This application claims the benefit of Indian Patent Application No. 1979/CHE/2005, filed on Dec. 30, 2005, in the Government of India Office of the Controller-General of Patents, Designs and Trademarks, and of Korean Patent Application No. 2006-117909, filed on Nov. 27, 2006, in the Korean Intellectual Property Office, the disclosures of which are incorporated herein in their entireties by reference.
1. Field of the Invention
Aspects of the present invention relate to a method and an apparatus to make fast mobile internet protocol version 6 (FMIPv6) relatively faster by using a faster layer 2 (L2) handover, and, more particularly, to a method and an apparatus to use FMIPv6 to trigger relatively faster L2 handover.
2. Description of the Related Art
Generally, an FMIPv6 technique includes a sending of a future prefix to a mobile node (MN) in advance. Thus, handoff latency is reduced when the MN moves from a previous access router (PAR) to a next access router (NAR).
As shown in
1) An MN sends a router solicitation for a proxy advertisement (RtSolPr) to a PAR to obtain information on neighboring ARs.
2) The MN receives a proxy router advertisement (PrRtAdv) message including one or more AP-identifications (ID) and/or one or more items of AR-information (Info) from the PAR.
3) The MN sends a fast binding update (FBU) message to the PAR.
4) The PAR sends a handover initiate (HI) message to an NAR.
5) The NAR sends a handover acknowledge (HAck) message to the PAR.
6) The PAR sends a fast binding acknowledgement (FBAck) message to a new link. If the FBU message has been sent from a previous link, the FBAck message is also optionally sent from the previous link.
7) The MN is attached to the NAR and then sends a fast neighbor advertisement (FNA) message to the NAR.
However, according to the above-described technique, when an MN moves from an AP2 to an AP3 during handover, the AP3 has no prior information on the MN. Therefore, a general “Association” [IEEE] process between AP3 and the MN must be undertaken. This causes an L2 handoff latency.
Related art references related to the present invention are provided below.
Aspects of the present invention provide a method and an apparatus to minimize a handoff latency generated during a handover of a mobile node (MN).
According to an aspect of the present invention, there is provided a method and an apparatus for using fast mobile internet protocol version 6 (FMIPv6) to trigger faster layer 2 (L2) handover. The method and apparatus have following features.
The present invention relates to a method of using FMIPv6 messages during a predictive handover to provide for a reduction of the L2 handoff latency.
Accordingly, the present invention will describe a method and an apparatus to use FMIPv6 so as to trigger a relatively faster L2 handover of an MN from an initial access point associated with a previous access router (PAR) to a neighboring access point associated with a next access router (NAR). The method includes following operations:
(a1) the PAR sending the neighboring access point ID in a handover initiate (HI) message;
(a2) the PAR obtaining an IPv6 address of the neighboring access point from a handover acknowledge (HAck) message;
(a3) the PAR transferring the IPv6 address of the neighboring access point and an IPv6address of the MN to an initial access point;
(b1) the MN sending the neighboring access point ID in a fast binding update (FBU) message;
(c1) a NAR receiving the neighboring access point ID from the HI message;
(c2) the NAR sending the IPv6 address of the neighboring access point in the HAck message;
(d1) the initial access point obtaining the IPv6 address of the neighboring access point from the PAR;
(d2) the initial access point sending parameters specific to the MN directly to the neighboring access point, to cause the neighboring access point to allocate resources for the MN in advance; and
(e1) the neighboring access point receiving a message from the initial access point and then allocating the resources in advance for the MN.
First, the MN performs a scanning operation and obtains a neighboring access point ID. The MN sends a router solicitation for a proxy advertisement (RtSolPr) message to a PAR and the PAR sends a proxy router advertisement (PrRtAdv) message to the MN. The MN sends a fast binding update (FBU) message to the PAR. The neighboring access point ID is included in the FBU message. The PAR sends a HI message together with a context transfer and the neighboring access point ID. A NAR sends a HAck message together with an IPv6 address of a neighboring access point. The PAR informs an initial access point that the MN is trying to move to the neighboring access point. The IPv6 address of the neighboring access point is sent to the initial access point. The initial access point directly contacts the neighboring access point through its IPv6 address and then sends resource allocation parameters specific to the MN. The PAR sends an FBAck to the MN. The MN performs a handover.
Additional and/or other aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
These and/or other aspects and advantages of the invention will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below in order to explain the present invention by referring to the figures.
1) A mobile node (MN) performs a scanning operation and obtains an access point 3 (AP3)-ID.
2) The MN sends a router solicitation for a proxy advertisement (RtSolPr) message to a previous access router (PAR).
3) The PAR sends a proxy router advertisement (PrRtAdv) message to the MN.
4) The MN sends a fast binding update (FBU) message to the PAR. The AP3-ID is included in the FBU message.
5) The PAR sends a handover initiate (HI) message together with a context transfer and the AP3-ID.
6) The NAR sends a handover acknowledge (HAck) message together with an IPv6 address of AP3.
7) The PAR informs access point 2 (AP2) regarding the MN trying to move to AP3. The IPv6 address of AP3 is sent to AP2.
8) AP2 contacts AP3 through IPv6 address thereof and then sends resource allocation parameters specific to the MN.
9) The PAR sends a fast binding acknowledgement (FBAck) message to the MN.
10) Then, the MN is able to immediately perform a handover.
MIPv6 enables an MN to maintain a connection to the internet when the MN moves from one access router to another, which is an operation that is referred to as a handover. During such a handover, the MN is unable to send or receive packets for a certain period due to link switching delay and IP protocol operations. Such handover latency resulting from standard MIPv6 procedures (i.e., motion detection, new care-of address configuration and binding updates), is often unacceptable for real-time traffic such as voice over IP. Reduction of handover latency is also beneficial for non real-time, throughput-sensitive applications. Indeed, an aspect of the present invention is to reduce link-switching latency (L2 handover latency) during network handover. To this end, aspects of the present invention reduce the L2 handoff latency, dictate that the present invention be compatible with existing standards, and are simple and relatively easily deployable.
According to an embodiment of the present invention, a method of reducing L2 handoff latency while an MN performs a network handover is suggested.
1) A mobile node (MN) performs a scanning operation and obtains an access point 3 (AP3)-ID.
2) The MN sends a router solicitation for proxy advertisement (RtSolPr) message to a previous access router (PAR).
3) The PAR sends a proxy router advertisement (PrRtAdv) message to the MN.
4) The MN sends a fast binding update (FBU) message to the PAR. The AP3-ID is included in the FBU message.
5) The PAR sends a handover initiate (HI) message together with a context transfer and the AP3-ID.
6) The NAR sends a handover acknowledge (HAck) message together with an IPv6 address of AP3.
7) The PAR informs access point 2 (AP2) that the MN is trying to move to AP3. The IPv6 address of AP3 is sent to AP2.
8) AP2 contacts AP3 through an IPv6 address thereof and, then, sends resource allocation parameters specific to the MN to the AP3.
9) The PAR sends a fast binding acknowledgement (FBAck) message to the MN.
10) The MN is then able to immediately perform a handover.
According to an aspect of the present invention as is described above, packet loss is reduced during an ongoing session of an MN while the MN performs a handover, and L2 handoff latency of the MN is also reduced. Re-configuration or support of v6 routers is not required. Also, a method according to aspects of the present invention may be realized easily and be embodied with a minimum modification of a conventional apparatus.
Although a few embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
Number | Date | Country | Kind |
---|---|---|---|
1979/CHE/2005 | Dec 2005 | IN | national |
2006-117909 | Nov 2006 | KR | national |