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Entwicklung eines Social Collaboration Analytics Dashboard-Prototyps für Beiträge von UniConnect
(2018)
Seit der vergangenen Dekade steigt die Nutzung von sogenannten Enterprise Collaboration Systems (ECS) in Unternehmen. Diese versprechen sich mit der Einführung eines solchen zur Gattung der Social Software gehörenden Kollaborationssystems, die menschliche Kommunikation und Kooperation der eigenen Mitarbeiter zu verbessern. Durch die Integration von Funktionen, wie sie aus Social Media bekannt sind, entstehen große Mengen an Daten. Darunter befinden sich zu einem erheblichen Teil textuelle Daten, die beispielsweise mit Funktionen wie Blogs, Foren, Statusaktualisierungen oder Wikis erstellt wurden. Diese in unstrukturierter Form vorliegenden Daten bieten ein großes Potenzial zur Analyse und Auswertung mittels Methoden des Text Mining. Die Forschung belegt dazu jedoch, dass Umsetzungen dieser Art momentan nicht gebräuchlich sind. Aus diesem Grund widmet sich die vorliegende Arbeit diesem Mangel. Ziel ist die Erstellung eines Dashboard-Prototyps, der sich im Rahmen von Social Collaboration Analytics (SCA) mit der Auswertung von textuellen Daten befasst. Analyseziel ist die Identifikation von populären Themen, die innerhalb von Communities oder communityübergreifend von den Plattformnutzern in den von ihnen erstellten Beiträgen aufgegriffen werden. Als Datenquelle wurde das auf IBM Connections aufbauende ECS UniConnect ausgewählt. Dieses wird vom University Competence Center for Collaboration Technologies (UCT) an der Universität Koblenz-Landau betrieben. Grundlegend für die korrekte Funktionsweise des Dashboards sind mehrere Java-Klassen, deren Umsetzungen auf verschiedenen Methoden des Text Mining basieren. Vermittelt werden die Analyseergebnisse im Dashboard durch verschiedene Diagrammarten, Wordclouds und Tabellen.
The Internet of Things (IoT) is a concept in which connected physical objects are integrated into the virtual world to become active partakers of businesses and everyday processes (Uckelmann, Harrison and Michahelles, 2011; Shrouf, Ordieres and Miragliotta, 2014). It is expected to have a major impact on businesses (Council, Nic and Intelligence, 2008), but small and medium enterprises’ business models are threatened if they do not adopt the new concept (Sommer, 2015). Thus, this thesis aims to showcase a sample implementation of connected devices in a small enterprise, demonstrating its added benefits for the business.
Design Science Research (DSR) is used to develop a prototype based on a use case provided by a carpentry. The prototype comprises a hardware sensor and a web application which can be used by the wood shop to improve their processes. The thesis documents the iterative process of developing a prototype from the grounds up to useable hard- and software.
This contribution provides an example of how IoT can be used and implemented at a small business.
Smart Building Solutions - Generischer Ansatz für die Identifikation von Raumsteuerungsfunktionen
(2018)
40 percent of current housing and real estate companies plan to integrate intelligent control systems into their properties during new construction and modernization. At the same time, Internet companies are pushing their devices into homes and apartments, promising intelligent services for their users. The term "Smart Home" is used for both types of new technologies. The first group of systems has its origins in the field of "Building Automation", the second group developed from the concept of the "Internet of Things".
In order to discover what the differences are and what common foundations exist, both the areas of Building Automation and Internet of Things are analyzed and compared.
The central contribution of this thesis is the realization that both domains are based on similar concepts and an integration is possible, without compromising the integrity of the systems themselves. In addition, the work provides an approach to designing Building Automation Systems with the integration of the Internet of Things.
During the last couple of years the extension of the internet into the real world, also referred to as the Internet of Things (IoT), was positively affected by an ongoing digitalization (Mattern and Floerkemeier, 2010; Evans, 2013). Furthermore, one of the most active IoT domains is the personal health ecosystem (Steele and Clarke, 2013). However, this thesis proposes a gamification framework which is supported and enabled by IoT to bring personal health and IoT together in the context of health-insurances. By examining gamification approaches and identifying the role of IoT in such, a conceptual model of a gamification approach was created which indicates where and how IoT is ap-plicable to it. Hence, IoT acts as enabler and furthermore as enhancer of gamified activities. Especial-ly the necessity of wearable devices was highlighted. A stakeholder analysis shed light on respective benefits which concluded in the outcome, that IoT enabled two paradigm shifts for both, the insur-ance and their customer. While taking the results of the examination and the stakeholder analysis as input, the previously made insights were used to develop an IoT supported gamification framework. The framework includes a multi-level structure which is meant to guide through the process of creat-ing an approach but also to analyze already existing approaches. Additionally, the developed frame-work was instantiated based on the application Pokémon Go to identify occurring issues and explain why it failed to retain their customer in the long term. The thesis provides a foundation on which fur-ther context related research can be orientated.
