School of Engineering and Design www.brunel.ac.uk/about/acad/sed Creative Industries Business Aspects and Activities Network Planning of Future Internet.

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School of Engineering and Design Creative Industries Business Aspects and Activities Network Planning of Future Internet to support 3D TV and Applications by: J. Cosmas

School of Engineering and Design Possible UK Optical Network All >5M >1M >100k <100k Population > 500k

School of Engineering and Design All

School of Engineering and Design Reference Network

School of Engineering and Design Applications -Up to 35 different applications generating different type and size of traffic flow: - 2D/3D Web Browser - Streaming Audio (Web/MP3/Home Theatre Quality - Video/IPTV (2D/3D Web/SDTV/HDTV Quality- Clip/Programs) - VoIP (Toll/MP3/Home Theatre Quality) - 2D/3D Video Communications (Web/SDTV/HDTV Quality) - Interactive Gaming (Large & Slow/Small & Fast) - Virtual Environment (Large & Slow/Small & Fast) - P2P File Sharing (Small/Large) - Up/Downloading Audio (Web/MP3/Home Theatre Quality) - UDL Video/IPTV (2D/3D Web/SDTV/HDTV Quality- Programs) -Each application characterised by flow parameters: - Average Packet Call Object Size (Bytes) - Average Over-head (Bytes) - Inter-arrival (Sec) - Session Time (Sec) - Packet Calls / Session - Average Session Size (Kbytes) - Avg. Rate (kbps) All

School of Engineering and Design Use Case Scenarios -Six Use Case Scenarios: - Residential Broadband - 3D Residential Broadband - Increased Media Resolution and Longer Use - 3D Increased Media Resolution and Longer Use - Max Media Resolution - 3D Max Media Resolution - Each scenario characterised by flow parameters: - Session per Day - % of Users with Application - Total Load User per Day (Mbytes) - Peak Hour % - Hourly % - Traffic Asymmetry (% uplink) - Equivalent per user Busy Hour bit rate down/up link (bits/sec) All

School of Engineering and Design Up and Down Link Traffic at Access Points 2D and 3D Residential Broadband Scenario All

School of Engineering and Design Per Hour Percentage Traffic Demand for different classes of Applications All

School of Engineering and Design Per Hour Percentage Traffic Demand for different classes of Applications All

School of Engineering and Design Conclusions -This paper has shown that: - Introducing 3D TV to a realistic traffic mix on the Internet will increase downlink loads by a factor of 1.65 and uplink loads by a factor of 1.45 if 3D Holoscopic video with horizontal parallax is used for the applications with 3D video. - For future work: - we investigate the effect of increasing video resolutions and of increasing the sophistication of the 3D TV technologies such as 3D Holoscopic video with horizontal parallax and horizontal and vertical parallax are used. All