WO2004073322A2 - Network assisted cell reselection in wireless communications systems and methods - Google Patents

Network assisted cell reselection in wireless communications systems and methods Download PDF

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Publication number
WO2004073322A2
WO2004073322A2 PCT/US2004/003327 US2004003327W WO2004073322A2 WO 2004073322 A2 WO2004073322 A2 WO 2004073322A2 US 2004003327 W US2004003327 W US 2004003327W WO 2004073322 A2 WO2004073322 A2 WO 2004073322A2
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Prior art keywords
reselection
network
communication
receiving
sending
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PCT/US2004/003327
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French (fr)
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WO2004073322A3 (en
Inventor
Mark Pecen
Niels Peter Skov Andersen
Stephen Howell
Arnold Sheynman
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Motorola Inc.
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Priority claimed from US10/358,864 external-priority patent/US7940724B2/en
Application filed by Motorola Inc. filed Critical Motorola Inc.
Priority to EP04708246.6A priority Critical patent/EP1590971B1/en
Priority to KR1020057014340A priority patent/KR101192103B1/en
Priority to CN2004800036347A priority patent/CN1748433B/en
Publication of WO2004073322A2 publication Critical patent/WO2004073322A2/en
Publication of WO2004073322A3 publication Critical patent/WO2004073322A3/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W28/00Network traffic management; Network resource management
    • H04W28/02Traffic management, e.g. flow control or congestion control
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/24Reselection being triggered by specific parameters
    • H04W36/30Reselection being triggered by specific parameters by measured or perceived connection quality data
    • H04W36/302Reselection being triggered by specific parameters by measured or perceived connection quality data due to low signal strength

Definitions

  • the present disclosure relates generally to wireless communications, and more particularly to cell re-selection in wireless communications networks, for example in Global System for Mobile Communication (GSM) and /or (UMTS) networks during packet data interchanges, and methods therefor.
  • GSM Global System for Mobile Communication
  • UMTS UMTS
  • GPRS General Packet Radio Service
  • EDGE Enhanced Data for Global Evolution
  • GSM Global System for Mobile Communications
  • PLMN Public Land Mobile Network
  • User applications were originally envisioned to include Internet browsing capabilities, electronic mail, file transfers and other applications for which best efforts data transfers were appropriate.
  • the market for GPRS/EDGE based services however has grown dramatically and now constitutes a significant amount of network traffic during peak usage periods.
  • NCCS Network Controlled Cell Selection
  • NACS Network Assisted Cell Selection
  • GPRS /EDGE Cell change is achieved in R5 and prior specifications of GPRS/EDGE by simply allowing the mobile user equipment (UE) to reselect cells as it does in idle mode. This procedure causes the mobile UE to abort its packet transfer on one cell and completely re-establish the ongoing transfer on another cell.
  • UE mobile user equipment
  • This simple cell change mechanism is fairly effective if the new cell to which the mobile UE reselects supports GPRS/EDGE data services and has sufficient capacity to support additional packet data traffic. What frequently occurs in system operation, however, is that after the mobile UE aborts operation on the old cell and attempts to reselect to a new cell, the packet data transfer fails, often because the new cell does not have sufficient capacity to support additional packet data traffic. The mobile UE must subsequently wait and try to re-establish the data transfer. Meanwhile, the mobile UE may reselect to another cell, which may accommodate its request for a packet data transfer.
  • the mobile station in GPRS standby and Ready states, performs cell selection autonomously by monitoring the signal strength of adjacent cells specified in a Broadcast Allocation (BA) list, which are broadcast on the PBCCH or on the BCCH in the absence of the PBCCH.
  • BA Broadcast Allocation
  • the UE monitors the serving cell carrier and all neighbor cell carriers indicated on the BA list.
  • a received signal strength measurement indicator (RSSI) is made in every TMDA frame on the BCCH carriers, one after another.
  • the reselection decision process uses the received signal level average (RLA_P), which is calculated as a running average of samples collected over a period of 5 seconds and is maintained for each BCCH carrier.
  • RLA_P received signal level average
  • the samples allocated to each carrier are distributed as uniformly as possible over the evaluation period. At least 5 received signal level measurement samples are required for a valid RLA_P.
  • a path loss criterion parameter CI represents a minimum signal level for cell reselection for GPRS.
  • CI is based on the corresponding RLA_P value and represents a link budget computation based on path loss and assumptions about the RSSI of the serving cell.
  • the mobile reselects when CI is OdBM and when other requirements are met.
  • a cell ranking criterion parameter C32 is for selecting cells among those with the same priority. For the serving cell, C32 is equal to CI. For each neighbor cell, C32 is equal to CI modified with cell broadcast parameters.