This thesis connects the endeavors of the winemaker’s intention in perfect and profitable wine making with an innovative technological application to use Internet of Things. Thereby the winemaker’s work may be supported and enriched – and enables until recent years still unthinkable optimization of managing and planning of his business, including close state control of different areas of his vineyard, and more than that, not ending up with the single grapevine. It is exemplarily shown in this thesis how to measure, transmit, store and make data available, exemplarily demonstrated with “live” temperature, air and soil humidity values from the vineyard. A modular architecture was designed for the system presented, which allows the use of current sensors, and similar low-voltage sensors, which will be developed in the future.
By using IoT devices in the vineyard, the winemaker advances to a new quality of precision of forecasted data, starting from live data of his vineyard. Of more and more importance, the winemaker can start immediate action, when unforeseen heavy weather conditions occur. Immediate use of current data enabled by a Cloud Infrastructure. For this system, an open service infrastructure is employed. In contrast to other published commercial approaches, the described solution is based on open source.
As an alone-standing part of this work, a physical prototype for measuring relevant parameters in the vineyard was de-novo designed and developed until fulfilling the set of specifications. The outlined features and requirements for a functioning data collection and autonomously transmitting device was developed, described, and the fulfilment by the prototype device were demonstrated. Through literature research and supportive orientationally live interviews of winemakers, the theory and the practical application were synchronized and qualified.
For the development of the prototype the general principles of development of an electronic device were followed, in particular the Design Science Research development rules, and principles of Quality Function Deployment. As a characteristic of the prototype, some principles like re-use of approved construction and material price of the building blocks of the device were taken into consideration as well (e.g. housing; Arduino; PCB). Parts reduction principles, decomplexation and simplified assembly, testing and field service were integrated to the development process by the modular design of the functional vineyard device components, e.g. with partial reference to innovative electrical cabinet construction system Modular-3.
The software architectural concept is based on a three-layer architecture inclusive the TTN infrastructure. The front end is realized as a rich web client, using a WordPress plugin. WordPress was chosen due to the wide adoption through the whole internet, enabling fast and easy user familiarization. Relevant quality issues have been tested and discussed in the view of exemplary functionality, extensibility, requirements fulfilment, as usability and durability of the device and the software.
The prototype was characterized and tested with success in the laboratory and in field exposition under different conditions, in order to allow a measurement and analysis of the fulfilment of all requirements by the selected and realized electronic construction and layout.
The solution presented may serve as a basis for future development and application in this special showcase and within similar technologies. A prognosis of future work and applications concludes this work.
Companies try to utilise Knowledge Management (KM) to gain more efficiency and effectiveness in business. The major problem is that most of these KM projects are not or rarely based on sustainable analyses or established theories about KM. Often there is a big gap between the expectations and the real outcome of such KM initiatives. So the research question to be answered is: What challenges arise in KM projects, which KM requirements can be derived from them and which recommendations support the goal of meeting the requirements for KM? As theoretical foundation a set of KM frameworks is examined. Subsequently KM challenges from literature are analysed and best practices from case studies are used to provide recommendations for action on this challenges. The main outcome of this thesis is a best practice guideline,which allows Chief Knowledge Officers (CKOs) and KM project managers to examine the challenges mentioned in this thesis closely, and to find a suitable method to master these challenge in an optimal way. This guideline shows that KM can be positively and negatively influenced in a variety of ways. Mastering Knowledge Management (KM) in a company is a big and far-reaching venture and that technology respectively Information Technology (IT) is only a part of the big picture.
