WO2001097538B1

WO2001097538B1 - Flexible paging for packet data

Info

Publication number: WO2001097538B1
Application number: PCT/US2001/018380
Authority: WO
Inventors: Carl Mansfield; Izzet Murat Bilgic; Benjamin K Gibbs; Gavette Sherman
Original assignee: Xircom Inc
Priority date: 2000-06-12
Filing date: 2001-06-06
Publication date: 2002-03-21
Also published as: US6477382B1; WO2001097538A8; WO2001097538A1; MY127217A; AU2001268220A1

Abstract

A system (100) and method including a flexible paging protocol which adjusts the allocation of resources for paging in response to the amount of actual paging traffic, by increasing resources for paging when paging traffic is heavy and decreasing them when paging traffic is light. A base station (204) transmits a paging packet message (601) over a paging broadcast channel containing a set of paging messages and a next page pointer (603). The next page pointer (603) identifies when the next set of paging packet messages (601) will be transmitted. A user station (105) monitoring the paging channel receives the next page pointer (603), and if not being paged, goes to sleep until the next paging packet message (601) is due. When paging traffic is light, paging messages are sent infrequently, freeing up base station (204) resources and allowing the user station (105) to remain sleep longer. When paging traffic is heavy, paging messages are sent more frequently, ensuring rapid response to the pages and reducing the probability of a missed call.

Claims

AMENDED CLAIMS

[received by the International Bureau on 13 December 2001 (13 12 01), original claims 1-3, 5-7, 9, 34 and 35 amended, new claims 40-48 added, remaining claims unchanged (5 pages)]

1. A wireless communication system, comprising: a base station; and a user system capable of communicating with said base station over a wireless communication channel, wherein said base station is capable of asynchronously transmitting paging packet messages to said user systems, each paging package message indicating when a subsequent paging packet message will be transmitted.

2. The wireless communication system of claim 1 , wherein said user system places itself in a sleep mode between transmissions of said paging packet messages.

3. The wireless communication system of claim 1 , further comprising a plurality of user systems capable of communicating with said base station over wireless communications channels and broadcasting said paging packet messages to said plurality of user systems, wherein each of said paging packet messages comprises a plurality ot pages tor said plurality of user systems.

4. The wireless communication system of claim 1 , wherein said base station is connected to a backhaul link over which it receives data packets for transmission to said user systems, said base station adjusting the frequency of transmitting said paging packet messages based upon a traffic level of said data packets for transmission to said user systems.

5. The wireless communication system of claim 1 , wherein said base station is capable of transmitting said paging packet messages over a paging channel that is time-multiplexed with at least one other control channel.

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6. The wireless communication system of claim 1 , wherein said base station is capable of communicating with said user systems using a time division multiple access (TDMA) technique in which a repeating time frame is divided into a plurality of time slots, and wherein each of said wireless communication channels comprises at least one of said time slots.

7. The wireless communication system of claim 6, wherein said base station and said user system are capable of communicating using spread spectrum communication.

8. The wireless communication system of claim 1 , wherein each paging packet message comprises a next page pointer indicating when a subsequent paging packet message will be transmitted.

9. The wireless communication system of claim 8, wherein said base station is capable of transmitting non-paging control traffic messages to said user systems, said non-paging control traffic messages each comprising a next slot pointer indicating when a subsequent non-paging control traffic message will be transmitted, said next slot pointer located in a same relativ e position within a non-paging control traffic message as said next page pointer within a paging packet message.

10. A method of communication, comprising broadcasting, over a paging channel carried on a wireless connection, paging messages from a base station to a plurality of user systems, and dynamically adjusting an information bandwidth of said paging channel based upon a traffic level of packet data destined for said user systems.

11. The method of claim 10, wherein said step of broadcasting paging messages from said base station to said plurality of user systems comprises the step of for each user system responding to a page, transmitting said frames to the target user system, one frame being transmitted per time slot.

32. The method of claim 30, wherein said information element identifying when a subsequent paging packet message will be transmitted by the base station comprises a numerical value indicating a number of time frames until the subsequent paging packet message will be transmitted by the base station.

33. The method of claim 28, wherein said user systems place themselves in a sleep mode between paging packet messages broadcast by said base station.

34. A method for adjusting paging bandwidth, comprising the steps of: transmitting a first transmission, said first transmission comprising a first paging message and an asynchronous next page pointer; and transmitting a second transmission following said first transmission by an interval of time indicated by said asynchronous next page pointer, said second transmission comprising a second paging message.

35. The method of claim 34, wherein said second transmission comprises a second asynchronous next page pointer, said method further comprising the step of transmitting a third transmission following said second transmission by a second interval of time indicated by said second asynchronous next page pointer, said third transmission comprising a third paging message.

