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Contact | |
| Phone: | +49 (0) 40 42878 - 8102 |
| Room: | C-0-101-4 |
| Email: | hartmut.hintze(at)tuhh.de |
| tuhh.de: | Dipl.-Ing. Hartmut Hintze |
Dipl.-Ing. Hartmut Hintze
Senior Engineer at the Insitute of Aircraft Cabin Systems
Publications
| [140963] |
| Title: Design Approach for Secure Networks to Introduce Data Analytics within the Aircraft Cabin. <em>SAE International Journal of Advances and Current Practices in Mobility</em> |
| Written by: Hintze, Hartmut and Giertzsch, Fabian and God, Ralf |
| in: (2020). |
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| DOI: 10.4271/2019-01-1853 |
| URL: https://doi.org/10.4271/2019-01-1853 |
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Note:
Abstract: In the past, aircraft network design did not demand for information security considerations. The aircraft systems were simple, obscure, proprietary and, most importantly for security, the systems have been either physically isolated or they have been connected by directed communication links. The union of the aircraft systems thus formed a federated network. These properties are in sharp contrast with today’s system designs, which rest upon platform-based solutions with shared resources being interconnected by a massively meshed and shared communication network. The resulting connectivity and the high number of interfaces require an in-depth security analysis as the systems also provide functions that are required for the safe operation of the aircraft. This network design evolution, however, resulted in an iterative and continuous adaption of existing network solutions as these have not been developed from scratch. Now, with the upcoming trend of data analytics and artificial intelligence applications, which demand for an extensive availability of data, holistic aircraft cabin networks are necessary to satisfy the associated requirements. For the development of such networks this paper proposes a novel design approach that includes security considerations as an integral part rather than as an isolated activity. The approach does not restrict itself to a specific class of network architectures, but takes the complete solution space into account. The resulting design decisions are based multiple classes of requirements, namely functional requirements such as the communication need and security requirements, e.g. the unwanted remote controlling of system functions by injecting incorrect information as well as the contract-based data exchange.
Supervised Student Theses
Completed Theses
- Approach for Model-Based Characterization of a Cabin Layout using different Cabin Service Levels (Master Thesis completed in Mar 2021)
- Model-based Approach for Integrating Security Information into a Software Architecture of a Wind Turbine (Master Thesis completed in Feb 2021)
- Generation of risk analysis reports resulting from a model-based supported risk analysis process (Master Thesis completed in Oct 2020)
- Elicitation and Implemantation of an Open Messaging Standard for Aircraft Cabin Application (Master Thesis completed in Jul 2020)
- Elaboration of SysML-tool criteria for the model based validation of cabin systems specifications by means of operational scenarios (Master Thesis completed in Jun 2020)
- Development of an approach to digitalize maintenance processes for aircraft cabin applications (Master Thesis completed in Dec 2019)
- Development of a Plugin to convert a SysML Functional and Product view to an 3D Integration view (Project Work completed in Nov 2019)
- Application of a methodology using Model Based System Engineering for an appropriate design of a digitized aircraft galley (Project Work completed in Nov 2019)
- Conceptual Design of an Aircraft Cabin Network suitable for Data Analytics (Master Thesis completed in Oct 2018)
- Evolution of fault-correlation procedures in case of cross-system effects by means of system models (Master Thesis completed in Aug 2018)
- Use of augmented reality in the aircraft cabin for maintenance, repair and overhaul tasks (Master Thesis completed in Mar 2018)
- Studies on the convertibility of modelled system information from system design phase into system integration phase (Master Thesis completed in Jul 2015)
- Studies on the optimisation of test procedures under consideration of individual test requirements and test models (Master Thesis completed in Jul 2015)
- Modelling and simulation of an access control system for aircraft (Project Work completed in Oct 2013)
- Studies on the applicability of a model-based System Security Engineering Process for Cabin Systems (Master Thesis completed in Jul 2013)
- Modelling of an improved addressing scheme for component identifiers within aircraft configuration management (Master Thesis completed in Apr 2013)
- Studies on the applicability of a model-based requirements engineering approach for cabin systems (Master Thesis completed in Aug 2012)
- Methodology for system development by taking the example of Cabin Core Systems (Master Thesis completed in Apr 2012)