May 2013 Doc No IEEE 11 13 0538

  • Slides: 8
Download presentation
May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Dense apartment

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Dense apartment building use case for HEW Authors: Submission Date: May 12, 2013 Slide 1 Klaus Doppler, Nokia

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Abstract •

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Abstract • Use case: Dense Apartment building • Simulation results • Proposed criteria for distinct identity Submission Slide 2 Klaus Doppler, Nokia

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Mobile video

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Mobile video drives mobile data traffic • Video is dominant application • Netflix in HD currently uses 7 Mbps* • Video is moving towards 4 k (4 x 1080 p) and 8 k (16 x 1080 p) • Increasing share of TVs with Wi-Fi support** * https: //support. netflix. com/en/node/8731 ** 4 out of 10 top selling TVs on Amazon. com April 22, 2013 Submission Slide 3 Klaus Doppler, Nokia

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Dense apartment

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Dense apartment building Each apartment has Wi-Fi network deployed to access internet and cloud services. In each apartment up to 3 users stream concurrently video content from the network and up to 50% of the networks are active. At the same time each of the active Wi-Fi networks is used by 2 users for web browsing Web browsing requirements for Social Networking are: ~20 Mbps, PER 1 e-3, delay<50 ms, 1. 0 E-3 PER 150 active video users and 100 active web browsing users in the building with an aggregate data rate requirement of 18. 8 Gbps in the building. The service requirements should be met for 98% of the users in the building. Environment Traffic Conditions Building with 100 apartments. One AP in each apartment of 10 mx 10 m randomly positioned. 5 STA per AP randomly positioned in the apartment. Strong interference from overlapping networks (neighboring apartments, and outdoor Wi-Fi network). Multiple video display are operational simultaneously. Applications Use Case Cloud based applications supporting video streaming with 8 k resolution. Video requirements are: ~112 Mbps per STA (16 x 1080 P), delay is < 200 ms, 1. 0 E-3 PER. The application is able to buffer up to 2 s of the content to avoid interruptions of the service, allowing relaxed delay requirements User starts cloud video service on a fixed or mobile device with 8 k display. Pre-Conditions Submission The cloud service streams the video in 8 k format. Slide 4 Klaus Doppler, Nokia

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Scenario •

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Scenario • • Indoor environment Multi-floor building (100 apartments) – – – • • 1 -100 AP in the middle of the room 2 STA/AP – • Randomly placed in the same room as AP Constant Bit Rate traffic both DL and UL – • • 5 floors 2 x 10 rooms in each floor Room size: 10 m x 3 m 10 Mbps/10 Mbps AP Tx. P 23 d. Bm, STA Tx. P 16 d. Bm One 20 MHz channel @ 5 GHz Submission Slide 5 Klaus Doppler, Nokia

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Evaluation criteria

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Evaluation criteria • Average user throughput – Averaged over all STA in building • 5 Percentile of User Throughput Cumulative Distribution Function – 95% of STA in building have a higher throughput Submission Slide 6 Klaus Doppler, Nokia

Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Results 10 Mpbs/10 Mbps

Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Results 10 Mpbs/10 Mbps Average User Throughput (Mbps) 5 percentile of user throughput CDF 20 Mbps • • 20 Mbps Throughput drops fast if #active BSS higher than 10 Lowest 5% of users get less than 1 Mbps if #active BSS higher than 17 Submission Slide 7 Klaus Doppler, Nokia

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Input for

May 2013 Doc. No. IEEE 11 -13 -0538 -00 -0 hew-r 1 Input for the 5 criteria • HEW shall achieve 2 -3 times the average BSS throughput compared to 802. 11 ac in a multi-floor building with dense deployment of Wi-Fi networks • HEW shall increase 4 -10 times the 5 percentile of the user throughput Cumulative Distribution Function compared to 802. 11 ac in a multi-floor building with a dense deployment of Wi-Fi networks Submission Slide 8 Klaus Doppler, Nokia