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OK, I Need an IoT Service. Now What??
“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...
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Making IoT a Reality_Axeda _ May 8 2013 _Mahbubul 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.
IoT Solutions for Businesses
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.
IEEE WIRELESS PROJECT TITLE 2015-16
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.
IoT
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.
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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.
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Bluetooth Interface for NDIR Gas Sensors | Industry sourcing ndir gas sensor
During the Sensor+Test show in Nuremberg smartGAS Mikrosensorik GmbH (Germany) introduced a new generation of gas sensors, which have an optional Bluetooth interface.
OK, I Need an IoT Service. Now What??
“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...
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 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.
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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.
IEEE WIRELESS PROJECT TITLE 2015-16
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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.
IoT@Cloud
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.
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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 World
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.
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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
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Introduction to io t
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.
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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.
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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.
Getting Started with AWS IoT
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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 World
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.
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The scope of IoT includes:
Embedded devices which manage and collect data from sensors or other inputs
Cloud storage of data
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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.
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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
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Introduction to io t
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 Agriculture
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.
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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.
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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
Softimize TBB IoT = device + cloud
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.
IoT Systems: Technology, Architecture & Performance
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.
Smart workspaces-Faststream Technologies
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/
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Tact fm IOT presentation
- 1. IOT Solutions From Tact FM Ltd
- 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.
- 3. The Solution: No-nonsense simplicity... …as a low-cost service. White label IoT hardware* and proprietary cloud platform. £
- 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