Title of Invention	A METHOD OF REGULATING MESSAGING BY A MOBILE STATION IN A COMMUNICATION NETWORK; A MOBILE STATION: AND A BASE STATION FOR COMMUNICATION NETWORK
Abstract	A communication network comprises a base station (102, 106) in radio frequency communication with a mobile station (105). In order to regulate packet data messaging by the mobile station (105), the base station transmits (404) a message over-the-air to the mobile station (105). The message indicates that the mobile station (105) is to delay transmitting packet data messages and a duration of delay. In response to receipt of the message from the base station (105), the mobile station delays (430) over-the-air transmission of packet data messages (e.g., Data Burst Messages) in accordance with the indicted duration.

Title of Invention

A METHOD OF REGULATING MESSAGING BY A MOBILE STATION IN A COMMUNICATION NETWORK; A MOBILE STATION: AND A BASE STATION FOR COMMUNICATION NETWORK

Abstract

A communication network comprises a base station (102, 106) in radio frequency communication with a mobile station (105). In order to regulate packet data messaging by the mobile station (105), the base station transmits (404) a message over-the-air to the mobile station (105). The message indicates that the mobile station (105) is to delay transmitting packet data messages and a duration of delay. In response to receipt of the message from the base station (105), the mobile station delays (430) over-the-air transmission of packet data messages (e.g., Data Burst Messages) in accordance with the indicted duration.

