Dynamic Reconfigurability of Wireless Sensor and Actuator Networks in Aircraft
Title | Dynamic Reconfigurability of Wireless Sensor and Actuator Networks in Aircraft |
Publication Type | Conference Paper |
Year of Publication | 2017 |
Authors | Aglargoz, A., Bierig, A., Reinhardt, A. |
Conference Name | 2017 IEEE International Conference on Wireless for Space and Extreme Environments (WiSEE) |
Keywords | actuator networks, actuator security, actuators, Aerospace electronics, Aircraft, aircraft communication, avionics, Cognitive radio, composability, cross-layer network architectures, dynamic configurability, dynamic network architecture, dynamic network reconfigurability, dynamic resource management, flexible transceiver hardware, Human Behavior, Metrics, pubcrawl, quality of service, reliability, resilience, Resiliency, security, Sensors, standardization, telecommunication traffic, transceivers, wireless networks, wireless sensor, Wireless sensor networks, wireless spectrum, wireless terminals, wireless traffic |
Abstract | The wireless spectrum is a scarce resource, and the number of wireless terminals is constantly growing. One way to mitigate this strong constraint for wireless traffic is the use of dynamic mechanisms to utilize the spectrum, such as cognitive and software-defined radios. This is especially important for the upcoming wireless sensor and actuator networks in aircraft, where real-time guarantees play an important role in the network. Future wireless networks in aircraft need to be scalable, cater to the specific requirements of avionics (e.g., standardization and certification), and provide interoperability with existing technologies. In this paper, we demonstrate that dynamic network reconfigurability is a solution to the aforementioned challenges. We supplement this claim by surveying several flexible approaches in the context of wireless sensor and actuator networks in aircraft. More specifically, we examine the concept of dynamic resource management, accomplished through more flexible transceiver hardware and by employing dedicated spectrum agents. Subsequently, we evaluate the advantages of cross-layer network architectures which overcome the fixed layering of current network stacks in an effort to provide quality of service for event-based and time-triggered traffic. Lastly, the challenges related to implementation of the aforementioned mechanisms in wireless sensor and actuator networks in aircraft are elaborated, and key requirements to future research are summarized. |
URL | http://ieeexplore.ieee.org/document/8124883/ |
DOI | 10.1109/WiSEE.2017.8124883 |
Citation Key | aglargoz_dynamic_2017 |
- telecommunication traffic
- pubcrawl
- quality of service
- Reliability
- resilience
- Resiliency
- security
- sensors
- standardization
- Metrics
- transceivers
- wireless networks
- wireless sensor
- wireless sensor networks
- wireless spectrum
- wireless terminals
- wireless traffic
- actuator networks
- Human behavior
- flexible transceiver hardware
- dynamic resource management
- dynamic network reconfigurability
- dynamic network architecture
- dynamic configurability
- cross-layer network architectures
- composability
- cognitive radio
- avionics
- aircraft communication
- Aircraft
- Aerospace electronics
- actuators
- actuator security