,Industry & most important Health monitoring system are designed to support the Smart City vision & various field which aims at employing the advanced and powerful technologies for the administration of the people and many service. Renuka Chandrakant Sonare | Dinesh V. Rojatkar"Application OF IoT in Military Service" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd4629.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/4629/application-of-iot-in-military-service/renuka-chandrakant-sonare
If you are not familiar with the term Internet of Things and want to know about this new technology then this presentation is for you. You will find all the aspects of IoT, like IoT introduction, IoT applications and its challenges as well as future of Internet of Things, in this presentation.
Technology plays the most important role in healthcare not only for sensory devices but besides in communication, recording and display device. It is very important to monitor various medical parameters and post operational days. Therefore the latest development in Healthcare communication method using IOT is adapted. Internet of things serves as a catalyst for the healthcare and plays prominent role in wide range of healthcare applications. In this project the PIC16F877A microcontroller is used as a gateway to communicate to the various sensors such as temperature sensor, Respiration sensor, Blood Oxygen level and heart beat sensor. The microcontroller picks up the sensor data and sends it to the network through IOT and hence provides real time monitoring of the health care parameters for doctors. The data can be access anytime by the doctor. The controller is in addition connected with buzzer to alert the caretaker about variation in sensor output. Other than the main issue in remote patient monitoring system is that the data as to be securely transmitted to the destination end and provision is made to allow only authorized user to access the data. The security problem is be addressed by transmitting the data through the password protected internet which will be encrypted by standard AES128 and the Doctors can access the records by logging to the html webpage. Next to the instance of extremity situation alert message is send to the doctor through IOT connected to the controller. For this reason quick provisional medication can be easily done by this system. This system is capable with low power consumption capability, easy setup, high performance and time to time response.
The document describes various smart and connected devices for homes and consumers. It provides examples of Internet of Things devices such as a smart fork that monitors eating habits, a smart cup that tracks liquid consumption, and a smart toothbrush that engages users in their oral hygiene routine. It also lists devices for other activities like gardening, sports training, home security, pet care, and more that connect to smartphones and the Internet to provide remote access and data collection. The devices demonstrate how almost any everyday object can be made smart and integrated into the growing Internet of Things ecosystem.
The document discusses various Internet of Things devices including smart forks, cups, toothbrushes, egg trays, propane tanks, glucose monitors, washing machines, piggy banks, hydroponic systems, sprinkler controls, arcade machines, home security systems, pet games, lighting, sensors, air conditioners, insoles, sleep systems, planes, mirrors, tennis rackets, bikes, garbage cans, cooking assistants, pet feeders, gardening tools, cardio monitors, door locks, gesture controls, socks, sleep trackers, sports lights, and smart shirts that monitor health metrics. Many of these smart devices connect to smartphone apps to provide remote monitoring and control.
Smart health monitoring system using IoT based smart fitness mirrorTELKOMNIKA JOURNAL
The smart fitness mirror proposed in this researchaims to provide the users with a platform to monitor their health and fitness status on a daily basis. The system employs a number of sensors to monitor the body mass index (BMI) and amount of body fat present in the user’s body. A weight scale consisting of four load sensors has been implemented to obtain the weight of the user whereas an ultrasonic sensor has been used to measure the height of the user. In addition, four electrode plates have been implemented on the foot weight scale to infuse a small amount of electric current (1mA) for BIA (bioelectrical impedance analysis) to estimate the amount of body fat percentage, lean body mass and total body water. An IR temperature sensor has been implemented in the research to measure the temperature of the user’s body from the forehead. Tests conducted on the system illustrate that it is able to accurately compute the body mass index and perform a bioelectrical impedance analysis on the user. The system is able to achieve a 92.5 % and 93.7 % accuracy in determining the body mass index and body fat percentage respectively. An accuracy of 95.3 % was observed in the determination of the body temperature.
Principles of research article 23 july 2021JOENEMUKWEVHO
This document summarizes a student project that aims to design an IoT home automation system using wireless sensor networks based on machine learning. The system would connect household appliances to a wireless network and allow them to be remotely monitored and controlled using a smartphone or computer. This would help automate household tasks, reduce costs by preventing appliance overuse, and improve security. The students conducted a literature review on existing IoT and wireless sensor network technologies for home automation. They will simulate their proposed network design using eNSP software. The goal is to achieve self-awareness in appliances to automate homes while increasing security and reducing expenses.
Societal Change and Transformation by Internet of Things (IoT)CSCJournals
IoT has received much attention from scientists, industry and government all over the world for its potential in changing modern day living. IoT is envisioned as billions of sensors connected to the internet through wireless and other communication technologies. The sensors would generate large amount of data which needs to be analyzed, interpreted and utilized. Sensor will be context aware capturing device that enable modeling, interpreting and storing of sensor data which is linked to appropriate context variable dynamically. Building or home automation, social smart communication for enhancement of quality of life, that could be considered as one of the application of IoT where the sensors, actuators and controllers can be connected to internet and controlled. This paper introduces the concept of application for internet of things and with the discussion of social and governance issues that arise as the future vision of internet of things.
This paper addresses the internet of things (IoT) as the main enabling factor of promising paradigm for integration and comprehensive of several technologies for communication solution, Identification and integrating for tracking of technologies as wireless sector and actuators. This offers the capability to measure for understanding environment indicators
This Presentation contains every thing that you need to about IOT. Its more of pictures so people imagine whats being talked about . It starts with a brief introduction about history of IOT and then its various application. Then a basic architecture and Introduction on few devices to start of with.
Internet of Things (IoT) an introduction-
There is a growing interest in using IoT technologies in various industries. A number of industrial IoT projects have been conducted in areas such as agriculture, food processing industry, environmental monitoring, security surveillance, and others. Meanwhile, the number of IoT applications is quickly growing. It is rapidly gathering momentum driven by the advancements in sensor networks, mobile devices, wireless communications, networking and cloud technologies.
Integration of device and sensor data with big data, analytics and other enterprise applications is a core concept behind the emerging Internet of Things.
IRJET- Sixth Sense Technology: A Gesture-Based Wearable Computing ReviewIRJET Journal
The document discusses Sixth Sense technology, which uses gestures to integrate digital information with the physical world. It allows users to access and interact with digital data through natural hand motions. The technology includes a camera, projector, and mobile device connected to a computer. It recognizes gestures like facial expressions and hand movements to control applications and virtual objects. The document reviews the technology's potential uses and prior research in the field of human-computer interaction through gesture recognition. It examines Sixth Sense as a potential solution for intelligent home security systems through sensors that can identify people and detect suspicious activity.
