Contact Tact FM to find out more how we can help with monitoring and reducing your downtime, monitoring and endless amount of functions. www.tactfm.com
Bluetooth Interface for NDIR Gas Sensors | Industry sourcing ndir gas sensorSherry Huang
During the Sensor+Test show in Nuremberg smartGAS Mikrosensorik GmbH (Germany) introduced a new generation of gas sensors, which have an optional Bluetooth interface.
“In the current market, companies realize that the device itself is not enough. What’s more important is the service around it. Take Philips for example, and see how they managed to covert a basic light bulb business into a lucrative smart lighting experience.
The question is
1. How do we do it?
2. To choose from 300+ IoT platforms?
3. To do it by myself?
4. Where do the cloud providers take place?
All the answers – in the session.”
Industrial IoT will not achieve its full potential...unless it solves this ch...Harry Sim
Lack of data visibility in existing plants hinders Industrial IoT deployment…but non-invasive instrumentation upgrade is a key part of the solution. - Harry Sim, CEO, Cypress Envirosystems
Making IoT a Reality_Axeda _ May 8 2013 _Mahbubul AlamMahbubul Alam
The document discusses the importance of platforms and ecosystems for realizing the Internet of Things (IoT). It notes that IoT could be worth $14.4 trillion over the next decade across various industries like utilities, manufacturing, transportation, and healthcare. Cisco takes a three-pronged approach to IoT involving understanding customer needs, developing vertical solutions based on a horizontal platform, and strategic partnerships. The platform needs to evolve from basic connectivity to being optimized for IoT and including elements like sensors, gateways, analytics, and security. Defining architectures, standards, and addressing policy issues will be important to enable business innovation with IoT.
This document discusses various Internet of Things (IoT) solutions for businesses using different wireless technologies. It provides examples of applying IoT technologies like Bluetooth, Zigbee, LoRa, WiFi and cellular networks to use cases in manufacturing, utilities, agriculture, transportation and smart cities. These include applications like asset tracking, machine monitoring, smart metering, lighting control, parking management and more. It also introduces Maven Systems as an expert in wireless technologies and IoT systems integration with live deployments in India and overseas.
This document provides information about training offered by Spiro Solutions Pvt. Ltd. It lists 20 wireless technology and embedded systems projects from 2015-2014, including topics like a wireless ECG acquisition system, animal health monitoring using Zigbee, VOC monitoring with wireless sensor networks, wireless power transfer for electric vehicles, and a smart sensor interface for industrial IoT environments. Contact information is provided for Spiro Solutions' Vellore office.
The document discusses the Internet of Things (IoT). It provides definitions and key facts about IoT, including that the term was coined in 1999 and that connected objects are expected to grow exponentially from 6.4 billion in 2016 to 50 billion by 2020. It also discusses that factors driving IoT adoption include the availability of affordable sensors and devices, and the scalability of solutions. The document outlines considerations for designing IoT applications from simple to complex. It provides an example IoT implementation using SAP technologies to monitor industrial coolers and optimize asset utilization.
A smart connected greenhouse device publishes sensor data like temperature to a central MQTT broker. If the temperature rises above a threshold, the Informatica Cloud platform uses Twilio to send an SMS notification to the owner with instructions to correct it. This allows remote monitoring and control of devices anywhere in the world through an online cloud app GUI or offline SMS responses, improving the user experience.
Bluetooth Interface for NDIR Gas Sensors | Industry sourcing ndir gas sensorSherry Huang
During the Sensor+Test show in Nuremberg smartGAS Mikrosensorik GmbH (Germany) introduced a new generation of gas sensors, which have an optional Bluetooth interface.
“In the current market, companies realize that the device itself is not enough. What’s more important is the service around it. Take Philips for example, and see how they managed to covert a basic light bulb business into a lucrative smart lighting experience.
The question is
1. How do we do it?
2. To choose from 300+ IoT platforms?
3. To do it by myself?
4. Where do the cloud providers take place?
All the answers – in the session.”
Industrial IoT will not achieve its full potential...unless it solves this ch...Harry Sim
Lack of data visibility in existing plants hinders Industrial IoT deployment…but non-invasive instrumentation upgrade is a key part of the solution. - Harry Sim, CEO, Cypress Envirosystems
Making IoT a Reality_Axeda _ May 8 2013 _Mahbubul AlamMahbubul Alam
The document discusses the importance of platforms and ecosystems for realizing the Internet of Things (IoT). It notes that IoT could be worth $14.4 trillion over the next decade across various industries like utilities, manufacturing, transportation, and healthcare. Cisco takes a three-pronged approach to IoT involving understanding customer needs, developing vertical solutions based on a horizontal platform, and strategic partnerships. The platform needs to evolve from basic connectivity to being optimized for IoT and including elements like sensors, gateways, analytics, and security. Defining architectures, standards, and addressing policy issues will be important to enable business innovation with IoT.