Full Text	A Method Of Regulating Messaging By A Mobile Station In A Communication Network; A Mobile Station; And A Base Station For Communication Network PRIORITY CLAIM The present application claims priority to U.S. Patent Application Serial No. 60/494,862, which is incorporated herein by reference in its entirety. BACKGROUND OF THE INVENTION 1. Technical Field: The present invention relates in general to communication and, in particular, to methods, systems and program products for communication via a wireless communication network. Still more particularly, the present invention is related to methods, systems and program products for regulating data messaging by a mobile station in a wireless communication network. 2. Description of the Related Art: With the adoption of new digital technologies, over-the-air radio frequency (RF) communication provides an ever increasing number of voice and data services to users of mobile stations, such as digital pagers and mobile telephones. In order to permit interoperability of mobile stations between networks, standards organizations have promulgated a number of specifications to define required features and behaviors of access networks, core networks and network devices providing over-the-air RF communication. For example, the 3rd Generation Parmership Project 2 (3GPP2) defines a number of specifications for communicationsemploying the 3rd generation (3G) Code Division Multiple Access (cdma2000) protocols, which support wireless voice and data services. Among the many specifications promulgated by 3GPP2, is C.S0005-D vl .0 (TIA-2000.5- D), entitled "Upper Layer (Layer 3) Signalling Standard for cdma2000 Spread Spectrum Systems Release D," which is dated February 2004, is incorporated by reference herein in its entirety, and hereinafter referred to as the "Standard." As indicated by its title, the Standard specifies the signaling protocols and messaging format of network layer (Layer 3) communication in a cdma2000-compliant communication network. The present invention recognizes that conventional wireless communication protocols, as exemplified by the Standard, do not support sufficient regulation of data messaging by mobile stations. For example, the Standard permits a base station to delay certain types of messaging by a mobile station (e.g., origination messages and resource requests), but does not support the regulation c f data burst messages by individual mobile stations. As a result, when network or radio channel congestion occurs, a base station may not be able to appropriately process or respond to data burst messages, resulting in lost data and unnecessary utilization of airlink resources. The present invention recognizes that it would be useful and desirable to reduce or eliminate such needless utilization of airlink resources by promoting improved regulation of data messaging by mobile stations. SUMMARY OF THE INVENTION In view of the foregoing and other shortcomings in the art, the present invention provides improved methods, systems and program products for communicating and/or controlling communication supporting enhanced regulation of data messaging by mobile stations. In accordance with at least one embodiment of the present invention, a communication network includes a base station in radio frequency communication with amobile station. In order to regulate packet data messaging by the mobile station, the base station transmits a message over-the-air to the mobile station. The message indicates that the mobile station is to delay transmitting packet data messages and a duration of delay. In response to receipt of the message from the base station, the mobile station delays over- the-air transmission of packet data messages (e.g., Data Burst Messages) in accordance with the indicated duration. All objects, features, and advantages of the present invention will become apparent in the following detailed written description. BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS The novel features believed characteristic of the invention are set forth in the appended claims. However, the invention, as well as a preferred mode of use, will best be understood by reference to the following detailed description of an illustrative embodiment when read in conjunction with the accompanying drawings, wherein: Figure 1 is a high level block diagram of an exemplary communication network in which the present invention may advantageously be employed; Figure 2 is more detailed block diagram of a base station within the communication network of Figure 1 in accordance with the present invention; Figure 3 is a more detailed block diagram of a mobile station within the communication network of Figure 1 in accordance with the present invention; Figure 4A is a high level logical flowchart of a process by which a base station within a wireless communication network regulates rriessaging by a mobile station utilizing a Retry Order message in accordance with a preferred embodiment of the present invention; Figure 4B is a high level logical flowchart of a process by which a mobile station in communication with a wireless communication network processes a Retry Order message in accordance with a preferred embodiment of the present invention; Figure 5A is a first exemplary message flow in which messaging by a mobile station is regulated utilizing a Retry Order message in accordance with a preferred embodiment of the present invention; and Figure 5B is a second exemplary message flow in which messaging by a mobile station is regulated utilizing a Retry Order message in accordance with a preferred embodiment of the present invention. DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENT With reference to the figures and in particular with reference to Figure 1, there is illustrated a high level block diagram of an exemplary communication network 100 in which the present invention may advantageously be implemented. As shown, communication network 100 comprises a number of geographically distributed transmission antennas 102, which transmit and receive radio frequency (RF) signals 104 to and from network entities including mobile stations (MSs) 105. RF signals 104, which may employ any of a number of signaling protocols, such as Code Division Multiple Access (CDMA) or Global System for Mobiles (GSM), are generated by base transceiver stations (BTSs) 106, which are each affiliated with a respective one of the transmission antennas 102. BTSs 106 are in turn coupled to and controlled by base station controller (BSC) 108. Coupled to BSC108 are various network and communication terminals that originate and receive the communications transmitted over-the-air as RF signals. For example, in the depicted embodiment, network terminals from which communications originate include circuit voice and data network (e.g., a public switched telephone network (PSTN)) 110 and packet data network (PDN) 112. In the illustrated embodiment, PSTN 110 is connected to BSC 108 via a land line and a mobile switching center (MSC) 114. PDN 112 in connected to BSC 108 via a Packet Data Serving Node (PDSN) 116 and the Internet 118. It is understood that both PSTN 110 and PDN 112 may comprise wireless devices (e.g., mobile telephones). Within communication networt 100, a network entity, such as amobile station or BSC, may be the source and/or recipient of both data and voice communications. Additionally, like network entities may function as both sources and recipients of voice and data network communications. Figure 2 depicts a more detailed block diagram of an exemplary base station (BS) 200 within communication network 100 in accordance with the present invention. As shown, BS 200 comprises a data processing system or processor (e.g., computer, router, switch and/or switching center) to communicate voice and/or data over-the-air with one or more mobile stations 105. BS 200 includes a processor 202 that controls (i.e., executes) operations in accordance with the present invention. Processor 200 may perform such operations under the control of software or firmware residing within data storage 204 (e.g., volatile and/or non-volatile storage) coupled to processor 202 by an interconnect 206 or received by processor 2011 from a network interface unit or other Input/Output (I/O) device 208. BS 200 further includes a base transceiver station (BTS) 106, coupled to processor 200 by interconnect 206, which opera tes as the carrier frequency controller. That is, BTS 106 allocates RF communication channels to voice and data traffic and routes such traffic to and from an antenna 102 coupled to BTS 106. With reference now to Figure 3, :here is illustrated a more detailed block diagram of an exemplary mobile station 105 within communication network 200 in accordance with the present invention. As shown, mobile station 105 includes a controller 300 that generally includes a processor 302 and a memory 304 Processor 302 executes a control program stored within memory 304 to implement the subscriber unit side of the multiple-access protocol employed by communication network 100. Mobile station 105 further includes a speaker (ear piece) 306 by which controller 300 presents audio outputs to a subscriber and a microphone (mouth piece) 308 that receives audio inputs from the subscriber. Mobile station 105 also has a keypad 310 by which the subscriber can enter callee telephone numbers and other keyed inputs and a display 312 through which controller 300 can visually present alphanumeric and graphical outputs for viewing by the subscriber. Finally, mobile station 300 includes a radio frequency transceiver 314 for sending and receiving wireless signals, including the messaging described herein, over- the-air. Although the invention may be implemented in communication networks supporting various protocols for RF communication, preferred embodiments of the invention will now be described in detail with reference to a CDMA network. In particular, preferred embodiments will be described with reference to a CDMA network implementing the Standard, which network utilizes Retry Order messages to regulate data burst messaging by particular mobile stations it. communication with a base station of a wireless communication network. Section 3.7.4.7 of the Standard defines a Retry Order message, which may be sent by a network entity (e.g., base station) on either the common channel or a traffic channel to indicate that a particular service is rejected and to specify a retry delay for the service. The fields within a conventional Retry Order message are summarized in Table I below. Of these conventional Retry Order fields defined by the Standard, the RETRY_YPE field defines the type of service tc be delayed. In accordance with a preferred embodiment of the present invention, the types of services that may be specified by the RETRY_TYPE field are expanded to include additional services, such as data burst messages. The possible values