Accelerating the Industrial Internet of Things
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Number of Case Studies82
Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors
Remotely Monitor Pollution & Gases with Alphasense Industrial IoT Sensors
To implement air quality monitoring of Ozone / O3, VOCs, Nitrogen Oxides / NO2, Dust Particulates, PM1, PM2.5, PM10.
Monitoring Air Polluants with AirQ
Monitoring Air Polluants with AirQ
Air Quality and the monitoring of pollutants that can cause health issues is becoming more important to our daily lives with governments and regulators keen to both monitor and manage the impacts of poor air quality caused by a range of pollutants.
Remote Sensor Monitoring & Fleet Tracking for Industrial Vehicles
Remote Sensor Monitoring & Fleet Tracking for Industrial Vehicles
• To implement fleet tracking with industrial equipment and sensorsHow will you know when a pump on any of your trucks is on or off? Or how many RPMs your mobile pumps are running at? If you’ve got vacuums and/or tanks on your trucks then you want to know what the current status is, how they’ve been used, whether or not they’re due for maintenance, and other information available using Industrial IoT Sensor Solutions with Tools.Valarm.net.
Number of Suppliers144
Collabera TACT | Certification & Trainings
Collabera TACT – Technology Academy for Competency Training is an initiative started by Collabera, a $550 mn U.S. based IT Staff Augmentation Company. It aims at providing training to qualifying professionals and students on emerging technologies like Big Data, Analytics, Cloud, Mobility, Digital Marketing and many more. It has been established to bridge the demand-supply gap of professionals on SMAC technologies and aims at upgrading individual’s skills and making them future-ready for jobs that will require them to be well versed with the emerging technologies.
Actility
Actility
Actility is an industry leader in LPWA (Low Power Wide Area) large scale infrastructure with ThingPark, the new generation standard-based IoT / M2M communication platform. Actility’s ThingPark Wireless network provides LoRa / LoRaWAN long-range coverage for low-power sensors used in SmartCity, SmartBuilding and SmartFactory applications. Actility also provides the ThingPark Cloud which provides big data storage for sensor data and exposes sensor function through an open API allowing developers to provide vertical applications on top of rolled out sensors. To help vendors transform their sensors, Actility provides the ThingPark IoT platform which includes embedded software solutions and cloud solutions to help devices connect to innovative applications.Year founded: 2010
Wulian Group
Nanjing IOT Sensor Technology Co.,Ltd. is the global leading supplier for Internet of Things (IoT) devices and solution .Based on the demand by their customers, they continue to innovate and lead the industry of IoT sensor, controller, mobile IOT and cloud computing. Depend on the comprehensive advantages in the fields of sensor,controller, wulian has been a front runner in the IoT time.
Number of Events1
All About IoT Sensors
All About IoT Sensors
Number of Organizations2
SmartSantander
SmartSantander
SmartSantander is a EU ICT FP7 research project for future Internet research and experimentation.This unique experimental facility will be sufficiently large, open and flexible to enable horizontal and vertical federation with other experimental facilities and stimulates development of new applications by users of various types including experimental advanced research on IoT technologies and realistic assessment of users’ acceptability tests. The project envisions the deployment of 20,000 sensors in Belgrade, Guildford, Lübeck and Santander (12,000), exploiting a large variety of technologies.A scalable, heterogeneous and trustable large-scale real-world experimental facility will be deployed. During the RWI sessions of the Future Internet Assembly in Prague in early 2009, the main requirements for a real-world IoT experimental platform were identified. SmartSantander will address all these requirements by specifying, designing, and implementing the necessary building blocks. An initial high-level architecture for the resulting new experimental facility has already been worked out, and is shown in Figure below. This architecture heavily relies on existing components which will be supplemented by the so far missing building blocks.One of the main objectives of the project is to fuel the use of the Experimentation Facility among the scientific community, end users and service providers in order to reduce the technical and societal barriers that prevent the IoT concept to become an everyday reality. To attract the widest interest and demonstrate the usefulness of the SmartSantander platform, a key aspect that will be addressed is the inclusion of a wide set of applications. Application areas will be selected based on their high potential impact on the citizens as well as to exhibit the diversity, dynamics and scale that are essential in advanced protocol solutions, and will be able to be evaluated through the platform. The platform will be attractive for all involved stakeholders: Industries, communities of users, other entities that are willing to use the experimental facility for deploying, and assessing new services and applications, and Internet researchers to validate their cutting-edge technologies (protocols, algorithms, radio interfaces, etc.).