This document provides an overview of Internet of Things (IoT) including its definition, history, characteristics, challenges, advantages, disadvantages, how it works and applications. It introduces IoT as a network of physical objects embedded with sensors, software and technologies to connect and exchange data with other devices and systems over the Internet. The document outlines key IoT applications in areas such as smart homes, wearables, smart cities and smart grids. It aims to provide undergraduate students with foundational knowledge about IoT.
The document discusses the Internet of Things (IoT), which connects physical objects to the internet. It defines IoT as devices that can sense, compute and communicate over the internet, allowing physical objects to be controlled remotely and data from them to be collected. Examples discussed include connected home devices, wearable fitness trackers and medical devices. Key challenges discussed are connectivity, power management, security and interoperability when integrating physical objects on a large scale into the IoT.
What is the Internet of Things? How does it Work?AbhijitVerma9
The Internet of Things (IoT) is a network of physical objects embedded with sensors, software, and other technologies to connect and exchange data with other devices and with the systems over the internet. These devices range in complexity from common household items to huge industrial instruments. Internet of Things (IoT), also referred to as the Internet of Everything (IoE).
This document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, sensors, and connectivity to enable the collection and exchange of data. Examples include machine-to-machine communication and the "Internet of Everything." The concept first emerged in 1999 through MIT's Auto-ID Center. The document outlines how IoT works and its structure, including tagging things with RFIDs, sensing with devices, miniaturization, and embedded intelligence. Applications are described for smart cities, homes, health monitoring, and industrial automation. Advantages include data access, tracking, and time/cost savings, while disadvantages are compatibility, complexity, privacy/security, and safety issues. In conclusion
The document discusses the Internet of Things (IoT). It defines IoT as the interconnection of uniquely identifiable embedded computing devices within the existing Internet infrastructure. It provides a brief history of IoT and discusses current and future applications such as home automation, infrastructure management, and medical devices. The document also covers some criticisms of IoT such as privacy concerns and security issues given the large amount of data involved. It concludes by listing additional resources on IoT.
Monitoring Section of IoTs Smart Garbage Systemijtsrd
Nowadays certain actions are taken to improve the level of cleanliness in the country. The proposed system introduces the design and development of smart green environment of garbage monitoring system by measuring the garbage level in real time and to alert the municipality where the bin is full based on the types of garbage. Thus, Smart Garbage bin was built which is interfaced with Ultrasonic sensor, GPS module and Wi Fi module Node MCUs .In this system, we will put a sensor on top of the garbage bin which will detect the total level of garbage inside it according to the total size of the bin. Once the trash increases the threshold level, the notification will pop up in Blynk server. The real time status of how waste collection is being done could be monitored the bins where GPS is shown. Then, the employees can take further actions to empty bins. It is expected that this system can create greener environment by monitoring the collection of garbage smartly through Internet of Things. Thandar Hein | Chaw Myat Nwe "Monitoring Section of IoTs Smart Garbage System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd25284.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/25284/monitoring-section-of-iots-smart-garbage-system/thandar-hein
Internet of Things (IoT) has wide applications in the healthcare sector. It allows for real-time patient monitoring and analysis from remote locations using sensors and devices. IoT improves various areas of hospital operations like patient tracking, hygiene maintenance, record keeping, smart equipment, billing and procurement. However, IoT also faces challenges like privacy concerns, high costs, lack of standards and need for regulations. If these challenges are addressed, IoT has potential to transform healthcare delivery and outcomes in the future.
The Internet helped people to connect with static information available but now it is helping to build connection from people to people, people to physical objects and physical objects to other physical objects.
The speedy growth of Internet data is making networked connections more relevant and valuable. Also it creates exciting business opportunities for industries. Almost all every area, every device, every sensor,
every software are connected to each other. The ability to access these devices through a Smartphone or through a computer is called IoT (Internet of Things). These devices are accessed remotely. The Internet of things (IoT) is one of the top three technological advancements of the next decade together with the mobile, internet and the automation of knowledge work.
The document describes a proposed smart health care system for rural areas in India using IoT and machine learning. Sensors would be attached to patients' bodies to monitor vitals like heart rate, blood pressure, blood sugar, and temperature. The sensor data would be sent to a health care app via an Arduino and node MCU. The app would analyze the data using machine learning algorithms and alert doctors if any readings require attention. This system aims to improve medical care in rural India by remotely monitoring patients and reducing strain on local hospitals and doctors.
Internet of Things (IoT) links the objects of the real world to the virtual world, and enables anytime, anywhere connectivity for anything that has an ON and OFF switch. It constitutes to a world where physical objects and living beings, as well as virtual data and environments, interact with each other. Large amount of data is generated as large number of devices are connected to the internet. So this large amount of data has to be controlled and converted to useful information in order to develop efficient systems. In this paper, we focus on to an application of IoT in military service that is used to reduce the time and increase speed. IoT based intelligent transportation systems, deffense & security,Industry & most important Health monitoring system are designed to support the Smart City vision & various field which aims at employing the advanced and powerful technologies for the administration of the people and many service. Renuka Chandrakant Sonare | Dinesh V. Rojatkar"Application OF IoT in Military Service" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd4629.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/4629/application-of-iot-in-military-service/renuka-chandrakant-sonare
If you are not familiar with the term Internet of Things and want to know about this new technology then this presentation is for you. You will find all the aspects of IoT, like IoT introduction, IoT applications and its challenges as well as future of Internet of Things, in this presentation.
Technology plays the most important role in healthcare not only for sensory devices but besides in communication, recording and display device. It is very important to monitor various medical parameters and post operational days. Therefore the latest development in Healthcare communication method using IOT is adapted. Internet of things serves as a catalyst for the healthcare and plays prominent role in wide range of healthcare applications. In this project the PIC16F877A microcontroller is used as a gateway to communicate to the various sensors such as temperature sensor, Respiration sensor, Blood Oxygen level and heart beat sensor. The microcontroller picks up the sensor data and sends it to the network through IOT and hence provides real time monitoring of the health care parameters for doctors. The data can be access anytime by the doctor. The controller is in addition connected with buzzer to alert the caretaker about variation in sensor output. Other than the main issue in remote patient monitoring system is that the data as to be securely transmitted to the destination end and provision is made to allow only authorized user to access the data. The security problem is be addressed by transmitting the data through the password protected internet which will be encrypted by standard AES128 and the Doctors can access the records by logging to the html webpage. Next to the instance of extremity situation alert message is send to the doctor through IOT connected to the controller. For this reason quick provisional medication can be easily done by this system. This system is capable with low power consumption capability, easy setup, high performance and time to time response.