of the RETRY _TYPE field may thus be expanded, as summarized in Table II. In particular, as indicated by binary values '100' and '101', the RETRY_TYPE of a Retry Order message may specity data burst messages (DBMs) generally, or as shown in the particular embodiment of Table II, may specify a particular type of DBM (e.g., Short Data Burst or Short Message Service (SMS)) or a combination of a DBM and one or more other services or service requests. For example, the binary value '101' specifies a delay for Short Data Burst messages as well as Origination, Reconnect and Enhanced Origination Messages. Thus, a BS experiencing traffic congestion or other inability to process DBMs (or other selected message types) transmitted by a MS may transmit a Retry Order message to the MS (on the common channel or a traffic channel) to regulate the transmission of DBMs by the MS. The MS, in response to receipt of such a Retry Order message, disables transmission of the specified message type(s) to the BS for a delay indicated by the RETRY_DELAY field of the Retry Order message. This delay, which may be enforced by reference to a countdown counter within the MS, may be a matter of seconds or minutes. Alternatively, the delay may be indefinite. The MS preferably indicates (e.g., via a text message presented within a display 312 of the MS) the type of service that has been disabled, and optionally the duration of the retry delay. It will be appreciated that the delay imposed by the BS applies individually to the MS receiving the Retry Order message and not to all MSs in communication with the BS. As indicated above in Table I, the Standard employs one value of the RETRY_TYPE field of the Retry Order message (i.e., '000') to indicate that all retry delays previously imposed by the BS are to be cleared at the MS. In accordance with another aspect of the present invention, the values of the RETRY_TYPE field are further expanded to permit the BS to selectively remove retry delays for selected types of messaging (e.g., Resource Request and Origination messages) and to optionally retain retry delays imposed on the MS by the BS for one or more other types of messaging (e.g., DBMs). This further expansion of the values of this RETRY_TYPE field is shown in Table HI below with the binary value '110'. In order to precisely specify which retry delays imposed by the BS on the MS are to be removed, the conventional Retry Order message represented in Table I is preferably augmented to include an optional NUM_TYPE_CLEAR field and, if it is present, one or more CLBAR_TYPE fields, as shown in Table TV. The NUM_TYPE_CLEAR field, which is preferably included within the Retry Order message only if RETRY_TYPE is set to '110' and is omitted otherwise, indicates the number of retry delay type(s) to be cleared by the Retry Order message. For example, in one implementation, the NUM_TYPE_CLEAR field is set by the BS to the number of retry delay types includec. in the Retry Order message minus one. In this implementation, if NUM _TYPE_CLEAR is included in the message, the BS also includes NUM_TYPE_CLE AR plus one occurrences of the CLEARJTYPE field, each of which indicates the Retry Type (e.g., '001' through '101') for which the imposed delay is to be cleared. Of course, the BS should not set any CLEAR_TYPE field to '000' and ' 110' in the depicted embodiment because these Retry Types are assigned to Retry Types that clear retry delays. In response to a Retry Order message with RETRY_TYPE set to '110', the MS clears the retry delay, if any, for each of the specifically identified Retry Types (but not necessarily all Retry Types). The MS may clear the retry delay by, for example, clearing a countdown timer within the MS utilized to enforce a retry delay imposed by the BS. Referring now to Figure 4A, there is illustrated a high level logical flowchart of a process by which aBS within a wireless communication network regulates messaging by a MS utilizing a Retry Order message in accordance with a preferred embodiment of the present invention. The illustrated process may be implemented, for example, as software or firmware stored within data storage 204 and executed by processor 202 of BS 200 of Figure 2. Alternatively or additionally, the process may be implemented utilizing hardware circuitry within BTS 106 and/or processor 202. The illustrated process maybe performed iteratively or in response to a dynamic network conditions or selected messaging patterns by one or more MSs. As shown the process begins at block 400 and thereafter proceeds to block 402, which depicts the BS determining whether or not it should regulate the transmission by a MS of a particular message type, such is DBMs. This determination may be made, for example, by reference to a messaging frequency of the MS (either in general or with reference to the particular message type) and/or one or more other criteria, such as network or radio channel congestion. In response to a determination that the BS does not need to regulate DBMs, the process proceeds from block 402 to block 406, which is described below. If, on the other hand, the BS determines at block 402 that itneeds to regulate transmission of DBMs by a MS, the process passes to block 404. Block 404 depicts the BS transmitting a Retry Order message over-the-air to the MS in order to impose a retry delay for DBMs (or for a particular type of DBM, such as Short Data Burst or Short Message Service). As described above, the Retry Order message identifies DBMs in the RETRY _TYPE field and, in the RETRY_DELAY field, specifies a particular delay interval or an indefinite delay. Next, at block 406, the BS determines whether or not it has the ability to process particular messages (e.g., DBMs) from a MS upon which the BS has imposed a retry delay. If not, the process terminates at block 410. If, however, the MS now has the ability to process a message type upon which the BS has imposed a retry delay, the BS transmits a Retry Delay message to the relevant MS, as shown at block 408. The Retry Order message contains a RETRY_TYPE field set to signify either "Clear All" ('000') or "Clear" ('110') in order to remove one or more retry delays. As noted above, with the "Clear" RETRYJTYPE, the BS may remove fewer than all existing retry delays for the MS. Thereafter, the process terminates at block 410. With reference now to Figure 415, there is depicted a high level logical flowchart of a process by which a mobile station in communication with a wireless communication network processes a Retry Order message in accordance with a preferred embodiment of the present invention. As will be appreciated by those skilled in the art, the illustrated process may be implemented in hardware circuitry with controller 300 and/or RF transceiver 314 of MS 105, or alternatively or additionally, as software or firmware stored within memory 304 and executed by processor 302. As shown, the process of Figure 4B begins at block 420 and thereafter proceeds to block 422, which illustrates the MS determining whether or not a message received from the BS is a Retry Order message. If not, the process shown in Figure 4B terminates at bock 434, and the MS processes the message in a conventional manner. If the MS determines at block 422 that the received message is a Retry Order message, the process proceeds to block 424, which illustrates the MS examining the Retry Type specified within the Retry Order message. If the Retry Type indicates that the Retry Order message is intended to clear a retry delay imposed by the BS (e.g., the Retry Type field is set to '000' or * 110'), the process proceeds to block 426. Otherwise, the process passes from block 424 to block 430. Referring now to block 426, the MS responds to a Retry Order message specifying a "Clear All" or "Clear" Retry Typo by enabling the transmission by the MS of one or more message types indicated by the Retry Order message. The MS also resets the countdown counter(s), if any, allocated to measure the retry delay of the indicated message types. Thereafter, the process terminates at block 434. With reference now to block 430, the MS processes a Retry Order message that specifies a retry delay for one or more message types (e.g., DBMs) by disabling transmission by the MS of the indicated message type(s). In addition, as shown at block 432, the MS allocates and starts a countdown counter for each retry delay quantified by the Retry Order message (i.e., the non-indefinite retry delays). The MS will be enabled to transmit the message types subject to retry delay after the earliest to occur of the expiration of the retry delay and the receipt of a Retry Order message clearing the retry delay. Thereafter, the process depicted in Figure 4B terminates at block 434. Turning now to Figures 5A and 5B, there are illustrated two exemplary message flows in which data messaging by a MS is regulated utilizing a Retry Order message in accordance with the present invention. In Figure 5A, MS 105 first transmits a DBM 500, such as a Short Data Burst, to BS 200. In response to being unable to process the DBM 500, for example, because of traffic channel or network congestion, BS 200 transmits a Retry Order message 502 to MS 105. As indicated, Retry Order message 502 contains a Retry Type field set to '100' in order to impose a retry delay on the transmission of DBMs by MS 105. Thereafter, when BS 200 is again able to process DBMs, BS 200 transmits a second Retry Order0. message 504 to MS 105 in order to clear the retry delay. In the depicted scenario, Retry Order message 504 contains a Retry Type field set to '110' in order to clear only the retry delay for DBMs earlier imposed on MS 105. In response to Retry Order message 504, MS 105 clears the retry delay for DBMs and is therefore able to again transmit DBMs, such as DEM 506. Figure 5B illustrates a second message flow in accordance with apreferred embodiment of the present invention. In this message flow, BS 200 first transmits a Retry Order message 510 to MS 105 to impose a retry delay on the transmission of DBMs by MS 105. It should be noted that in the message flow of Figure 5B, the retry delay is transmitted in response to detection of network congestion generally rather than in response to specific messaging by MS 105. The Retry Order message specifies a particular retry delay interval, which as described above, is timed by MS 105. After the expiration of the specified retry delay interval, MS 105 is again permitted to transmit DBMs, such as Short Data Burst 512. In the depicted message flow, no Retry Order message is transmitted by BS 200 to clear the retry delay for DBMs. As has been described, the present invention provides improved methods, systems and program products for improved regulation of messaging by mobile stations in over-the- air communication with a base station in a wireless communication network. In accordance with the present invention, a BS can regulate