Caj Södergård (ed.); Tomas Mildorf (ed.); Ephrem Habyarimana (ed.); Arne J. Berre (ed.); Jose A. Fernandes (ed.); Zinke-Weh Springer (2021) Pehmeäkantinen kirja
Caj Södergård (ed.); Tomas Mildorf (ed.); Ephrem Habyarimana (ed.); Arne J. Berre (ed.); Jose A. Fernandes (ed.); Zinke-Weh Springer (2021) Kovakantinen kirja
Edward Curry (ed.); Sören Auer (ed.); Arne J. Berre (ed.); Andreas Metzger (ed.); Maria S. Perez (ed.); Sonja (ed. Zillner Springer (2022) Kovakantinen kirja
Edward Curry (ed.); Sören Auer (ed.); Arne J. Berre (ed.); Andreas Metzger (ed.); Maria S. Perez (ed.); Sonja (ed. Zillner Springer (2022) Pehmeäkantinen kirja
The current Internet has undergone an essential transformation: it has changed from a network of networks that enables access to remote machines by a cons- tentprotocolsuite(TCP/IP),toanetworkofcontent,applications,andservices. Thus, it has become a modern commodity for everyone. The Future Internet(FI) is destinedtocontinue this developmentandto p- videimprovedfeaturesandusabilityforindividualsandbusiness.Itsapplications are expected to originate from areas such as entertainment, health, energy grid, utilities and the environment, transport, mobility, and logistics. Tight economic constraints, however, require the Future Internet to consolidate and converge application-speci?c networks and support for the Internet of Services (IoS), the Internet of Things (IoT), and the Internet of Content (IoC) in a homogenous and, if possible, a single system. A simple investigation of network performance requirements of the ant- ipated FI applications reveals a set of contrary needs that have challenged research on network architectures and protocols for decades. Only a few - plications have been successful, e.g., P2P systems, which can adapt easily to heterogeneousenvironments.Similarly, semantic technologyhas providedme- ingful relationships of content, but has failed when it has come to manageability and performance in universal and heterogeneous network systems.