US20110200008A1 - Media independent handover for mobility - Google Patents

Media independent handover for mobility Download PDF

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US20110200008A1
US20110200008A1 US13/093,449 US201113093449A US2011200008A1 US 20110200008 A1 US20110200008 A1 US 20110200008A1 US 201113093449 A US201113093449 A US 201113093449A US 2011200008 A1 US2011200008 A1 US 2011200008A1
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handover
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network interface
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Alan Gerald Carlton
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InterDigital Technology Corp
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InterDigital Technology Corp
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Priority to US11/091,159 priority patent/US7710923B2/en
Priority to US11/463,748 priority patent/US7933245B2/en
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Priority to US13/093,449 priority patent/US20110200008A1/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/005Control or signalling for completing the hand-off involving radio access media independent information, e.g. MIH [Media independent Hand-off]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/16Performing reselection for specific purposes
    • H04W36/18Performing reselection for specific purposes for allowing seamless reselection, e.g. soft reselection
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/34Reselection control
    • H04W36/36Reselection control by user or terminal equipment

Abstract

A method and apparatus for establishing a wireless communication link using a radio access technology selected from a plurality of radio access technologies are provided. A wireless transmit/receive unit (WTRU) may include a plurality of network devices, each configured to communicate via a different radio access technology. The WTRU may transmit measurement information including measurement reports for the plurality of radio access technologies to a network device. The WTRU may receive a link selection decision from the network device and may establish a wireless communication link in response to the decision. The link may be established for handover of a communication session from another radio access technology.

