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.

Specification of a smart meter/actuator description mechanism & development of a mobile application

Home Automation holds the potential of realizing cost savings for end users while reducing the carbon footprint of domestic energy consumption. Yet, adoption is still very low. High cost of vendor-supplied home automation systems is a major prohibiting factor. Open source systems such as FHEM, Domoticz, OpenHAB etc. are a cheaper alternative and can drive the adoption of home automation. Moreover, they have the advantage of not being limited to a single vendor or communication technology which gives end users flexibility in the choice of devices to include in their installation. However, interaction with devices having diverse communication technologies can be inconvenient for users thus limiting the utility they derive from it. For application developers, creating applications which interact with the several technologies in the home automation systems is not a consistent process. Hence, there is the need for a common description mechanism that makes interaction smooth for end users and which enables application developers to make home automation applications in a consistent and uniform way. This thesis proposes such a description mechanism within the context of an open source home automation system – FHEM, together with a system concept for its application. A mobile application was developed as a proof of concept of the proposed description mechanism and the results of the implementation are reflected upon.

Analyzing and Computing the Sustainability Gains of Building Automation

Smart home implementation in residential buildings promises to optimize energy usage and save significant amount of energy simply due to a better understanding of user's energy usage profile. Apart from the energy optimisation prospects of this technology, it also aims to guarantee occupants significant amount of comfort and remote control over home appliances both at home locations and at remote places. However, smart home investment just like any other kind of investment requires an adequate measurement and justification of the economic gains it could proffer before its realization. These economic gains could differ for different occupants due to their inherent behaviours and tendencies. Thus it is pertinent to investigate the various behaviours and tendencies of occupants in different domain of interests and to measure the value of the energy savings accrued by smart home implementations in these domains of interest in order to justify such economic gains. This thesis investigates two domains of interests (the rented apartment and owned apartment) for primarily two behavioural tendencies (Finland and Germany) obtained from observation and corroborated by conducted interviews to measure the payback time and Return on Investment (ROI) of their smart home implementations. Also, similar measures are obtained for identified Australian use case. The research finding reveals that building automation for the Finnish behavioural tendencies seems to proffers a better ROI and payback time for smart home implementations.

Proximity Based Authentication in IoT

IoT consists of essentially thousands of tiny sensor nodes interconnected to the internet, each one of which executes the programmed functions under memory and power limita- tions. The sensor nodes are distributed mainly for gathering data in various situations. IoT envisions the future technologies such as e-health, smart city, auto-mobiles automa- tion, construction sites automation, and smart home. Secure communication of data under memory and energy constraints is major challenge in IoT. Authentication is the first and important phase of secure communication. This study presents a protocol to authenticate resource constraint devices in physical proximity by solely using the shared wireless communication interfaces. This model of authentication only relies on the abundance of ambient radio signals to authenticate in less than a second. To evaluate the designed protocol, SkyMotes are emulated in a network environment simulated by Contiki/COOJA. Results presented during this study proves that this approach is immune against passive and active attacks. An adversary located as near as two meters can be identified in less than a second with minimal expense of energy. Since, only radio device is used as required hardware for the authentication, this technique is scalable and interoperable to heterogeneous nature of IoT.

Architecture for IoT Node and Platform

Only recently, during the past five years, consumer electronics has been evolving rapidly. Many products have started to include “smart home” capabilities, enabling communication and interoperability of various smart devices. Even more devices and sensors can be remote controlled and monitored through cloud services. While the smart home systems have become very affordable to average consumer compared to the early solutions decades ago, there are still many issues and things that need to be fixed or improved upon: energy efficiency, connectivity with other devices and applications, security and privacy concerns, reliability, and response time. This paper focuses on designing Internet of Things (IoT) node and platform architectures that take these issues into account, notes other currently used solutions, and selects technologies in order to provide better solution. The node architecture aims for energy efficiency and modularity, while the platform architecture goals are in scalability, portability, maintainability, performance, and modularity. Moreover, the platform architecture attempts to improve user experience by providing higher reliability and lower response time compared to the alternative platforms. The architectures were developed iteratively using a development process involving research, planning, design, implementation, testing, and analysis. Additionally, they were documented using Kruchten’s 4+1 view model, which is used to describe the use cases and different views of the architectures. The node architecture consisted of energy efficient hardware, FC3180 microprocessor and CC2520 RF transceiver, modular operating system, Contiki, and a communication protocol, AllJoyn, used for providing better interoperability with other IoT devices and applications. The platform architecture provided reliable low response time control, monitoring, and initial setup capabilities by utilizing web technologies on various devices such as smart phones, tablets, and computers. Furthermore, an optional cloud service was provided in order to control devices and monitor sensors remotely by utilizing scalable high performance technologies in the backend enabling low response time and high reliability.

