VoIP performance in multi-layered satellite IP networks with on-board processing capability

In this study, voice over IP (VoIP) performance in multi-layered satellite IP networks with on-board processing (OBP) capability is investigated. With on-board processing, a satellite can process the received data, and according to the nature of application, it can decide on the transmission propert...

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Bibliographic Details
Main Authors: Bayhan, S., Gur, G., Alagoz, F.
Format: Conference Proceeding
Language:English
Subjects:
Artificial satellites
Delay
Earth
Internet telephony
IP networks
Next generation networking
Quality of service
Telecommunication traffic
Testing
Traffic control
Online Access:Request full text
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Summary:In this study, voice over IP (VoIP) performance in multi-layered satellite IP networks with on-board processing (OBP) capability is investigated. With on-board processing, a satellite can process the received data, and according to the nature of application, it can decide on the transmission properties. Specifically, considered OBP includes error-correcting coding to combat adverse channel conditions and priority queueing mechanisms for efficient use of the system resources. After a brief overview of relevant aspects of satellite networks to VoIP, the VoIP performance for non-geostationary Earth orbit (NGEO) single layer and multi-layered constellations are examined using a network simulation tool. The outcome of these simulations justifies the premise for the multi-layered architecture for delay-sensitive and real-time traffic such as voice. Subsequently, the effects of some quality-of-service (QoS) mechanisms in multi-layered architecture are tested using various simulation parameters. The system simulation verifies that multi-layered satellite networks with OBP capabilities and QoS mechanisms are essential for feasibility of packet-based high quality voice services which are vital components of next-generation communications networks
DOI:10.1109/ISCN.2006.1662533