This document discusses various Internet of Things (IoT) solutions for businesses using different wireless technologies. It provides examples of applying IoT technologies like Bluetooth, Zigbee, LoRa, WiFi and cellular networks to use cases in manufacturing, utilities, agriculture, transportation and smart cities. These include applications like asset tracking, machine monitoring, smart metering, lighting control, parking management and more. It also introduces Maven Systems as an expert in wireless technologies and IoT systems integration with live deployments in India and overseas.
This document provides information about training offered by Spiro Solutions Pvt. Ltd. It lists 20 wireless technology and embedded systems projects from 2015-2014, including topics like a wireless ECG acquisition system, animal health monitoring using Zigbee, VOC monitoring with wireless sensor networks, wireless power transfer for electric vehicles, and a smart sensor interface for industrial IoT environments. Contact information is provided for Spiro Solutions' Vellore office.
The document discusses the Internet of Things (IoT). It provides definitions and key facts about IoT, including that the term was coined in 1999 and that connected objects are expected to grow exponentially from 6.4 billion in 2016 to 50 billion by 2020. It also discusses that factors driving IoT adoption include the availability of affordable sensors and devices, and the scalability of solutions. The document outlines considerations for designing IoT applications from simple to complex. It provides an example IoT implementation using SAP technologies to monitor industrial coolers and optimize asset utilization.
A smart connected greenhouse device publishes sensor data like temperature to a central MQTT broker. If the temperature rises above a threshold, the Informatica Cloud platform uses Twilio to send an SMS notification to the owner with instructions to correct it. This allows remote monitoring and control of devices anywhere in the world through an online cloud app GUI or offline SMS responses, improving the user experience.
Introduction Anwar Osseyran, Green IT Amsterdam workshop Green Software 12 ap...Jaak Vlasveld
The document summarizes a workshop on green IT and software held in Amsterdam. The workshop aimed to contribute to Amsterdam's goal of reducing CO2 emissions by 40% by 2025 through greening IT and using ICT to reduce emissions in other sectors. It discussed how software efficiency can reduce energy usage and server needs in data centers, which account for a large portion of ICT emissions. Presentations covered green software frameworks, a pilot project, and the user perspective on green software.
This document describes a smart manufacturing solution that uses IoT and cloud services to automate and remotely manage a wet wipes packing line. The system seamlessly integrates IT and OT applications to optimize operations, allowing remote and predictive management of the factory to improve uptime by 30%. It also enables data-driven decision making to increase competitiveness and profits through cloud-enabled automation and remote robotic control.
The document discusses several IoT automation solutions presented by Nexcom International Co., Ltd at the Microsoft IoT Expo 2016. It describes automated systems for wet wipes packing lines and cloud-enabled automation systems. It also discusses seamless IT/OT integration, remote robotic control, and customer benefits like optimizing operations and remotely managing factory uptime. Contact information is provided for Eric Lo, Product Manager at Nexcom International Co., Ltd.
Enlighted provides tiny sensors that create dense networks within commercial buildings to collect data on occupancy, light, temperature, and energy consumption. This data provides valuable insights and enables monitoring, control, optimization and automation. The system includes smart sensors connected to each light fixture, a gateway for wireless to wired communication, and an energy manager for data analysis and integration. The dense sensor network generates a rich data set that can be used for various applications beyond lighting control, such as HVAC, asset tracking, and safety.
The document discusses Internet of Things (IoT) solutions and development platforms. It defines IoT and describes the business benefits, including enhanced customer service, increased revenue, improved asset usage, and more data for analytics. The document outlines the key components of an IoT implementation architecture, including devices, connectivity protocols, data storage, security, and analytics services. It also discusses improving IoT through process re-engineering, productivity gains, and establishing business objectives.
Internet of Things - Building a Smarter WorldThoughtworks
The document discusses the Internet of Things (IoT) and its potential to build a smarter world by connecting things and people. Some key points:
1) IoT involves connecting sensors to the internet to collect and analyze data, enabled by advances in sensors, computing, cloud/big data, and wireless networks.
2) Building large-scale IoT systems is challenging due to issues like security, device management, and integrating different wireless technologies and protocols.
