OneVu Aware: the Cerebellum of the Smart Network<br />Cerebellum:<br /><ul><li>Plays important role in motor control
Does not initiate movement, but contributes to coordination, precision, and accurate timing
Receives input from sensory systems, and integrates inputs to fine tune motor activity
Regulates basic functions such as fear and pleasure responses</li></ul>Moving Beyond…<br />Measurements<br />Post-processi...
Real-time
Granular, fine-tuned
Premium service pricing</li></ul>2<br />
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Ran Aware Pub May2011pptx

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Velocent Systems Mobile Broadband Smart Analytics for Smart Mobile Networks

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Ran Aware Pub May2011pptx

  1. 1.
  2. 2. OneVu Aware: the Cerebellum of the Smart Network<br />Cerebellum:<br /><ul><li>Plays important role in motor control
  3. 3. Does not initiate movement, but contributes to coordination, precision, and accurate timing
  4. 4. Receives input from sensory systems, and integrates inputs to fine tune motor activity
  5. 5. Regulates basic functions such as fear and pleasure responses</li></ul>Moving Beyond…<br />Measurements<br />Post-processing<br />Overall network<br />Flat pricing <br />…To<br /><ul><li>Actionable information
  6. 6. Real-time
  7. 7. Granular, fine-tuned
  8. 8. Premium service pricing</li></ul>2<br />
  9. 9. RAN-Aware Cell Congestion<br />From: 2/1/2011 14:00 To: 2/1/2011 15:00<br />700<br />3000<br />RTT<br />600<br />2000<br />500<br />1000<br />RTT (ms)<br />Throughput<br />400<br />500<br />300<br />Effective Throughput <br />250<br />200<br />100<br />100<br />BX9994<br />BG9894<br />BB1111<br />BT3494<br />DR0987<br />
  10. 10. Video Compression<br />Video Compression<br />Without Aware, video consumes a large proportion of bandwidth during congestion<br />Without Aware, video consumes a large proportion of bandwidth during congestion<br />If congestion reaches higher levels, additional compression applied<br />Initial level of video compression applied<br />Bandwidth Allocation<br />Compression released as congestion eases<br />Congestion Score<br />Video traffic<br />Non-video traffic<br />Time of Day<br />
  11. 11. Fair Congestion Cap Impact<br />Fair Congestion Caps<br />Peak is lower, shorter<br />Without Aware, congestion occurs during peak hours<br />Subs over cap allowed back onto cell<br />Subs over cap are restrained<br />Congestion Score<br />Time of Day<br />5<br />
  12. 12. Tiered Service Guarantee<br />Tiered Service Guarantee<br />Constrain silver subs at next level of congestion<br />Without Aware, gold + silver + bronze contribute to high congestion<br />Gold subs remain unconstrained<br />Constrain bronze subs’ bandwidth during congestion<br />Silver<br />Silver<br />Congestion Score<br />Bronze<br />Gold<br />Time of Day<br />
  13. 13. Service Balancing – QoE Sensitive Service Prioritization<br />7<br />Service Balancing<br />If congestion reaches higher levels, additional constraint applied<br />Bandwidth Allocation<br />Initial QoS constraint of non-sensitive services<br />QoS increased as congestion eases<br />Congestion Score<br />Non-Sensitive Services<br />QoE Sensitive Services (Video, Audio, VoIP)<br />* QoE Sensitive Services<br />Services whose QoE is sensitive to congestion (e.g. Video, Audio, VoIP) receive prioritization<br />
  14. 14. Thank You!<br />

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