Station mobility between access points
Various embodiments are discussed for approaches to transparent mobility, which attempts to permit a wireless station to be handed off between wireless access points without packet loss, without noticeable delay to the station user, and/or without loss of session continuity.
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Transparent mobility permits a wireless station to be handed off between wireless access points without packet loss, without noticeable delay to the station user, and/or without loss of session continuity. Enabling the transparent mobility of a station among access points is a goal of Inter-Access Point Protocol (IAPP). However, IAPP for years has been at the stage of an unapproved draft IEEE standard 802.11f. In addition, 802.11f support is uncertain for all the attributes necessary for transparent mobility among access points, and extremely unlikely with regard to mobile VLAN support, due to the lack of focus on the distribution system in 802.11f. Thus, it would be desirable to enable transparent mobility between access points, while maintaining support for the VLANs utilized by a user of a mobile station.
SUMMARYTransparent mobility can be enabled by communicating session data, including backed up packets and/or Authentication, Authorization and Accounting (AAA) data, between access points, and/or communicating tunneling VLAN data between the distribution system managing the access points.
Communicating the AAA data, such as keys, between access points is one element that enables the fast handoff of a station from an old access point to a new access point, by eliminating the time which would otherwise be spent at the new access point reauthenticating the handed off station, etc.
In addition, a tunnel can automatically be created between the distribution system switches. VLAN data is subsequently tunneled between the switches of the distribution system. Tunneling VLAN data also simplifies configuration of the distribution system switches, because relevant VLAN can be configured on only some switches of the distribution system, rather than on every switch of the distribution system. Tunneling VLAN data from the correct distribution system switch also saves bandwidth, as compared to broadcasting the VLAN data to all switches of the distribution system.
BRIEF DESCRIPTION OF FIGURES
Various embodiments are shown. Each shown embodiment can be modified, such as by adding, removing, and/or changing one or more portions, and/or rearranging one or more portions.
Various types of user roaming can occur from a distribution system switch in the same cluster, with different types of “recognition”.
In one case, roaming between distribution system switches in the same cluster can use an 802.11 reassociation. A reassociation packet includes the address of an access point that the user is roaming from. A distribution system switch has a list (which can be distributed beforehand) of all access point addresses, and the particular distribution system switches in that cluster the AP is attached to. A “roamed-to” distribution system switch can directly contact a “roamed-from” distribution system switch.
In another case, a user can send an 802.11 associate packet. The distribution system switch can send message to all other cluster members asking if user is known (how broken clients actually work that don't send reassociate packet) (broadcast everytime user enters system)
In 210, AAA data are created corresponding to a wireless station. This can occur at least partly prior to communicating data of a first virtual local area network to the wireless station via a first distribution system switch connected to the first virtual local area network. The AAA data corresponding to the wireless station can be stored at the first distribution system switch. The AAA data corresponding to the wireless station can be transferred to a second distribution system switch. The second distribution system switch is connected to an access point which a wireless station moves to.
AAA data include authentication data such as keys; authorization data such as access lists and VLAN association information (i.e. for network security), and whether or not a user is permitted to connect to a particular distribution system switch and/or access point; and accounting data, such as a complete or incomplete session history including roams, total packets sent, error packets, etc.
In 220, data of the first virtual local area network are communicated to the wireless station via the first distribution system switch. This occurs at least partly prior to the wireless station moving from a first wireless area of a first access point to a second wireless area of a second access point. Both the first access point and the second access point belong to a wireless local area network.
In 230, a moving wireless station is detected. More particularly, it is detected that the wireless station moves in a wireless local area network. The movement is from a first wireless area to a second wireless area. The first wireless area corresponds to a first access point, such that wireless stations in the first wireless area can associate with the first access point. The second wireless area corresponds a second access point, such that wireless stations in the second wireless area can associate with the second access point. The first wireless area and the second wireless area can partly or completely overlap, and/or not overlap. Both the first access point and the second access point are access points of a wireless local area network. Detection of the movement can be logical detection of movement. For example, the second access point can be said to have detected movement of the wireless station upon successful communication with the wireless station. Detection of the movement can be physical. For example, movement of the wireless station can be detected based upon measurements of the radio emissions of the wireless station.
The wireless local area network can include an interconnected distribution system, and multiple access points, such as the first access point and the second access point. The interconnected distribution system can include multiple distribution system switches, such as a first distribution system switch and a second distribution system switch. The first distribution system switch is connected to the first access point. The second distribution system switch is connected to the second access point.
The wireless station can correspond to at least a first virtual local area network of the wireless local area network. For example, one or more users of the wireless station can be users of the first virtual local area network. The first virtual local area network is connected to at least the first distribution system switch.