36. The method of claim 35, wherein said first transmission comprises a first plurality of paging messages, said first plurality of paging messages comprising said first paging message; said second transmission comprises a second plurality of paging messages, said second plurality of paging messages comprising said second paging message; and

44 said third transmission comprises a third plurality of paging messages, said third plurality of paging messages comprising said third paging message.

37. The method of claim 35, wherein said first interval of time and said second interval of time are selected by said base station based upon a traffic level of packet data destined for mobile end users within a geographic area serviced by said base station.

38. The method of claim 33, further comprising the steps of: receiving said first transmission at a plurality of mobile end users; and receiving said second transmission at said plurality of mobile end users.

39. The method of claim 38, wherein said mobile end users place themselves in a sleep mode between said first transmission and said second transmission.

40. The wireless communication system of claim 1 , wherein all paging packet messages transmitted from said base station to said user system indicate when a subsequent paging packet message will be transmitted.

41. The wireless communication system of claim 6. wherein at least one time slot is reserved for bearer traffic.

42. The wireless communication system of claim 6. wherein said paging packet messages are transmitted in a preset time slot.

43. The method of claim 12, wherein at least one time slot is reserved for bearer traffic.

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44. The method of claim 12. further comprising the step of transmitting said packet messages in a preset time slot.

45. The wireless communication system of claim 26, wherein at least one time slot is reserved for bearer traffic.

46. The wireless communication system of claim 26, wherein said paging information is transmitted in a preset time slot.

47. The method of claim 30. wherein at least one time slot is reserved for bearer traffic.

48. The method of claim 30, further comprising the step of transmitting said paging packet messages in a preset time slot.

46 STATEMENT UNDER ARTICLE 19(1 )

The International Search Report issued by the ISA indicates that the invention claimed in claims 1 -3 and 6-8 cannot be considered novel or cannot be considered to involve an inventive step when U.S. Patent No. 5,918, 1 70 to Oksanen et al. ("Oksanen") is taken alone. The International Search Report also indicates that claims 4, 10-12, 14, 16, 18-23, 26-34, and 37-39 cannot be considered to involve an inventive step when the document is combined with one or more other documents, including Oksanen and U.S. Patent No. 6, 104,998 to Galand et al. ("Galand").

Independent claim 1 , as amended, requires an asynchronous transmission of paging packet messages by a base station. Although the individual time slots within the time frame remain constant, the paging packet message is sent asynchronously based upon the next page pointer. This asynchronous transmission of paging packet messages allows a continuous adjustment of the paging channel bandwidth by the base station. Support for this amendment can be found in the specification at page 21 , lines 3-25, and Figure 7.

In contrast, Oksanen describes a system, wherein each mobile station is synchronized to receive every nth overhead message train. (See Oksanen, col. 6, lines 9-16). Oksanen does not disclose the asynchronous transmission of paging data to any one user system.

Independent claim 34, as amended, requires transmitting a first, and then a second, transmission within an interval of time indicated by an asynchronous next page pointer. Contrary to the asynchronous next page pointer, the synchronization message in Oksanen is sent to synchronize a mobile station to receive every nth OMT.

The newly added dependent claim 40 additionally requires that all paging packet messages that are transmitted from the base station to the user system indicate when a subsequent paging packet message will be transmitted. Support for claim 40 may be

47 found in the specification at page 21 , lines 3-25, page 22, lines 5-9, and Figure 7, which shows each paging packet message indicates in which frame the next paging packet message will be transmitted based on the value of the next page pointer. The prior art does not disclose this.

Newly added dependent claims 41 , 43, 45, and 47 require that a repeating frame be divided into a plurality of time slots, in which at least one of these time slots is reserved for bearer traffic. Support for claims 41 , 43, 45, and 47 is discussed in the specification at page 6, lines 2-5 and in Figures 10A and 1 0B, wherein the base station generates a repeating time frame comprising a plurality of time slots, and at least one of the time slots may be reserved for bearer traffic. In contrast, the forward control channel frame of Oksanen is not disclosed as carrying traffic, but rather overhead and paging data. (See Oksanen, col. 5, lines 33-44).

Newly added dependent claims 42, 44, 46, and 48 require that the repeating time frame divided into a plurality of time slots comprises a preset time slot for the paging information set out in the paging messages. Oksanen describes numerous paging slots in which paging messages occupy the slots within a frame (See Oksanen, col. 5, lines 33-34 and Figure 4). Oksanen does not describe a preset or fixed slot specifically for paging messages, but rather the frame comprises multiple slots containing paging messages. Support for claims 42, 44, 46, and 48 may be found in the specification on page 4, lines 8-9, page 19, lines 9-1 5, page 20, lines 23-12, and Figure 7, which shows a paging channel is continuously defined on a fixed time slot amongst various time frames.

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