Smart homes as service platforms. Research report of ÄLYKOP sub-project “Competitive advantage from customer value”

In this report, we summarize results of our part of the ÄLYKOP-project on customer value creation in the intersection of the health care, ICT, forest and energy industries. The research directs to describe how industry transformation and convergence create new possibilities, business opportunities and even new industries.The report consists of findings which are presented former in academic publications. The publication discusses on customer value, service provision and resource basis of the novel concepts through multiple theorethical frameworks. The report is divided into three maim sections which are theoretical background, discussion on health care industry and evaluations regarding novel smart home concepts. Transaction cost economics and Resource- Based view on the firm provides the theoretical basis to analyze the prescribed phenomena. The health care industry analysis describes the most important changes in the demand conditions of health care services, and explores the features that are likely to open new business opportunities for a solution provider. The third part of the report on the smart home business provides illustrations few potential concepts that can be considered to provide solutions to economical problems which arise from aging of population. The results provide several recommendations for the smart home platform developers in public and private sectors. By the analysis, public organizations dominate service provision and private markets are emergent state at present. We argue that public-private partnerships are nececssary for creating key suppliers. Indeed, paying attion on appropriate regulation, service specifications and technology standards would foster diffusion of new services. The dynamics of the service provision networks is driven by need for new capabiltities which are required for adapting business concepts to new competitive situation. Finally, the smart home framework revealed links between conventionally distant business areas such as health care and energy distribution. The platform integrates functionalities different for purposes which however apply same resource basis.

Front end development for building automation systems using JavaScript Frameworks

Automation technologies are widely acclaimed to have the potential to significantly reduce energy consumption and energy-related costs in buildings. However, despite the abundance of commercially available technologies, automation in domestic environments keep on meeting commercial failures. The main reason for this is the development process that is used to build the automation applications, which tend to focus more on technical aspects rather than on the needs and limitations of the users. An instance of this problem is the complex and poorly designed home automation front-ends that deter customers from investing in a home automation product. On the other hand, developing a usable and interactive interface is a complicated task for developers due to the multidisciplinary challenges that need to be identified and solved. In this context, the current research work investigates the different design problems associated with developing a home automation interface as well as the existing design solutions that are applied to these problems. The Qualitative Data Analysis approach was used for collecting data from research papers and the open coding process was used to cluster the findings. From the analysis of the data collected, requirements for designing the interface were derived. A home energy management functionality for a Web-based home automation front-end was developed as a proof-of-concept and a user evaluation was used to assess the usability of the interface. The results of the evaluation showed that this holistic approach to designing interfaces improved its usability which increases the chances of its commercial success.

Applicability of Power-Line Communications to Data Transfer of On-line Condition Monitoring of Electrical Drives

The research of power-line communications has been concentrated on home automation, broadband indoor communications and broadband data transfer in a low voltage distribution network between home andtransformer station. There has not been carried out much research work that is focused on the high frequency characteristics of industrial low voltage distribution networks. The industrial low voltage distribution network may be utilised as a communication channel to data transfer required by the on-line condition monitoring of electric motors. The advantage of using power-line data transfer is that it does not require the installing of new cables. In the first part of this work, the characteristics of industrial low voltage distribution network components and the pilot distribution network are measured and modelled with respect topower-line communications frequencies up to 30 MHz. The distributed inductances, capacitances and attenuation of MCMK type low voltage power cables are measured in the frequency band 100 kHz - 30 MHz and an attenuation formula for the cables is formed based on the measurements. The input impedances of electric motors (15-250 kW) are measured using several signal couplings and measurement based input impedance model for electric motor with a slotted stator is formed. The model is designed for the frequency band 10 kHz - 30 MHz. Next, the effect of DC (direct current) voltage link inverter on power line data transfer is briefly analysed. Finally, a pilot distribution network is formed and signal attenuation in communication channels in the pilot environment is measured. The results are compared with the simulations that are carried out utilising the developed models and measured parameters for cables and motors. In the second part of this work, a narrowband power-line data transfer system is developed for the data transfer ofon-line condition monitoring of electric motors. It is developed using standardintegrated circuits. The system is tested in the pilot environment and the applicability of the system for the data transfer required by the on-line condition monitoring of electric motors is analysed.