3) Examples are given of how IoT is being used for applications like equipment tracking, energy monitoring, supply chain management, and wind energy analytics to reduce costs, increase revenues, and provide new data-driven services.
Scope of Iot:
The scope of IoT includes:
Embedded devices which manage and collect data from sensors or other inputs
Cloud storage of data
Aggregation and analysis of data
Applications which present data to users in meaningful ways
The internet of things (IoT) is a steadily growing billion-dollar market largely driven by companies undergoing digitization for greater efficiency and transparency, as well as by 5G and emerging applications like smart cities. Satellite’s inherent capabilities — such as its ability to reach remote areas, its ability to scale, to extend coverage for other providers — make it an essential part of a hybrid network needed to support an interoperable IoT system.
This document discusses an Internet of Things (IoT) solution for creating a smart office environment. It proposes using plug-and-play IoT sensors to monitor various office metrics like CO2 levels, desk occupancy, meeting room usage, and power consumption. The solution is intended for small and medium-sized enterprises that need a simple, centrally-managed system to pilot IoT technology. It emphasizes that the solution offers endless possibilities and that technology is just one part of creating value with IoT, which is really about using data to transform processes and business models.
Developing Applications with the IoT Button - DevDay Austin 2017Amazon Web Services
This document summarizes a presentation about developing applications with the AWS IoT Button. It provides an overview of the AWS IoT service and its capabilities including device management, data processing and rules engine. It then discusses the AWS IoT Button and how it can be used to trigger Lambda functions, S3 uploads and DynamoDB writes with single, double or long button presses. It also demonstrates a retail use case where button clicks initiate inventory workflows. Finally, it outlines how enterprises can use customized IoT Buttons for various use cases like reorders or equipment maintenance.
Do you want to switch to Mitel’s MiCloud Flex? After a seamless migration, you’ll have an easy way to call colleagues and customers, topped off with a host of useful UC functionalities that come with the platform. Just follow our webinar ‘Mitel MiCloud Flex: an introduction’ to get started.
Move from a reactive to a proactive field service with IoT.
Check out case studies from Industrial Support Services, Smart City Management, Connected Field Service and Smart Facilities Management.
This document discusses using sensors and an Arduino board to collect data from a greenhouse and send it to the IBM IoT Cloud platform. An Arduino board with a DHT11 temperature and humidity sensor collects data from a greenhouse and sends it via WiFi or Ethernet to the IBM IoT Cloud using the MQTT protocol. The document tests collecting sensor data locally and sending it to the cloud.
Internet of Things using Raspberry pi sumit sharma
what is internet of Things ,internet of things Device,IOT
Ecosystem,Application of IOT,Major Components of IOT Devices,Devices and protocol to work with IOT,Raspberry pi ,Thingspeak and blynk cloud platform
This document describes an Internet of Things (IoT) based data monitoring system that uses sensors interfaced with an ARM microcontroller to monitor environmental information like temperature, light, humidity, and pressure. The microcontroller transfers the sensor data over the internet via Ethernet or WiFi to a cloud server. A graphical user interface allows for uniform monitoring of all measured parameters and provides a cost-effective and easy to maintain alternative to existing bulky and expensive monitoring systems.
5 cool things you can do with the WSO2 IoT Server WSO2
WSO2 IoT Server is an open source IoT platform released under the Apache license 2.0. It brings together WSO2’s battle hardened technologies from identity and access management, analytics, integration and API management domains to craft a fully-fledged device management framework capable of addressing any industrial IoT scenario.
Join Ruwan, in exploring some of the many things you could do with the upcoming WSO2 IoT Server. These include:
- Connecting any IoT Device to the IoT Server
- Building faster, leaner and cost-effective solutions with edge computing
- Developing versatile solutions for any IoT use case, fast
- Monitoring device statistics, triggering alerts, defining policies and getting actionable insights
- Scaling up seamlessly from managing 10 devices to a million
Using lo rawan and vibration monitoring for predictive maintenance v2Actility
The document discusses a webinar on using LoRaWAN and vibration monitoring for predictive maintenance, outlining the agenda which includes presentations on the predictive maintenance solution, NKE company and BoB Assistant product, WMW application platform, and Actility network infrastructure; the webinar will also include a live demo and Q&A session.
Internet of things (iot) based weatherVivek Bhakta
This document proposes an Internet of Things (IoT) based weather monitoring system. The system uses sensors to monitor environmental conditions like temperature, humidity, light intensity, and CO levels at a particular place. The sensor data is sent to a web page where it is plotted as graphical statistics. The data from the implemented system can then be accessed from anywhere in the world over the internet. The system provides an advanced and efficient IoT solution to connect sensors and devices to monitor weather conditions remotely.
