Distributed Systems
We Make Services Valuable
The Distributed Systems (DSY) research group of the InIT focuses on scalable and reliable implementation of sophisticated IT-based services. We address questions such as:
- What architecture best suits your specific cloud application?
- Which service model (IaaS, CaaS, PaaS, FaaS, ...) ensures optimal implementation of an application?
- Which tools are needed for development, operation and monitoring of the services?
- How to offer applications "as a service" (SaaS)?
- How to monetize modern IT services?
- How to integrate the "physical world" into complex IT services?
The research group is engaged in international projects within the EU research framework and works closely with partners from the private sector on innovative products within Innosuisse funded or directly financed projects.
The knowledge gained from applied research and development is transferred to students of computer science courses in the following modules:
Cloud Computing
The Init Cloud Computing Lab (ICCLAB) is dedicated to the automated deployment, operation and usage of configurable, highly scalable and resilient IT resources on a pay-per-use basis. In addition to infrastructure virtualization, this includes platform services for automated application delivery, scalable back-end, and monitoring of services and applications.
Service Prototyping
The Service Prototyping Lab (SPLAB) addresses the implementation and validation of complex services in cloud or post-cloud environments. In addition to the migration of existing services to the cloud, the main focus is on modern application architectures (Cloud Native Applications, Microservices, Serverless), the provisioning of tools for optimal implementation, the experimental validation of concepts and their monetization (Cloud Accounting and Billing).
Cloud Robotics
The Init Cloud Comupting Lab (ICCLAB) also addresses the integration of robotic applications into complex networked services. The usage of elastic cloud services allows to extend the capabilities of robots (computing power, context information, artificial intelligence, ...) as well as to manage and coordinate them. Programming frameworks and automation services enable developers to integrate robots into services without having in-depth knowledge at device level.
Unfortunately, no list of projects can be displayed here at the moment. Until the list is available again, the project search on the ZHAW homepage can be used.
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Gkikopoulos, Panagiotis; Spillner, Josef; Schiavoni, Valerio,
2020.
Monitoring data distribution and exploitation in a global-scale microservice artefact observatory.
ZHAW Zürcher Hochschule für Angewandte Wissenschaften.
Available from: https://doi.org/10.21256/zhaw-22695
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Zampetti, Fiorella; Vassallo, Carmine; Panichella, Sebastiano; Canfora, Gerardo; Gall, Harald; Di Penta, Massimiliano,
2020.
An empirical characterization of bad practices in continuous integration.
Empirical Software Engineering.
2020(25), pp. 1095-1135.
Available from: https://doi.org/10.1007/s10664-019-09785-8
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Vassallo, Carmine; Panichella, Sebastiano; Palomba, Fabio; Proksch, Sebastian; Gall, Harald C.; Zaidman, Andy,
2020.
How developers engage with static analysis tools in different contexts.
Empirical Software Engineering.
2020(25), pp. 1419-1457.
Available from: https://doi.org/10.1007/s10664-019-09750-5
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Zhou, Yu; Su, Yanqi; Chen, Taolue; Huang, Zhiqiu; Gall, Harald C.; Panichella, Sebastiano,
2020.
User review-based change file localization for mobile applications.
IEEE Transactions on Software Engineering.
47(12), pp. 2755-2770.
Available from: https://doi.org/10.1109/TSE.2020.2967383
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2019.
Serverless computing and cloud function-based applications [paper].
In:
UCC '19 Companion.
12th IEEE/ACM International Conference on Utility and Cloud Computing (UCC), Auckland, New Zealand, 2-5 December 2019.
Association for Computing Machinery.
pp. 177-178.
Available from: https://doi.org/10.1145/3368235.3370269