  • the signal level threshold criterion parameter C31 for hierarchical cell structures (HCS) is used to assess prioritized hierarchical GPRS.
  • the mobile station updates RLA_P and determines CI, C31 and C32 for the serving cell and the non-serving (neighbor) cells for each new sample collected or every second, whichever is greater.
  • Cell reselection is performed if the path loss criterion parameter CI for the serving cell falls below zero, and if a suitable non-serving cell (see 3GPP TS 03.22) is determined to be better than the serving cell. Generally, the best cell is the one having the greatest value of C32.
  • hysteresis parameter values are subtracted from the C32 value for the neighbor cells.
  • the hysteresis parameter values are broadcast on the serving cell PBCCH. For cell reselection occurring within 15 seconds of a previous reselection, the hysteresis value for RSSI equals to 5 dB. And if no suitable cell is located within 10 seconds, a cell selection algorithm is performed.
  • stationary or semi-stationary mobile UE in suburban and/or urban environments may reselect substantially continuously, usually among 3 to 5 cells every 15 to 45 seconds, forcing the need for re-establishment of the packet data transfer every time reselection occurs.
  • the high frequency of cell reselection however may adversely impact user data throughput.
  • FIG. 1 is an exemplary cellular communications network.
  • FIG. 2 is an exemplary process flow diagram.
  • FIG. 3 is a portion of an exemplary mobile station architecture.
  • FIG.4 represents reselection measurements for a predictor.
  • FIG. 5 represents reselection criteria for the predictor.
  • FIG. 6 is an exemplary message for communication reselection information from a mobile station to a network.
  • FIG. 7 is another exemplary process flow diagram.
  • a mobile station 110 located initially in Cell A 120 and moving toward Cell B 130, attempts to reselect to Cell B based on a known autonomous reselection protocol, for example, when the path loss criterion CI for Cell A falls below OdBm. If Cell B is incapable of supporting the packet data interchange, the mobile station must reselect to another cell, for example, to Cell C, if another cell is available or the mobile station attempt to reselect to Cell B at a later time.
  • the mobile station sends a reselection communication to the network before reselecting.
  • the reselection communication is an indication that reselection is likely to occur at some future time, or that reselection is imminent.
  • the mobile station architecture includes a reselection predictor that predicts when reselection is likely to occur.
  • the reselection predictor 302 receives
  • CI parameter values which are calculated based on RSSI measurements, at an input 304 from a measurement module 310.
  • the CI parameter value is exemplified herein, but other criteria may be used alternatively.
  • the reselection predictor includes an output 306 for indicating when reselection is likely to occur.
  • the mobile station sets a "reselection" bit in an uplink measurement report sent to the network to notify the network of the impending reselection based upon the output of the reselection predictor.
  • the exemplary reselection predictor also includes a second output 308 for indicating to a virtual bearer (VB), for example, a virtual streaming bearer (VSB), or some other module on the mobile station that reselection is imminent.
  • the outputs 306 and 308 may be provided in the alternative, or both outputs may be provided.
  • reselection is performed by a reselection execution module 320 on the mobile station in response to a reselection command when reselection is required.
  • the reselection command may result from a determination made at the network or at the mobile station, as discussed more fully below.
  • reselection is predicted based upon reselection criteria, RC, computed from a set of several curves fit to approximate corresponding sets CI parameter values, and based upon coefficients of the curve.
  • the parabolic curves approximate a set of several ⁇ )i-Cl parameter values, which are based on corresponding RSSI measurements acquired at time .
  • Curve coefficients ao, ai and ⁇ 2 are computed as a function of y ⁇ and ti using a minimuin least squares method based upon a corresponding set of CI parameter values.
  • each parabolic curve is computed to approximate 5 CI parameter values.
  • a new set of parabolic curve coefficients is generated to approximate the 5 most recent CI parameter values.
  • the first parabolic curve is based upon CI values at times ti through ti+4
  • the next parabolic curve is based upon CI values at times ti + i through ti+5
  • the next parabolic curve is based upon CI values at times ti+2 through ti+6, etc.
  • reselection criteria RC points are illustrated in FIG. 4.
  • An exemplary algorithm for the reselection predictor starts the n-points sliding parabola calculation by finding required initial sums based on the first yy, where y is the CI parameter value from the GSM 3GPP standards discussed above, reselection criteria values at the corresponding moments t j :
  • the reselection criteria calculation is based on raw RSSI measurements separated in time by an interval AT .
  • FIG. 5 is a graphical illustration of the reselection criteria RC, and coefficients ⁇ o, ⁇ i and ⁇ 2 - Reselection is determined to be imminent when RC values evaluated at endpoints of several sequential curves are descending, and when the coefficients ⁇ o, ⁇ % and ⁇ 2 for at least some of the several sequential curves satisfy conditions indicative of an impending reselection, as discussed more fully below.
