On the Communication Requirements of IEEE 802.Xxx Standardization: Evaluating Cognition Performance in WLAN
| Main Authors: | Jinadu Olayinka, Ijawoye Rafiu, Ijarotimi Olumide, Owa Victor, Akinboyewa Nelson |
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| Format: | Article Journal |
| Bahasa: | eng |
| Terbitan: |
, 2020
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| Subjects: | |
| Online Access: |
https://zenodo.org/record/4896541 |
Daftar Isi:
- Reconfiguration Communication System (RCS) intelligently provides interoperating platforms that enable communication with lower standards. Incremental demand for wireless services required justifiable capacity improvement of communication protocols. To ugrade existing wireless systems using APs computational techniques, the operational capability is facilitated flexible scaling and transmission reliability. This paper examines the communication requirements of relevant IEEE standardizations in cognition and interoperations. The impact of larger frame sizes and high delivery rates were examined in Ad-hoc wlan configuration. Using multi-user multiple inputs multiple outputs (MIMO) technology as communication elements in bands below 6GHz, Throughput performance was investigated using enterprise Network Simulator Package (eNSP). A significant reduction in packet errors was recorded in the simulations. This suggests an improved throughput, provided by flexible switching over long-distances. IEEE802.11ac standard implementation confirmed efficient cognition while IEEE 802.22 technology established interoperability techniques during reconfigurations. Protocol amendment to IEEE 802.11a standardization provided higher throughput measure characterized for transmissions below 6GHz traffics. IEEE 802.11af enables multiple multimedia data streaming while co-existence of multiple users on the network guaranteed system scaling. The co-existence of increasingly served users were provisioned by IEEE 8802.16h, while interoperation was facilitated by 802.22 to encourage dynamic resource utilization. Also, dual-stack AP peers in P2P modes provided much flexibility in parameter switching to enable fast handoffs. Support to local network management systems by reconfiguration made entire network scale with reduced latency and resultantly improved throughput performance was attributed to IEEE 802.11ac, 802.11af, 802.16h and IEEE 802.22 standardization implementations.