Teollinen internet uuden liiketoiminnan katalysaattorina

TIIVISTELMÄ Lappeenrannan teknillinen yliopisto Teknistaloudellinen tiedekunta Tuotantotalouden koulutusohjelma Seppo Kuittinen Teollinen Internet uuden liiketoiminnan katalysaattorina Case CGI Diplomityö 2015 78 sivua, 33 kuvaa, 1 taulukko, 1 liite Työn tarkastajat: Professori Timo Pihkala Tutkijatohtori Marita Rautiainen Hakusanat: teollinen internet, IoT, kehittynyt analytiikka, sensorit Keywords: Industrial internet, IoT, advanced analytics, sencors Tämän työn tarkoituksena on tutkia asiakaskyselyn avulla luoko teollinen internet case yritykselle uutta ohjelmisto- tai palveluliiketoimintaa. Case yritys valitsi omasta asiakaskunnastaan 15 kohdeasiakasta, joille kysely lähetettiin. Vastauksista käy ilmi, että asiakaskunnassa on näkemys siitä, mitä teollinen internet on. Nykyisten ratkaisujen ei nähdä ratkaisevan kaikkia teollisen internetin mukanaan tuomia ongelmia. Ongelmaksi koetaan sensoridatan analysointi, jonka ei vielä katsota olevan riittävän kehittynyttä ja luotettavaa. Kyselystä voidaan päätellä, ettei mitään räjähtävää kasvua ole odotettavissa lähiaikoina. Teollinen internet tulee olemaan osa yritysten liiketoimintaa, mutta sen käyttö laajenee pikkuhiljaa.

Embedded Service Bus for Internet of Things Interoperability

Internet of Things (IoT) technologies are developing rapidly, and therefore there exist several standards of interconnection protocols and platforms. The existence of heterogeneous protocols and platforms has become a critical challenge for IoT system developers. To mitigate this challenge, few alliances and organizations have taken the initiative to build a framework that helps to integrate application silos. Some of these frameworks focus only on a specific domain like home automation. However, the resource constraints in the large proportion of connected devices make it difficult to build an interoperable system using such frameworks. Therefore, a general purpose, lightweight interoperability framework that can be used for a range of devices is required. To tackle the heterogeneous nature, this work introduces an embedded, distributed and lightweight service bus, Lightweight IoT Service bus Architecture (LISA), which fits inside the network stack of a small real-time operating system for constrained nodes. LISA provides a uniform application programming interface for an IoT system on a range of devices with variable resource constraints. It hides platform and protocol variations underneath it, thus facilitating interoperability in IoT implementations. LISA is inspired by the Network on Terminal Architecture, a service centric open architecture by Nokia Research Center. Unlike many other interoperability frameworks, LISA is designed specifically for resource constrained nodes and it provides essential features of a service bus for easy service oriented architecture implementation. The presented architecture utilizes an intermediate computing layer, a Fog layer, between the small nodes and the cloud, thereby facilitating the federation of constrained nodes into subnetworks. As a result of a modular and distributed design, the part of LISA running in the Fog layer handles the heavy lifting to assist the lightweight portion of LISA inside the resource constrained nodes. Furthermore, LISA introduces a new networking paradigm, Node Centric Networking, to route messages across protocol boundaries to facilitate interoperability. This thesis presents a concept implementation of the architecture and creates a foundation for future extension towards a comprehensive interoperability framework for IoT.