  • m 3 reselection is predicted as follows:
  • the reselection predictor may run continuously during a connection. Each time the conditions for predicting a reselection are satisfied, T r will be updated. When reselection conditions are no longer met, cell reselection will not be predicted.
  • cell reselection may be predicted, determined or assessed by other means or schemes. Additionally, in some applications it may not be necessary to predict precisely when an imminent reselection will occur, so long as the mobile station informs the network with sufficient time to intervene or influences what would otherwise be an autonomous reselection process performed by the mobile station.
  • the network may take several different actions. If the network sees no benefit is commanding the mobile to a particular cell, e.g. if all cells in the mobile's BA list are equally likely to be able to provide the mobile with service or if it does not have sufficient knowledge of the cell that is to be reselected, then the network may choose to allow the mobile to carry out the cell reselection autonomously. In some implementations, the network does not to send a communication to the mobile station in response to the reselection received therefrom.
  • the mobile station may be programmed to reselect autonomously if it does not receive a reply within some specified time interval after sending the reselection communication to the network. This scheme reduces the network-signaling load.
  • the network may authorize autonomous reselection by sending an affirmative communication to the mobile station.
  • the mobile wireless communications device receives a communication with reselection instructions from the network in response to the reselection communication sent by the mobile station. If the network is aware of capacity issues in one or more of cells that are reselection candidates, the network may direct the mobile station to a particular cell, for example, by sending the mobile station the Cell Index of the cell to which the networks wants the mobile to reselect. If the network is aware that the mobile station is in or near a Routing Area (RA) border and that one or more of the cells that may be reselected are in different Routing Areas to the one currently serving the mobile, the network may direct the mobile station to a particular cell within the current or other desired RA.
  • RA Routing Area
  • Allowing the network to control or assist reselection generally reduces the amount of signaling load within a network and reduces the number of breaks in data transmission during packet data interchange, including reduction in the number of SGSN re-allocations. If the network is aware that the mobile is potentially moving out of coverage of the data service, for example, one or more of the cells that may be reselected do not support GPRS, the network may provide a communication indicating that the data service must be terminated, thereby providing some advance notice so that the mobile station may terminate the data interchange gracefully. The advanced termination notice may also be useful to applications sending or receiving data during the packet data interchange. In other embodiments, the network does not . provide any communication to the mobile station when the network is unable to direct the mobile to reselect a cell that can provide continued data service.
  • FIG. 6 is an exemplary message 600 for communicating reselection information from the mobile station to the network.
  • the message is a measurement message, although in other embodiments the information may be embedded in any other wireless communications uplink message.
  • the exemplary message includes a reselection imminent bit 610, which may be set or not set to indicate that reselection is in-minent.
  • the message includes, in addition to or in place of the reselection bit, information regarding when reselection will occur, for example, a time period encoded by a grouping of several bits 620, the presence of which may indicate that reselection is in rninent.
  • the mobile station indicates to the network to which cell the mobile intends to reselect.
  • the message may also include bits for communicating this information.
  • it is desirable to disable certain autonomous reselection mode features on the mobile station for example, it may be desirable to disable a cell ranking parameter on the mobile wireless coiru-nunication device.
  • the exemplary reselection predictor is implemented in GSM mobile stations, it may be desirable to disable the C32 reselection criterion.
  • the mobile station indicates, to the network, whether it supports controlled/assisted reselection (NCARM) mode operation, for example, whether the mobile station is capable of performing reselection prediction.
  • NCARM controlled/assisted reselection
  • This information may be communicated to the network from the mobile station, for example, on the first attach to a PLMN, or during each RAU, or at the start of each data session, i.e. on establishment of a PDP context. If the indication from the mobile station is provided at an RAU, then it will be provided each time the mobile performs an RAU.
  • the mobile will provide the indication each time a PDP context is established and also each time an existing PDP Context is re-established.
  • the network will maintain the information for the duration of the mobiles connection to the network.
  • the mobile station receives a reselection control communication from the network in response to sending the network controlled/assisted reselection mode support communication to the network.
  • the mobile station will perform reselection based on the reselection control communication from the network.
  • the network sends a communication to the mobile station disabling reselection in the mobile station based on adjacent cell signal strength.
  • the network sends a hysteresis parameter to the mobile station disabling use of the C32 criterion parameter for reselection. The purpose of disabling the
  • C32 criterion parameter is to strictly confine cell reselection to RF conditions on the serving cell, which may be predicted by the reselection predictor module discussed above or by some alternative reselection predictor that relies upon the current cell conditions to predict reselection.
