Accelerating the Industrial Internet of Things
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Number of Case Studies37
Bridge monitoring in Hamburg Port
Bridge monitoring in Hamburg Port
Kattwyk Bridge is used for both rail and road transport, and it has played an important role in the Port of Hamburg since 1973. However, the increasing pressure from traffic requires a monitoring solution. The goal of the project is to assess in real-time the bridge's status and dynamic responses to traffic and lift processes.
Worldwide IT Leader Manages Enterprise Energy and Sustainability
Worldwide IT Leader Manages Enterprise Energy and Sustainability
To understand their complex global energy consumption and emissions footprint, Cisco needed a software solution to help them manage disparate energy- and emissions-related data inputs across their enterprise, integrate and analyze their sustainability and energy metrics, embark upon energy and emissions mitigation projects, and report results publicly. Cisco also needed to perform detailed interval analysis of their high energy-usage facilities.
AEMS: Adroit Environmental Monitoring Framework
AEMS: Adroit Environmental Monitoring Framework
Instead of tags, OEM sensor manufacturers and suppliers work with sensors. Different sensor interfaces can readily be included for overall management. OEM sensor manufacturers wanted a single user interface that can interact with different sensors and manufacturers in a beneficial and efficient manner.
Number of Hardware182
FIFO
FIFO
FIFO Mem Async Dual Depth/Width Uni-Dir 2K x 9 28-Pin CDIP
Linear Technology - Termination Ics (LTC1344IG)
Linear Technology - Termination Ics (LTC1344IG)
LTC1344 - Software Selectable Cable Terminator
Data Conversion Misc
Data Conversion Misc
Input/Output Subsystem 12-Pin PDIP Tube
Number of Software187
freeboard
freeboard
Ridiculously simple dashboards for your devices.Build real-time, interactive dashboards and visualizations in minutes using the intuitive drag & drop interface.- Seamless integration with dweet.io, or access any web-based API.- Select from a growing list of included widgets, or add your own.- Design layouts that exactly meet your needs. Change them quickly and easily as requirements change.
Murano
Murano
Murano is a breakthrough cloud-based IoT software platform that enables an end-to-end ecosystem to help customers develop, deploy, and manage connected products.
MIIPS Open IoT Platform
MIIPS Open IoT Platform
MIIPS Open IoT Platform consists of four parts – read more about them below – that can connect to a vehicle, a building, or a system, among other things. Then there is the possibility of adding the functionality you want through various apps – such as camera surveillance, breathalyzer, or onboard Internet. Thanks to the platform’s openness, new apps can be created by us, our customers, or third party developers. This means you can confidentally scale up your investment with more features over time.
Number of Suppliers33
RF Code
RF Code
RF Code provides end-to-end data center asset management, environmental and power monitoring solutions. Its unique combination of powerful software, intelligent infrastructure and internet-connected, wire-free sensors reduces operational costs and protects your data center investments. RF Code solutions deliver continuous location visibility throughout an asset’s entire lifecycle while accurately monitoring temperature, humidity and other environmental factors that can damage assets or lead to costly downtime.
Locus Technologies
Locus Technologies
Founded in 1997 in Silicon Valley, Locus Technologies is a leading provider of enterprise Software-as-a-Service solutions, with a focus on environmental information, health, safety, and sustainability (EHS+S) compliance. We develop comprehensive software for businesses, organizations, and governmental agencies of all sizes and industries worldwide.Locus is known for its environmental information management (EIM) system— our industry-leading software for the entire environmental sampling and analysis workflow. Our Locus Platform software provides fully configurable, next-generation applications and services, helping our clients to better manage their EHS+S operations.At Locus, we believe the key to an organization's environmental stewardship strategy lies in its approach to data management— we design our software with this vision in mind.
Aranet
Aranet
SAF Tehnika has 20 years of experience in manufacturing and designing modern wireless data transmission technologies. Our knowledge in microwave technologies has given us unique skills and know how to develop next-generation Industrial IoT solution for environmental monitoring – Aranet. The company is publicly traded and has been listed on NASDAQ Riga since 2004.