The document describes various smart and connected devices for homes and consumers. It provides examples of Internet of Things devices such as a smart fork that monitors eating habits, a smart cup that tracks liquid consumption, and a smart toothbrush that engages users in their oral hygiene routine. It also lists devices for other activities like gardening, sports training, home security, pet care, and more that connect to smartphones and the Internet to provide remote access and data collection. The devices demonstrate how almost any everyday object can be made smart and integrated into the growing Internet of Things ecosystem.
The document discusses various Internet of Things devices including smart forks, cups, toothbrushes, egg trays, propane tanks, glucose monitors, washing machines, piggy banks, hydroponic systems, sprinkler controls, arcade machines, home security systems, pet games, lighting, sensors, air conditioners, insoles, sleep systems, planes, mirrors, tennis rackets, bikes, garbage cans, cooking assistants, pet feeders, gardening tools, cardio monitors, door locks, gesture controls, socks, sleep trackers, sports lights, and smart shirts that monitor health metrics. Many of these smart devices connect to smartphone apps to provide remote monitoring and control.
Smart health monitoring system using IoT based smart fitness mirrorTELKOMNIKA JOURNAL
The smart fitness mirror proposed in this researchaims to provide the users with a platform to monitor their health and fitness status on a daily basis. The system employs a number of sensors to monitor the body mass index (BMI) and amount of body fat present in the user’s body. A weight scale consisting of four load sensors has been implemented to obtain the weight of the user whereas an ultrasonic sensor has been used to measure the height of the user. In addition, four electrode plates have been implemented on the foot weight scale to infuse a small amount of electric current (1mA) for BIA (bioelectrical impedance analysis) to estimate the amount of body fat percentage, lean body mass and total body water. An IR temperature sensor has been implemented in the research to measure the temperature of the user’s body from the forehead. Tests conducted on the system illustrate that it is able to accurately compute the body mass index and perform a bioelectrical impedance analysis on the user. The system is able to achieve a 92.5 % and 93.7 % accuracy in determining the body mass index and body fat percentage respectively. An accuracy of 95.3 % was observed in the determination of the body temperature.
Principles of research article 23 july 2021JOENEMUKWEVHO
This document summarizes a student project that aims to design an IoT home automation system using wireless sensor networks based on machine learning. The system would connect household appliances to a wireless network and allow them to be remotely monitored and controlled using a smartphone or computer. This would help automate household tasks, reduce costs by preventing appliance overuse, and improve security. The students conducted a literature review on existing IoT and wireless sensor network technologies for home automation. They will simulate their proposed network design using eNSP software. The goal is to achieve self-awareness in appliances to automate homes while increasing security and reducing expenses.
Societal Change and Transformation by Internet of Things (IoT)CSCJournals
IoT has received much attention from scientists, industry and government all over the world for its potential in changing modern day living. IoT is envisioned as billions of sensors connected to the internet through wireless and other communication technologies. The sensors would generate large amount of data which needs to be analyzed, interpreted and utilized. Sensor will be context aware capturing device that enable modeling, interpreting and storing of sensor data which is linked to appropriate context variable dynamically. Building or home automation, social smart communication for enhancement of quality of life, that could be considered as one of the application of IoT where the sensors, actuators and controllers can be connected to internet and controlled. This paper introduces the concept of application for internet of things and with the discussion of social and governance issues that arise as the future vision of internet of things.
This paper addresses the internet of things (IoT) as the main enabling factor of promising paradigm for integration and comprehensive of several technologies for communication solution, Identification and integrating for tracking of technologies as wireless sector and actuators. This offers the capability to measure for understanding environment indicators
This Presentation contains every thing that you need to about IOT. Its more of pictures so people imagine whats being talked about . It starts with a brief introduction about history of IOT and then its various application. Then a basic architecture and Introduction on few devices to start of with.
Internet of Things (IoT) an introduction-
There is a growing interest in using IoT technologies in various industries. A number of industrial IoT projects have been conducted in areas such as agriculture, food processing industry, environmental monitoring, security surveillance, and others. Meanwhile, the number of IoT applications is quickly growing. It is rapidly gathering momentum driven by the advancements in sensor networks, mobile devices, wireless communications, networking and cloud technologies.
Integration of device and sensor data with big data, analytics and other enterprise applications is a core concept behind the emerging Internet of Things.
IRJET- Sixth Sense Technology: A Gesture-Based Wearable Computing ReviewIRJET Journal
The document discusses Sixth Sense technology, which uses gestures to integrate digital information with the physical world. It allows users to access and interact with digital data through natural hand motions. The technology includes a camera, projector, and mobile device connected to a computer. It recognizes gestures like facial expressions and hand movements to control applications and virtual objects. The document reviews the technology's potential uses and prior research in the field of human-computer interaction through gesture recognition. It examines Sixth Sense as a potential solution for intelligent home security systems through sensors that can identify people and detect suspicious activity.
This document provides an overview of Internet of Things (IoT) including its definition, history, characteristics, challenges, advantages, disadvantages, how it works and applications. It introduces IoT as a network of physical objects embedded with sensors, software and technologies to connect and exchange data with other devices and systems over the Internet. The document outlines key IoT applications in areas such as smart homes, wearables, smart cities and smart grids. It aims to provide undergraduate students with foundational knowledge about IoT.
The document discusses the Internet of Things (IoT), which connects physical objects to the internet. It defines IoT as devices that can sense, compute and communicate over the internet, allowing physical objects to be controlled remotely and data from them to be collected. Examples discussed include connected home devices, wearable fitness trackers and medical devices. Key challenges discussed are connectivity, power management, security and interoperability when integrating physical objects on a large scale into the IoT.
What is the Internet of Things? How does it Work?AbhijitVerma9
The Internet of Things (IoT) is a network of physical objects embedded with sensors, software, and other technologies to connect and exchange data with other devices and with the systems over the internet. These devices range in complexity from common household items to huge industrial instruments. Internet of Things (IoT), also referred to as the Internet of Everything (IoE).