  • the mobile will use a reselection predictor for determining when a cell change is due to occur, as indicated at block 740.
  • the network provides the mobile station with a CI criterion threshold that is different than OdB, which is the default CI value. If the network provides an alternative threshold, at block 750, a then the mobile uses the reselection predictor for determining when reselection will occur, as indicated at block 760.
  • the mobile station uses a default 5 second warning for determining when reselection will occur after the 0 dBm reselection threshold condition is satisfied.

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Abstract

A method in a mobile wireless communications network including sending (210) a reselection communication from a mobile station to a network, and receiving (220) from the network in response to the reselection communication, cell reselection assistance, for example, a new cell assignment. In one embodiment, the mobile station disables cell reselection.

Description

NETWORK ASSISTED CELL RESELECTION IN WIRELESS COMMUNICATIONS SYSTEMS AND METHODS
CROSS-REFERNCE TO RELATED APPLICATIONS
The present application is related to copending U.S. provisional patent application No. 60/427,190 entitled "Method And Apparatus for Predicting a Cell Change" filed on 18 November 2002, the disclosure of which is assigned commonly with the instant application.
FIELD OF THE DISCLOSURE
The present disclosure relates generally to wireless communications, and more particularly to cell re-selection in wireless communications networks, for example in Global System for Mobile Communication (GSM) and /or (UMTS) networks during packet data interchanges, and methods therefor.
BACKGROUND
The General Packet Radio Service (GPRS) and its superset, Enhanced Data for Global Evolution (EDGE) for GSM have enabled data interchange among mobile wireless subscriber device users. GPRS/EDGE permit efficient use of radio and network resources when data transmission characteristics are packet based, intermittent and non-periodic, possibly frequent with small transfers of data, for example, less than 500 octets, and possibly infrequent, with large data transfers, for example, transfers of more than several hundred Kbytes. Public Land Mobile Network (PLMN) operators originally saw GPRS/EDGE as means for generating additional revenues based on excess capacity, for example, during non-peak usage periods. User applications were originally envisioned to include Internet browsing capabilities, electronic mail, file transfers and other applications for which best efforts data transfers were appropriate. The market for GPRS/EDGE based services however has grown dramatically and now constitutes a significant amount of network traffic during peak usage periods.
The concepts of Network Controlled Cell Selection (NCCS) and Network Assisted Cell Selection (NACS) were introduced into GSM standards to increase the efficiency of the 3rd Generation enhancement to the General Packet Radio Service (GPRS), addressing the negative impact that cell reselection has on user data throughput.
In order to maintain system simplicity, there exists no real-time handover procedure specified for best effort packet data transfers over
GPRS /EDGE. Cell change is achieved in R5 and prior specifications of GPRS/EDGE by simply allowing the mobile user equipment (UE) to reselect cells as it does in idle mode. This procedure causes the mobile UE to abort its packet transfer on one cell and completely re-establish the ongoing transfer on another cell.
This simple cell change mechanism is fairly effective if the new cell to which the mobile UE reselects supports GPRS/EDGE data services and has sufficient capacity to support additional packet data traffic. What frequently occurs in system operation, however, is that after the mobile UE aborts operation on the old cell and attempts to reselect to a new cell, the packet data transfer fails, often because the new cell does not have sufficient capacity to support additional packet data traffic. The mobile UE must subsequently wait and try to re-establish the data transfer. Meanwhile, the mobile UE may reselect to another cell, which may accommodate its request for a packet data transfer. The mobile station, in GPRS standby and Ready states, performs cell selection autonomously by monitoring the signal strength of adjacent cells specified in a Broadcast Allocation (BA) list, which are broadcast on the PBCCH or on the BCCH in the absence of the PBCCH. During packet transfer mode operation, the UE monitors the serving cell carrier and all neighbor cell carriers indicated on the BA list. A received signal strength measurement indicator (RSSI) is made in every TMDA frame on the BCCH carriers, one after another.
The reselection decision process uses the received signal level average (RLA_P), which is calculated as a running average of samples collected over a period of 5 seconds and is maintained for each BCCH carrier. The samples allocated to each carrier are distributed as uniformly as possible over the evaluation period. At least 5 received signal level measurement samples are required for a valid RLA_P.
Several criteria are used for GPRS cell reselection. A path loss criterion parameter CI represents a minimum signal level for cell reselection for GPRS. CI is based on the corresponding RLA_P value and represents a link budget computation based on path loss and assumptions about the RSSI of the serving cell. The mobile reselects when CI is OdBM and when other requirements are met. A cell ranking criterion parameter C32 is for selecting cells among those with the same priority. For the serving cell, C32 is equal to CI. For each neighbor cell, C32 is equal to CI modified with cell broadcast parameters. The signal level threshold criterion parameter C31 for hierarchical cell structures (HCS) is used to assess prioritized hierarchical GPRS.