Partneriverkostoon perustuvan liiketoimintakonseptin kehittäminen ja kuvaaminen

Diplomityön tavoitteena on selvittää yritysten välistä verkostoitumista ja kehittää menetelmä, jolla voidaan kuvata yritysverkostoon perustuvaa liiketoimintaa. Menetelmää sovelletaan tutkimuskohteena olevaan älykotiliiketoimintaan, siten että muodostetaan liiketoimintaa kuvaava toimintotason arvoverkko. Tutkimus on laadullinen tapaustutkimus. Yritysten välisen verkostoitumisen voidaan todeta yleistyneen nopeasti kaikilla aloilla. Verkosto voi muodostua esimerkiksi jonkin vahvan toimijan ympärille, jolloin verkosto toimii keskusyrityksen intressien mukaisesti. Verkostoyritykset voivat olla myös kilpailijoita keskenään. Yritys voi toimia samanaikaisesti useassa eri verkostossa. Yritysverkoston suunnitteluun tarkoitettu arvoverkon muodostusprosessi perustuu arvoverkkotutkimukseen. Muodostusprosessissa määritetään asiakasryhmät, joille tuotteita/palveluja halutaan tarjota. Jos yrityksen omat resurssit eivät riitä toimintojen toteuttamiseen, ne hankitaan ulkopuolelta. Tämän jälkeen kartoitetaan ulkoiset toimijat, jotka toteuttavat kyseistä toimintoa. Kartoitusten perusteella muodostetaan toimintotason arvoverkko liiketoimintakonseptin hahmottamiseksi. Tutkituista toimijoista valitaan omaa osaamista parhaiten täydentävät partnereiksi. Vastaavalla tavalla voidaan myös etsiä kokonaan uusia liiketoimintakokonaisuuksia.

Suomen väliyhteisölainsäädäntö ja sen asettamat vaa-timukset suomalaisille yrityksille: ulkomaiset väliyh-teisöt osana kansainvälisen konsernin verosuunnittelua

Tämän tutkielman tavoitteena on esitellä Suomen väliyhteisölainsäädäntö sekä tutkia, miten kansainväliset konsernit ja niihin kuuluvat suomalaiset yhteisöt voivat hyödyntää ulkomaisia väliyhteisöjä toimintansa verosuunnittelussa. Väliyhteisöjen käytön mahdollisuuksia pohditaan ottaen huomioon väliyhteisölain sille asettamat reunaehdot. Tutkielmassa käytetään sekä oikeusdogmaattista että analyyttista tutkimusotetta. Suomen väliyhteisölainsäädäntö jättää kansainvälisesti toimiville yrityksille muu-tamia mahdollisuuksia hyödyntää alhaisen verotuksen maahan perustettuja väliyhteisöjä. Huomioon on kuitenkin otettava väliyhteisölain ohella monia muitakin tekijöitä, kuten konserniyhtiöiden asuinvaltioiden sisäinen lainsäädäntö, verosopimusverkosto sekä EU:n välitöntä verotusta koskevat direktiivit. Yleissääntönä voidaankin sanoa, että väliyhteisöjärjestelyn kautta mahdollisesti saavutettavia etuja on aina arvioitava tapauskohtaisesti.