This document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, sensors, and connectivity to enable the collection and exchange of data. Examples include machine-to-machine communication and the "Internet of Everything." The concept first emerged in 1999 through MIT's Auto-ID Center. The document outlines how IoT works and its structure, including tagging things with RFIDs, sensing with devices, miniaturization, and embedded intelligence. Applications are described for smart cities, homes, health monitoring, and industrial automation. Advantages include data access, tracking, and time/cost savings, while disadvantages are compatibility, complexity, privacy/security, and safety issues. In conclusion
The document discusses the Internet of Things (IoT). It defines IoT as a system of interconnected computing devices, objects, and people that are provided with unique identifiers and can transfer data over a network. It describes how IoT works using technologies like sensors, communication capabilities, and data processing. It also outlines several applications of IoT such as smart homes, smart cities, industrial IoT, and more. Finally, it discusses some challenges of IoT including security, privacy, and reliability issues.
This document summarizes prior work on using IoT sensors for patient monitoring. It discusses research on using wearable sensors to remotely monitor patients' vital signs outside of hospitals. It also reviews efforts to use sensors inside homes and buildings to automatically collect health data from elderly and disabled patients to identify issues needing medical attention. Prior work demonstrated using sensors and weight monitors on medication bottles to track medication adherence. Research also explored using social robots equipped with sensors as mobile monitoring platforms to provide companionship for older adults. Challenges identified included ensuring the reliability of interconnected sensor devices and data transmission for critical health applications.
Competitor reaction
Cadbury should develop new products and promote them domestically as well as internationally. Such product/market growth approach will ensure that the company has diversified range of products which are available and well-recognizable in many countries of the world [17] . Such strategic choice will provide the company with enormous comparative advantages over its competitors and will help it to better cope with the hurdles of the global economic crisis.
Most importantly, such strategic step will erase the common stereotype claiming that consumers mostly associate Cadbury with chocolate. Evidently, ‘Chocolate is Cadbury’ marketing approach much facilitated the company’s success over the last decade. However, considering the challenges of the global competitive markets, this strategy will not be suitable any longer. Hence Cadbury should transform it into more powerful and innovative global image.
The variety of new high-quality and reasonably-priced products will add value to the business activity of Cadbury and will win new overseas markets for the company. This task would require the company to carefully design and develop innovative brands of its products which are not yet present on any of the foreign markets, and which will be potentially demanded by the consumers (i.e. target markets) [18] .
While developing innovative products and penetrating overseas markets, Cadbury should initially consider the demand-side of its target markets. Among the most important criteria are the following:
(1) Average income;
(2) Average spending amount on one-time supermarket/store purchasing;
(2) Average amount consumers are ready to spend on chocolates, candies, cookies, and/or sweets;
(3) PESTLE analysis of the target market with the consideration of the adverse affects caused by the global economic meltdown; and
(4) Porter analysis of the targeted market.
Such wide coverage of strategic issues will win Cadbury competitive advantage and increase its share on the foreign markets.
5) Preferred strategy
Cadbury’s choice of the optimal marketing strategy should consider their chances of success in terms of market diversification. To reach optimal market diversification, the company should ensure that its new product adheres to the customers’ needs and preferences. Extensive market research will help Cadbury to explicitly identify its potential target markets for a new product. Herewith, Cadbury’s marketers should consider the following strategic factors:
(1) Financial health of the targeted market;
(2) Purchasing capacity of target market;
(3) National and individual preferences of target market;
(4) Previous experiences of target market in terms of buying and tasting the similar products produced by competitor companies;
(5) SWOT analysis in each individual case will ensure that Cadbury eliminates all the possible constraints to the minimum and transforms the threats into potential opportunities.
Realistic and achievable strat
“The Internet of Things (IoT) is a system of
interrelated computing devices, mechanical and
digital machines, objects, animals or people that
are provided with unique identifiers and the
ability to transfer data over a network without
requiring human-to-human or
human-to-computer interaction.”
This document provides an overview of the Internet of Things (IoT) in 3 pages. It discusses the background and introduction of IoT, including key definitions. Applications of IoT are explored in various sectors such as transportation, smart homes, smart cities, smart factories, and smart energy. The methodology section outlines the components needed to develop an IoT device, including sensors, connectivity options, and a prototype weather station example. Tables and figures are provided to illustrate IoT concepts and forecasts.
The document discusses the evolution and development of the Internet of Things (IoT) from its origins in 1982 to its projected growth through 2023. It describes how IoT allows devices to connect, exchange data, and communicate over the internet or networks. Examples of early IoT devices include a soda vending machine monitor and an internet-connected toaster. The document outlines key features, pros, and cons of IoT, as well as common business applications in areas like supply chain management, manufacturing, and predictive maintenance.
In this presentation, Chittrieta introduces the topic of IoT, current applications of IoT and associated trends. Chittrieta's interest lies in application of IoT on the shop floor in the manufacturing vertical.
The Internet of Things (IoT) brings tremendous new capabilities .docxjmindy
The Internet of Things (IoT) brings tremendous new capabilities to the net -- but it also brings many new security issues. Watch the following video on securing the Internet of Things:
https://www.youtube.com/watch?v=rZ6xoAtdF3o
Discuss the challenges of securing the IoT. Then, list five or more best practices you would recommend.
Make sure you respond to at least two other learners.
Response#1(Leburu)
Internet of Things (IoT):
The digital space has undergone major changes over the past two years and will continue to evolve, according to industry experts. The last entry in digital space is the Internet of Things (IoT). IoT can also be defined as an interaction between the software, telecommunications and electronic devices industries and promises to offer enormous opportunities for many sectors. With the advent of the Internet of Things (IoT), powered by sensors that will soon be available for billions of dollars, that will work with billions of intelligent systems and cover millions of applications, the Internet of Things will ignite a spark. Launch new consumer and business behaviors requiring increasingly intelligent industrial solutions, which in turn create billions of dollars of opportunities for the IT industry and even more for companies that benefit from the Internet of Things. (Shackelford, S. 2020).
The Internet of Things has three distinct parts: Sensors that collect data (including sensor / device identifier and address), Decision-making and data transfer to decision servers, An application that collects and analyzes this data for greater integration.