The mobile station updates RLA_P and determines CI, C31 and C32 for the serving cell and the non-serving (neighbor) cells for each new sample collected or every second, whichever is greater. Cell reselection is performed if the path loss criterion parameter CI for the serving cell falls below zero, and if a suitable non-serving cell (see 3GPP TS 03.22) is determined to be better than the serving cell. Generally, the best cell is the one having the greatest value of C32. When evaluating the best cell, hysteresis parameter values are subtracted from the C32 value for the neighbor cells. The hysteresis parameter values are broadcast on the serving cell PBCCH. For cell reselection occurring within 15 seconds of a previous reselection, the hysteresis value for RSSI equals to 5 dB. And if no suitable cell is located within 10 seconds, a cell selection algorithm is performed.
During packet data interchange, stationary or semi-stationary mobile UE in suburban and/or urban environments may reselect substantially continuously, usually among 3 to 5 cells every 15 to 45 seconds, forcing the need for re-establishment of the packet data transfer every time reselection occurs. The high frequency of cell reselection however may adversely impact user data throughput.
The various aspects, features and advantages of the disclosure will become more fully apparent to those having ordinary skill in the art upon careful consideration of the following Detailed Description thereof with the accompanying drawings described below. BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is an exemplary cellular communications network.
FIG. 2 is an exemplary process flow diagram. FIG. 3 is a portion of an exemplary mobile station architecture. FIG.4 represents reselection measurements for a predictor. FIG. 5 represents reselection criteria for the predictor. FIG. 6 is an exemplary message for communication reselection information from a mobile station to a network.
FIG. 7 is another exemplary process flow diagram.
DETAILED DESCRIPTION
In FIG. 1, under autonomous cell reselection, for example, during packet data interchange, a mobile station 110, located initially in Cell A 120 and moving toward Cell B 130, attempts to reselect to Cell B based on a known autonomous reselection protocol, for example, when the path loss criterion CI for Cell A falls below OdBm. If Cell B is incapable of supporting the packet data interchange, the mobile station must reselect to another cell, for example, to Cell C, if another cell is available or the mobile station attempt to reselect to Cell B at a later time.
In the process diagram 200 of FIG. 2, according to one mode of operation, at block 210 the mobile station sends a reselection communication to the network before reselecting. The reselection communication is an indication that reselection is likely to occur at some future time, or that reselection is imminent.
In one embodiment, the mobile station architecture includes a reselection predictor that predicts when reselection is likely to occur. In the exemplary implementation of FIG. 3, the reselection predictor 302 receives
CI parameter values, which are calculated based on RSSI measurements, at an input 304 from a measurement module 310. The CI parameter value is exemplified herein, but other criteria may be used alternatively.
The reselection predictor includes an output 306 for indicating when reselection is likely to occur. In one embodiment, for example, the mobile station sets a "reselection" bit in an uplink measurement report sent to the network to notify the network of the impending reselection based upon the output of the reselection predictor. The exemplary reselection predictor also includes a second output 308 for indicating to a virtual bearer (VB), for example, a virtual streaming bearer (VSB), or some other module on the mobile station that reselection is imminent. The outputs 306 and 308 may be provided in the alternative, or both outputs may be provided.
In FIG. 3, reselection is performed by a reselection execution module 320 on the mobile station in response to a reselection command when reselection is required. The reselection command may result from a determination made at the network or at the mobile station, as discussed more fully below.
In one embodiment, generally, reselection is predicted based upon reselection criteria, RC, computed from a set of several curves fit to approximate corresponding sets CI parameter values, and based upon coefficients of the curve. In the exemplary embodiment, the parabolic curves approximate a set of several \)i-Cl parameter values, which are based on corresponding RSSI measurements acquired at time . Curve coefficients ao, ai and α2 are computed as a function of yι and ti using a minimuin least squares method based upon a corresponding set of CI parameter values. In FIG. 4, each parabolic curve is computed to approximate 5 CI parameter values. For each new CI parameter value, a new set of parabolic curve coefficients is generated to approximate the 5 most recent CI parameter values. In FIG. 4, the first parabolic curve is based upon CI values at times ti through ti+4, the next parabolic curve is based upon CI values at times ti+i through ti+5, and the next parabolic curve is based upon CI values at times ti+2 through ti+6, etc. For each parabolic curve, a reselection criterion, RC, is computed at the time corresponding to last CI value using the relation RC = ao + aitn + a2tn 2. Several reselection criteria, RC, points are illustrated in FIG. 4. An exemplary algorithm for the reselection predictor starts the n-points sliding parabola calculation by finding required initial sums based on the first yy, where y is the CI parameter value from the GSM 3GPP standards discussed above, reselection criteria values at the corresponding moments tj :
StQ = Xt,; S„0 = ∑tjtj; S,„0 = ∑tjtjt/, StttlQ = ∑t.tjtjt , Sy0 = ∑y ,
7=1 7=1 7=1 7=1 7=1 n n
Slyo = ∑tJy/, S^^ ∑tjtjy/,
7=1 7=1
The reselection criteria calculation is based on raw RSSI measurements separated in time by an interval AT .