Vanhusten hyvä kotona asuminen: tutkimusta kuntatuottavuudesta, älykodeista ja apuvälinepalveluprosesseista

The purpose of the research was to investigate operational processes related to home care of the elderly as well as use of assistive devices in smart home environments, and operational processes that are generally related to use of assistive devices – from the point of view of productivity improvement. The themes were looked into from the points of view of both the elderly and care personnel. In addition, perspectives of near relatives of the elderly, of the larger service system as well as of companies that provided assistive devices to the smart homes were taken into consideration. In the study of home care processes, 32 customer interviews and 17 employee interviews were carried out. This report contains a summary that is based on a separate report of the home care study. The study of home care was conducted in 2006. The use of technological and mechanical assistive devices and the related operational processes were investigated with the help of the smart home pilot in 2007–2008. The study is described in this report. The smart home pilot was implemented in four different housing service units for elderly people at Lahti, Nastola and Hollola. They were in use during short-term housing periods related to, for instance, end of hospitalisation, holidays of caring relatives and assessment of living and housing conditions. More than 60 different assistive devices and technologies were brought to the smart homes. During the pilot period, experiences of customers and personnel as well as processes related to the use of assistive devices were investigated. The research material consisted of 20 survey questionnaires of personnel and customers, four interviews with customers, five interviews with personnel, feedback survey responses from 14 companies, and other data that were collected, for instance, in orientation events. The research results highlighted the need for tailored services based on an elderly person’s needs and wishes, while taking advantage of innovative and technological solutions. As in the earlier home care study, also assistive device-related operational processes were looked into with the help of concepts of ‘resource focus’, ‘lost motion’ and ‘intermediate landing’. The following were identified as central operational processes in assistive device-related services (regardless of the service provider): (1) acquisition process of technologies and assistive devices as well as of rearrangement and rebuilding works in the home, (2) introduction and orientation process (of the elderly, their relatives and care personnel), (3) information and communication process, and (4) service and monitoring process. In addition, the research focused on design and desirability of assistive devices as well as their costs, such as opportunity costs. The process-based points of view gave new knowledge that may be used in the future to develop service processes and clarify their ownership so that separately managed cross-functional processes could be built with participants from different sectors to operate alongside organisations of elderly care. Development of functionality of assistive device-related services is a societally significant issue.

Tulevaisuuden älykotiliiketoiminnan toimitusverkoston kartoitus

Tutkimus kartoitetaan tulevaisuuden älykotiliiketoiminnan palvelutuottaja-verkostoa. Lisäksi delphi-prosessia seuraten, pyritään kyselyn kautta vali-doimaan tulevaisuudesta tehty skenaario. Kysely tehtiin 42 yrityksen stra-tegiasta vastaavalle johtajalle. Selvitettäviä asioita olivat skenaarion liike-toiminnallinen kiinnostavuus, toteutumiskelpoisuus ja yrityksen siinä ha-luama rooli. Lisäksi selvitettiin mm. yritysten yhteistyökyvykkyyttä, innova-tiivisuutta, asiakassuuntautuneisuutta ja teknologinen valmiutta. Pääpaino oli selvittää verkoston muodostaja eli johtaja yritys. Kysely validoi kaikkien vastanneiden osalta tulevan skenaarion. Tulosten perusteella pystyttiin erottamaan 12 potentiaalista johtajaa. Nämä erottui-vat kyselyn kaikilla osa-alueilla parempina kuin muut yritykset. Potentiaali-set johtajat näkivät tulevaisuuden optimistisempana kuin muut ja lisäksi ne harjoittavat jo nyt liiketoimintaa, joka on lähellä kuvattua älykotipalveluver-kostoa. Tuloksia voidaan hyödyntää muodostettaessa palveluverkostoa uusille markkinoille. Kuvatun mallin toteutuminen vaatii kuitenkin julkisen sektorin palvelutoiminnan uudistusta, sillä se sisältää useita rinnakkaisia prosesseja julkisen terveydenhuollon kanssa.

Customer Driven Service Development – Technology-based Care and Services for the Elderly

The objective of this master’s thesis was to examine technology-based smart home devices and services. Topic was approached through basic theories, transaction cost theory and resource-based view in order to build basis for this thesis. Conceptual framework was discussed by means of networks, value networks and service systems which provide a useful framework for service development. The needs of the elderly living at home were discussed in order to find out which technology-based services could be used to satisfy the needs. Segmentation and need data collected previously during proactive home visits was exploited and additionally a survey targeted to experts and professionals of social and health care sector was done to verify the needs. Finally, the results of the survey were analyzed using quality function deployment method to figure out the most important and suitable service offerings for the elderly. As a conclusion of analysis, social media and monitoring services are the most useful technology-based services. However, traditional home services will still maintain their necessity too.

