C. Computer Systems Organization
Refine
Document Type
- Master's Thesis (2)
- Article (1)
- Bachelor Thesis (1)
- Report (1)
Has Fulltext
- yes (5)
Keywords
- 5G (1)
- Ambient Intelligence (1)
- Elektrotechnik (1)
- Interface Specification (1)
- Interfaces (1)
- Interoperability (1)
- Mobile Networks (1)
- Network Slicing (1)
- Networked Control Systems (1)
- Netzwerk (1)
Faculty / Organisational entity
The rapid growth of systems, both in size and complexity, combined with their distributed
nature, is posing challenges for their efficient integration and functioning. Moreover,
in order to achieve sustainability objectives and future goals, systems are increasingly
collaborating with each other, resulting in the emergence of Systems of Systems (SoS)
that are large-scale and independent. In such scenarios, multiple stakeholders and systems
from different disciplines with diverse interests need to interoperate. In various domains,
this trend of growing systems creates a greater need for interfaces that ensure seamless
interoperability in between and within these systems and SoS.
To address these challenges, an effective method for integrating systems and SoS is required.
A key to ease this integration can be the use of interface specifications to describe and
specify interfaces. However, there is currently no comprehensive understanding of how
to write high-quality interface specifications, nor is there a common overview of interface
specification approaches.
This thesis aims to fill these gaps of documented knowledge by reviewing recent developments
and best practices for interface specifications in the context of systems engineering
and SoS engineering. The review was conducted through a literature review focusing on
interface specifications, complemented by an analysis of existing interface specification
approaches and expert interviews. The goal is to provide an overview of current interface
specification characteristics and their common use cases. Based on this analysis, a
usage-driven approach in the form of customised interface specification mappings was
developed, which can assist in identifying an appropriate approach for specifying interfaces.
In light of the increasing connectivity in our lives, the work provides a framework for
better classifying and approaching interface specifications, seeking to move away from
viewing interfaces as neglected elements of systems engineering, towards a more intelligent
and productive classification and approach.
The mapping of a virtual network service onto a physical network infrastructure is a challenging task due to the joint allocation of virtual resources across nodes and links, the diverse technical requirements of end-users, the coordination between multiple host domains, and others. This issue is exacerbated further by the extension of virtualization to the next-generation radio access network (NG-RAN) architecture and the provisioning of radio access network (RAN) slicing. To that end, this article focuses on the mapping problem of the virtual network functions (VNFs), as well as their internal and external virtual links (VLs), of a RAN slice subnet onto intelligent points of presence (I-PoPs) and transport networks in the NG-RAN architecture. In this context, in contrast to the majority of the state-of-the-art proposals, which frequently fail to achieve performance objectives and neglect resource allocation constraints, this article introduces automation and intelligence at an architectural level to map VNFs and VLs onto their corresponding physical nodes and links, with the goal of achieving superior efficiency in virtual resource utilization while granting the performance of a RAN slice subnet. Benefiting from a top-down approach, the key contributions of this article are: (i) to extend the architectural framework of network slicing towards the NG-RAN architecture and provide a comprehensive overview and critical analysis of the components and functionalities of a RAN slice subnet; (ii) to integrate the Experiential Network Intelligence (ENI) framework into a joint architecture of the network functions virtualization–management and orchestration (NFV–MANO), Third Generation Partnership Project-network slicing management system (3GPP-NSMS), and I-PoPs in order to render automation and intelligence to the management and orchestration aspects of a RAN slice subnet in the NG-RAN architecture; and (iii) to propose a learning-assisted architectural solution for mapping the VNFs, as well as their internal and external VLs, of a RAN slice subnet onto the underlying I-PoPs and transport networks.
The aim of this thesis is to perform a case study to investigate the usability of SysMD in
industrial applications. The focus is on how well it can bridge the gap between requirement
specifications, modeling, and actual development.
SysMD is a new documentation and modeling language which aims to bring documentation
and modeling closer together while still not requiring the user to be an expert in modeling or
requirement specification. This differentiates SysMD from other tools which focus on either
documentation, modeling, or are aimed at modeling experts.
This thesis will show through the case study part that SysMD as a language has a good future
with potential of being used as a language bridging the gap between requirements,
documentation, and modeling without the user needing to be an expert within modeling. It
will also show that SysMD Notebook in its current state is not ready for primetime, and I give
recommendations on how to improve both the SysMD language as well as the SysMD
Notebook to make it usable for industrial projects in the future.
With the ever-increasing amount of satellite-backed communication, constellations covering the entire world, and the rise of Software Defined Radios (SDRs), satellite signals have already become prime targets for scientific research all over the globe. However, due to logistical challenges like capture time/location and peripheral/system management for the sensors and the wide variety of protocols/encoding schemes used, no one-fits-all sniffing solution exists for capturing their wide variety of signals. Therefore, this thesis aims to analyze, design, and implement a system that makes it possible to study LEO (Low Earth Orbit) L-Band satellite signals with readily available Single Board Computers (SBCs) in a widely distributed, location, and time-aware way. The key design factors were useability, maintainability, adaptability, and security in a centrally managed client-server architecture. The research presented yielded a Satellite probe Operating System called SATOS, which aims to implement on-sensor data decoding driven by GNU Radio and secure Over The Air (OTA) updates inside the Buildroot build environment. Its intended use case is the future deployment of DISCOSAT on a university working group scale.
Dieses Szenario ist eine Erweiterung eines Teilszenarios von Human Centered Manufacturing. Dabei geht es um die Montage der Energieelektrik für industrielle Anlagen. Im Jahr 2015 enthält die Ausrüstung eines Elektromonteurs bei der Verdrahtung von Schaltschränken u.a. einen Schutzhelm mit integrierter Farbkamera, integriertem Mikrofon und einem Lautsprecher im Ohrbereich sowie einen automatisch gesteuerten Laserpointer. Auf der Baustelle sind keine Pläne mehr erforderlich. Der Monteur benötigt keinen Plan während der Montage.