Description

    CROSS REFERENCE TO RELATED APPLICATIONS
  • This application is a continuation of U.S. application Ser. No. 11/463,748 filed on Aug. 10, 2006, which issued as U.S. Pat. No. 7,933,245 on Apr. 26, 2011 and which is a continuation of U.S. patent application Ser. No. 11/091,159 filed on Mar. 28, 2005, which issued as U.S. Pat. No. 7,710,923 on May 4, 2010 which claims the benefit of U.S. Provisional Application No. 60/569,015, filed May 7, 2004, which are incorporated by reference as if fully set forth herein.
  • FIELD OF INVENTION
  • The present invention generally relates to wireless communication systems, and more particularly, to a method and system for implementing a media independent handover between different wireless network types.
  • BACKGROUND
  • Typical mobile systems have two main operating modes: Idle mode and Connected mode. In Idle mode, the station (STA) characteristics include: no user service (i.e., no call or transaction in progress); monitoring of paging channels; available service request channels; 100% of the receiver is available for downlink measurements of the radio environment; background coordination; and unscheduled access point (AP) and/or technology reselection. In Connected mode, the STA characteristics include: an active user service (e.g., a call is in progress); handover is possible; limited receiver availability for measurements (since the user service takes priority); and fully coordinated, scheduled AP and/or technology handover.
  • Prior to entering Idle mode (e.g., at power-up), the STA must perform selection in order to determine the best AP and technology available for the requested user service. While in the Idle mode, the STA continuously examines neighboring APs and APs with different technologies. Upon determination of a “better” AP, the STA will transition over (i.e., perform “reselection”) to the new AP.
  • While in the Connected mode, a handover occurs upon transition from one AP to another AP offering “better” service, including switching to an AP using a different technology. In an ideal case, handover occurs without noticeable interruption of the active user service.
  • One goal is to achieve a seamless handover (i.e., to permit mobility of a STA) between different wireless network types, such as between different wireless local area network (WLAN) types or between a WLAN and a cellular system. Current technology does not provide for this type of handover.
  • FIG. 1 is a diagram of an existing cellular mobility model 100, showing a centralized radio resource management (RRM) approach to the mobility issue. A cellular STA 102 (e.g., a 2G mobile station or a 3G user equipment) is freely mobile among a plurality of APs 104. The APs 104 can include, but are not limited to, GSM base stations and FDD/CDMA Node Bs. The APs 104 are connected together via a radio network 106. A handover policy function (HPF) 108 is used to direct the handover of the STA 102 among the APs 104 as the STA 102 moves about. The HPF 108 is centrally located (e.g., in a 2G base station controller (BSC) or a 3G radio network controller (RNC)) and is connected to a network 110 (e.g., a switch or a server).
  • The HPF 108 provides coordination as the STA 102 moves about the different APs 104. The STA 102 sends measurements to the HPF 108, and the HPF 108 makes the final decision regarding handover and which AP 104 the STA 102 should be on.
  • In the model 100, semi-static frequency assignments are made to each AP 104 and some radio planning is required. In Idle mode, both intra-technology (e.g., GSM to GSM) and inter-technology (e.g., GSM to FDD/WCDMA) AP selection/reselection decisions are made in the STA 102 and are supported by system information (from the network 110) broadcast by the HPF 108. In Connected mode, AP handover decisions are made in the HPF 108 and are supported by measurements made by the STA 102 that are sent to the HPF 108 via L3 signaling.
  • FIG. 2 is a diagram of an existing WLAN mobility model 200, showing a distributed RRM approach to the mobility issue. An 802.x STA 202 is freely mobile among a plurality of APs 204, which can include, but are not limited to 802.11a and 802.16 APs. The APs 204 communicate via a radio network 206 and to a network 208 (e.g., a gateway or router).
  • In the model 200, dynamic frequency assignments are made to each AP 204 and radio planning is not required. The only type of handover supported in the mobility model 200 is an intra-technology (e.g., 802.11a to 802.11a) Idle mode handover, where the AP selection/reselection decision is made autonomously in the STA 202. The other handover types (Idle mode with inter-technology and Connected mode) are not supported in the mobility model 200.
  • In this distributed RRM approach, the APs 204 can be deployed anywhere and they dynamically manage themselves. There is no centralized point through which RRM is performed, and therefore, no element in the architecture to execute a handover.
  • FIG. 3 is a diagram of existing mobile system architectures for cellular and WLAN network types. A GPRS (2G) STA 300 includes a physical layer 302, a data link layer 304, and a network layer 306. The data link layer 304 includes a medium access control (MAC) sublayer 310 and a radio link control (RLC) sublayer 312. The network layer 306 includes a GSM radio resource (RR) manager 314, a mobility management (MM) protocol manager 316, and an Internet Protocol (IP)/convergence manager 318.
  • A 3GPP (3G) STA 320 includes a physical layer 322, a data link layer 324, and a network layer 326. The data link layer 324 includes a MAC sublayer 330 and a RLC sublayer 332. The network layer 326 includes a 3G RR controller 334, a MM protocol manager 336, and an IP/convergence manager 338.