transmission of one or more particular message types such as DBMs (or even particular types of DBMs, such as Short Data Bursts) by transmitting a message (e.g., Retry Order) to a MS. The disabling of the particular message can be of an indefinite or definite duration. The BS can also re-enable transmission of one or more message type(s) by the MS by transmitting to the MS an additional message (e.g., a Retry Order message). In one embodiment, the additional message may clear fewer than all messaging delays imposed by the BS on the MS. While the invention has been particularly shown as described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention. For example, although the present invention has been described with respect to a particular Standard and specified field names, it will be appreciated that the present invention is also applicable to wireless communication employing other standards and/or technologies and/or utilizing different fields and/ormessage to regulate messaging by mobile stations. In addition, although aspects of the present invention have been described with respect to systems (e.g., mobile stations and base stations) executing software that directs the functions of the present invention, it should be understood that present invention may alternatively be implemented a 3a program product for use with a data processing system. Programs defining the functions of the present invention can be delivered to a data processing system via a variety of signal-bearing media, which include, without limitation, non-rewritable storage media (e.g., CD-ROM), rewritable storage media (e.g., a floppy diskette or hard disk drive), and communication media, such as digital and analog networks. It should be understood, therefore, that such signal-bearing media, when carrying or encoding computer readable instructions that direct the functions of the present invention, represent alternative embodiments of the present invention. WE CLAIM : 1. A method of regulating messaging by a mobile station in a communication network, said method comprising: a mobile station receiving a first message over-the-air from a base station, said first message containing a field settable by the base station to one of plural values to indicate a type of packet data messages that the mobile station is to delay transmitting and a duration of delay, wherein the field is settable to one of plural values by the base statior to indicate one of plural types of packet data messages; and in response to receipt of the first message from the base station, the mobile station setting a delay time in the mobile station to delay over-the-air transmission of the indicated type of packet data messages in accordance with the indicated duration. 2. The method as claimed ir claim 1, wherein said first message comprises a Retry Order message. 3. The method as claimed in claim 1, comprising: said mobile station receiving a second message over-the-air from the base station, said second message indicating that said mobile station is to clear the delay time in transmitting the indicated type of packet data messages; and in response to receipt of said second message, said mobile station re- enabling over-the-air transmission of the indicated type of packet data messages to the base station by the mobile station. 4. The method as claimed ir claim 3, wherein: receiving the second message comprises receiving in the second message an indication that said mobile station is to clear less than all existing delay times imposed by said base station on messaging by said mobile station; and said re-enabling comprises re-enabling over-the-air transmission by the mobile station of the types of messages for which delay times imposed by the base station have been cleared. 5. The method as claimed in claim 1, wherein: said indicated type of packet data messages comprises a type of data burst messages. 6. The method as claimed in claim 1, wherein: the plural types of packet data messages comprise short data burst messages and short message service (SMS) messages. 7. The method as claimed in claim 1, and comprising the base station transmitting said first message over-the-air to the mobile station. 8. A method of regulating messaging by a mobile station in a communication network, said method comprising: a base station determining an inability to process at least one message; and in response to said determining, the base station transmitting a first message over-the-air to a mobile station, said first message containing a field set by the base station to one of plural values to indicate that the mobile station is to delay transmitting one of plural types of packet data messages and a duration of delay, wherein packet data messaging by the mobile station is regulated by the base station. 9. The method as claimed in claim 8. said determining comprising said base station detecting an inability to process a packet data message transmitted by the mobile station. 10. The method as claimed in claim 8, wherein said first message comprises a Retrv Order message. 11. The method as claimed in claim 8, comprising: after transmitting said first message, said base station transmitting a second message over-the-air to the mobile station, said second message indicating that said mobile station is to clear a delay time in the mobile station in transmitting the indicated type of packet data messages. 12. The method as claimed in claim 11, wherein transmitting the second message comprises transmitting ir the second message an indication that said mobile station is to clear less than all existing delay times imposed by said base station on messaging by said mobile station. 13. The method as claimed in claim 8, wherein said indicated type of packet data messages comprise a type of data burst messages. 14. The method as claimed in claim 8, wherein said plural types of packet data messages comprise short data burst messages and short message service (SMS) messages. 15. The method as claimed in claim 8, and comprising the mobile station, responsive to receipt of the message, delaying over-the-air transmission of the indicated type of packet data messages to the base station in accordance with the indicated duration. 16. A mobile station, comprising: means for receiving a first message over-the-air from a base station, said first message containing a field settable by the base station to one of plural values to indicate a type of packet data messages that the mobile station is to delay transmitting and a duration of delay, wherein the field is settable by the base station to one of plural values to indicate one of plural types of packet data messages; and means, responsive to receipt of the first message from the base station, for setting a delay time to delay over-the-air transmission of the indicated type of packet data messages in accordance with the indicated duration. 17. The mobile station as claimed in claim 16, wherein said first message comprises a Retry Order message 18. The mobile station as claimed in claim 16, comprising: means for receiving a second message over-the-air from the base station, said second message indicating that said mobile station is to clear the delay time in transmitting the indicated type cf packet data messages; and means, responsive to receipt of said second message, for re-enabling over-the-air transmission of the indicated type of packet data messages to the base station by the mobile station 19. The mobile station as claimed in claim 18, wherein: said means for receiving the second message comprises means for receiving in the second message an indication that said mobile station is to clear less than all existing delay times imposed by said base station on messaging by said mobile station; and said means for re-enabling comprises means for re-enabling over-the-air transmission by the mobile station of the types of messages for which delay times imposed by the base station have been cleared. 20. The mobile station as claimed in claim 16, wherein: said types of packet data messages comprise types of data burst messages. 21. The mobile station as claimed in claim 16, wherein: said types of packet data messages comprise short data burst messages and short service messages (SMS). 22. A base station for a communication neitwork, said base station comprising: means for determining an inability to process at least one message; and means, responsive to determining an inability to process at least one message, for transmitting a first message over-the-air to a mobile station, said message containing a field set by the base station to one of plural values to indicate that the mobile station is to delay transmitting one of plural types of packet data messages and a duration of delay, wherein packet data messaging by the mobile station is regulated b/ the base station. 23. The base station as claimed in claim 22, said means for determining comprising means for detecting an inability to process a packet data message transmitted by the mobile station. 24. The base station as claimed in claim 22, wherein said first message comprises a Retry Order message. 25. The base station as claimed in claim 22, comprising: means for, after transmitting said first message, transmitting a second message over-the-air to the mobile station, said second message indicating that said mobile station is to clear a delay time in transmitting the indicated type of packet data messages. 26. The base station as claimed in claim 25, wherein said means for transmitting the second message comprises means for transmitting in the second message an indication that said mobile station is to clear less than all existing delay times imposed by said base station on messaging by said mobile station. 27. The base station as claimed in claim 22, wherein said types of packet data messages comprise types of data burst messages. 28. The base station as claimed in claim 27, wherein said types of packet data messages comprise short data burst messages and short message service (SMS) messages. 29. A communication network comprising: a base station in accordance with claim 22; and a mobile station that, responsive to receipt of the first message, delays over-the-air transmission of the indicated type of packet data messages to the base station in accordance with the indicated duration. — x — A communication network comprises a base station (102, 106) in radio frequency communication with a mobile station (105). In order to regulate packet data messaging by the mobile station (105), the base station transmits (404) a message over-the-air to the mobile station (105). The message indicates that the mobile station (105) is to delay transmitting packet data messages and a duration of delay. In response to receipt of the message from the base station (105), the mobile station delays (430) over-the-air transmission of packet data messages (e.g., Data Burst Messages) in accordance with the indicted duration.

