• Corpus ID: 53021991

4th International Workshop on Requirements Engineering for Self-Adaptive, Collaborative, and Cyber Physical Systems, RESACS@RE 2018, Banff, AB, Canada, August 20, 2018

@inproceedings{Tenbergen20184thIW,
  title={4th International Workshop on Requirements Engineering for Self-Adaptive, Collaborative, and Cyber Physical Systems, RESACS@RE 2018, Banff, AB, Canada, August 20, 2018},
  author={Bastian Tenbergen},
  booktitle={RESACS@RE},
  year={2018}
}
Over the last ten years, first research on self-adaptive systems (SAS), then research on cyber physical systems (CPS) and just in the last few years, research on collaborative systems has attracted the attention of the academic and industrial community. Self-adaptiveness, collaboration, and cyber physicality represent novel characteristics of softwareintensive systems insofar that such systems possess significantly different properties than traditional information systems or embedded systems… 

References

SHOWING 1-9 OF 9 REFERENCES

Non-functional Requirements Trade-Off in Self-Adaptive Systems

  • A. SaeedSeok-Won Lee
  • Computer Science
    2018 4th International Workshop on Requirements Engineering for Self-Adaptive, Collaborative, and Cyber Physical Systems (RESACS)
  • 2018
TLDR
This paper fragmentized the NonFunctional Requirements and its alternative solutions in form of Multi-entity Bayesian network fragments in Self-Adaptive Systems to investigate the trade-offs between multiple Non-Functional requirements in the system runtime.

AirborneCPS: A Simulator for Functional Dependencies in Cyber Physical Systems: A Traffic Collision Avoidance System Implementation

TLDR
AirborneCPS is presented, a simulation tool for functionally dependent CPSs which simulates runtime behavior and aids in the identification of undesired functional interaction.

Deriving Functional Safety Requirements Using Undesired Combination State Templates

TLDR
This paper proposes a technique that addresses hazards based on undesired combination states, using Undesired Combination States Templates (UDCST), and has been conceived to accommodate the constraints on time and cost typically encountered in industry.

A Knowledge Acquisition Approach for Off-Nominal Behaviors

TLDR
An algorithmic and systematic approach for knowledge acquisition of ONBs in componentbased systems using a modified Apriori algorithm and results indicate that the component sets generated using this approach are able to expose missing dependencies and ONBs with much less human effort when compared to CCM.

A Requirements-Based Approach for the Evaluation of Emulated IoT Systems

TLDR
This paper presents a requirements-based framework to enable the systematic evaluation of the suitability of an emulated IoT environment to fulfil the requirements that secure the quality of an adequate test environment for IoT.

Requirements for a Flexible and Generic API Enabling Mobile Crowdsensing mHealth Applications

TLDR
The work at hand presents the elicited requirements and illustrate the pillars on which the flexible and generic API is built on, and identified that the maintenance of such an API is a challenging endeavor.

ReqVision: Digitising Your Analog Notes into Readable and Editable Data

  • Natalia MannovC. M. LüdersA. Kaznin
  • Computer Science
    2018 4th International Workshop on Requirements Engineering for Self-Adaptive, Collaborative, and Cyber Physical Systems (RESACS)
  • 2018
TLDR
An approach is proposed that includes a self-adaptive part to improve handwritten text recognition as well as a context-sensitive part to facilitate the integration into existing systems in the context of the Smart RE framework.

Towards Context-Aware Process Guidance in Cyber-Physical Systems with Augmented Reality

TLDR
The usefulness of context-aware process management for the flexible support of cyber-physical processes in the Industrial Internet of Things is demonstrated and an approach for process-centric user guidance that combines context and process management with augmented reality enhanced tasks is presented.

Engineering Adaptive Cyber Physical Systems

  • Keynote Paper. viii