  • An 802.xx STA 340 includes a physical layer 342, a data link layer 344, and a network layer 346. The data link layer 344 includes a MAC sublayer 350 and a logical link (LLC) sublayer 352. The network layer 346 includes a mobile IP manager 354 and an IP/convergence manager 356.
  • The RR manager/controller (314, 334) manages the instantaneous radio link, handling all of the information regarding a radio link. The MM protocol (316, 336, 354) handles network level issues, such as registration and location updating as the STA moves about the system (i.e., issues outside of the call itself).
  • Current WLAN systems offer only a limited mobility capability. Intra-technology (e.g., 802.11 to 802.11) and inter-technology (e.g., 802.11 to 802.16) user transitions are supported using a “break before make” strategy that can be characterized as a reselection operation, as opposed to a handover operation in a typical full mobility system (e.g., GSM). This problem limits the growth of WLAN technologies, as this approach is unsatisfactory for supporting real time services such as voice and video streaming.
  • SUMMARY
  • A method and apparatus for establishing a wireless communication link using a radio access technology selected from a plurality of radio access technologies are provided. A wireless transmit/receive unit (WTRU) may include a plurality of network devices, each configured to communicate via a different radio access technology. The WTRU may transmit measurement information including measurement reports for the plurality of radio access technologies to a network device. The WTRU may receive a link selection decision from the network device and may establish a wireless communication link in response to the decision. The link may be established for handover of a communication session from another radio access technology.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • A more detailed understanding of the invention may be had from the following description of a preferred embodiment, given by way of example, and to be understood in conjunction with the accompanying drawings, wherein:
  • FIG. 1 is a diagram of an existing cellular mobility model;
  • FIG. 2 is a diagram of an existing WLAN mobility model;
  • FIG. 3 is a diagram of existing mobile system architectures for cellular and WLAN network types;
  • FIG. 4 is a diagram of a mobility architecture in a WLAN in accordance with the present invention and how it compares to cellular network types;
  • FIG. 5 is a diagram of a WLAN mobility model in accordance with the present invention;
  • FIG. 6 is a diagram showing construction of a STA architecture to implement a distributed handover policy function of the present invention; and
  • FIG. 7 is a diagram showing construction of a STA architecture to implement a centralized handover policy function of the present invention.
  • DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
  • Hereafter, the term “station” (STA) includes, but is not limited to, a wireless transmit/receive unit, a user equipment, a fixed or mobile subscriber unit, a pager, or any other type of device capable of operating in a wireless environment. When referred to hereafter, the term “access point” (AP) includes, but is not limited to, a base station, a Node B, a site controller, or any other type of interfacing device in a wireless environment.
  • FIG. 4 is a diagram of a mobility architecture in a WLAN and how it compares to cellular network types. The GPRS STA 300 and the 3GPP STA 320 are identical to the STAs described above in connection with FIG. 3. An 802.xx STA 400 includes a physical layer 402, a data link layer 404, and a network layer 406. The data link layer 404 includes a MAC sublayer 410 and a LLC sublayer 412. The network layer 406 includes a media independent handover layer 414, a mobile IP manager 416, and an IP/convergence manager 418. The remainder of the discussion focuses on the media independent handover (MIH) layer 414 and how it operates within a mobility model. The MIH layer 414 performs functions similar to the GSM RR 314 and the 3G RRC 334.
  • FIG. 5 is a diagram of a WLAN mobility model 500 in accordance with the present invention, showing two basic HPF options, distributed and centralized. These options relate to the situations not previously addressed by mobility models, i.e., Idle mode with inter-technology handover and Connected mode handover.
  • An 802.x STA 502 is freely mobile among a plurality of APs 504, which can include, but are not limited to 802.11a and 802.16 APs. The APs 504 communicate via a radio network 506 and to a network 508 (e.g., a gateway or router).
  • The model 500 can implement a distributed HPF 510 at the STA 502 and/or a centralized HPF 520 at the network 508.
  • In a distributed HPF setting, the STA makes the selection, reselection, and handover decisions autonomously. This includes Idle mode, inter-technology selection/reselection and both Connected mode handover types.
  • In a centralized HPF setting, the HPF located on the system side assists in the selection and reselection processes, and makes the handover decisions supported by information gathered by the STA. The information is communicated from the STA to the HPF via the signaling mechanisms of the present invention (i.e., the MIH layer). This includes Idle mode, inter-technology selection/reselection and both Connected mode handover types.