The following calculations are performed starting with initialization of i = 1. BEGIN
RSSIi = get_RSSI_measurements(H); yi = calculate_reselection_criteri (RSSH); //Current sums based on the previous ones
Figure imgf000009_0001
^ = "«(ι) = "«(ι-l) ^i-l^i-l + ^Λ>
Figure imgf000009_0002
R = Sty(0 = Sty(i-D ~'.-ιJ;--ι + s - sttyd) = suy(i-i)
Figure imgf000009_0003
+titiyø
//Auxiliary parameters
D = St(i); E = Sm ;
K ~ Sa(i) 5
Q = Dln; E = E-QB; F = F-QC; R = R-QP; Q = Kln; L = L-QB; M=M-QC; S = S-QP; Q = LIE; // Coefficients of the sliding parabola ending at the moment tn a2= (S -RQ)l(M -FQ); a = (R — Fa2)IE; a0= (P-Ba1 - Ca2)ln; //Reselection criteria at the moment tn calculated based on
/ /approximation
RC (tn) = ao + a. tn + a2tn i = i + 1;
END FIG. 5 is a graphical illustration of the reselection criteria RC, and coefficients αo, αi and α2- Reselection is determined to be imminent when RC values evaluated at endpoints of several sequential curves are descending, and when the coefficients αo, α% and α2 for at least some of the several sequential curves satisfy conditions indicative of an impending reselection, as discussed more fully below. In one embodiment, when reselection is imminent, the estimated time at which cell reselection occurs is determined by the relation Tr = -αo(Tά)/αι(Td). The point in time Td is when a potential reselection has been detected, and Tc = Td + tnAT is a current moment of time. In one embodiment, when m = 3, reselection is predicted as follows:
IF 0 < RC(Tc ) < RC(Tc - AT) < RC(Tc - 2 AT) < RC^ = T - 3 AT)
AND α0 (Td ) > QANDαx (Td ) < 0ANDsign[α2 (Td - AT)] < QANDsign[α2 (Td + AT)] > 0
sign[α0(T )] > OANDsign α^T )] < 0 THEN, the cell reselection predicted time is
Figure imgf000011_0001
The reselection predictor may run continuously during a connection. Each time the conditions for predicting a reselection are satisfied, Tr will be updated. When reselection conditions are no longer met, cell reselection will not be predicted. These and other aspects of reselection prediction are discussed more fully in U.S. provisional patent application No. 60/427,190 entitled "Method And Apparatus for Predicting a Cell Change" filed on 18 November 2002, the disclosure of which is fully incorporated herein by reference.
In other embodiments or implementations of the invention, cell reselection may be predicted, determined or assessed by other means or schemes. Additionally, in some applications it may not be necessary to predict precisely when an imminent reselection will occur, so long as the mobile station informs the network with sufficient time to intervene or influences what would otherwise be an autonomous reselection process performed by the mobile station.
Once the network has received the indication from the mobile station that cell reselection is imminent, the network may take several different actions. If the network sees no benefit is commanding the mobile to a particular cell, e.g. if all cells in the mobile's BA list are equally likely to be able to provide the mobile with service or if it does not have sufficient knowledge of the cell that is to be reselected, then the network may choose to allow the mobile to carry out the cell reselection autonomously. In some implementations, the network does not to send a communication to the mobile station in response to the reselection received therefrom. In practice, the mobile station may be programmed to reselect autonomously if it does not receive a reply within some specified time interval after sending the reselection communication to the network. This scheme reduces the network-signaling load. Alternatively, however, the network may authorize autonomous reselection by sending an affirmative communication to the mobile station.
In FIG. 2, at block 220, in some embodiments the mobile wireless communications device receives a communication with reselection instructions from the network in response to the reselection communication sent by the mobile station. If the network is aware of capacity issues in one or more of cells that are reselection candidates, the network may direct the mobile station to a particular cell, for example, by sending the mobile station the Cell Index of the cell to which the networks wants the mobile to reselect. If the network is aware that the mobile station is in or near a Routing Area (RA) border and that one or more of the cells that may be reselected are in different Routing Areas to the one currently serving the mobile, the network may direct the mobile station to a particular cell within the current or other desired RA.