Full Text

A Method Of Regulating Messaging By A Mobile Station In A
Communication Network; A Mobile Station; And A Base
Station For Communication Network
PRIORITY CLAIM
The present application claims priority to U.S. Patent Application Serial No. 60/494,862,
which is incorporated herein by reference in its entirety.
BACKGROUND OF THE INVENTION
1. Technical Field:
The present invention relates in general to communication and, in particular, to methods,
systems and program products for communication via a wireless communication
network. Still more particularly, the present invention is related to methods, systems and
program products for regulating data messaging by a mobile station in a wireless
communication network.
2. Description of the Related Art:
With the adoption of new digital technologies, over-the-air radio frequency (RF)
communication provides an ever increasing number of voice and data services to users of
mobile stations, such as digital pagers and mobile telephones. In order to permit
interoperability of mobile stations between networks, standards organizations have
promulgated a number of specifications to define required features and behaviors of
access networks, core networks and network devices providing over-the-air RF
communication. For example, the 3rd Generation Parmership Project 2 (3GPP2) defines a
number of specifications for communicationsemploying the 3rd generation (3G) Code
Division Multiple Access (cdma2000) protocols, which support wireless voice and data
services.

Among the many specifications promulgated by 3GPP2, is C.S0005-D vl .0 (TIA-2000.5-
D), entitled "Upper Layer (Layer 3) Signalling Standard for cdma2000 Spread Spectrum
Systems Release D," which is dated February 2004, is incorporated by reference herein in
its entirety, and hereinafter referred to as the "Standard." As indicated by its title, the
Standard specifies the signaling protocols and messaging format of network layer (Layer
3) communication in a cdma2000-compliant communication network.
The present invention recognizes that conventional wireless communication protocols, as
exemplified by the Standard, do not support sufficient regulation of data messaging by
mobile stations. For example, the Standard permits a base station to delay certain types
of messaging by a mobile station (e.g., origination messages and resource requests), but
does not support the regulation c f data burst messages by individual mobile stations. As
a result, when network or radio channel congestion occurs, a base station may not be able
to appropriately process or respond to data burst messages, resulting in lost data and
unnecessary utilization of airlink resources.
The present invention recognizes that it would be useful and desirable to reduce or
eliminate such needless utilization of airlink resources by promoting improved regulation
of data messaging by mobile stations.

SUMMARY OF THE INVENTION
In view of the foregoing and other shortcomings in the art, the present invention provides
improved methods, systems and program products for communicating and/or controlling
communication supporting enhanced regulation of data messaging by mobile stations.
In accordance with at least one embodiment of the present invention, a communication
network includes a base station in radio frequency communication with amobile station.
In order to regulate packet data messaging by the mobile station, the base station
transmits a message over-the-air to the mobile station. The message indicates that the
mobile station is to delay transmitting packet data messages and a duration of delay. In
response to receipt of the message from the base station, the mobile station delays over-
the-air transmission of packet data messages (e.g., Data Burst Messages) in accordance
with the indicated duration.
All objects, features, and advantages of the present invention will become apparent in the
following detailed written description.

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
The novel features believed characteristic of the invention are set forth in the appended
claims. However, the invention, as well as a preferred mode of use, will best be
understood by reference to the following detailed description of an illustrative
embodiment when read in conjunction with the accompanying drawings, wherein:
Figure 1 is a high level block diagram of an exemplary communication network in which
the present invention may advantageously be employed;
Figure 2 is more detailed block diagram of a base station within the communication
network of Figure 1 in accordance with the present invention;
Figure 3 is a more detailed block diagram of a mobile station within the communication
network of Figure 1 in accordance with the present invention;
Figure 4A is a high level logical flowchart of a process by which a base station within a
wireless communication network regulates rriessaging by a mobile station utilizing a
Retry Order message in accordance with a preferred embodiment of the present
invention;
Figure 4B is a high level logical flowchart of a process by which a mobile station in
communication with a wireless communication network processes a Retry Order message
in accordance with a preferred embodiment of the present invention;
Figure 5A is a first exemplary message flow in which messaging by a mobile station is
regulated utilizing a Retry Order message in accordance with a preferred embodiment of
the present invention; and

Figure 5B is a second exemplary message flow in which messaging by a mobile station
is regulated utilizing a Retry Order message in accordance with a preferred embodiment
of the present invention.

DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENT
With reference to the figures and in particular with reference to Figure 1, there is
illustrated a high level block diagram of an exemplary communication network 100 in
which the present invention may advantageously be implemented. As shown,
communication network 100 comprises a number of geographically distributed
transmission antennas 102, which transmit and receive radio frequency (RF) signals 104
to and from network entities including mobile stations (MSs) 105. RF signals 104, which
may employ any of a number of signaling protocols, such as Code Division Multiple
Access (CDMA) or Global System for Mobiles (GSM), are generated by base transceiver
stations (BTSs) 106, which are each affiliated with a respective one of the transmission
antennas 102. BTSs 106 are in turn coupled to and controlled by base station controller
(BSC) 108. Coupled to BSC108 are various network and communication terminals that
originate and receive the communications transmitted over-the-air as RF signals.
For example, in the depicted embodiment, network terminals from which
communications originate include circuit voice and data network (e.g., a public switched
telephone network (PSTN)) 110 and packet data network (PDN) 112. In the illustrated
embodiment, PSTN 110 is connected to BSC 108 via a land line and a mobile switching
center (MSC) 114. PDN 112 in connected to BSC 108 via a Packet Data Serving Node
(PDSN) 116 and the Internet 118. It is understood that both PSTN 110 and PDN 112
may comprise wireless devices (e.g., mobile telephones).
Within communication networt 100, a network entity, such as amobile station or BSC,
may be the source and/or recipient of both data and voice communications. Additionally,
like network entities may function as both sources and recipients of voice and data
network communications.

Figure 2 depicts a more detailed block diagram of an exemplary base station (BS) 200
within communication network 100 in accordance with the present invention. As shown,
BS 200 comprises a data processing system or processor (e.g., computer, router, switch
and/or switching center) to communicate voice and/or data over-the-air with one or more
mobile stations 105. BS 200 includes a processor 202 that controls (i.e., executes)
operations in accordance with the present invention. Processor 200 may perform such
operations under the control of software or firmware residing within data storage 204
(e.g., volatile and/or non-volatile storage) coupled to processor 202 by an interconnect
206 or received by processor 2011 from a network interface unit or other Input/Output
(I/O) device 208.
BS 200 further includes a base transceiver station (BTS) 106, coupled to processor 200
by interconnect 206, which opera tes as the carrier frequency controller. That is, BTS 106
allocates RF communication channels to voice and data traffic and routes such traffic to
and from an antenna 102 coupled to BTS 106.
With reference now to Figure 3, :here is illustrated a more detailed block diagram of an
exemplary mobile station 105 within communication network 200 in accordance with the
present invention. As shown, mobile station 105 includes a controller 300 that generally
includes a processor 302 and a memory 304 Processor 302 executes a control program
stored within memory 304 to implement the subscriber unit side of the multiple-access
protocol employed by communication network 100. Mobile station 105 further includes
a speaker (ear piece) 306 by which controller 300 presents audio outputs to a subscriber
and a microphone (mouth piece) 308 that receives audio inputs from the subscriber.
Mobile station 105 also has a keypad 310 by which the subscriber can enter callee
telephone numbers and other keyed inputs and a display 312 through which controller
300 can visually present alphanumeric and graphical outputs for viewing by the
subscriber. Finally, mobile station 300 includes a radio frequency transceiver 314 for

sending and receiving wireless signals, including the messaging described herein, over-
the-air.
Although the invention may be implemented in communication networks supporting
various protocols for RF communication, preferred embodiments of the invention will
now be described in detail with reference to a CDMA network. In particular, preferred
embodiments will be described with reference to a CDMA network implementing the
Standard, which network utilizes Retry Order messages to regulate data burst messaging
by particular mobile stations it. communication with a base station of a wireless
communication network.
Section 3.7.4.7 of the Standard defines a Retry Order message, which may be sent by a
network entity (e.g., base station) on either the common channel or a traffic channel to
indicate that a particular service is rejected and to specify a retry delay for the service.
The fields within a conventional Retry Order message are summarized in Table I below.