1. The document introduces IoT and defines it as intelligent interactivity between humans and things to exchange information and create new value.
2. It describes the key elements of IoT including sensors, actuators, connectivity, and the role of people and processes. Sensors collect digital and analog data, connectivity allows information exchange, and people and processes interact with systems developed using IoT technologies.
3. Two examples of industrial IoT applications are described: a chemical processing system monitored remotely using sensors for temperature, pressure, and materials quantity, and an energy monitoring system for multiple power panels using smart meters and data logging.
GSM Based climate Monitoring System for AgricultureLokesh K N
Design of GSM based weather monitoring system useful for agriculture consists of different sensors such as temperature, humidity and soil moisture. Sensors are used to measure moisture content of soil, temperature level and humidity level. The Arduino Uno receives the data from the various sensor and transmit it to the GSM module. The GSM module send the information to formers via Short Message Service (SMS).
The implementation of this system in agriculture for future will not only save the time, money and water but also increase the productivity of crops and improves the growth of the plants.
The future iteration will include data collection at base station and incorporation of additional remote station directly controls irrigation systems. Wireless transmission of the output data to the user with the help of using ZigBee or Bluetooth. In this way the agriculture monitoring system helps the formers in the form of improving their yields.
IoT business models for Utilities? Here they are!Lemonbeat GmbH
Two examples of IoT business models for utilities are described:
1) A "Smart Energy for everyone" model that provides cost-optimized meter reading and customer services even in unregulated markets using IoT technology.
2) An "Energy management services via lean building automation" model that provides remote monitoring and parameterization of building assets like meters, heating systems, and pumps to optimize processes and costs for real estate companies.
The document then provides more details on a lean metering solution and lean building management solution that utilities could offer using IoT connectivity and analytics.
AWS IoT is a managed cloud platform that allows connected IoT devices to easily and securely interact with cloud applications and other devices. In this session, we will discuss how constrained devices can leverage the AWS IoT service to send data to the cloud and receive commands back to the device using the protocol of their choice. We will discuss how devices can connect securely using MQTT and HTTP protocols, and how developers and businesses can leverage the AWS IoT Rules Engine, Thing Shadows, and accelerate prototype development using AWS IoT Device SDKs.
Introduction Anwar Osseyran, Green IT Amsterdam workshop Green Software 12 ap...Jaak Vlasveld
The document summarizes a workshop on green IT and software held in Amsterdam. The workshop aimed to contribute to Amsterdam's goal of reducing CO2 emissions by 40% by 2025 through greening IT and using ICT to reduce emissions in other sectors. It discussed how software efficiency can reduce energy usage and server needs in data centers, which account for a large portion of ICT emissions. Presentations covered green software frameworks, a pilot project, and the user perspective on green software.
This document describes a smart manufacturing solution that uses IoT and cloud services to automate and remotely manage a wet wipes packing line. The system seamlessly integrates IT and OT applications to optimize operations, allowing remote and predictive management of the factory to improve uptime by 30%. It also enables data-driven decision making to increase competitiveness and profits through cloud-enabled automation and remote robotic control.
The document discusses several IoT automation solutions presented by Nexcom International Co., Ltd at the Microsoft IoT Expo 2016. It describes automated systems for wet wipes packing lines and cloud-enabled automation systems. It also discusses seamless IT/OT integration, remote robotic control, and customer benefits like optimizing operations and remotely managing factory uptime. Contact information is provided for Eric Lo, Product Manager at Nexcom International Co., Ltd.
Enlighted provides tiny sensors that create dense networks within commercial buildings to collect data on occupancy, light, temperature, and energy consumption. This data provides valuable insights and enables monitoring, control, optimization and automation. The system includes smart sensors connected to each light fixture, a gateway for wireless to wired communication, and an energy manager for data analysis and integration. The dense sensor network generates a rich data set that can be used for various applications beyond lighting control, such as HVAC, asset tracking, and safety.
The document discusses Internet of Things (IoT) solutions and development platforms. It defines IoT and describes the business benefits, including enhanced customer service, increased revenue, improved asset usage, and more data for analytics. The document outlines the key components of an IoT implementation architecture, including devices, connectivity protocols, data storage, security, and analytics services. It also discusses improving IoT through process re-engineering, productivity gains, and establishing business objectives.