Open Connectivity Foundation
Open Connectivity Foundation
Billions of connected devices (devices, phones, computers and sensors) should be able to communicate with one another regardless of manufacturer, operating system, chipset or physical transport. The Open Connectivity Foundation (OCF) is creating a specification and sponsoring an open source project to make this possible. WHAT ARE WE DOING?- Defining the specification, certification & branding to deliver reliable interoperability -- a connectivity framework that abstracts complexity- Our open specification allows anyone to implement and it is easy for developers to use- It includes predictable IP protection & branding for certified devices (via compliance testing) and service-level interoperability- There is also an Open Source implementation of our specification - IoTivity Project- This Open Source implementation is designed to enable application developers and device manufacturers to deliver interoperable products across Android, iOS, Windows, Linux, Tizen, and more.WHY ARE WE DOING THIS?- We want to connect the next 25 billion devices for the Internet of Things.- We want to provide secure and reliable device discovery and connectivity across multiple OSs and platforms.- There are multiple proposals and forums driving different approaches... but no single solution addresses the majority of key requirements.- To get industry consolidation around a common, interoperable approach.- To build a broad industry consortium of companies to create a scalable solution.WHO NEEDS THIS?- Consumers, Enterprise, Industrial, Automotive, Health, etc. who want smart devices to easily interconnect and communicate with appliances, embedded devices, etc.- Developers of operating systems, platforms, and applications who want their products to interoperate seamlessly across many brands and ecosystems.- End users who want consistent levels of security and identity across smart devices down to the smallest connected appliance
Number of Use Cases14
Smart Lighting
Smart Lighting
Smart Lighting is about intelligent and weather adaptive lighting in street, commercial and factory lighting.The smart lighting market is primarily driven by the growing demand for energy efficient lighting system in order to reduce energy consumption cost. Development of sensor and wireless technology enable improved energy efficiency, process monitoring remote control, and worker safety and satisfaction. IoT solutions enable partially or fully autonomous lighting control based on daylight availability, time, facility activities, and other factors.
Security Claims Evaluation
Security Claims Evaluation
Security Claims Evaluation is an open and easily configurable cybersecurity platform for the evaluation of endpoint, gateway, and other networked components’ security capabilities.In an industrial environment setting, monitoring of sensors provides a window into system and operational efficiencies. Specifically, monitoring key parameters such as temperature, vibration, currents and voltage provide the operator with insights into whether operations are normal, within normal failure mode, or whether there is indication of a cybersecurity / security breach.Security Claims Evaluation provides a platform for users to evaluate whether data from the sensors under test is indicative of normal operation or abnormal operation in a non-invasive and non-intrusive manner. Furthermore, using machine learning in combination with real-time analytics capabilities, the sensor operation can be monitored and analyzed 24/7. Logging of abnormal events can be performed for further assessment and future remediation actions. Through running a pre-defined security test suite that encompasses pen testing, known vulnerabilities and other testing methodologies, testbed users’ security claims can be evaluated at a single or multiple connection points – encompassing an endpoint to gateway to cloud assessment. A report based on the test results can be provided to users describing potential security weaknesses and proposed recommendations and remediation methods.
Industrial Edge Computing
Industrial Edge Computing
Edge (fog) computing shifts computing applications, data, and services away from centralized servers to the extremes of a network. This enables analytics and knowledge generation to occur at the source of the data. Industrial IoT companies face challenges turning machine data into business intelligence. Existing cloud-based technologies do not solve problems of data analytics, software deployment, or updates and security for remote devices. Edge or fog computing solves the problem of accessing large amounts of machine-generated data by processing data at the edge of the network and converting it into actionable, useful business information. In an Intelligent Industrial Fog, software can be deployed at various points in the network to not only automate monitoring and control, but also to apply embedded intelligent agents that can adjust device behaviors in relation to ongoing performance variables, reduce running costs by reducing power consumption during off-cycles, or even detect imminent failures and notify technicians to perform preventative maintenance. Companies use edge computing technologies to analyze the data locally, sending only most important data to a centralised cloud. This reduces data transmission and storage costs while also allowing real-time analysis and action. Edge computing also allows remote software deployment and secure M2M communication. Edge computing leverages resources that are not continuously connected to a network, such as laptops, smartphones, tablets and sensors. It covers a wide range of technologies, from wireless sensor networks and mobile data acquisition to cooperative distributed peer-to-peer ad hoc networking and processing. Import IoT applications include remote cloud services, distributed data storage and retrieval, and self-healing networks.
Number of Terms24
Sensor
Sensor
A device used to measure a specific characteristic of the surrounding environment, such as temperature.
Smart Sensors (bio-chemical)
Smart Sensors (bio-chemical)
Intelligent sensor takes some predefined action when it senses the appropriate input (light, heat, sound, motion, touch, etc.).
EnOcean
EnOcean
An IoT protocol focused on Wireless Standard for Connected Devices.
82 Case Studies
144 Suppliers
1 Event
2 Organizations
14 Use Cases
24 Terms
6 Guides
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