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Elliot RoT® selected for WindEurope 2022

The Wind Europe is an annual event of global impact addressing onshore and offshore wind energy issues, with more than 350 exhibitors from around the world. The event takes place from 5-7 April 2022, in Bilbao, the heart of the global wind industry. It brings together all the world leaders providing the energy of the future.

Two of Elliot RoT's solutions have been selected to be presented at the Wind Europe Congress.

 

A novel technology has been developed for the early detection of faults in industrial equipment by using Artificial Intelligence (AI) techniques under the name of Reliability of Things® (in API and edge computing format). By invoking the API, the level of degradation of any equipment monitored on the IoT platform is evaluated. This universal algorithm models the normal behaviour of the equipment (motors, pumps, electrical consumption, etc.) and subsequently calculates the degradation of any component, detecting faults well in advance, also allowing the identification of the root cause and the evaluation of maintenance actions.

The system generates individual alarms for each monitored component, but the aim of the platform is more ambitious, as it a global knowledge database is generated for obtaining equipment reliability indicators.. When new equipment is connected to the platform, the type of equipment in question is identified (motor, pump, generator, etc.), the manufacturer, the model, whether it is new, repaired or has been in operation for some time (in order to censor or not the statistical data) before being connected to the platform, and a series of other parameters that serve to carry out a correct characterisation of the population.

Elliot RoT, the universal Elliot & Reliability of Things® Platform for predictive maintenance and equipment reliability characterisation.

 

The IoT platform of Elliot_Cloud is the perfect architecture to combine the Reliability of Things® solutions.This is because it allows the integration of PLCs, Edge Computing systems and IoT sensors with Cloud environments, which makes it possible to exploit all the reliability and artificial intelligence techniques for the detection of malfunctions in any industrial equipment.

The platform combines the latest Condition Based Maintenance (CBM) techniques with more classical Reliability Based Maintenance (RCM) techniques. For this purpose, different types of data are used in combination:
(1) operational data
(2) alarms
(3) work orders
(4) the asset history

 

When a user registers an asset on the platform, they have a series of asset registration menus where they can register the manufacturer of the asset, the model and the type of asset among other fields. There is also the option to register a series of assets in bulk.

When an asset is registered on the platform, all its operating variables are immediately recorded. If the user subscribes to the Reliability of Things® service, he has the option of monitoring the condition of each of its components, for which the platform provides two indicators at any given moment:

1 – Malfunction indicatorwhich analyses whether the equipment behaves in accordance with its previous behaviour in a fault-free period.
2 – Probability of failure indicatorwhich estimates the probability of equipment failure based on the failure history of similar equipment. This probability is calculated:
- From customer equipment failure histories.
- From historical data of similar equipment recorded in a global and anonymous database of all customers on the platform.

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Blog Industry 4.0

Agile Methodologies and IoT, Internet of Things

Being agile in making decisions and implementing changes is essential for a company to be a leader in its sector. Decisions must be oriented towards continuous improvement, both in terms of cost reduction or increased efficiency, as well as innovation and the creation of new products to meet new market demand.

Agile methodologies take on a new meaning and dimension when applied to the foundations of IoT. The paradigm of continuous improvement is currently being imposed, the essence of which is that if you want to improve a parameter magnitude you have to measure it first, i.e.: you cannot improve what you cannot measure.

Industry 4.0 is a hyper-connected and sensorised industry where decisions can be made quickly.

What happens when you have many variables, measurements or history of these measurements?

How can we find patterns, deviations, correlations between these parameters?

How to measure quantities of different nature, with different protocols, on different machinery and in different locations?

How to visualise, interpret and analyse business variables with mechanical or social variables?

How do you make important decisions quickly based on what happens in your production?

What if you also want to know what is happening in the market to make that decision?

Nowadays, it is necessary to have mechanisms to help in this process of measurement and correlation. New technologies allow the replication and deployment of cost-effective sensors on a massive scale and the collection of information from different machines, tools and systems.

Today, we have the capacity and the technology to measure a wide range of variables and parameters.

Not only is it possible to measure these quantities, but we can also collect them digitally, process them automatically, translate them into a common language and transmit them securely.

ELLIOT acts as the brain of the system, as an umbrella that collects this data, and is able to correlate and determine the degree of ascendancy that some parameters have over others, as well as storing them and displaying the history in an agile way and analysing them using innovative Big Data, analytics, machine learning and artificial intelligence techniques. Thanks to these techniques, it will be possible to detect characteristics such as the seasonality of events and occurrences and it will also be possible to define alerts that will launch orders to activate mechanisms and action protocols, among others.

ELLIOT. Open Source IOT middleware with high scalability and very fast integration and with the ability to connect to any existing sensor, device, machine or data source for data extraction.

It enables real-time data management with high variability over time and advanced analytics using technologies such as Big Data and AI.

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Blog Industry 4.0 Trends

IoT and SDGs. Smart city platforms

Smart city platforms can serve as a key element for the effective implementation of the measures needed to achieve the objectives.

Digital transformation represents the set of innovations that change the reality of public administration employees and of the cities themselves and their citizens. For this to happen, all the actors in this digital transformation must understand it, and know how to adapt and see these technologies as allied tools and not as hostile elements.

Digital transformation supported by an incremental deployment of Smart City Platforms in the different city verticals can and should become a key element to achieve the goals proposed by the 2030 Urban Agendas, being an ecosystem of solutions and standards that support and substantiate any Strategic Plan developed around the SDGs, from the Vision, Mission, Values, Action Plans, objectives, indicators, etc.

From this perspective, a smart city platform should be aligned from its initial implementation with the 17 Sustainable Development Goals of the 2030 Agenda.

Therefore, a Smart City Platform should provide a technological ecosystem capable of supporting the Urban Agendas 2030, being able to integrate the information generated by the different city initiatives aimed at achieving improvements in any of the SDGs and their associated targets.

This requires clear strategic and operational objectives, with defined and easily automatable metrics and indicators, and appropriate dashboards to provide the knowledge necessary for appropriate, proportionate and, above all, data-driven decision making.

IOT helps in the integration of continuous improvement, the essence of which is that if you want to improve a parameter magnitude you have to measure it first, i.e. you cannot improve what you cannot measure.

The availability of a Smart City platform with the capacity to implement this information generation model transversally across the city on the different service verticals, optimising decision-making thanks to the exploitation of the data collected and analysed by means of state-of-the-art solutions: Artificial Intelligence, Predictive Analytics, Bigdata and Social Bigdata, BI, ML, etc.

ELLIOT. Open Source IOT middleware with high scalability and very fast integration and with the ability to connect to any existing sensor, device, machine or data source for data extraction.

It enables real-time data management with high variability over time and advanced analytics using technologies such as Big Data and AI.

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SPAIN | MEXICO | BRAZIL | UK

SPAIN | MEXICO | BRAZIL | UK