Of these conventional Retry Order fields defined by the Standard, the RETRY_YPE
field defines the type of service tc be delayed.
In accordance with a preferred embodiment of the present invention, the types of services
that may be specified by the RETRY_TYPE field are expanded to include additional
services, such as data burst messages. The possible values of the RETRY _TYPE field
may thus be expanded, as summarized in Table II.

In particular, as indicated by binary values '100' and '101', the RETRY_TYPE of a
Retry Order message may specity data burst messages (DBMs) generally, or as shown in
the particular embodiment of Table II, may specify a particular type of DBM (e.g., Short
Data Burst or Short Message Service (SMS)) or a combination of a DBM and one or
more other services or service requests. For example, the binary value '101' specifies a
delay for Short Data Burst messages as well as Origination, Reconnect and Enhanced
Origination Messages.
Thus, a BS experiencing traffic congestion or other inability to process DBMs (or other
selected message types) transmitted by a MS may transmit a Retry Order message to the

MS (on the common channel or a traffic channel) to regulate the transmission of DBMs
by the MS. The MS, in response to receipt of such a Retry Order message, disables
transmission of the specified message type(s) to the BS for a delay indicated by the
RETRY_DELAY field of the Retry Order message. This delay, which may be enforced
by reference to a countdown counter within the MS, may be a matter of seconds or
minutes. Alternatively, the delay may be indefinite. The MS preferably indicates (e.g.,
via a text message presented within a display 312 of the MS) the type of service that has
been disabled, and optionally the duration of the retry delay. It will be appreciated that
the delay imposed by the BS applies individually to the MS receiving the Retry Order
message and not to all MSs in communication with the BS.
As indicated above in Table I, the Standard employs one value of the RETRY_TYPE
field of the Retry Order message (i.e., '000') to indicate that all retry delays previously
imposed by the BS are to be cleared at the MS. In accordance with another aspect of the
present invention, the values of the RETRY_TYPE field are further expanded to permit
the BS to selectively remove retry delays for selected types of messaging (e.g., Resource
Request and Origination messages) and to optionally retain retry delays imposed on the
MS by the BS for one or more other types of messaging (e.g., DBMs). This further
expansion of the values of this RETRY_TYPE field is shown in Table HI below with the
binary value '110'.

In order to precisely specify which retry delays imposed by the BS on the MS are to be
removed, the conventional Retry Order message represented in Table I is preferably
augmented to include an optional NUM_TYPE_CLEAR field and, if it is present, one or
more CLBAR_TYPE fields, as shown in Table TV.

The NUM_TYPE_CLEAR field, which is preferably included within the Retry Order
message only if RETRY_TYPE is set to '110' and is omitted otherwise, indicates the
number of retry delay type(s) to be cleared by the Retry Order message. For example, in
one implementation, the NUM_TYPE_CLEAR field is set by the BS to the number of
retry delay types includec. in the Retry Order message minus one. In this
implementation, if NUM _TYPE_CLEAR is included in the message, the BS also
includes NUM_TYPE_CLE AR plus one occurrences of the CLEARJTYPE field, each
of which indicates the Retry Type (e.g., '001' through '101') for which the imposed
delay is to be cleared. Of course, the BS should not set any CLEAR_TYPE field to '000'
and ' 110' in the depicted embodiment because these Retry Types are assigned to Retry
Types that clear retry delays.
In response to a Retry Order message with RETRY_TYPE set to '110', the MS clears the
retry delay, if any, for each of the specifically identified Retry Types (but not necessarily
all Retry Types). The MS may clear the retry delay by, for example, clearing a
countdown timer within the MS utilized to enforce a retry delay imposed by the BS.

Referring now to Figure 4A, there is illustrated a high level logical flowchart of a
process by which aBS within a wireless communication network regulates messaging by
a MS utilizing a Retry Order message in accordance with a preferred embodiment of the
present invention. The illustrated process may be implemented, for example, as software
or firmware stored within data storage 204 and executed by processor 202 of BS 200 of
Figure 2. Alternatively or additionally, the process may be implemented utilizing
hardware circuitry within BTS 106 and/or processor 202. The illustrated process maybe
performed iteratively or in response to a dynamic network conditions or selected
messaging patterns by one or more MSs.
As shown the process begins at block 400 and thereafter proceeds to block 402, which
depicts the BS determining whether or not it should regulate the transmission by a MS of
a particular message type, such is DBMs. This determination may be made, for example,
by reference to a messaging frequency of the MS (either in general or with reference to
the particular message type) and/or one or more other criteria, such as network or radio
channel congestion. In response to a determination that the BS does not need to regulate
DBMs, the process proceeds from block 402 to block 406, which is described below. If,
on the other hand, the BS determines at block 402 that itneeds to regulate transmission of
DBMs by a MS, the process passes to block 404.
Block 404 depicts the BS transmitting a Retry Order message over-the-air to the MS in
order to impose a retry delay for DBMs (or for a particular type of DBM, such as Short
Data Burst or Short Message Service). As described above, the Retry Order message
identifies DBMs in the RETRY _TYPE field and, in the RETRY_DELAY field, specifies
a particular delay interval or an indefinite delay. Next, at block 406, the BS determines
whether or not it has the ability to process particular messages (e.g., DBMs) from a MS
upon which the BS has imposed a retry delay. If not, the process terminates at block 410.
If, however, the MS now has the ability to process a message type upon which the BS
has imposed a retry delay, the BS transmits a Retry Delay message to the relevant MS, as