Virtuaalinen käyttöönottoympäristö automaatiojärjestelmälle

Valmistavan teollisuuden kiristyvät vaatimukset suunnittelusta markkinoille -ajassa (engl. time-to-market), laadussa, kustannustehokkuudessa ja turvallisuudessa luovat paineita uusien toimintatapojen etsimisessä. Usein laitteiston ohjausalgoritmeja ei ole mahdollista testata todellisen laitteiston kanssa, vaan ainoaksi ennakoivaksi vaihtoehdoksi jää todellisen laitteiston virtuaalinen mallintaminen. Eräs uusista toimintavoista on virtuaalinen käyttöönotto, jossa tuotantolinja tai laitteisto mallinnetaan ja sen käyttäytymistä simuloidaan ohjausalgoritmien parantamista ja todentamista varten. Tämän diplomityön tavoitteena oli toteuttaa virtuaalinen käyttöönottoympäristö, jolla laitteiston 3D-mallinnettua virtuaalista mallia voidaan ohjata reaaliajassa todellisen laitteiston ohjauslaitteistolla. Käyttöönottoympäristön toteuttamisen lopullisena tavoitteena on tutkia, millaisia hyötyjä sillä voidaan saavuttaa Outotec (Finland) Oy:n automaatiojärjestelmien suunnittelussa ja käyttöönotossa kiristyvien vaatimusten täyttämiseksi. Työssä toteutetulla käyttöönottoympäristöllä pystytään simuloimaan 3D-mallinnetun laitteiston osan toimintaa reaaliajassa. Todellisen laitteiston ominaisuuksista määritettyjä vaatimuksia ei kustannussyistä täytetty, sillä ennen sitä haluttiin varmistua valitun alustan ominaisuuksista, toimivuudesta ja soveltuvuudesta. Toteutuksen katsotaan kuitenkin täyttävän pehmeän reaaliaikaisuuden kriteerin noin 40 ms aikatasolla ja 80 ms reaktioajalla. Toteutettu virtuaalinen käyttöönottoympäristö osoittautui toimivaksi ja soveltuvaksi, sekä sen todettiin tuovan potentiaalisia hyötyjä Outotec (Finland) Oy:lle, esimerkiksi kosketusnäyttöjen visualisoinnin parannus, hybridikäyttöönottomahdollisuus sekä automaatio-ohjauksien kehittäminen. Työn perusteella arvioidaan onko Outotec:lla tarvetta jatkaa valitulla alustalla todellisen laitteiston aikavaatimukset täyttävään reaaliaika-toteutukseen, jota työssä esitellään.

Developing smart services by Internet of Things in manufacturing business

Manufacturing companies have passed from selling uniquely tangible products to adopting a service-oriented approach to generate steady and continuous revenue streams. Nowadays, equipment and machine manufacturers possess technologies to track and analyze product-related data for obtaining relevant information from customers’ use towards the product after it is sold. The Internet of Things on Industrial environments will allow manufacturers to leverage lifecycle product traceability for innovating towards an information-driven services approach, commonly referred as “Smart Services”, for achieving improvements in support, maintenance and usage processes. The aim of this study is to conduct a literature review and empirical analysis to present a framework that describes a customer-oriented approach for developing information-driven services leveraged by the Internet of Things in manufacturing companies. The empirical study employed tools for the assessment of customer needs for analyzing the case company in terms of information requirements and digital needs. The literature review supported the empirical analysis with a deep research on product lifecycle traceability and digitalization of product-related services within manufacturing value chains. As well as the role of simulation-based technologies on supporting the “Smart Service” development process. The results obtained from the case company analysis show that the customers mainly demand information that allow them to monitor machine conditions, machine behavior on different geographical conditions, machine-implement interactions, and resource and energy consumption. Put simply, information outputs that allow them to increase machine productivity for maximizing yields, save time and optimize resources in the most sustainable way. Based on customer needs assessment, this study presents a framework to describe the initial phases of a “Smart Service” development process, considering the requirements of Smart Engineering methodologies.