Internet of Things - Building a Smarter WorldThoughtworks
The document discusses the Internet of Things (IoT) and its potential to build a smarter world by connecting things and people. Some key points:
1) IoT involves connecting sensors to the internet to collect and analyze data, enabled by advances in sensors, computing, cloud/big data, and wireless networks.
2) Building large-scale IoT systems is challenging due to issues like security, device management, and integrating different wireless technologies and protocols.
3) Examples are given of how IoT is being used for applications like equipment tracking, energy monitoring, supply chain management, and wind energy analytics to reduce costs, increase revenues, and provide new data-driven services.
Scope of Iot:
The scope of IoT includes:
Embedded devices which manage and collect data from sensors or other inputs
Cloud storage of data
Aggregation and analysis of data
Applications which present data to users in meaningful ways
The internet of things (IoT) is a steadily growing billion-dollar market largely driven by companies undergoing digitization for greater efficiency and transparency, as well as by 5G and emerging applications like smart cities. Satellite’s inherent capabilities — such as its ability to reach remote areas, its ability to scale, to extend coverage for other providers — make it an essential part of a hybrid network needed to support an interoperable IoT system.
This document discusses an Internet of Things (IoT) solution for creating a smart office environment. It proposes using plug-and-play IoT sensors to monitor various office metrics like CO2 levels, desk occupancy, meeting room usage, and power consumption. The solution is intended for small and medium-sized enterprises that need a simple, centrally-managed system to pilot IoT technology. It emphasizes that the solution offers endless possibilities and that technology is just one part of creating value with IoT, which is really about using data to transform processes and business models.
Developing Applications with the IoT Button - DevDay Austin 2017Amazon Web Services
This document summarizes a presentation about developing applications with the AWS IoT Button. It provides an overview of the AWS IoT service and its capabilities including device management, data processing and rules engine. It then discusses the AWS IoT Button and how it can be used to trigger Lambda functions, S3 uploads and DynamoDB writes with single, double or long button presses. It also demonstrates a retail use case where button clicks initiate inventory workflows. Finally, it outlines how enterprises can use customized IoT Buttons for various use cases like reorders or equipment maintenance.
Do you want to switch to Mitel’s MiCloud Flex? After a seamless migration, you’ll have an easy way to call colleagues and customers, topped off with a host of useful UC functionalities that come with the platform. Just follow our webinar ‘Mitel MiCloud Flex: an introduction’ to get started.
Move from a reactive to a proactive field service with IoT.
Check out case studies from Industrial Support Services, Smart City Management, Connected Field Service and Smart Facilities Management.
This document discusses using sensors and an Arduino board to collect data from a greenhouse and send it to the IBM IoT Cloud platform. An Arduino board with a DHT11 temperature and humidity sensor collects data from a greenhouse and sends it via WiFi or Ethernet to the IBM IoT Cloud using the MQTT protocol. The document tests collecting sensor data locally and sending it to the cloud.
Internet of Things using Raspberry pi sumit sharma
what is internet of Things ,internet of things Device,IOT
Ecosystem,Application of IOT,Major Components of IOT Devices,Devices and protocol to work with IOT,Raspberry pi ,Thingspeak and blynk cloud platform
This document describes an Internet of Things (IoT) based data monitoring system that uses sensors interfaced with an ARM microcontroller to monitor environmental information like temperature, light, humidity, and pressure. The microcontroller transfers the sensor data over the internet via Ethernet or WiFi to a cloud server. A graphical user interface allows for uniform monitoring of all measured parameters and provides a cost-effective and easy to maintain alternative to existing bulky and expensive monitoring systems.
5 cool things you can do with the WSO2 IoT Server WSO2
WSO2 IoT Server is an open source IoT platform released under the Apache license 2.0. It brings together WSO2’s battle hardened technologies from identity and access management, analytics, integration and API management domains to craft a fully-fledged device management framework capable of addressing any industrial IoT scenario.
Join Ruwan, in exploring some of the many things you could do with the upcoming WSO2 IoT Server. These include:
- Connecting any IoT Device to the IoT Server
- Building faster, leaner and cost-effective solutions with edge computing
- Developing versatile solutions for any IoT use case, fast
- Monitoring device statistics, triggering alerts, defining policies and getting actionable insights
- Scaling up seamlessly from managing 10 devices to a million
Using lo rawan and vibration monitoring for predictive maintenance v2Actility
The document discusses a webinar on using LoRaWAN and vibration monitoring for predictive maintenance, outlining the agenda which includes presentations on the predictive maintenance solution, NKE company and BoB Assistant product, WMW application platform, and Actility network infrastructure; the webinar will also include a live demo and Q&A session.