shown at block 408. The Retry Order message contains a RETRY_TYPE field set to
signify either "Clear All" ('000') or "Clear" ('110') in order to remove one or more retry
delays. As noted above, with the "Clear" RETRYJTYPE, the BS may remove fewer
than all existing retry delays for the MS. Thereafter, the process terminates at block 410.
With reference now to Figure 415, there is depicted a high level logical flowchart of a
process by which a mobile station in communication with a wireless communication
network processes a Retry Order message in accordance with a preferred embodiment of
the present invention. As will be appreciated by those skilled in the art, the illustrated
process may be implemented in hardware circuitry with controller 300 and/or RF
transceiver 314 of MS 105, or alternatively or additionally, as software or firmware
stored within memory 304 and executed by processor 302.
As shown, the process of Figure 4B begins at block 420 and thereafter proceeds to block
422, which illustrates the MS determining whether or not a message received from the
BS is a Retry Order message. If not, the process shown in Figure 4B terminates at bock
434, and the MS processes the message in a conventional manner. If the MS determines
at block 422 that the received message is a Retry Order message, the process proceeds to
block 424, which illustrates the MS examining the Retry Type specified within the Retry
Order message. If the Retry Type indicates that the Retry Order message is intended to
clear a retry delay imposed by the BS (e.g., the Retry Type field is set to '000' or * 110'),
the process proceeds to block 426. Otherwise, the process passes from block 424 to
block 430.
Referring now to block 426, the MS responds to a Retry Order message specifying a
"Clear All" or "Clear" Retry Typo by enabling the transmission by the MS of one or
more message types indicated by the Retry Order message. The MS also resets the
countdown counter(s), if any, allocated to measure the retry delay of the indicated
message types. Thereafter, the process terminates at block 434.

With reference now to block 430, the MS processes a Retry Order message that specifies
a retry delay for one or more message types (e.g., DBMs) by disabling transmission by
the MS of the indicated message type(s). In addition, as shown at block 432, the MS
allocates and starts a countdown counter for each retry delay quantified by the Retry
Order message (i.e., the non-indefinite retry delays). The MS will be enabled to transmit
the message types subject to retry delay after the earliest to occur of the expiration of the
retry delay and the receipt of a Retry Order message clearing the retry delay. Thereafter,
the process depicted in Figure 4B terminates at block 434.
Turning now to Figures 5A and 5B, there are illustrated two exemplary message flows in
which data messaging by a MS is regulated utilizing a Retry Order message in
accordance with the present invention. In Figure 5A, MS 105 first transmits a DBM
500, such as a Short Data Burst, to BS 200. In response to being unable to process the
DBM 500, for example, because of traffic channel or network congestion, BS 200
transmits a Retry Order message 502 to MS 105. As indicated, Retry Order message 502
contains a Retry Type field set to '100' in order to impose a retry delay on the
transmission of DBMs by MS 105.
Thereafter, when BS 200 is again able to process DBMs, BS 200 transmits a second
Retry Order0. message 504 to MS 105 in order to clear the retry delay. In the depicted
scenario, Retry Order message 504 contains a Retry Type field set to '110' in order to
clear only the retry delay for DBMs earlier imposed on MS 105. In response to Retry
Order message 504, MS 105 clears the retry delay for DBMs and is therefore able to
again transmit DBMs, such as DEM 506.
Figure 5B illustrates a second message flow in accordance with apreferred embodiment
of the present invention. In this message flow, BS 200 first transmits a Retry Order
message 510 to MS 105 to impose a retry delay on the transmission of DBMs by MS

105. It should be noted that in the message flow of Figure 5B, the retry delay is
transmitted in response to detection of network congestion generally rather than in
response to specific messaging by MS 105. The Retry Order message specifies a
particular retry delay interval, which as described above, is timed by MS 105. After the
expiration of the specified retry delay interval, MS 105 is again permitted to transmit
DBMs, such as Short Data Burst 512. In the depicted message flow, no Retry Order
message is transmitted by BS 200 to clear the retry delay for DBMs.
As has been described, the present invention provides improved methods, systems and
program products for improved regulation of messaging by mobile stations in over-the-
air communication with a base station in a wireless communication network. In
accordance with the present invention, a BS can regulate transmission of one or more
particular message types such as DBMs (or even particular types of DBMs, such as Short
Data Bursts) by transmitting a message (e.g., Retry Order) to a MS. The disabling of the
particular message can be of an indefinite or definite duration. The BS can also re-enable
transmission of one or more message type(s) by the MS by transmitting to the MS an
additional message (e.g., a Retry Order message). In one embodiment, the additional
message may clear fewer than all messaging delays imposed by the BS on the MS.
While the invention has been particularly shown as described with reference to a
preferred embodiment, it will be understood by those skilled in the art that various
changes in form and detail may be made therein without departing from the spirit and
scope of the invention. For example, although the present invention has been described
with respect to a particular Standard and specified field names, it will be appreciated that
the present invention is also applicable to wireless communication employing other
standards and/or technologies and/or utilizing different fields and/ormessage to regulate
messaging by mobile stations.

In addition, although aspects of the present invention have been described with respect to
systems (e.g., mobile stations and base stations) executing software that directs the
functions of the present invention, it should be understood that present invention may
alternatively be implemented a 3a program product for use with a data processing system.
Programs defining the functions of the present invention can be delivered to a data
processing system via a variety of signal-bearing media, which include, without
limitation, non-rewritable storage media (e.g., CD-ROM), rewritable storage media (e.g.,
a floppy diskette or hard disk drive), and communication media, such as digital and
analog networks. It should be understood, therefore, that such signal-bearing media,
when carrying or encoding computer readable instructions that direct the functions of the
present invention, represent alternative embodiments of the present invention.

WE CLAIM :
1. A method of regulating messaging by a mobile station in a communication
network, said method comprising:
a mobile station receiving a first message over-the-air from a base station,
said first message containing a field settable by the base station to one of plural
values to indicate a type of packet data messages that the mobile station is to
delay transmitting and a duration of delay, wherein the field is settable to one of
plural values by the base statior to indicate one of plural types of packet data
messages; and
in response to receipt of the first message from the base station, the
mobile station setting a delay time in the mobile station to delay over-the-air
transmission of the indicated type of packet data messages in accordance with
the indicated duration.
2. The method as claimed ir claim 1, wherein said first message comprises
a Retry Order message.
3. The method as claimed in claim 1, comprising:
said mobile station receiving a second message over-the-air from the
base station, said second message indicating that said mobile station is to clear
the delay time in transmitting the indicated type of packet data messages; and
in response to receipt of said second message, said mobile station re-
enabling over-the-air transmission of the indicated type of packet data messages
to the base station by the mobile station.
4. The method as claimed ir claim 3, wherein:
receiving the second message comprises receiving in the second
message an indication that said mobile station is to clear less than all existing
delay times imposed by said base station on messaging by said mobile station;
and

said re-enabling comprises re-enabling over-the-air transmission by the
mobile station of the types of messages for which delay times imposed by the
base station have been cleared.
5. The method as claimed in claim 1, wherein:
said indicated type of packet data messages comprises a type of data
burst messages.
6. The method as claimed in claim 1, wherein:
the plural types of packet data messages comprise short data burst
messages and short message service (SMS) messages.
7. The method as claimed in claim 1, and comprising the base station
transmitting said first message over-the-air to the mobile station.
8. A method of regulating messaging by a mobile station in a communication
network, said method comprising:
a base station determining an inability to process at least one message;
and
in response to said determining, the base station transmitting a first
message over-the-air to a mobile station, said first message containing a field set
by the base station to one of plural values to indicate that the mobile station is to
delay transmitting one of plural types of packet data messages and a duration of
delay, wherein packet data messaging by the mobile station is regulated by the
base station.
9. The method as claimed in claim 8. said determining comprising said base
station detecting an inability to process a packet data message transmitted by
the mobile station.
10. The method as claimed in claim 8, wherein said first message comprises
a Retrv Order message.

