Download presentation
Presentation is loading. Please wait.
1
I-Kang Fu, Paul Cheng, MediaTek
IEEE MEDIA INDEPENDENT HANDOVER DCN: hwnm Title: Multi-Radio Integration for Heterog. Networks Date Submitted: May 13, 2010 Presented to Heterogeneous Wireless Networks Mgmt. SG at IEEE session #38 in Bangalore Authors or Source(s): I-Kang Fu, Paul Cheng, MediaTek Abstract: Identify some issues in heterogeneous networks from a device-vendor perspective
2
IEEE 802.21 presentation release statements
This document has been prepared to assist the IEEE Working Group. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, and any modifications thereof, in the creation of an IEEE Standards publication; to copyright in the IEEE’s name any IEEE Standards publication even though it may include portions of this contribution; and at the IEEE’s sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts that this contribution may be made public by IEEE The contributor is familiar with IEEE patent policy, as outlined in Section 6.3 of the IEEE-SA Standards Board Operations Manual < and in Understanding Patent Issues During IEEE Standards Development
3
Introduction Huge demand on broadband wireless access will be stimulated in 4G era ~1Gbps peak transmission rate in wireless network can provide users similar experience as in wireline network Peak transmission rate should be no longer a critical problem after 4G era Most of the existing Internet services can be carried by 4G wireless networks Mobile Internet becomes reality and further stimulate more advanced services and change the human life again The network capacity will be exhausted very soon in next few years The spectral efficiency is improved less than ×10, but the capacity demand is increased more than ×100. The capacity will still be exhausted very soon even all the networks are upgraded with 4G air-interface Capacity exhaustion will be the most severe problem during the 4G and Beyond (B4G) era
4
Introduction Different candidate technologies can possibly help on capacity improvement Heterogeneous network Cooperative techniques Advanced MIMO etc. Heterogeneous network may be the most promising candidate technology The room for intra-system optimization (i.e. further increase spectral efficiency) will be bounded by multiple access interference (e.g. inter-cell) However, the spectrum resources today are not efficiently utilized because different network may not be able to share spectrum resources with each other. Because the traffic and network loading distribution is time variant, but operator need to deploy the network base on worse case. This problem may be resolved without change of PHY but mostly by MAC enhancement
5
Problem Discussion Multiple radio access networks between information source and user May be operated by the same air-interface (e.g. different operators) Single tier network → can be resolved by existing roaming solution May be operated by different air-interfaces Heterogeneous network → new technologies are required to enable radio resource sharing
6
Problem Discussion Two design perspective need to be considered when discussing heterogeneous network problems: Network perspective Device perspective Technology evolution may be categorized into three stages: (example) Coexistence Interference mitigation Cooperation Smart Internetworking Cognition Internetwork radio resource sharing
7
Multi-Radio Integration Challenges
Challenges to support heterogeneous network from device perspective Stage 1: Interference mitigation for co-located multi-radio coexistence Objective – mitigate the interference from co-located modem to improve modem performances FDM based solution (i.e. filtering) may not work when the frequency channels are too close (e.g. between ISM band and 2.3GHz band) Protocol based solution may be required under some scenario Ongoing efforts in many different standard organizations BB: Baseband module RF: Radio Frequency module ANT: Antenna module
8
Multi-Radio Integration Challenges
Challenges to support heterogeneous network from device perspective Stage 2: Smart interworking for co-located multi-radio component sharing Objective – efficient internetworking to help device maintain connections in multiple systems by shared hardware (e.g. RF module) For example, new protocol to help device fast switching between two system without losing control signals. Maintain logical connection may still be maintained in parallel if necessary
9
Multi-Radio Integration Challenges
Challenges to support heterogeneous network from device perspective Stage 3: Intelligent spectrum sharing for cognition by fully integrated radio Objective – optimize the radio (spectrum) resources among multi-tier heterogeneous network by minimizing the duplicated hardware functions (FFS) Prevent unnecessary waste on spectrum resource, transmit power and processing power.
10
Summary Heterogeneous Network is the most promising technology which can significantly resolve the capacity exhaustion problem in Beyond 4G era New technology need to be developed both from network and device perspectives Development task may be categorized into multiple stages Stage 1: Multi-radio & Heterogeneous Network Coexistence Stage 2: Multi-radio & Heterogeneous Network Cooperation Stage 3: Multi-radio & Heterogeneous Network Cognition Recommendation Consider the requirements both from multi-radio network and device perspectives within the scope of new project
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.