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Kai Grunert, M.Sc.
- © Julies
Kai Grunert received his Master’s degree in Computer Engineering at the Technische Universität Berlin in May 2014. During his studies, he worked at Toll Collect GmbH as a software engineer and architect. He was responsible for creating an automation system for test cases to verify the functionality of On-Board Units. Prior to that, he finished the integrated degree program Communication Systems at the Beuth Hochschule für Technik Berlin. In the practical phases he developed access control systems for Idencom GmbH.
In December 2014, he joined the Telekom Innovation Laboratories as a research scientist in Prof. Axel Küpper’s group Service-centric Networking. Until 2020, he supported the teaching for the lectures Business Processes and IT systems as well as Web Technologies. In 2018, he started his own research project PROCEED where he and his teams created a decentralized Business Process Management System with an engine for executing BPMN-based processes in a distributed fashion. The project is available open source on Gitlab and is still under active development. Currently, Mr. Grunert works on a project for the Werner von Siemens Campus where he investigates the usage of a process system for Industrie 4.0.
Open Theses
For a list of open thesis, please see here: docs.proceed-labs.org/project/roadmap/
Research Interests
- Workflow Engines, Process Automation and Modeling
- Decentralized and Distributed Software Architectures
- Web Technologies: Semantic Web and JavaScript Engines
Publications
| Citation key | Grun2006:Overview |
|---|---|
| Author | Grunert, K. |
| Title of Book | 5th International Conference on Smart and Sustainable Technologies 2020(SpliTech 2020) |
| Pages | 1-7 |
| Year | 2020 |
| DOI | http://dx.doi.org/10.23919/SpliTech49282.2020.9243749 |
| Address | Split, Bol, Croatia |
| Abstract | IoT devices often use small, constrained microcontrollers to implement their functionality. Usually, they are programmed with languages like C or C++, but there is a trend to use interpreted languages for this task. In this paper, we focus on JavaScript. We discuss the advantages and disadvantages of using this interpreted language for microcontroller development, we give an overview of the available JavaScript engines for constrained devices, and we compare these interpreters' general properties. One finding shows that the projects can be divided into embeddable interpreters (JerryScript, Duktape, mJS) and standalone runtimes (Espruino, Moddable, Mongoose OS). It was also identified that the interpreters follow different architectural approaches. |
| Bibtex Type of Publication | SNET Data Social Ubiquitous |
Supervised Theses
- Malik, A. A. (2020). Realization of a Distributed Process Engine as a Web Application. Master Thesis, Technische Universität Berlin
- Pfoch, L. (2020). Implementation of a Distributed Process Engine on Android. Bachelor Thesis, Technische Universität Berlin
- Segner, K. (2020). Creating semantic Descriptions from source code comments on the example of ISDoc. Bachelor Thesis, Technische Universität Berlin
- Danker, J. (2019). Analysis of LTE cell outages simulated with ns3. Bachelor Thesis, Technische Universität Berlin
- Beriwan Tepe, A. (2019). Graphical constraint defination for process distribution within a dBPMS. Bachelor Thesis, Technische Universität Berlin
- Tayupov, R. (2019). Implementation of a Distributed Process Engine on constraint devices on the example of Esprimo-based microcontrollers. Bachelor Thesis, Technische Universität Berlin
- Botler, M. (2020). Ensemble Methods für Deep Learning based Anomaly Detection. Master Thesis, Technische Universität Berlin
- Ramalingam Santhanakrishnan, S.B. (2019). A Modern BPMN Execution Engine in Java Script. Master Thesis, Technische Universität Berlin
- Tas, C. (2019). Adaptive Selection of a Process Engine within a dBPMS. Bachelor Thesis, Technische Universität Berlin
- Schneider, A. (2019). User Management in a distributed Business Process Management System. Bachelor Thesis, Technische Universität Berlin
- Purolnik, V. (2019). Integration of a Script Development Environment into a distributed Business Process Management System. Bachelor Thesis, Technische Universität Berlin
- Zoubarev, A. (2019).Monitoring and legging in a distributed Business Process Exection. Bachelor Thesis, Technische Universität Berlin
- Yüksel, C. (2019).Capability Management in a distributed Business Process Management System. Bachelor Thesis, Technische Universität Berlin
- Rohwer, K. (2019). Java Script-based platform independent archictecture of a distributed Business Process Management System. Bachelor Thesis, Technische Universität Berlin
- Le Trung, P. (2019). Description of Workflow pattern in an actor-based system. Master Thesis, Technische Universität Berlin
- Cheynubrata, E. (2018). Separation of BPMN-based Process Models for a distributed Execution. Bachelor Thesis, Technische Universität Berlin
- Reppenhagen, M. (2018). Creation of a lightweight Microservice for Semantic Capability Offering. Bachelor Thesis, Technische Universität Berlin
- Richter, J. (2018). Building a Graphical Interface for the creation of Hypermedia-Driven REST APIs. Bachelor Thesis, Technische Universität Berlin
- Meznaric, J. (2016). Extending BPMN for integration of internet of things devices with process-driven applications. Master Thesis, Technische Universität Berlin
- Tan, J. (2016). Conference Recommendations Based on Social Recommender Systems. Master Thesis, Technische Universität Berlin
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