Internet of things (iot) based weatherVivek Bhakta
This document proposes an Internet of Things (IoT) based weather monitoring system. The system uses sensors to monitor environmental conditions like temperature, humidity, light intensity, and CO levels at a particular place. The sensor data is sent to a web page where it is plotted as graphical statistics. The data from the implemented system can then be accessed from anywhere in the world over the internet. The system provides an advanced and efficient IoT solution to connect sensors and devices to monitor weather conditions remotely.
1. The document introduces IoT and defines it as intelligent interactivity between humans and things to exchange information and create new value.
2. It describes the key elements of IoT including sensors, actuators, connectivity, and the role of people and processes. Sensors collect digital and analog data, connectivity allows information exchange, and people and processes interact with systems developed using IoT technologies.
3. Two examples of industrial IoT applications are described: a chemical processing system monitored remotely using sensors for temperature, pressure, and materials quantity, and an energy monitoring system for multiple power panels using smart meters and data logging.
GSM Based climate Monitoring System for AgricultureLokesh K N
Design of GSM based weather monitoring system useful for agriculture consists of different sensors such as temperature, humidity and soil moisture. Sensors are used to measure moisture content of soil, temperature level and humidity level. The Arduino Uno receives the data from the various sensor and transmit it to the GSM module. The GSM module send the information to formers via Short Message Service (SMS).
The implementation of this system in agriculture for future will not only save the time, money and water but also increase the productivity of crops and improves the growth of the plants.
The future iteration will include data collection at base station and incorporation of additional remote station directly controls irrigation systems. Wireless transmission of the output data to the user with the help of using ZigBee or Bluetooth. In this way the agriculture monitoring system helps the formers in the form of improving their yields.
IoT business models for Utilities? Here they are!Lemonbeat GmbH
Two examples of IoT business models for utilities are described:
1) A "Smart Energy for everyone" model that provides cost-optimized meter reading and customer services even in unregulated markets using IoT technology.
2) An "Energy management services via lean building automation" model that provides remote monitoring and parameterization of building assets like meters, heating systems, and pumps to optimize processes and costs for real estate companies.
The document then provides more details on a lean metering solution and lean building management solution that utilities could offer using IoT connectivity and analytics.
AWS IoT is a managed cloud platform that allows connected IoT devices to easily and securely interact with cloud applications and other devices. In this session, we will discuss how constrained devices can leverage the AWS IoT service to send data to the cloud and receive commands back to the device using the protocol of their choice. We will discuss how devices can connect securely using MQTT and HTTP protocols, and how developers and businesses can leverage the AWS IoT Rules Engine, Thing Shadows, and accelerate prototype development using AWS IoT Device SDKs.
An IoT cloud platform for gas/smoke detectors is a technology that enables these detectors to connectto the internet and transmit data to a cloud-based server. This data will include information such as gas/smoke levels, device status, and location. The platform willthen analyze the data to identify potential hazards, notify authorities or property managers, and even take automated actions to mitigate the danger. This will help improve the safety and efficiency of gas/smoke detection systems in various settings, such as homes, buildings, and industrialfacilities.
https://www.mobiloitte.com/internet-of-things/
The document discusses an IoT platform and gateway solution from Schildknecht. The platform offers global connectivity for collecting and transmitting sensor and machine data via mobile radio networks. It includes the DATAEAGLE 7000 series of IoT gateways that connect devices to a device cloud, which then passes data to the customer's cloud system. The solution aims to handle the complexity of IoT for customers and provide security, manageable costs, and opportunities to develop new business models and revenue streams through data insights.
The document discusses an IoT platform and gateway solution from Schildknecht. The platform offers global connectivity for collecting and transmitting sensor and machine data via mobile radio networks. It includes the DATAEAGLE 7000 series of IoT gateways that connect devices and transmit data to a device cloud. The device cloud then passes the data to the customer's cloud system and manages the connected devices. The solution aims to simplify IoT connectivity and provide reliable, secure transmission of data from devices to the cloud.
1. WimFactory is an IoT smart factory platform for small and medium sized manufacturers that uses smart sensors called WICON to monitor production facilities in real-time.
2. The platform collects sensor data, analyzes it using big data and machine learning, and provides notifications to managers about potential issues or malfunctions.
3. Setting up WimFactory takes only 15-25 days and requires no employee training - it allows remote real-time monitoring of facilities from smartphones.