In dieser Forschungsarbeit wird eine Methode zur anwendungsbasierten Verknüpfung von Anforde-rungen und Enterprise Collaboration Softwarekompenten vorgestellt. Basierend auf dem etablierten IRESS Modell wird dabei ein praxistaugliches Mappingschema entwickelt, welches Use Cases über Kol-laborationsszenarien, Collaborative Features und Softwarekomponenten mit ECS verbindet. Somit las-sen sich Anforderungen von Unterhemen in Form von Use Cases und Kollaborationsszenarien model-lieren und anschließend über das Mappingschema mit konkreten ECS verbinden. Zusätzlich wird eine Methodik zur Identifikation von in Softwarekomponenten enthaltenen Collaborative Features vorge-stellt und exemplarisch angewandt.
Anschließend wird ein Konzept für eine Webapplikation entworfen, welches das vorgestellte Mapping automatisiert durchführt, und somit nach Eingabe der Anforderungen in Form vom Use Cases oder Kol-laborationsszenarien, die ECS ausgibt, die eben diese Anforderungen unterstützen.
The main goal of this paper is to ascertain, if neural networks (especially LSTM) are helpful in predicting processes by making predictions as accurately as possible.
TensorFlow is the used framework in Python to build recurrent neural networks. Two networks are built, whereby one is used for training and the other one for prediction.
Used datasets contain several processes with several events each. With those processes, the network ist trained and afterwards, the parameters are saved. The network for prediction uses these parameters to make predictions.
The neural network is able to make clear predictions about subsequent events. Even branches can be predicted.
When developed further, integration in other programs is possible. It is recommended to use unique names for the events or to rename them.
The Internet of Things is still one of the most relevant topics in the field of economics and research powered by the increasing demand of innovative services. Cost reductions in manufacturing of IoT hardware and the development of completely new communication ways has led to the point of bil-lions of devices connected to the internet. But in order to rule this new IoT landscape a standardized solution to conquer these challenges must be developed, the IoT Architecture.
This thesis examines the structure, purpose and requirements of IoT Architecture Models in the global IoT landscape and proposes an overview across the selected ones. For that purpose, a struc-tured literature analysis on this topic is conducted within this thesis, including an analysis on three existing research approaches trying to frame this topic and a tool supported evaluation of IoT Archi-tecture literature with over 200 accessed documents.
Furthermore, a coding of literature with the help of the specialised coding tool ATLAS.ti 8 is conduct-ed on 30 different IoT Architecture Models. In a final step these Architecture Models are categorized and compared to each other showing that the environment of IoT and its Architectures gets even more complex the further the research goes.
Social Network of Business Objects (SoNBO) is a concept for aggregating information distributed in he-terogeneous system landscapes and making it available via a single user interface. The central idea is to understand company information as a network (graph). There is already a SoNBO-Explorer which integrates the information of a customer relationship management system (CRM system). The challenge in configuring such an application is to identify the corporate network and thus find out how the stored data is linked within the company. A tool that can visualize the corporate network is helpful for this. In this thesis a selfdeveloped tool (SoNBO-Graph-App) is presented as a prototype, which realizes this visualization. With this application the configuration of the network in the SoNBO Explorer consisting of the merged data can be supported by carrying out that configuration on a graphical level. The prototype is connected to two different databases of a Customer Relationship Management (CRM) system and allows the aggregation of these data so that it is displayed as a graph in an overview. This gives the user a better insight and understanding of the relationship between the different data. This work is part of the longterm research project SoNBO, whose goal is a concept for the integration of information from different business application systems.
The goal of this thesis is to create a recommender system (RS) for business processes, based on the existing ProM plugin RegPFA. To accomplish this task, firstly an interface must be created that sets up and expands a database receiving probabilistic finite automata (PFA) created by RegPFA in tsml format as input. Secondly, a Java program must be designed that uses said database to recommend the process elements that are most likely to follow a given sequence of process elements.
Regarding the rising amount of legal regulations, businesses should get the opportunity to use software to fulfill their Compliance Management with the usage of compliance pattern. These patterns are used to represent substantive and structural parts of the processes. This means companies can increase their efficiency and react to new regulations quickly to avoid possible violation which can lead to monetary losses or legal consequences. In the literature are many approaches that deal with compliance pattern but currently there does not exist any list with necessary compliance pattern that companies should face at (Delfmann and Hübers, 2015). The following bachelor thesis classifies 80 research contributions regarding their different approaches of compliance pattern. For that a systematic literature review was executed. As a result, the author developed a graphical classification context that provides an overview of connections between different compliance approaches. Furthermore, an appendix with 32 compliance patterns of the analyzed papers was developed that contains real-world patterns with the classification of the previous sections.