Big data analytics and mechanisms can be used to make decisions. Several countries, such as the United States, South Korea and China, have taken the will to exploit the Internet. The main players in IoT initiatives are citizens, governments, and industry. Participation and cooperation of all interested parties at an appropriate time. At this point, we require instructions to link and select key areas, then emphasize the answers to the accumulation, The Internet of Things needs to have a clear strategy and follow a simple goal with the Value-Added and Reduce-cost models. With industry associations, experience in global forums, knowledge of other major IoT countries, and the active participation of global partners, we can promote an approach. More creative based on innovation. The key to the success of the Internet lies in the development of open platforms for scalable, easy-to-use and inexpensive models and citizens, such as sensors. Data should be clearly collected and shared between functions to maximize benefits.
Lack Of Compliance On The Part Of IoT Manufacturers:
New IoT devices come out almost daily, all with undiscovered vulnerabilities. The primary source of most IoT security issues is that manufacturers do not spend enough time and resources on security.
For example, most fitness trackers with Bluetooth remain visible after the first pairing, a smart ref.
Internet Of Things A new vision of the future - Perlat Kociajperlatsp
This document provides an introduction to the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, and sensors to enable the collection and exchange of data. The document discusses the evolution of the Internet and outlines several applications of IoT in homes, healthcare, agriculture, automobiles, and mobility. It envisions a future of IoT-connected smart cities and discusses how IoT could improve transportation systems and emergency response through real-time data collection and analysis. The document concludes by noting that IoT will become ubiquitous in many aspects of life while also raising issues of personal security and privacy.
The document discusses the topic of the Internet of Things (IoT). It defines IoT as connecting devices to the internet to allow them to interact, collaborate and share data. It provides examples of IoT applications in various domains like smart homes, healthcare, smart cities, agriculture and industrial automation. The document also outlines some of the benefits of IoT for businesses, the large scope and growth potential of IoT, and some challenges and criticisms regarding privacy, security and lack of standards.
This document discusses the future of the Internet of Things (IoT). It covers the introduction of IoT, how IoT works, the architecture and layers of IoT including sensors, gateway, management, and application layers, technical challenges of IoT including privacy and security, and applications of IoT such as smart homes, wearables, smart cities, and industrial IoT. The top 10 applications of IoT are also listed and described.
This document discusses the Internet of Things (IoT) and provides examples of its applications. It begins with an overview of IoT, defining it as connecting devices to the Internet to collect and share data. Examples are then given of smart home devices like thermostats and locks. Applications of IoT discussed include smart cities, healthcare like glucose monitors, transportation like connected cars, manufacturing like process automation, and agriculture like precision farming tools.
The document discusses the Internet of Things (IoT). It defines IoT as connecting everyday objects to the internet to provide smarter experiences for users. Examples include smart locks, cars, and appliances. Key characteristics of IoT include interconnectivity, intelligence, heterogeneity, and connectivity. Popular applications are smart homes, wearables, connected cars, smart retail, and healthcare. Challenges include privacy, security, data management, interoperability, cost versus usability, and device energy issues. The conclusion is that IoT will revolutionize the internet and significantly improve quality of life, though widespread adoption will take time.
The document provides an overview of IoT (Internet of Things), including its definition, benefits, applications, challenges and future trends. Some key points:
- IoT connects physical devices over the internet and allows them to exchange data without human involvement. Billions of smart devices are part of the IoT ecosystem.
- IoT benefits organizations by improving efficiency, enhancing customer service, saving costs and generating more revenue through better decision making. Popular consumer applications include smart homes and wearables. Industrial IoT focuses on monitoring factory processes.
- Challenges of IoT include security vulnerabilities, privacy issues regarding data collection and sharing, and ensuring reliability across connected systems. Standards and regulations are needed to address these challenges
This chapter discusses the Internet of Things (IoT). It provides an overview of IoT, describing its key features such as artificial intelligence, connectivity, sensors, active engagement, and small device use. The chapter then covers the architecture of IoT including the sensing, network, data processing, and application layers. It also discusses IoT tools and platforms and provides examples of applications of IoT in various domains such as agriculture, healthcare, manufacturing and more.
The document discusses Internet of Things (IoT) by answering various questions about it. It defines IoT as a network of physical objects embedded with sensors and electronics that allows the objects to connect and exchange data over the internet without human interaction. It describes key IoT characteristics like connectivity, sensing, scalability and artificial intelligence. It also discusses how IoT affects everyday life through smart home appliances and devices.
This document provides an overview of the Internet of Things (IoT). It discusses the history and evolution of IoT from early concepts in the 1980s to the convergence of technologies enabling modern IoT. Key points covered include how IoT works by connecting physical devices to exchange data, characteristics like intelligence and connectivity, benefits like efficiency and reduced human intervention, potential issues regarding privacy and security, and applications across various industries. In closing, it acknowledges guidance from faculty and provides references for further reading.
This document discusses machine learning and its empowerment through technological advancements. It describes different types of communication technologies from human to human, human to machine, and machine to machine. It then explains why machine learning has advanced recently due to big data, increased computing power through GPUs, and the development of tensor processing units (TPUs) by Google to accelerate neural networks. The document outlines the 1st and 2nd generation of TPUs and their improved processing capabilities. It concludes with a pitfall to avoid which is designing hardware using outdated models.
This document defines and discusses the Islamic concept of shirk, or associating partners with God. It defines shirk as ascribing partners to Allah in his lordship, worship, or attributes. The Quran forbids setting up rivals to Allah. Major shirk involves ascribing something belonging only to Allah, like divinity, to others. Minor shirk includes acts that may lead to major shirk or are described as shirk, but do not reach that level, like emotional attachment to objects for protection without Allah's permission. Inconspicuous shirk occurs when one is dissatisfied with Allah's will.
Preprocessor directives are instructions to the compiler that begin with the # character and are processed before compilation. Common preprocessor directives include #include, which is used to include header files, and #define, which assigns names to constants, statements, or expressions that can be used repeatedly in a program. Preprocessor directives allow programs to be preprocessed before compilation.
it is a presentation based on research paper written by scientists on machine learning revolution in 2018.its major concepts and initial info is given.
a description of the three main loops in all the programming languages along with their definition,syntax,flowchat and examples.
note: programs are written in C language
The presentation compares the Android, iOS, and Windows mobile platforms. It discusses the history and development of each platform, including their origins, versions, and development tools. A framework comparison covers features like local storage, multitasking, maps, audio/video, encryption, and push notifications. The presentation analyzes the advantages and disadvantages of each platform in areas like performance, applications, security, diversity, and market share. It concludes by recommending Android for applications, Windows for work/organization, and iOS for speed, safety and design.
