IEEE C802.16n-11/0107 Project IEEE 802.16 Broadband Wireless Access Working Group <http://ieee802.org/16> Title Support of Alternative Interface Date Submitted 2011-07-10 Source(s) Ronald Mao, Erik Colban, Bin Chen Huawei Technologies Re: Call for contributions for 802.16n AWD as announced on June 1, 2011 Abstract This contribution provides specifications on using an alternative interface (Ralt), as required by the SRD. Purpose To be adopted by 802.16n Notice Copyright Policy Patent Policy E-mail: rmao@huawei.com, ecolban@huawei.com This document does not represent the agreed views of the IEEE 802.16 Working Group or any of its subgroups. It represents only the views of the participants listed in the “Source(s)” field above. It is offered as a basis for discussion. It is not binding on the contributor(s), who reserve(s) the right to add, amend or withdraw material contained herein. The contributor is familiar with the IEEE-SA Copyright Policy <http://standards.ieee.org/IPR/copyrightpolicy.html>. The contributor is familiar with the IEEE-SA Patent Policy and Procedures: <http://standards.ieee.org/guides/bylaws/sect6-7.html#6> and <http://standards.ieee.org/guides/opman/sect6.html#6.3>. Further information is located at <http://standards.ieee.org/board/pat/pat-material.html> and <http://standards.ieee.org/board/pat>. Support of Alternative Interface Ronald Mao, Erik Colban, Bin Chen Huawei Technologies Introduction An alternative interface is an interface between two HR-MSs that is not on the IEEE 802.16 air interface. It may be on an air interface on an unlicensed spectrum such as WLAN, or a wired interface on a power line. In advanced metering such as Smart Grid, utility companies have requirements to have metering devices access the network on scheduled time intervals for it is expected that under normal operations the majority of traffic from/to the MS will be regular as opposed to being ad-hoc in nature. This deterministic type of behavior allows for optimizing the operation of the HR-MS in that the HR-MS can be scheduled to enter or re-enter to the network only at specific time instances and only for a limited period of time. Such time controlled operation means better air interface utilization, reduced interference, conserved network resources, and possibly increased battery life, etc. However, a limitation with time controlled operation is that, as the HR-MS is not monitoring the air interface outside its pre-defined connection interval, the network cannot contact the MS outside of this interval. This contribution proposes a solution to mitigate this problem by allowing the network to send a 1 IEEE C802.16n-11/0107 connection notification to a target HR-MS via a neighboring HR-MS that is currently in connected state. The neighboring HR-MS will relay the notification to the target HR-MS on the alternative interface. Upon receiving the notification, the target HR-MS will enter the network to receive data from the network.. In the case where a HR-BS has data to be delivered to a target HR-MS, and the target HR-MS is powered off, and there there is an alternative interface between the target HR-MS and a neighboring HR-MS, the HR-BS may request the neighboring HR-MS to relay a notification about the pending data delivery over the alternative interface. This procedure is illustrated in Error! Reference source not found.. Figure 1: Activate a disconnected MS over alternative interface As the figure illustrates, to deliver data to a target HR-MS (MS1) currently disconnected from the BS, the BS sends a notification to the neighboring HR-MS (MS2), which in turn forwards such notification to the target MS over the alternative connection. Upon receipt of this notification the target MS connects to the BS and receives any pending messages from the HR-BS. The alternative interface may be a wireless access connection that supports direct P2P communication over an unlicensed spectrum or a wired connection over power lines. In either case, the MS monitors the alternative interface. For security reasons, only a notification is forwarded from the BS to have the target HR-MS establish a connection with the BS. The neighboring MS shall not relay actual data via the alternative connection. The data delivery described here relies on the availability of an HR-MS in connected state and the existence of a alternative interface between this Hr-MS and the HR-MS for which the indication is to be sent. In the absence of these conditions, the HR-BS will buffer the data until such period that either the target HR-MS is connected to the network or neighboring HR-MS within reach of the desired MS enters into a connected state. The HR-BS locates a relay HR-MS by sending a multicast message to the multicast group to which the target HR-MS belongs. Proposed Text 17.3.5 Relaying operation Relay operation described in Section 16.6 shall be supported. In order to provide great reliability in a degraded network, the relay function described in this subsection shall be supported. 2 IEEE C802.16n-11/0107 In order to support local forwarding in an HR-RS, the HR-RS shall follow operation as defined in Section 17.3.6. 17.3.5.x Relaying connection notifications over an alternative interface An alternative interface is an interface between two HR-MSs that is not an IEEE 802.16 air interface. It may be an air interface on an unlicensed spectrum such as WLAN, or a wired interface on a power line. When an HR-BS has downlink data for a HR-MS that has powered down from the 802.16 network, the HR-BS may send a multicast Connection Notification message to the multicast group to which the target HR-MS belongs. In the multicast message, the identity of the target HR-MS is included. When HR-MS in the multicast group that is currently connected to the network receives the notification, the HR-MS is assumed to relay the notification to the target HR-MS identified in the Connection Notification message over the alternative interface. Upon receipt of this notification, the target HR-MS shall enter the network and receive any pending messages from the HR-BS. 3