Allowing the network to control or assist reselection generally reduces the amount of signaling load within a network and reduces the number of breaks in data transmission during packet data interchange, including reduction in the number of SGSN re-allocations. If the network is aware that the mobile is potentially moving out of coverage of the data service, for example, one or more of the cells that may be reselected do not support GPRS, the network may provide a communication indicating that the data service must be terminated, thereby providing some advance notice so that the mobile station may terminate the data interchange gracefully. The advanced termination notice may also be useful to applications sending or receiving data during the packet data interchange. In other embodiments, the network does not . provide any communication to the mobile station when the network is unable to direct the mobile to reselect a cell that can provide continued data service.
FIG. 6 is an exemplary message 600 for communicating reselection information from the mobile station to the network. In the exemplary embodiment discussed above, the message is a measurement message, although in other embodiments the information may be embedded in any other wireless communications uplink message. In one embodiment, the exemplary message includes a reselection imminent bit 610, which may be set or not set to indicate that reselection is in-minent. In other embodiments, the message includes, in addition to or in place of the reselection bit, information regarding when reselection will occur, for example, a time period encoded by a grouping of several bits 620, the presence of which may indicate that reselection is in rninent. In other embodiments, the mobile station indicates to the network to which cell the mobile intends to reselect. The message may also include bits for communicating this information.
In some implementations it is desirable to disable certain autonomous reselection mode features on the mobile station, for example, it may be desirable to disable a cell ranking parameter on the mobile wireless coiru-nunication device. Where the exemplary reselection predictor is implemented in GSM mobile stations, it may be desirable to disable the C32 reselection criterion.
In the exemplary process flow diagram of FIG. 7, at block 710 the mobile station indicates, to the network, whether it supports controlled/assisted reselection (NCARM) mode operation, for example, whether the mobile station is capable of performing reselection prediction. This information may be communicated to the network from the mobile station, for example, on the first attach to a PLMN, or during each RAU, or at the start of each data session, i.e. on establishment of a PDP context. If the indication from the mobile station is provided at an RAU, then it will be provided each time the mobile performs an RAU. If the indication from the mobile is provided at the start of a data session then the mobile will provide the indication each time a PDP context is established and also each time an existing PDP Context is re-established. The network will maintain the information for the duration of the mobiles connection to the network.
In FIG. 7, at block 720, the mobile station receives a reselection control communication from the network in response to sending the network controlled/assisted reselection mode support communication to the network. Generally, the mobile station will perform reselection based on the reselection control communication from the network.
In one embodiment, the network sends a communication to the mobile station disabling reselection in the mobile station based on adjacent cell signal strength. In GSM coi-nmunications systems, for example, the network sends a hysteresis parameter to the mobile station disabling use of the C32 criterion parameter for reselection. The purpose of disabling the
C32 criterion parameter is to strictly confine cell reselection to RF conditions on the serving cell, which may be predicted by the reselection predictor module discussed above or by some alternative reselection predictor that relies upon the current cell conditions to predict reselection.
In FIG. 7, at block 730, if a PBCCH is present in the serving cell, then the mobile will use a reselection predictor for determining when a cell change is due to occur, as indicated at block 740. In the absence of the PBCCH in the serving cell, then the network provides the mobile station with a CI criterion threshold that is different than OdB, which is the default CI value. If the network provides an alternative threshold, at block 750, a then the mobile uses the reselection predictor for determining when reselection will occur, as indicated at block 760. Otherwise, at block 770, if PBCCH is not present and the network does not send a new CI threshold, the mobile station uses a default 5 second warning for determining when reselection will occur after the 0 dBm reselection threshold condition is satisfied.
While the present disclosure and what are considered presently to be the best modes of the inventions have been described in a manner that establishes possession thereof by the inventors and that enables those of ordinary skill in the art to make and use the inventions, it will be understood and appreciated that there are many equivalents to the exemplary embodiments disclosed herein and that myriad modifications and variations may be made thereto without departing from the scope and spirit of the inventions, which are to be limited not by the exemplary embodiments but by the appended claims. What is claimed is:

Claims

1. A method in a mobile wireless communication device, the method comprising: conducting a packet data interchange; sending a reselection communication to a network during the packet data interchange; receiving, from the network in response to the reselection communication, a new cell assignment.
2. The method of Claim 1, receiving the new cell assignment includes receiving a cell index.
3. The method of Claim 1, receiving the new cell assignment includes receiving a new cell assignment within a current routing area.