The IoT is here to stay. As with any other trend in the history of computer software, it’s starting to produce a new generation of cloud platforms. This tech talk will identify and explain what to look for when evaluating an IoT cloud platform to ensure a successful deployment of IoT strategies.
This document provides an overview of the Microsoft IoT platform and its capabilities including creating an IoT hub, ingesting telemetry and device data, device provisioning and security, cloud-to-device messaging, the device twin capability, and IoT Edge. It also discusses Azure IoT services like IoT Hub, Device Provisioning Service, IoT Central, IoT Edge and how they provide device connectivity and management, data ingestion and command/control, stream processing, workflow automation, dashboards and visualization.
The value of the platform play in real world use cases Software AG cwin18 tou...Capgemini
Software AG Cumulocity IoT and Capgemini key enablers to to go beyond the current paradigms and transform the business by seamlessly combining people, things and differentiation.
Presentatiestandaard nevap 28 juni 2019 property technologyDWA
This document discusses digital twins and smart buildings. It defines a digital twin as a virtual representation of a physical asset that can monitor performance, detect inefficiencies, diagnose issues, make adjustments, and alert staff. Empathic or smart buildings aim to deliver better sustainability, wellbeing, productivity and costs through features like HVAC control, lighting management, occupancy monitoring and leak detection. Truly smart buildings also utilize indoor location systems, room reservations, consumption monitoring and elderly care systems. The value of digital twins and smart contracts is explored through a case study on automatically resolving tenant complaints. Key aspects of digital twin implementation include modularity, scalability, interconnectivity, standardization, data quality and organizational accessibility.
is an innovative provider of “Internet of Things” based products and solutions. Interoperability lies at the heart of everything we do and we aim to be the organization which develops solutions to provide more straight forward interaction between physical and virtual world
Hyperthings is an innovative provider of “Internet of Things” based products and solutions. Interoperability lies at the heart of everything we do and we aim to be the organization which develops solutions to provide more straight forward interaction between physical and virtual world
The Internet of Things: Impact on Business and Tech-Forward Concepts Klika Tech, Inc
Many IoT advancements hold the promise of better-connected consumer products and more-efficient business processes. However, attention should be paid to three concepts already proving their value for improved customer experiences, operational excellence, and new revenue streams.
There are the following ones:
- Fog & edge architecture,
- LPWAN,
- Realtime OTA.
Each of these concepts are becoming the IoT applications that are set to transform the customer experience and deliver the strongest benefits to myriad businesses. For more details see our presentation.
IoT Based Home Automation System_revised_27_06_2021.pptxCUInnovationTeam
This document describes the design and implementation of a home automation system using IoT. The system uses an Arduino microcontroller connected to various sensors to monitor temperature, gas, fire and motion. When thresholds are exceeded, the system triggers appliances like exhaust fans and alerts authorities via SMS. It allows remote monitoring and control of home appliances over WiFi. The objectives are to develop a low-cost home security, safety and energy saving system. Block diagrams and lists of equipment are provided. Advantages include easy access and control from anywhere, reduced human intervention, improved safety and efficiency.
This document summarizes a Sigfox Makers Tour event in Bratislava. It introduces Sigfox, how the Sigfox network works, and demos how to send basic messages from a SmartEverything development board. Key points covered include:
- Introduction to Sigfox and the speakers
- An overview of the Sigfox protocol and how devices communicate on the network
- Examples of IoT use cases that work well with Sigfox
- A demonstration of sending a "hello world" message from a SmartEverything board
- Information on callbacks, downlink messages, and interacting with the Sigfox backend
This document discusses the components of an IoT solution and introduces Thing Building Blocks (TBB) as a platform for connecting devices to the cloud. TBB allows device manufacturers to focus on their core technology by providing out-of-the-box services and connectivity modules for device management, cloud infrastructure, data processing, and apps/analytics. It offers benefits like reduced time-to-market, lower costs, and the ability to customize solutions. The document demonstrates TBB's architecture and how it addresses challenges around deciding between cloud-based or gateway-based logic and data handling for IoT solutions.
The document discusses Internet of Things (IoT) systems, architectures, and use cases. It describes typical IoT architectures involving sensors, devices, gateways, edge/fog computing, cloud platforms, and applications. It provides examples of common IoT devices like smart meters and discusses smart home use cases. Distributed software requirements across the IoT stack are also outlined.
Workspaces are constantly evolving to incorporate IoT-enabled devices so that almost all aspects of a workspace are data-enabled and remotely driven to enhance worker experience.