11. The method as claimed in claim 8, comprising:
after transmitting said first message, said base station transmitting a
second message over-the-air to the mobile station, said second message
indicating that said mobile station is to clear a delay time in the mobile station in
transmitting the indicated type of packet data messages.
12. The method as claimed in claim 11, wherein transmitting the second
message comprises transmitting ir the second message an indication that said
mobile station is to clear less than all existing delay times imposed by said base
station on messaging by said mobile station.
13. The method as claimed in claim 8, wherein said indicated type of packet
data messages comprise a type of data burst messages.
14. The method as claimed in claim 8, wherein said plural types of packet
data messages comprise short data burst messages and short message service
(SMS) messages.
15. The method as claimed in claim 8, and comprising the mobile station,
responsive to receipt of the message, delaying over-the-air transmission of the
indicated type of packet data messages to the base station in accordance with
the indicated duration.
16. A mobile station, comprising:
means for receiving a first message over-the-air from a base station, said
first message containing a field settable by the base station to one of plural
values to indicate a type of packet data messages that the mobile station is to
delay transmitting and a duration of delay, wherein the field is settable by the
base station to one of plural values to indicate one of plural types of packet data
messages; and

means, responsive to receipt of the first message from the base station,
for setting a delay time to delay over-the-air transmission of the indicated type of
packet data messages in accordance with the indicated duration.
17. The mobile station as claimed in claim 16, wherein said first message
comprises a Retry Order message
18. The mobile station as claimed in claim 16, comprising:
means for receiving a second message over-the-air from the base station,
said second message indicating that said mobile station is to clear the delay time
in transmitting the indicated type cf packet data messages; and
means, responsive to receipt of said second message, for re-enabling
over-the-air transmission of the indicated type of packet data messages to the
base station by the mobile station
19. The mobile station as claimed in claim 18, wherein:
said means for receiving the second message comprises means for
receiving in the second message an indication that said mobile station is to clear
less than all existing delay times imposed by said base station on messaging by
said mobile station; and
said means for re-enabling comprises means for re-enabling over-the-air
transmission by the mobile station of the types of messages for which delay
times imposed by the base station have been cleared.
20. The mobile station as claimed in claim 16, wherein:
said types of packet data messages comprise types of data burst
messages.
21. The mobile station as claimed in claim 16, wherein:
said types of packet data messages comprise short data burst messages
and short service messages (SMS).

22. A base station for a communication neitwork, said base station comprising:
means for determining an inability to process at least one message; and
means, responsive to determining an inability to process at least one
message, for transmitting a first message over-the-air to a mobile station, said
message containing a field set by the base station to one of plural values to
indicate that the mobile station is to delay transmitting one of plural types of
packet data messages and a duration of delay, wherein packet data messaging
by the mobile station is regulated b/ the base station.
23. The base station as claimed in claim 22, said means for determining
comprising means for detecting an inability to process a packet data message
transmitted by the mobile station.
24. The base station as claimed in claim 22, wherein said first message
comprises a Retry Order message.
25. The base station as claimed in claim 22, comprising:
means for, after transmitting said first message, transmitting a second
message over-the-air to the mobile station, said second message indicating that
said mobile station is to clear a delay time in transmitting the indicated type of
packet data messages.
26. The base station as claimed in claim 25, wherein said means for
transmitting the second message comprises means for transmitting in the
second message an indication that said mobile station is to clear less than all
existing delay times imposed by said base station on messaging by said mobile
station.
27. The base station as claimed in claim 22, wherein said types of packet
data messages comprise types of data burst messages.

28. The base station as claimed in claim 27, wherein said types of packet
data messages comprise short data burst messages and short message service
(SMS) messages.
29. A communication network comprising:
a base station in accordance with claim 22; and
a mobile station that, responsive to receipt of the first message, delays
over-the-air transmission of the indicated type of packet data messages to the
base station in accordance with the indicated duration.
— x —

A communication network comprises a base station (102, 106) in radio
frequency communication with a mobile station (105). In order to regulate packet
data messaging by the mobile station (105), the base station transmits (404) a
message over-the-air to the mobile station (105). The message indicates that the
mobile station (105) is to delay transmitting packet data messages and a
duration of delay. In response to receipt of the message from the base station
(105), the mobile station delays (430) over-the-air transmission of packet data
messages (e.g., Data Burst Messages) in accordance with the indicted duration.

Documents:

458-KOLNP-2006-CORRESPONDENCE.pdf

458-KOLNP-2006-FORM 27.pdf

458-kolnp-2006-granted-abstract.pdf

458-kolnp-2006-granted-assignment.pdf

458-kolnp-2006-granted-claims.pdf

458-kolnp-2006-granted-correspondence.pdf

458-kolnp-2006-granted-description (complete).pdf

458-kolnp-2006-granted-drawings.pdf

458-kolnp-2006-granted-examination report.pdf

458-kolnp-2006-granted-form 1.pdf

458-kolnp-2006-granted-form 18.pdf

458-kolnp-2006-granted-form 3.pdf

458-kolnp-2006-granted-form 5.pdf

458-kolnp-2006-granted-gpa.pdf

458-kolnp-2006-granted-reply to examination report.pdf

458-kolnp-2006-granted-specification.pdf

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Patent Number

230130

Indian Patent Application Number

458/KOLNP/2006

PG Journal Number

09/2009

Publication Date

27-Feb-2009

Grant Date

25-Feb-2009

Date of Filing

28-Feb-2006

Name of Patentee

NORTEL NETWORKS LTD.

Applicant Address

2351, BOULEVARD ALFRED-NOBEL ST. LAURENT, QUEBEC H4S 2A9

Inventors:

#	Inventor's Name	Inventor's Address
1	WANG, CHUNG-CHING	756, PLAYER DRIVE, PLANO TX 75025
2	JANG, KE-CHI	7017, STODDARD LANE, PLANO TX 75025

PCT International Classification Number

H04Q 7/22

PCT International Application Number

PCT/US2004/024759

PCT International Filing date

2004-08-02

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	60/494,862	2003-08-13	U.S.A.