The Chinese New Year, also known as the Spring Festival, is an important 15-day holiday in Chinese culture that is celebrated with family reunions, firecrackers, dragon dances, and the lighting of lanterns. Special foods like dumplings, rice balls, fish, and noodles are eaten for their symbolic meanings of togetherness, prosperity, and good fortune in the coming year. Traditional activities over the 15 days include cleaning the house, pasting couplets, family dinners, giving red envelopes, watching galas, and lantern festivals.
Northern Engraving | Nameplate Manufacturing Process - 2024Northern Engraving
Manufacturing custom quality metal nameplates and badges involves several standard operations. Processes include sheet prep, lithography, screening, coating, punch press and inspection. All decoration is completed in the flat sheet with adhesive and tooling operations following. The possibilities for creating unique durable nameplates are endless. How will you create your brand identity? We can help!
Discover top-tier mobile app development services, offering innovative solutions for iOS and Android. Enhance your business with custom, user-friendly mobile applications.
Freshworks Rethinks NoSQL for Rapid Scaling & Cost-EfficiencyScyllaDB
Freshworks creates AI-boosted business software that helps employees work more efficiently and effectively. Managing data across multiple RDBMS and NoSQL databases was already a challenge at their current scale. To prepare for 10X growth, they knew it was time to rethink their database strategy. Learn how they architected a solution that would simplify scaling while keeping costs under control.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/temporal-event-neural-networks-a-more-efficient-alternative-to-the-transformer-a-presentation-from-brainchip/
Chris Jones, Director of Product Management at BrainChip , presents the “Temporal Event Neural Networks: A More Efficient Alternative to the Transformer” tutorial at the May 2024 Embedded Vision Summit.
The expansion of AI services necessitates enhanced computational capabilities on edge devices. Temporal Event Neural Networks (TENNs), developed by BrainChip, represent a novel and highly efficient state-space network. TENNs demonstrate exceptional proficiency in handling multi-dimensional streaming data, facilitating advancements in object detection, action recognition, speech enhancement and language model/sequence generation. Through the utilization of polynomial-based continuous convolutions, TENNs streamline models, expedite training processes and significantly diminish memory requirements, achieving notable reductions of up to 50x in parameters and 5,000x in energy consumption compared to prevailing methodologies like transformers.
Integration with BrainChip’s Akida neuromorphic hardware IP further enhances TENNs’ capabilities, enabling the realization of highly capable, portable and passively cooled edge devices. This presentation delves into the technical innovations underlying TENNs, presents real-world benchmarks, and elucidates how this cutting-edge approach is positioned to revolutionize edge AI across diverse applications.
"Choosing proper type of scaling", Olena SyrotaFwdays
Imagine an IoT processing system that is already quite mature and production-ready and for which client coverage is growing and scaling and performance aspects are life and death questions. The system has Redis, MongoDB, and stream processing based on ksqldb. In this talk, firstly, we will analyze scaling approaches and then select the proper ones for our system.
zkStudyClub - LatticeFold: A Lattice-based Folding Scheme and its Application...Alex Pruden
Folding is a recent technique for building efficient recursive SNARKs. Several elegant folding protocols have been proposed, such as Nova, Supernova, Hypernova, Protostar, and others. However, all of them rely on an additively homomorphic commitment scheme based on discrete log, and are therefore not post-quantum secure. In this work we present LatticeFold, the first lattice-based folding protocol based on the Module SIS problem. This folding protocol naturally leads to an efficient recursive lattice-based SNARK and an efficient PCD scheme. LatticeFold supports folding low-degree relations, such as R1CS, as well as high-degree relations, such as CCS. The key challenge is to construct a secure folding protocol that works with the Ajtai commitment scheme. The difficulty, is ensuring that extracted witnesses are low norm through many rounds of folding. We present a novel technique using the sumcheck protocol to ensure that extracted witnesses are always low norm no matter how many rounds of folding are used. Our evaluation of the final proof system suggests that it is as performant as Hypernova, while providing post-quantum security.
Paper Link: https://eprint.iacr.org/2024/257
How information systems are built or acquired puts information, which is what they should be about, in a secondary place. Our language adapted accordingly, and we no longer talk about information systems but applications. Applications evolved in a way to break data into diverse fragments, tightly coupled with applications and expensive to integrate. The result is technical debt, which is re-paid by taking even bigger "loans", resulting in an ever-increasing technical debt. Software engineering and procurement practices work in sync with market forces to maintain this trend. This talk demonstrates how natural this situation is. The question is: can something be done to reverse the trend?
"NATO Hackathon Winner: AI-Powered Drug Search", Taras KlobaFwdays
This is a session that details how PostgreSQL's features and Azure AI Services can be effectively used to significantly enhance the search functionality in any application.
In this session, we'll share insights on how we used PostgreSQL to facilitate precise searches across multiple fields in our mobile application. The techniques include using LIKE and ILIKE operators and integrating a trigram-based search to handle potential misspellings, thereby increasing the search accuracy.
We'll also discuss how the azure_ai extension on PostgreSQL databases in Azure and Azure AI Services were utilized to create vectors from user input, a feature beneficial when users wish to find specific items based on text prompts. While our application's case study involves a drug search, the techniques and principles shared in this session can be adapted to improve search functionality in a wide range of applications. Join us to learn how PostgreSQL and Azure AI can be harnessed to enhance your application's search capability.
This talk will cover ScyllaDB Architecture from the cluster-level view and zoom in on data distribution and internal node architecture. In the process, we will learn the secret sauce used to get ScyllaDB's high availability and superior performance. We will also touch on the upcoming changes to ScyllaDB architecture, moving to strongly consistent metadata and tablets.
inQuba Webinar Mastering Customer Journey Management with Dr Graham HillLizaNolte
HERE IS YOUR WEBINAR CONTENT! 'Mastering Customer Journey Management with Dr. Graham Hill'. We hope you find the webinar recording both insightful and enjoyable.
