{Pseudo-Deterministic} Statistical Multiple Access for 3D Voice Packets Uplink Scheduling
Wireless Networking
Statistical multiple access gives opportunity to decrease bandwidth wastes in radio cellular networks when sources activities are variable.
Usually, 2 states exponential ON-OFF models are used for voice sources and to study statistical multiplexing in telephony. Instead consider a distributed algorithm based on a 3-states model with downlink activity detection for a refined prediction.
The proposed algorithm makes the distinction between silent sources according to their downlink activities to enhance the statistical multiple access for telephony.
Then, silent sources are pre-allocated available channels on the uplink according to their respective switching probabilities; hence the designation
for our proposed statistical multiple access scheme. Performance evaluation (analytical and simulation model) is given to illustrate the benefits of our proposal.
Route the silent party to a third state dependent on a threshold of gated noise being met. For instance, if a breath is heard in the phone at a certain volume avoid pre-map, however if gate is < input noise < voice data pre-map channels for intercept to balance signal bandwidth. While there is no guarantee the individual on the other side of the phone will ever speak, by creating an artificial gate upon a threshold we can thereby choose to map a portion of silent parties for strong signal upon transmute voice data through uplink/download bi-fold.
There is no downside relative to current standards because current standards simply map to on or off state. The only challenge unmet in previous approaches to optimal use of signal states may have been the inability to implement logic whereby all customers would not be immediately eligible for benefit. Traditional logic says if all customers are not eligible for distributive network gain then no network gain is possible, however net gain of bandwidth may be possible by implementing additional bands of variable mapping able to only be supported by alternating half-sections of users no or yes states regarding challenge gates. (C) Copyright 2013 All Rights Reserved on Intellectual Property. If technology is used I only ask for partial credit and charitable donation made outside of public view.