  • FIG. 6 is a block diagram of a functional architecture for a STA 600 utilizing the distributed HPF of the present invention. The STA 600 includes a physical sublayer management entity (ME) 602 and a MAC sublayer ME 604. A HPF 606 communicates with both the physical sublayer ME 602 and the MAC sublayer ME 604. A local management information base 608 stores information accessed by the HPF 606 in making the handover decision. The physical sublayer ME 602 includes a physical layer convergence procedure (PLCP) sublayer 610 and a physical medium dependant (PMD) sublayer 612. The MAC sublayer ME 604 includes a MAC sublayer 614.
  • Reselection and handover decisions are made autonomously by the STA 600. The HPF 606 receives measurements and other events (information typically used in making a handover decision) from the MAC sublayer ME 604 and the physical sublayer ME 602. The HPF 606 processes this information and makes an autonomous decision whether to perform a handover.
  • This is a limited handover solution, and is really just an extension of the reselection procedure and would be characterized as such in a typical mobile system. This is an adequate, but sub-optimal solution, mainly due to the use of a “break then make” strategy. With this strategy, when a STA knows that its radio link is deteriorating, it breaks the current link or the link independently fails before the new link is established. The resource availability to complete the handover is not guaranteed, and could lead to dropped calls of the new AP lacks the resources to accommodate the handover. The possibility of dropped calls is an adequate solution for non-real time services, but is an unacceptable solution for real time services such as voice communications. Furthermore, this is a poorly scalable solution, for the same reasons; i.e., as more STAs are added to the system, the performance will deteriorate.
  • FIG. 7 is a block diagram of a functional architecture for a STA 700 utilizing the centralized HPF. The STA 700 includes a physical sublayer ME 702 and a MAC sublayer ME 704. A media independent handover (MIH) layer 706 communicates with both the physical sublayer ME 702 and the MAC sublayer ME 704. The MIH layer 706 communicates with a MIH layer 708 on the system side. The MIH layer 708 communicates with a system HPF 708. The physical sublayer ME 702 includes a PLCP sublayer 712 and a PMD sublayer 714. The MAC sublayer ME 704 includes a MAC sublayer 716.
  • The MIH layer 706 and the system HPF 710 communicate via the MIH layer 708. The MIH layer 706 sends measurements to the HPF 710 and the HPF 710 sends system information to the MIH layer 706. The reselection and handover decisions are coordinated between the MIH layer 706 and the HPF 710 based on this exchange of information. This use of both the MIH layer 706, the MIH layer 708, and the HPF 710 is analogous to a cellular system type of handover.
  • Reselection and handover decisions are coordinated by the HPF 710 and are supported by measurement reports and system signaling received via the MIH layers 706, 708. This is a fast, optimal handover solution due to the centralized decision-making which uses a make then break strategy, guaranteeing resource availability to complete the handover. This is an adequate solution for non-real time services, an acceptable solution for real time services, and is easily scalable, providing a full mobility solution.
  • In order to support a full mobility solution, both a mobility protocol (e.g., MM, mobile IP, SIP, etc.) and a resource control protocol (e.g., RRC or MIH layer) are required. The mobility protocol supports functions such as discovery, registration, tunneling, termination (or paging), handover at the network level (between two switches), and security. The resource control protocol supports functions such as system information, termination (or paging), cell selection/reselection, establishment, release, measurement reporting, power control, and handover at the radio level (between two radios). Handover support provided at both levels is required to support a full mobility solution.
  • On the network side, both the MIH layer 708 and the HPF 710 can be positioned in any centralized entity, such as an AP, a server, a database, or a router. In a preferred embodiment, the MIH layer 708 and the HPF 710 are located in an AP or an AP controller. The MIH layer 708 and the HPF 710 are separate logical entities. The MIH layer 708 acts as a state machine, gathering the necessary information and passing it to the HPF 710. The HPF 710 makes the handover decision based upon the information received.
  • While the present embodiment has been described in terms of a WLAN, the principles of the present embodiment are equally applicable to any type of wireless communication system. The centralized HPF architecture can be extended to support wireless to wired interworking scenarios, such as a handover policy when connecting a wireless device to a wireline system. An example of this would be using an 802.11-enabled laptop and then docking the laptop and using handover to take advantage of an Ethernet connection to the laptop docking station.
  • Although the elements shown in FIGS. 6 and 7 are illustrated as separate elements, these elements may be implemented on a single integrated circuit (IC), such as an application specific integrated circuit (ASIC), multiple ICs, discrete components, or a combination of discrete components and IC(s). In certain implementations, the functionality of embodiments and features of the invention may be present in discrete component(s)/IC(s) and may be partially/totally disabled or deactivated.
  • Although the features and elements of the present invention are described in the preferred embodiments in particular combinations, each feature or element can be used alone (without the other features and elements of the preferred embodiments) or in various combinations with or without other features and elements of the present invention.

