The many possibilities of the digital revolution
The digital revolution brings with it many service and business opportunities. In autumn 2016, Aalto University will organise the Internet Forum a series of public lectures that will focus on 'Services, Information and Network Technology in the digital transition ". The eight lectures in total will focus on the possibilities presented by digitalisation from various perspectives.
'The development of digitalisation is one of Aalto University's key areas in research and teaching. The public lecture series presents a good opportunity for experts in academics and industry to discuss topical issues,' Aalto University Professor of Practice Jarno Limnéll explains.
Each lecture can also be viewed either via a live stream or at a later time online.
The first lecture will be held on 20 September at 17.15 in Otaniemi. Please, see the programme for the entire lecture series on the .
The program will be specified and added to during the early autumn. Participation does not require signing up in advance.
We hope to see you there!
Further information:
Professor of Practice Jarno Limnéll
+358 40 527 6173
jarno.limnell@aalto.fi
Aalto University
Twitter: @JarnoLim
Photo: Aki-Pekka Sinikoski
Read more news
The exhibition "Our land, for all" explores personal and national identity
The 20th anniversary exhibition of the Association of Finnish Fine Arts Foundations, opened at Kunsthalle Helsinki, asks: whose stories is Finland built from? The exhibition has been curated by PhD, docent Annamari Vänskä.
Decoding the chemistry of space with machine learning
Astronomers can detect complex chemical fingerprints in stardust – but many of them remain unidentified. The SpaceML project combines machine learning and computational chemistry to simulate how molecules form and evolve in space, helping researchers decode these signals.
Catalysis in a new light: Microscale interactions could enhance clean energy technologies
A new study provides a more detailed view of how catalysts function during chemical reactions. The discovery could help develop more efficient materials for applications such as green hydrogen production and a more sustainable chemical industry.