Number of Organizations2
Infrastructure for Spatial Information in the European Community (INSPIRE)
Infrastructure for Spatial Information in the European Community (INSPIRE)
INSPIRE is based on the infrastructures for spatial information established and operated by the 28 Member States of the European Union. The Directive addresses 34 spatial data themes needed for environmental applications, with key components specified through technical implementing rules. This makes INSPIRE a unique example of a legislative “regional” approach.The INSPIRE directive came into force on 15 May 2007 and will be implemented in various stages, with full implementation required by 2019.The INSPIRE directive aims to create a European Union (EU) spatial data infrastructure. This will enable the sharing of environmental spatial information among public sector organisations and better facilitate public access to spatial information across Europe.A European Spatial Data Infrastructure will assist in policy-making across boundaries. Therefore the spatial information considered under the directive is extensive and includes a great variety of topical and technical themes.INSPIRE is based on a number of common principles:- Data should be collected only once and kept where it can be maintained most effectively.- It should be possible to combine seamless spatial information from different sources across Europe and share it with many users and applications.- It should be possible for information collected at one level/scale to be shared with all levels/scales; detailed for thorough investigations, general for strategic purposes.- Geographic information needed for good governance at all levels should be readily and transparently available.- Easy to find what geographic information is available, how it can be used to meet a particular need, and under which conditions it can be acquired and used.
Jinhua Economic and Technological Development Zone
Jinhua Economic and Technological Development Zone
The zone started to build up its network economy in 2001. All along, the district is the city's main force of development of software and information services, e-commerce, cultural and creative modern service industry in the city. Currently the park was assembled by a network of about 300 economic enterprises. Network economy is the high-growth, high-efficiency, high-tech industry. Data showed that during the "Eleventh Five-Year" period, the industry has been continuously developing at an average annual rate of 40%, and has become the fastest growing, most dynamic and most promising high-tech industry.
Number of Use Cases15
Fog Computing
Fog Computing
Fog computing refers to a decentralized computing structure, where resources, including the data and applications, get placed in logical locations between the data source and the cloud; it also is known by the terms ‘fogging’ and ‘fog networking.’The goal of this is to bring basic analytic services to the network edge, improving performance by positioning computing resources closer to where they are needed, thereby reducing the distance that data needs to be transported on the network, improving overall network efficiency and performance. Fog computing can also be deployed for security reasons, as it has the ability to segment bandwidth traffic, and introduce additional firewalls to a network for higher security. 
Water Quality and Leakage Monitoring
Water Quality and Leakage Monitoring
Smart Water Monitoring Platforms are ultra-low-power sensor nodes designed for use in rugged environments and deployment in hard-to-access locations. They detect damages in the water supply infrastructure and potential risks to public health or environmental damage in real-time.Water leaks typically go undetected or are responded to only after the event. Therefore, a significant amount of water is lost due to excessive irrigation (only 70% of water supplied is consumed by agriculture).The demand for innovative solutions to enable more efficient use of available water resources, to improve drinking water quality, and improve water resource planning is growing. Due to this, some analysts estimate the global water sector to be worth 1 trillion USD per year by 2025.IoT enables a precise control over water resources data, thus allowing an efficient and optimized management of water companies. Smart water management systems can make a fast and significant improvement to the cost and reliability of water supplies, especially in urban areas and in agriculture.There are various applications for smart water management such as water leakage detection, watering management through sensors, drinking water quality monitoring, quality control of pools and water reserves, etc. At present, water companies have numerous sensors and devices which are able to provide input for detailed reports about relevant business critical factors – including water temperature, water quality/composition, water pressure, water flow, etc. However, most water companies still lack advanced real-time reporting and prediction capabilities to monitor “changing” factors. As a consequence, there is a focus on real-time data extraction, reporting, visualization.
Precision Farming
Precision Farming
Precision farming enables farmers to increase production (yield), lower their operational costs and economize their applications of chemicals and fertilizers. Precision Conservation Management (PCM) focuses on improving crop yield through the analysis of real-time data from a variety of environmental sensors and other data sources located in commercial crop fields or throughout the enterprise.The five core components or processes of precision farming are: measuring variability, analysing variability, decision-making, differential actions, assessment of results and measuring.
Number of Terms4
Integrity
Integrity
Integrity, in terms of data and network security, is the assurance that information can only be accessed or modified by those authorized to do so.
Vulnerability Assessment
Vulnerability Assessment
Systematic examination of an information system or product to determine the adequacy of security measures, identify security deficiencies, provide data from which to predict the effectiveness of proposed security measures, and confirm the adequacy of such measures after implementation.
Low Power Wireless Sensor Network
Low Power Wireless Sensor Network
A group of spatially distributed, independent devices that collect data by measuring physical or environmental conditions with minimal power consumption.
37 Case Studies
182 Hardware
187 Software
33 Suppliers
2 Organizations
15 Use Cases
4 Terms
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