Title :
Wireless handover with application to quadcopter video streaming over an IP network
Author :
Al-Majeed, S. ; Fleury, Martin
Author_Institution :
Sch. of Eng., Nazarbayev Univ., Astana, Kazakhstan
Abstract :
Monitoring of oilfield well-head installations can be enhanced by Quadcopters equipped with video cameras flying at low altitude. Backhaul of a video stream from a Quadcopter´s camera takes place via WiMAX base-stations within the installation. This paper considers a problem that arises: Video stream interruption as a handover occurs between WiMAX base-stations. The paper presents a scheme for hard handover recovery during video streaming to a remote monitoring station. The selective Negative ACKnowledgment (NACK) scheme trades a reduced but acceptable video quality during handover for improved end-to-end latencies compared to unselective NACKs. Both forms of NACK (selective and unselective) promise better video quality (by several dB) than with UDP transport or traditional congestion-controlled streaming, which results in long delays during handovers.
Keywords :
IP networks; WiMax; computerised monitoring; helicopters; mobility management (mobile radio); video cameras; video streaming; IP network; NACK scheme; WiMAX base-stations; hard handover recovery scheme; negative acknowledgment scheme; oilfield well-head installations; quadcopter video streaming; remote monitoring station; video cameras; video quality; wireless handover; Delays; Handover; Packet loss; Streaming media; WiMAX; NACKs; Quadcopter; WiMAX; video streaming; wireless handover;
Conference_Titel :
Communications and Networking (BlackSeaCom), 2014 IEEE International Black Sea Conference on
Conference_Location :
Odessa
DOI :
10.1109/BlackSeaCom.2014.6849019
