Artificial Intelligence – Politecnico di Milano

NEUROCLIMA: raising awareness on climate resilience strategies

Posted on 06/02/202409/02/2024 by admin

NEUROCLIMA, a project coordinated by Professor Francesca Rizzo of the Department of Design at Politecnico di Milano, has kicked off; it is granted by the CINEA – European Climate, Infrastructure and Environment Executive Agency within the Horizon Europe framework programme.

NEUROCLIMA aims to promote and support systemic transformations by involving and raising awareness among citizens regarding climate resilience strategies. The project envisions the creation of a nervous system that connects policymakers, public institutions, and citizens through an innovative mixed decision support system that combines artificial intelligence and human capabilities.

By conducting in-depth research to identify needs, challenges, expectations, and trends that may influence EU societies, and a continuous dialogue among stakeholders, the goal is to develop concrete proposals to facilitate the green transition and enhance trust in institutions.

Improving sustainability and safety of critical infrastructures with AI

Posted on 14/12/202316/01/2024 by admin

Using Artificial Intelligence (AI) to support decision-making, and increasing efficiency and safety in the operation of critical infrastructures. This is the aim of the European project AI4REALNET – AI for REAL-World network operation, funded by the European Union with almost 4 million euros, through the Horizon Europe programme, and by the State Secretariat for Education, Research and Innovation (SERI) of Switzerland with 2 million euros.

The project, led by the Portuguese research institute INESC TEC, involves the Department of Electronics, Information and Bioengineering, and the Department of Management, Economics and Industrial Engineering of the Politecnico di Milano, and partners from France, Germany, Netherlands, Swizterland, Sweden and Austria, and promotes the collaboration between Artificial Intelligence and humans. The aim is to ensure that AI emerges as a way to support faster decisions made by human operators, creating conditions for the decarbonisation of the energy and transport sectors.

The project aims at improving the safety and resilience of critical infrastructures, which are becoming more challenging, not only due to the increase in the volume of information, but also due to the changes imposed by decarbonisation. The AI4REALNET consortium
Prof. Marcello Restelli, project coordinator for the Politecnico di Milano

With the involvement of industry, the project will promote awareness of the benefits of reinforcement learning and explainable machine learning. The project will also resort to current open-source AI-friendly digital environments, e.g., Grid2Op, Flatland, and BlueSky to foster and advance a global AI community.

ACRE, agricultural robots to contribute to the sustainability of the sector

Posted on 26/06/202314/07/2023 by admin

Politecnico di Milano took part in the second edition of ACRE (Agri-food Competition for Robot Evaluation), a competition dedicated to agricultural robots, which took place in Cornaredo (MI) at the ‘Cascina Baciocca’ experimental farm of the University of Milan.

This edition of ACRE was dedicated to robots designed for the weeding of open-field crops, an area in which exploiting this type of machine, even in a low-cost version, could bring great environmental, social and economic benefits by providing an alternative to the use of chemicals.

The competition involved robots built both by start-ups connected in various ways to academia and developing advanced robotic solutions and by companies already offering engineered products on the market. The performances were evaluated according to strict scientific criteria predefined by the organisers with the aim to measure the performance of all participants in an objective and repeatable manner.

ACRE’s main goal is to bring the world of agricultural machinery industry closer to the world of expert researchers in the field of robotics and artificial intelligence, in order to also create solid partnerships that in the near future will allow bridging the existing agricultural robotics gap between the European industry and that of the United States – and similarly between the Italian industry and that of various European realities such as the Netherlands and France.

ACRE is funded by the European Commission as part of the Horizon 2020 ‘METRICS’ project, with the primary aim of increasing the spread of robots and artificial intelligence techniques in agriculture. The competition is organised on the Italian side by AIRlab, the Artificial Intelligence and Robotics laboratory of Politecnico di Milano, and by the Department of Agricultural and Environmental Sciences of the University of Milan, with the collaboration of FederUnacoma and Informatore Agrario.

Satellites and artificial intelligence to study fine dust

Posted on 31/01/202203/03/2022 by admin

Climate and extensive anthropisation of the area make the Po Valley one of Europe’s most polluted regions, despite emissions being actually comparable to those of other industrialised districts. Particulate matter, or fine dust, heads the list of the most critical polluting agents.

Long-term exposure to high concentrations of particulate matter increases the incidence of both cardiovascular and respiratory diseases. Industries, traffic and domestic heating are some of the leading sources of fine dust emissions. However, even intensive livestock breeding and agricultural activities can contribute to the dissemination of this harmful pollutant. To date, few studies have been conducted on the topic.

The D-DUST project (Data-driven moDelling of particUlate with Satellite Technology aid) aims to bridge this gap by providing important data to investigate the impact of emissions from agricultural and livestock activities on our health. D-DUST, funded by Fondazione Cariplo’s ‘Data Science for Science and Society’ call for proposals, counts on Politecnico di Milano, Department of Civil and Environmental Engineering (DICA) as lead partner, in partnership with Fondazione Politecnico di Milano, the Department of Electronics, Information and Bioengineering (DEIB) and Università degli Studi dell’Insubria (DiSAT) as scientific partners.

Maria Antonia Brovelli, our Geographical Information Systems professor who is coordinating the project, explained that

the D-DUST project will test new analytical and predictive procedures for the generation and diffusion mechanisms of particulate matter from the agricultural sector. These procedures are solely based on the vast wealth of environmental data and observations now available as open data, with particular focus on the potential contribution of new satellite missions designed to monitor air quality.