In 240, in response to the wireless station moving in the wireless local area network, the first virtual local area network is tunneled to the second distribution system switch. In some embodiments, such tunneling can occur if the second distribution system switch is not connected to the first virtual local area network. One type of tunneling includes layer 3 tunneling of layer 2 virtual local area network data. Tunneling can include communicating data of the first virtual local area network to the wireless station via the second distribution system switch. This can occur at least partly after the wireless station moves from the first wireless area to the second wireless area. Tunneling can include tunneling the first virtual local area network from the first distribution system switch and/or from a third distribution system switch. The third distribution system switch can be part of the interconnected distribution system of the wireless local area network, along with the first distribution system switch and the second distribution system switch. The third distribution system switch is connected to the first virtual local area network.
In 310, data of the first virtual local area network are communicated to the wireless station via the first distribution system switch. This occurs at least partly prior to the wireless station moving from a first wireless area of a first access point to a second wireless area of a second access point. Both the first access point and the second access point belong to a wireless local area network.
In 320, a moving wireless station is detected. More particularly, it is detected that the wireless station moves in a wireless local area network. The movement is from a first wireless area to a second wireless area. The first wireless area corresponds to a first access point, such that wireless stations in the first wireless area can associate with the first access point. The second wireless area corresponds a second access point, such that wireless stations in the second wireless area can associate with the second access point. The first wireless area and the second wireless area can partly or completely overlap, and/or not overlap. Both the first access point and the second access point are access points of a wireless local area network. Detection of the movement can be logical detection of movement. For example, the second access point can be said to have detected movement of the wireless station upon successful communication with the wireless station. Detection of the movement can be physical. For example, movement of the wireless station can be detected based upon measurements of the radio emissions of the wireless station.
The wireless local area network can include an interconnected distribution system, and multiple access points, such as the first access point and the second access point. The interconnected distribution system can include multiple distribution system switches, such as a first distribution system switch and a second distribution system switch. The first distribution system switch is connected to the first access point. The second distribution system switch is connected to the second access point.
The wireless station can correspond to at least a first virtual local area network of the wireless local area network. For example, one or more users of the wireless station can be users of the first virtual local area network. The first virtual local area network is connected to at least the first distribution system switch and the first distribution system switch.
In 330, in response to the wireless station moving in the wireless local area network, AAA data corresponding to the wireless station are transferred to the second distribution system switch. The AAA data corresponding to the wireless station can be stored at the first distribution system switch. In some embodiments, the AAA data corresponding to the wireless station can be created at least partly prior to communicating data of the first virtual local area network to the wireless station via the first distribution system switch.
In 340, data of the first virtual local area network are communicated to the wireless station via the second distribution system switch. This occurs at least partly after the wireless station moves from the first wireless area to the second wireless area. In some embodiments, communicating data of the first virtual local area network to the wireless station via the second distribution system switch can occur without communicating the data via the first distribution system switch.
In 410, a wireless station attempting to communicate is detected. Detection of attempting to communicate can be logical and/or physical detection. More particularly, it is detected that the wireless station is attempting to communicate with a first virtual local area network via a first access point. The first access point is an access point of a wireless local area network. The first access point is connected to a first distribution system switch of the wireless local area network.
In response to the wireless station attempting to communicate, one or more events can occur.
In 420, AAA data corresponding to the wireless station are created. The AAA data corresponding to the wireless station can be stored at the first distribution system switch.
In 430, it is recognized that the first distribution system switch is not connected to the first virtual local area network.
In 440, it is recognized that a second distribution system switch is connected to the first virtual local area network. The first distribution system switch and the second distribution system switch are at least part of an interconnected distribution system of the wireless local area network. AAA data corresponding to the wireless station can be transferred to the second distribution system switch. For example, AAA data corresponding to the wireless station can be communicated from the first distribution system switch to the second distribution system switch.
In 450, the first virtual local area network is tunneled from the second distribution system switch to the first distribution system switch. This can occur after communicating AAA data corresponding to the wireless station from the first distribution system switch to the second distribution system switch. The tunneling can include layer 3 tunneling of layer 2 virtual local area network data.
In 460, data of the tunneled first virtual local area network are communicated to the wireless station via the first distribution system switch. This can occur after AAA data corresponding to the wireless station are communicated from the first distribution system switch to the second distribution system switch.
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Clusters can also share information about other distribution system switches in the same cluster, such as known IP addresses of other distribution system switches, and/or addresses of attached access points, with other distribution system switches in the same cluster.
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In another embodiment, a wireless station has a wireless connection to a first access point connected to a first distribution system switch. While a user roams to a second access point connected to a second distribution system switch, packets arrive at the first access point, and are queued, for example on the first access point and/or the first distribution system switch. When a user finishes roaming to the second distribution system switch, packets are extracted from the queue, and inserted into the transmit queue for the user on the second access point attached to the second distribution system switch.