Claims (17)

1. A method for use in a wireless transmit/receive unit (WTRU), the method comprising:
transmitting measurement information to a network device, wherein the measurement information includes a first measurement report associated with a first radio access technology (RAT) and a second measurement report associated with a second RAT;
receiving, from the network device, a link selection decision indicating a selected RAT, wherein the selected RAT is the first RAT or the second RAT; and
establishing a first wireless communication link using the selected RAT.
2. The method of claim 1, further comprising:
receiving a first measurement report from a first network interface device associated with the first RAT; and
receiving a second measurement report from a second network interface device associated with the second RAT.
3. The method of claim 2, wherein the first network interface device includes a Link Layer Control (LLC) unit, a Medium Access Control (MAC) unit, and a physical access (PHY) unit.
4. The method of claim 2, wherein the second network interface device includes a Link Layer Control (LLC) unit, a Medium Access Control (MAC) unit, and a physical access (PHY) unit.
5. The method of claim 1, wherein the first RAT is an 802.11 RAT and the second RAT is an 802.16 RAT.
6. The method of claim 1, wherein the transmitting includes transmitting the measurement information via the first RAT or the second RAT.
7. The method of claim 1, wherein the transmitting and receiving are performed by a media independent device.
8. The method of claim 1, wherein the receiving a link selection decision includes receiving a handover decision and the establishing the first wireless communication link includes performing an inter-technology handover for a communication session in response to the handover decision.
9. The method of claim 8, wherein the inter-technology handover includes:
performing the communication session via a second wireless communication link;
discontinuing the communication session on the second wireless communication link; and
continuing the communication session via the first wireless communication link.
10. A wireless transmit/receive unit (WTRU) comprising:
a first network interface configured to communicate using a first radio access technology (RAT);
a second network interface configured to communicate using a second RAT; and
a media independent device configured to:
transmit measurement information to a network device, wherein the measurement information includes a first measurement report associated with the first RAT and a second measurement report associated with the second RAT;
receive, from the network device, a link selection decision indicating a selected RAT, wherein the selected RAT is the first RAT or the second RAT; and
establish a first wireless communication link using the selected RAT.
11. The WTRU of claim 10, wherein the media independent device is configured to:
receive the first measurement report from the first network interface device; and
receive the second measurement report from the second network interface device.
12. The WTRU of claim 10, wherein the first network interface device includes a Link Layer Control (LLC) unit, a Medium Access Control (MAC) unit, and a physical access (PHY) unit.
13. The WTRU of claim 10, wherein the second network interface device includes a Link Layer Control (LLC) unit, a Medium Access Control (MAC) unit, and a physical access (PHY) unit.
14. The WTRU of claim 10, wherein the first RAT is an 802.11 RAT and the second RAT is an 802.16 RAT.
15. The WTRU of claim 10, wherein the media independent device is configured to transmit the measurement information via the first RAT or the second RAT.
16. The WTRU of claim 10, wherein the link selection decision includes a handover decision and the media independent device includes an inter-technology handover device configured to perform an inter-technology handover of a communication session in response to the handover decision.
17. The WTRU of claim 16, wherein the second network interface device is configured to perform the communication session via a second wireless communication link and the inter-technology handover device is configured to perform the handover by:
controlling the second network interface to discontinue the communication session on the second wireless communication link; and
controlling the first network interface to continue the communication session via the first wireless communication link.
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US11/091,159 US7710923B2 (en) 2004-05-07 2005-03-28 System and method for implementing a media independent handover
US11/463,748 US7933245B2 (en) 2004-05-07 2006-08-10 Media independent handover for mobility
US13/093,449 US20110200008A1 (en) 2004-05-07 2011-04-25 Media independent handover for mobility

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