This will undoubtedly cut costs and create more efficient ways to drive the productivity of your business. With rising real-estate costs, it is sometimes prohibitively expensive to move to modern workspaces.
<a href="https://www.faststreamtech.com/solutions/iot-solutions/smart-workspaces/">Faststream Technologies</a> transforms your current workspaces into an IoT-enabled smart workspace.
Faststream Technologies, with the integration of IoT, is able to automate efficient space utilization and create an office environment that reacts to human occupancy, making it conducive for increased productivity.
https://www.faststreamtech.com/solutions/iot-solutions/smart-workspaces/
A SYSTEMATIC RISK ASSESSMENT APPROACH FOR SECURING THE SMART IRRIGATION SYSTEMSIJNSA Journal
The smart irrigation system represents an innovative approach to optimize water usage in agricultural and landscaping practices. The integration of cutting-edge technologies, including sensors, actuators, and data analysis, empowers this system to provide accurate monitoring and control of irrigation processes by leveraging real-time environmental conditions. The main objective of a smart irrigation system is to optimize water efficiency, minimize expenses, and foster the adoption of sustainable water management methods. This paper conducts a systematic risk assessment by exploring the key components/assets and their functionalities in the smart irrigation system. The crucial role of sensors in gathering data on soil moisture, weather patterns, and plant well-being is emphasized in this system. These sensors enable intelligent decision-making in irrigation scheduling and water distribution, leading to enhanced water efficiency and sustainable water management practices. Actuators enable automated control of irrigation devices, ensuring precise and targeted water delivery to plants. Additionally, the paper addresses the potential threat and vulnerabilities associated with smart irrigation systems. It discusses limitations of the system, such as power constraints and computational capabilities, and calculates the potential security risks. The paper suggests possible risk treatment methods for effective secure system operation. In conclusion, the paper emphasizes the significant benefits of implementing smart irrigation systems, including improved water conservation, increased crop yield, and reduced environmental impact. Additionally, based on the security analysis conducted, the paper recommends the implementation of countermeasures and security approaches to address vulnerabilities and ensure the integrity and reliability of the system. By incorporating these measures, smart irrigation technology can revolutionize water management practices in agriculture, promoting sustainability, resource efficiency, and safeguarding against potential security threats.
6th International Conference on Machine Learning & Applications (CMLA 2024)ClaraZara1
6th International Conference on Machine Learning & Applications (CMLA 2024) will provide an excellent international forum for sharing knowledge and results in theory, methodology and applications of on Machine Learning & Applications.
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECTjpsjournal1
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
governments. This success may be attributed to the effective utilisation of key tools such as the Shanghai
Cooperation Organisation and the Belt and Road Economic Initiative.
ACEP Magazine edition 4th launched on 05.06.2024Rahul
This document provides information about the third edition of the magazine "Sthapatya" published by the Association of Civil Engineers (Practicing) Aurangabad. It includes messages from current and past presidents of ACEP, memories and photos from past ACEP events, information on life time achievement awards given by ACEP, and a technical article on concrete maintenance, repairs and strengthening. The document highlights activities of ACEP and provides a technical educational article for members.
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
2. Executive Summary
NHS pharmacy fridge/ ambient
temperature monitoring for medicine
storage.
IOT SERVICE:
ACTIVE DEPLOYMENT EXAMPLE: Retrofitted sensor (<10 seconds). Cloud
data platform. Alerts. 75% cheaper than
competitor products.
LIVE PILOT EXAMPLE: Fire and safety door monitoring with
customisable alerts.
Retrofitted sensor (<10 seconds).
Live cloud data.
Hardware (retrofitted to existing
equipment in seconds) and software
provided through a service package.
Instant, effective data. Low cost.
Low complexity.
4. Smart In
Seconds:
Software platform works through existing IT/ mobile
devices; no upgrades are required and hardware
communicates with the cloud via 3G, so it doesn’t
constrain existing WiFi bandwidth.
Solution is retrofitted to existing infrastructure in
seconds, lowering costs and reducing waste.
5. How it
works:
Simple, customisable and scalable interface.Ultra low-cost wireless sensors.
+ platform is enabled for an endless roadmap of connected devices
✓ Works immediately
✓ Real-time readings
✓ Mobile alerts
✓ Data export
✓ Hardware included
✓ Ultra low-cost
6. Example Use Cases:
Efficient staffing
Temperature monitoring
Space occupancy monitoring
Preventative maintenance
Smart cleaning
Door/ Window monitoring
Security/ tampering alerts
Call/ Ordering buttons
Safety equipment monitoring
Food storage monitoring