In this webinar, we explored essential aspects of Customer Journey Management and personalization. Here’s a summary of the key insights and topics discussed:
Key Takeaways:
Understanding the Customer Journey: Dr. Hill emphasized the importance of mapping and understanding the complete customer journey to identify touchpoints and opportunities for improvement.
Personalization Strategies: We discussed how to leverage data and insights to create personalized experiences that resonate with customers.
Technology Integration: Insights were shared on how inQuba’s advanced technology can streamline customer interactions and drive operational efficiency.
Essentials of Automations: Exploring Attributes & Automation ParametersSafe Software
Building automations in FME Flow can save time, money, and help businesses scale by eliminating data silos and providing data to stakeholders in real-time. One essential component to orchestrating complex automations is the use of attributes & automation parameters (both formerly known as “keys”). In fact, it’s unlikely you’ll ever build an Automation without using these components, but what exactly are they?
Attributes & automation parameters enable the automation author to pass data values from one automation component to the next. During this webinar, our FME Flow Specialists will cover leveraging the three types of these output attributes & parameters in FME Flow: Event, Custom, and Automation. As a bonus, they’ll also be making use of the Split-Merge Block functionality.
You’ll leave this webinar with a better understanding of how to maximize the potential of automations by making use of attributes & automation parameters, with the ultimate goal of setting your enterprise integration workflows up on autopilot.
[OReilly Superstream] Occupy the Space: A grassroots guide to engineering (an...Jason Yip
The typical problem in product engineering is not bad strategy, so much as “no strategy”. This leads to confusion, lack of motivation, and incoherent action. The next time you look for a strategy and find an empty space, instead of waiting for it to be filled, I will show you how to fill it in yourself. If you’re wrong, it forces a correction. If you’re right, it helps create focus. I’ll share how I’ve approached this in the past, both what works and lessons for what didn’t work so well.
In our second session, we shall learn all about the main features and fundamentals of UiPath Studio that enable us to use the building blocks for any automation project.
📕 Detailed agenda:
Variables and Datatypes
Workflow Layouts
Arguments
Control Flows and Loops
Conditional Statements
💻 Extra training through UiPath Academy:
Variables, Constants, and Arguments in Studio
Control Flow in Studio
The Microsoft 365 Migration Tutorial For Beginner.pptxoperationspcvita
This presentation will help you understand the power of Microsoft 365. However, we have mentioned every productivity app included in Office 365. Additionally, we have suggested the migration situation related to Office 365 and how we can help you.
You can also read: https://www.systoolsgroup.com/updates/office-365-tenant-to-tenant-migration-step-by-step-complete-guide/
Session 1 - Intro to Robotic Process Automation.pdfUiPathCommunity
👉 Check out our full 'Africa Series - Automation Student Developers (EN)' page to register for the full program:
https://bit.ly/Automation_Student_Kickstart
In this session, we shall introduce you to the world of automation, the UiPath Platform, and guide you on how to install and setup UiPath Studio on your Windows PC.
📕 Detailed agenda:
What is RPA? Benefits of RPA?
RPA Applications
The UiPath End-to-End Automation Platform
UiPath Studio CE Installation and Setup
💻 Extra training through UiPath Academy:
Introduction to Automation
UiPath Business Automation Platform
Explore automation development with UiPath Studio
👉 Register here for our upcoming Session 2 on June 20: Introduction to UiPath Studio Fundamentals: https://community.uipath.com/events/details/uipath-lagos-presents-session-2-introduction-to-uipath-studio-fundamentals/
Session 1 - Intro to Robotic Process Automation.pdf
Internet Of Things (IOT)
1. SUBMIITED TO: SIR ARSALAN
SUBLITTED BY: RIDA KHAN
SUBMITTED ON: 11TH
MAY 2018
ROLL NUMBER:
2. Contents
INTRODUCTION..................................................................................................................................3
ORIGIN OF IOT....................................................................................................................................5
ADVANTAGES OF INTERNET OF THINGS (IOT).......................................................................................5
1. In the business world:..................................................................................................................5
2. Keeping the environment clean....................................................................................................5
3. Health services:...........................................................................................................................5
DISADVANTAGES OF IOT.....................................................................................................................6
USES OF IOT.......................................................................................................................................6
IOT for manufacturing.....................................................................................................................6
IOT for smart cities..........................................................................................................................7
IOT FOR TRANSPORTATION .............................................................................................................7
IOT FOR RETAIL...............................................................................................................................8
IOT FOR HEALTHCARE.....................................................................................................................9
CONCLUSION....................................................................................................................................10
REFERENCES.....................................................................................................................................10
3. INTRODUCTION
The Internet is the most widely use mode of communication in this modernized
world. 99% of the world population are dependent on internet services for personal
and professional work. But recently, a turnover in technology have generated an
important topic of discussion that signals internet of things also called IoT. Tough
we have the new invention of technology every time around us, but these
inventions are either the modified version of existing things or the same technology
that we have already listened, heard or experienced. But internet of things is
utterly a creative idea that is held under the major discussion. After a period of
time, such innovation in technology can be experienced that urge to decrease our
workload and increase the efficiency of given task.
Though technology usually entices people with bags of advantage, but IoT is far
beyond that. It is machine to machine, human to machine and sensor to machine
communication. Sensor here collects data and analyze it. It can be even said
that sensor is a brain and machine a physical body that performs the task.
Hence, the combination of both this makes the internet of things. Making it further
clear, internet of thing is the way to connect thousands of your appliances and
equipment, anything from a small portable device to the large gears having the
button for on and off.
The Internet of Things (IoT) is a system of interrelated computing devices,
mechanical and digital machines, objects, animals or people that are provided
with unique identifiers and the ability to transfer data over a network without
requiring human-to-human or human-to-computer interaction.
Kevin Ashton, cofounder and executive director of the Auto-ID Center at MIT,
first mentioned the Internet of Things in a presentation he made to Procter &
Gamble in 1999. Here’s how Ashton explains the potential of the Internet of
Things:
“Today computers -- and, therefore, the internet -- are almost wholly
dependent on human beings for information. Nearly all of the roughly
50 petabytes (a petabyte is 1,024 terabytes) of data available on the internet
4. were first captured and created by human beings by typing, pressing a record
button, taking a digital picture or scanning a bar code. “
5. ORIGIN OF IOT
Although the concept wasn't named until 1999, the Internet of Things has been
in development for decades. The first internet appliance, for example, was a
Coke machine at Carnegie Melon University in the early 1980s. The
programmers could connect to the machine over the internet, check the status
of the machine and determine whether or not there would be a cold drink
awaiting them, should they decide to make the trip down to the machine.