The study will also make use of the Sentinel satellite platforms of the European Copernicus programme, including the Sentinel 5P satellite, which provides open data measurements of the main atmospheric pollutants on a global scale, together with the study of spatial predictive models based on machine learning techniques. Models will be developed taking into account data from the fixed ground-based monitoring stations of the ARPA Lombardy network, and data from the detection and chemical characterisation campaigns of particulate matter combined with data on the incidence of cardiovascular and respiratory diseases. Professor Brovelli further emphasises that

the research aims to increase local knowledge of particulate matter even in areas not covered by ground-based measurement stations, in order to provide estimates and forecasts that could be replicated and used to monitor and analyse population exposure to this pollutant.

In parallel to the research described above, educational activities will be organised, mainly involving students from agricultural senior high schools through awareness-building workshops and direct participation in monitoring campaigns. The project will also involve non-profit organisations and foundations actively participating in research, education and dissemination projects on environmental issues.

Violinmaking meets artificial intelligence

Posted on 13/08/202111/10/2021 by admin

It is possible, thanks to Artificial Intelligence, to predict the sound produced by a tonewood block once carved into the shape of a violin plate and to understand what is the best shape for the best sound: this is the conclusion that researchers of the Musical Acoustics Lab of Politecnico di Milano, located in the premises of the Museo del Violino di Cremona.

In the article “A Data-Driven Approach to Violinmaking”, published on Nature Scientific Reports, the Chilean physicist and luthier Sebastian Gonzalez (post-doc researcher) and the professional mandolin player Davide Salvi (PhD student) show how a simple and effective neural network is able to predict the vibrational behavior of violin plates. This prediction is obtained from a limited set of geometric and mechanical parameters of the plate.

The first step was to develop a model that describes the violin’s outline as the conjunction of arcs of nine circles. Thanks to this representation and an efficient model of the curvature of the plate, based on the renowned “Messiah” violin by Stradivarius, researchers were able to draw a violin plate as a function of 35 parameters.

By randomly changing such parameters, such as radii and center position of the circles, arching, thickness, mechanical characteristics of the wood, etc., they built a dataset of violins, which includes shapes that are very similar to those used in violin making, but also designs that had never been seen before. Such shapes constituted the input for the neural network.

Advanced tools for the modeling of vibrations were used for characterizing the acoustic behavior of each violin in the dataset.

Finally, it was possible to verify that the neural network is able to predict the acoustic behavior of a violin plate, starting from its parameters: the answer turned out to be positive, with an accuracy that came close to 98%.

This work offers an innovative and promising tool in the hands of violin makers: by using a neural network, it will enable luthiers to predict how a tonewood block will “sound” once carved into a plate. But it can also be used to design two violins with matching acoustic behavior even if built with different wood. In the future this research will allow us to select the best wood to be used for a particular violin, something that today is still based on purely aesthetic considerations.

The project was financed by Distretto Culturale della Liuteria di Cremona (Cultural District of Liuteria di Cremona).

A bridge between artificial intelligence and optics

Posted on 07/06/202111/10/2021 by admin

With a study published in the prestigious journal Optica, researchers in the Physics Department at the Politecnico di Milano have built a connection between two fields: artificial intelligence, which has been increasingly studied in recent years, and non-linear optics.

The research, conducted by Carlo Michele Valensise, Giulio Cerullo, and Dario Polli, together with Alessandro Giuseppi from Sapienza Università di Roma, began about a year ago during the first lockdown. It is based on the study of Deep Reinforcement Learning (DRL), that is, the branch of artificial intelligence related to programming agents that can learn to control automated systems. In other words, a DRL agent “learns” thanks to the independent interaction with the system in front of it.

Laboratory experiments then confirmed that the application of DRL to non-linear optics allows for simplification of some processes and, more generally, to speed up experimentation. One possible application, for example, is found in the generation of white light, one of the most common phenomena in this field of research.

Building a European Fintech risk management platform

Posted on 04/06/202111/10/2021 by admin

Tag: Financial Technology, Risk management, Artificial Intelligence, Blockchain
Researcher: Emilio Barucci
Department: DMAT – Department of Mathematics

Financial Technology (Fin Tech) is financial innovation made possible by innovative technology.

Different countries in Europe have different regulatory landscapes: thus, the European Fin Tech sector has the potential of being more competitive through the establishment of a common regulatory field across all Europe.

The FIN-TECH project (A FINancial supervision and TECHnology compliance training programme), funded under EU’s Horizon2020 scheme, involves 24 universities as well as financial institutions and stakeholders from all 28 state members plus Switzerland. Politecnico di Milano will be a partner of FIN-TECH through the contribution of the Department of Mathematics.

The project has the goal of building a common fintech risk management platform. The platform aims at automatize the compliance of Fin-Tech companies (RegTech) as well as at increasing the efficiency of supervisory activities (SupTech). The exchange of information on risk models and management for fintech companies will lay the foundation of the common platform. The research will have three main sources in gathering information: fintech companies and hubs, regulatory institutes, and universities and research centers. Research on risk models will be also carried out through Big Data analytics, AI and Blockchain technologies.

The diffusion of the findings will also be a core activity of the project, aiming at achieving uniformity across Europe: this will be carried out through training and coding session as well as through the establishment of a dedicated website.

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Cover Photo by Danielle Rice on Unsplash