Claims
1. A wireless local area network method, comprising:
- in response to a wireless station moving in a wireless local area network from a first wireless area of a first access point of the wireless local area network to a second wireless area of a second access point of the wireless local area network,
- wherein the first access point is connected to a first distribution system switch of the wireless local area network and the second access point is connected to a second distribution system switch of the wireless local area network,
- wherein the first distribution system switch and the second distribution system switch are at least part of an interconnected distribution system of the wireless local area network, and
- wherein the wireless station corresponds to at least a first virtual local area network connected to at least the first distribution system switch,
- tunneling the first virtual local area network to the second distribution system switch.
2. The method of claim 1, further comprising:
- at least partly prior to the wireless station moving from the first wireless area of the first access point of the wireless local area network to the second wireless area of the second access point of the wireless local area network, communicating data of the first virtual local area network to the wireless station via the first distribution system switch.
3. The method of claim 1, wherein tunneling includes:
- at least partly after the wireless station moving from the first wireless area of the first access point of the wireless local area network to the second wireless area of the second access point of the wireless local area network, communicating data of the first virtual local area network to the wireless station via the second distribution system switch.
4. The method of claim 2, further comprising:
- at least partly prior to communicating data of the first virtual local area network to the wireless station via the first distribution system switch, creating AAA data corresponding to the wireless station.
5. The method of claim 4, further comprising:
- storing the AAA data corresponding to the wireless station at the first distribution system switch.
6. The method of claim 1, further comprising:
- transferring, to the second distribution system switch, AAA data corresponding to the wireless station.
7. The method of claim 1, wherein tunneling includes tunneling the first virtual local area network from the first distribution system switch.
8. The method of claim 1, wherein tunneling includes tunneling the first virtual local area network from a third distribution system switch of the wireless local area network, the third distribution system switch being at least part of the interconnected distribution system of the wireless local area network, the first virtual local area network connected to at least the third distribution system switch.
9. The method of claim 1, wherein tunneling includes layer 3 tunneling of layer 2 virtual local area network data.
10. The method of claim 1, wherein tunneling the first virtual local area network to the second distribution system switch occurs if the second distribution system switch is not connected to the first virtual local area network.
11. The method of claim 1, further comprising:
- detecting the wireless station moving in the wireless local area network from the first wireless area of the first access point of the wireless local area network to the second wireless area of the second access point of the wireless local area network.
12. A wireless local area network method, comprising:
- in response to a wireless station moving in a wireless local area network from a first wireless area of a first access point of the wireless local area network to a second wireless area of a second access point of the wireless local area network,
- wherein the first access point is connected to a first distribution system switch of the wireless local area network and the second access point is connected to a second distribution system switch of the wireless local area network,
- wherein the first distribution system switch and the second distribution system switch are at least part of an interconnected distribution system of the wireless local area network, and
- wherein the wireless station corresponds to at least a first virtual local area network connected to at least the first distribution system switch and the second distribution system switch,
- transferring AAA data corresponding to the wireless station to the second distribution system switch.
13. The method of claim 12, further comprising:
- at least partly prior to the wireless station moving from the first wireless area of the first access point of the wireless local area network to the second wireless area of the second access point of the wireless local area network, communicating data of the first virtual local area network to the wireless station via the first distribution system switch.
14. The method of claim 12, further comprising:
- at least partly after the wireless station moving from the first wireless area of the first access point of the wireless local area network to the second wireless area of the second access point of the wireless local area network, communicating data of the first virtual local area network to the wireless station via the second distribution system switch.
15. The method of claim 12, wherein communicating data of the first virtual local area network to the wireless station via the second distribution system switch occurs without distribution system switch.
16. The method of claim 13, further comprising:
- at least partly prior to communicating data of the first virtual local area network to the wireless station via the first distribution system switch, creating AAA data corresponding to the wireless station.
17. The method of claim 16, further comprising:
- storing the AAA data corresponding to the wireless station at the first distribution system switch.
18. The method of claim 12, further comprising:
- detecting the wireless station moving in the wireless local area network from the first wireless area of the first access point of the wireless local area network to the second wireless area of the second access point of the wireless local area network.
19. A wireless local area network method, comprising:
- in response to a wireless station attempting to communicate with a first virtual local area network via a first access point of the wireless local area network, wherein the first access point is connected to a first distribution system switch of the wireless local area network,
- recognizing that the first distribution system switch is not connected to the first virtual local area network;
- recognizing that a second distribution system switch is connected to the first virtual local area network, wherein the first distribution system switch and the second distribution system switch are at least part of an interconnected distribution system of the wireless local area network; and
- tunneling the first virtual local area network from the second distribution system switch to the first distribution system switch.
20. The method of claim 19, further comprising:
- communicating data of the tunneled first virtual local area network to the wireless station via the first distribution system switch.
Type: Application
Filed: Apr 5, 2007
Publication Date: Aug 16, 2007
Applicant:
Inventors: Tim Kolar (San Jose, CA), Edward Harriman (Saratoga, CA), Stan Chesnutt (Berkeley, CA), Allan Thomson (Pleasanton, CA), Dan Harkins (La Selva Beach, CA)
Application Number: 11/784,307
International Classification: H04Q 7/00 (20060101);