ADVANTAGES OF INTERNET OF THINGS (IOT)
1. In the business world:
Running a business successfully requires advanced technology that increases the
efficiency of work. When IoT is applied in the business world to investigate about
machines and employees, it, in turn, serves the office with effective result.
Suppose, a sensor is connected to all the machines in use, now if there is any
trivial problem with the machine, it will notify the connected machine either turning
it off or signaling the team for potential dangers.
2. Keeping the environment clean:
If sensors are placed near the industrial area or busy places, it will immediately
notify users for increasing pollution or when the pollution crosses the carrying
capacity of the environment. This, in turn, will direct the machines to be switched
off immediately. So, this ensures the safety of the environment. Just like the bin
when it gets packed, it will direct the connected machine to empty it without
human interference.
3. Health services:
With globalization in the world, the concern for health have been increasing
greatly. People are getting different types of diseases and infections that directly
or indirectly affect their lifestyle. So, if IoT is implicated in the health field the
situation would completely get reversed. Having a sensor outside your body will
notify you for any kind of health threat. Like if vitamins are getting low, or your
BP in slowly heading towards increment; it will immediately notify you before any
unexpected situation arises so that you can visit the doctor immediately. This will
save your effort to go for lengthy test or monthly health checkup to ensure
6. everything is working perfectly in your system. This is also machine to human
communication were signals detect your body, and notify you through a machinery
equipment possibly wrapped around your hand or any other part of the body.
DISADVANTAGES OF IOT
The fact that everything can have an advantage as well as a disadvantage can
never be overlooked. Yes, bringing IoT is undoubtedly beneficial, minimizing human
stress, workload, and the involvement of human in the unnecessary task, and
many more area but the point of concern is that when so many things are
connected together, a large communication network is a set-up. So, managing
all these communication networks can be tough requiring expert guidance. Even
a slight mistake can ruin the complete system that is connected to each other.
Secondly, personal and professional information can be at higher risk. The chances
of misuse of this information will be increased through the process of hacking.
Thirdly, if you are planning to misguide your boss to take a day off, your job
is at great risk.
Having a technology is of great importance but before bringing it in use, the
safety for possible threats and damage must be designed so that no negative
outcomes awaits the doorstep.
USES OF IOT
IOT formanufacturing
1. Monitor manufacturing equipment
Improve your processes using industrial IoT. Use sensors and advanced
analytics to predict needed maintenance, and reduce unplanned downtime cutting
into production time.
2. Monitor customer equipment
7. Create new business models that offer predictive maintenance and performance
monitoring for the equipment you produce, delivering a richer customer
experience.
3. Improve field service
Access sensor data to improve field service scheduling, ensuring the right
technicians and tools are dispatched before potential issues become a major
problem.
IOT forsmartcities
1. Optimize natural resources use
Apply IoT to scenarios ranging from energy to agriculture to deliver efficiencies
and greener energy transmissions with lower rates to customers
2. Create safer cities
Connect infrastructures to better regulate traffic, make emergency systems more
efficient, and reduce police and EMT response times.
3. Create smart buildings
Connect building devices and systems to bring more efficient operation and
control to building owners, operators, and occupants.
4. Improve field service
Improve service efficiency, from repairing broken street lamps to maintaining
traffic lights to optimizing garbage truck routes.
IOT FOR TRANSPORTATION
1. Maintain vehicle performance
8. Keep vehicles on the road by predicting and monitoring maintenance needs—
fixing potential issues during downtime to keep your business moving.
2. Enable IoT in cars and vehicles
Create innovative IoT-enabled vehicle capabilities and solutions that transform
the customer driving experience while bringing valuable insights to your
business.
3. Optimize fleet operations
Streamline logistics using real-time data and alerts to optimize delivery routes,
monitor performance, and quickly respond to delays or issues as they happen.
4. Keep traffic moving
Monitor and process real-time traffic data to help manage transportation
infrastructures, assess road conditions, and ease congestion.
IOT FOR RETAIL
1. Empower employees with data-driven insights
Devices like beacons, video cameras, and smart shelves provide valuable data
that informs businesses on how their customers behave and how to best
engage with them.
2. Fine-tune merchandising and inventory plans
IoT data empowers organizations to assess the effectiveness of store layouts
and product presentations, and more intelligently forecast inventory demand.
3. Delight consumers through personalized, seamless experiences that drive sales
9. Digital kiosks, mobile apps, and rich customer data enable retailers to anticipate
customer desires and effectively execute personalized campaigns as well as
cross-sell and up-sell motions.
4. Optimize operations with service metrics to build a more agile organization
Decision makers can use real-time insights throughout the store to ensure a
positive customer service, more effectively allocate staff, and improve operational
efficiency.
IOT FORHEALTHCARE
1. Evolve patient care
Allow patients to receive care away from their hospital at home, elsewhere
around the world. With wearable sensors and service solutions, doctors
can reduce readmissions and enable proactive care.
2. Monitor medical assets
Help your staff spend less time searching and more time with patients by better
tracking and managing supplies and medicine—all on a cloud platform
that's HIPAA compliant.
3. Maintain vital equipment
Ensure critical medical devices are ready to use when your patients need them
most by fixing potential problems before they occur with predictive maintenance.
4. Track equipment usage
10. Enhance the overall well-being of patients by tracking how equipment is used,
from employing hospital bed sensors to monitoring room temperature and hand
washing stations.
CONCLUSION
The Iota links distinctly identifiable physical objects (things) on their virtual
representations online, which can contain or link to additional information on
identity, status, location or any other business, social or secretly relevant
information.
The Internet of Things (IoT) is many things to many people. Everything from
new applications, such as smart cities or autonomous vehicles to massive
sensor networks for monitoring environmental or industrial systems.
REFERENCES
https://internetofthingsagenda.techtarget.com/definition/Internet-of-Things-IoT
http://www.myassignmenthelp.net/blog/internet-of-things/
http://www.assignmentpoint.com/science/computer/internet-things.html
www.exfo.com/transformations/rise_of_IoT
https://www.microsoft.com/en-us/internet-of-things/
https://www.microsoft.com/en-us/internet-of-things/healthcare