4. The method of Claim 1, sending the reselection communication to the network includes sending an indication that cell reselection is imminent.
5. The method of Claim 4, determining when reselection is imminent using a reselection predictor on the mobile wireless communication device.
6. The method of Claim 1, sending the reselection communication to the network in a measurement report.
7. The method of Claim 1, reselecting to the new cell assigned and continuing the packet data interchange on the new cell.
8. The method of Claim 1, predicting when reselection will occur with a reselection predictor on the mobile wireless communication device.
9. The method of Claim 1, predicting when reselection will occur by approximating a curve to several temporally separated signal strength measurements, and estimating when the curve will cross a threshold corresponding to reselection.
10. A method in a mobile wireless communication device, the method comprising: sending a reselection communication to a network; receiving, from the network in response to the reselection communication, at least one of a new cell assignment in any routing area, a new cell assignment in a current routing area, a packet data termination communication.
11. The method of Claim 10, sending the reselection cornrnunication to the network during a packet data interchange, reselecting to an assigned cell in response to receiving a new cell assignment.
12. The method of Claim 10, sending reselection communication to a network during a packet data interchange, terminating the packet data interchange in response to receiving a packet data termination instruction.
13. The method of Claim 10, sending the reselection communication to the network includes sending an indication that reselection is imminent.
14. The method of Claim 13, determining when reselection is imminent using a reselection predictor on the mobile wireless communication device.
15. The method of Claim 10, sending the reselection communication to the network in a measurement report.
16. A method in a mobile wireless communication network, the method comprising: receiving a reselection communication from a mobile station; sending, in response to the reselection communication from the mobile station, at least one of a new cell assignment in any routing area, a new cell assignment in a current routing area, a packet data termination communication.
17. A method in a mobile wireless communication device, the method comprising: sending a network controlled /assisted reselection mode support cornmunication to a network; receiving a reselection control communication from the network in response to sending the network controlled /assisted reselection mode support communication to the network; reselecting based on the reselection control communication from the network.
18. The method of Claim 17, disabling reselection in the mobile wireless communications device based on adjacent cell information in response to the reselection control communication from the network.
19. The method of Claim 17, disabling a cell ranking parameter on the mobile wireless communication device in response to receiving the reselection control communication.
20. The method of Claim 17, disabling a C32 criterion parameter on the mobile wireless communication device in response to receiving the reselection control communication.
21. The method of Claim 17, reselecting using a reselection predictor on the mobile wireless communication device when a PBCCH is present in a serving cell.
22. The method of Claim 17, receiving a new reselection threshold, reselecting using a reselection predictor on the mobile wireless communication device after receiving new reselection threshold in the absence of a PBCCH in a serving cell.
23. The method of Claim 17, reselecting using a default warning interval upon satisfying a reselection threshold in the absence of a PBCCH in a serving cell and in the absence of receipt of a new reselection threshold from the network.
24. A method in a mobile wireless communication network, the method comprising: receiving a network reselection mode support communication to a network; sending a reselection control communication to the mobile station in response to receiving the network reselection mode support communication from the mobile station, the reselection control communication instructing the mobile wireless communications device to disable reselection based on adjacent cell information.
25. The method of Claim 24, sending a reselection control communication includes instructing the mobile station to disable a cell ranking parameter on the mobile wireless communication device in response to receiving the reselection control communication.
26. A wireless communications uplink message for transmission from a mobile wireless co-mmu-nication device to a wireless communications network, the message comprising: at least one reselection bit, a state of the reselection bit indicating that mobile wireless communications device reselection is i-mminent.
27. The wireless communications uplink message of Claim 26 is a measurement report.
28. The wireless communications uplink message of Claim 26, at least one state of the reselection bit indicating when reselection is predicted.
' 29. A method in a mobile wireless communications device, the method comprising: obtaining signal strength measurements; computing reselection criteria based upon sets of functions that approximate corresponding sets of values based upon the signal strength measurements; predicting when reselection is imminent based upon the reselection criteria and at least some of the coefficients of the functions that approximate the corresponding sets of values.
30. The method of Claim 29, estimating when reselection criteria will cross a reselection threshold sending a reselection communication to a network when reseletcoin is i-n-iminent; receiving, from the network in response to the reselection communication a new cell assignment.
PCT/US2004/003327 2003-02-05 2004-02-04 Network assisted cell reselection in wireless communications systems and methods WO2004073322A2 (en)

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CN1748433A (en) 2006-03-15
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CN1748433B (en) 2011-09-21
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WO2004073322A3 (en) 2005-06-23
EP1590971B1 (en) 2015-10-21
KR20050098887A (en) 2005-10-12

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