Salah M. Saleh Al Majeed scite author profile

Salah M. Saleh Al Majeed

2Publications

5Citation Statements Received

37Citation Statements Given

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Affiliations

Nazarbayev University

Publications

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H.265 Codec over 4G Networks for Telemedicine System Application

Majeed

Askar

Fleury

2014

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This paper presents the exploratory stages of a project to develop Telemedicine services in the Republic of Kazakhstan. The project intends to take advantage of recent technological developments. It proposes a new video-encoding scheme as a replacement for other video codecs currently used in telemedicine systems. H.265 is suggested for telemedicine systems because it can support high-quality video streaming for telemedicine systems and at the same time it requires less bandwidth than its predecessor H.264. This perfectly fits within 4G wireless network capabilities such as WiMAX and Long Term Evolution (LTE) networks. The project targets patients whom cannot easily access the hospital to be monitored or be treated by a specialist even though this is needed for patient cases such as rehabilitation, and paraplegics. Using LTE and WiMAX to form the telemedicine framework means that the system could be used either from the home to monitor the patient or it could be used from mobile devices such as smart-phones, PDAs, or laptops. In addition to the initial results, future investigations are proposed for optimal streaming of H.265 over 4G wireless networks.

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Dual Handover vs. QoS for Real Time Broadband Video Streaming over WiMAX Networks

Majeed

Fleury

2014

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Abstract-The consistent superiority in terms of reduced packet loss to enhance video quality it is what this paper proposing. Prior investigation of video streaming over wireless networks has assumed a single access point and a homogeneous wireless technology. With different channel effects and conditions a long side the Hard Handover (HHO) consequences on mobile broadband video streaming , IEEE 802.21, it is now becoming possible to offer seamless video streaming and harmonizing that influence. The paper presents a video streaming transport scheme that is more capable of exploiting the expected reduced latencies of real time video streaming content distribution networks. Broadband Video Streaming (BVS) with adaptive packet retransmission promises better video quality during an (HHO) than both raw UDP transport and traditional congestion-controlled streaming, making it attractive to mobile broadband video streaming services. It achieves this by distinguishing between high congestion and poor channel conditions, the latter of which an HHO induces, and by prioritized retransmission according to picture type.

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