Discontinuous reception
地域:
Tokyo
摘要
An interface of a terminal switches between at least one active state (283) and a sleep state (281) according to a schedule (200). Uplink control data is transmitted which is indicative of a temporary prolongation (209) of the at least one active state (283).
說明書
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
The invention generally relates to switching between at least one active state and a sleep state of an interface of a terminal connectable to a network. The invention specifically relates to transmitting uplink control data which is indicative of a temporary prolongation of the at least one active state.
In order to reduce power consumption of terminals that are connectable to a network, so-called Discontinuous Reception (DRX) is known. For example, according to Third Generation Partnership Project (3GPP) Long Term Evolution (LTE) protocols, DRX can be implemented as described in 3GPP Technical Specification (TS) 36.321 (Release 13.0.0), section 5.7 for Radio Resource Control (RRC) connected mode and in 3GPP TS 36.304, section 7.1 for RRC idle mode.
According to 3GPP LTE DRX for connected mode (connected DRX), the terminal is ready to receive downlink (DL) payload data during an ON time of the DRX cycle. An RRC connection is established at the beginning of the ON time and released at the end of the ON time. According to 3GPP LTE DRX for idle mode (idle DRX), the terminal is ready to receive network paging during the ON time of the DRX cycle. An RRC connection is not established during the ON time, but only established on demand if the terminal is in fact paged by the network. Both, in RRC connected and RRC idle, the UE may be registered with the network.
權(quán)利要求
The invention claimed is:1. A terminal, comprising:an interface configured to communicate with a network on a wireless link, and at least one processor configured to control the interface to switch between at least one active state and a sleep state according to a schedule, the at least one active state comprising a connected state where the terminal maintains a data connection on a wireless link with the network, the data connection being released during the sleep state, wherein the at least one processor is configured to transmit uplink control data to the network indicative of a temporary prolongation of the at least one active state, the uplink control data being piqqybacked onto a control message communicated during a procedure for establishing the data connection. 2. The terminal of claim 1 ,wherein the schedule is repetitive, wherein the at least one processor is configured to transmit the uplink control data in a given repetition of the schedule, the uplink control data being indicative of the prolongation of the at least one active state in the given repetition. 3. The terminal of claim 2 ,wherein the at least one processor is configured to transmit, via the interface, uplink payload data of a service in the given repetition of the schedule, wherein the at least one processor is configured to receive, via the interface, downlink payload data of the service in the given repetition of the schedule and during the prolongation, wherein the at least one processor is configured to determine a duration of the prolongation based on knowledge on a roundtrip latency of the service. 4. The terminal of claim 3 ,wherein the at least one processor is configured to receive, via the interface, a downlink paging signal in the given repetition of the schedule and during the prolongation, wherein the at least one processor is configured to perform an attach procedure for establishing a data connection on the wireless link in response to said receiving of the downlink paging signal, wherein the at least one processor is configured to receive the downlink payload data on the data connection. 5. The terminal of claim 3 ,wherein the at least one processor is configured to initialize a timer based on the determined duration of the prolongation and in response to transmitting the uplink payload data. 6. The terminal of claim 3 ,wherein the at least one processor is configured to fall back to the schedule in response to receiving the downlink payload data. 7. The terminal of claim 2 ,wherein the at least one processor is configured to control the interface to operate in a connected state selected from the at least one active state in the given repetition and prior to the prolongation, the interface being configured to maintain a data connection of the wireless link in the connected state, wherein the at least one processor is configured to control the interface to operate in an idle state selected from the at least one active state in the given repetition of the schedule during the prolongation, the interface being configured to release the data connection and to listen for downlink paging signal in the idle state. 8. The terminal of claim 2 ,wherein a duration of the prolongation is not less than 50% of a duration of the at least one active state according to the schedule, optionally not less than 200%, further optionally not less than 500%, and/or wherein the duration of the prolongation is a fraction of the duration of the sleep state. 9. The terminal of claim 1 ,wherein the schedule implements a Discontinuous Reception (DRX) cycle, wherein the prolongation is implemented by temporarily reconfiguring an inactivity timer of the DRX cycle, the inactivity timer defining a time duration during which the interface is controlled to continue operation in the at least one active state when expecting downlink payload data. 10. The terminal of claim 1 ,wherein the uplink control data is indicative of a duration of the temporary prolongation. 11. The terminal of claim 1 ,wherein the at least one processor is configured to receive downlink control data indicative of an acknowledgement of the uplink control data, wherein the at least one processor is configured to selectively implement the temporary prolongation based on the acknowledgement. 12. The terminal of claim 11 ,wherein the downlink control data is further indicative of a duration of the temporary prolongation. 13. The terminal of claim 1 ,wherein the schedule is repetitive, wherein the at least one processor is configured to implement the temporary prolongation in a first repetition of the schedule, wherein the at least one processor is configured to fall back to the schedule no later than in a second repetition of the schedule, the second repetition being adjacent and subsequent to the first repetition. 14. The terminal of claim 1 ,wherein the at least one processor is configured to selectively trigger the temporary prolongation in response to a need for receiving downlink payload data of a service, wherein the at least one processor is configured to receive the downlink payload data during the prolongation. 15. The terminal of claim 1 ,wherein the schedule is negotiated with network or is predefined. 16. A system, comprising:a network node having at least one processor, and a terminal according to claim 1 . 17. A network node of a network, comprising:at least one processor configured to receive uplink control data from a terminal indicative of a temporary prolongation of at least one active state of a schedule for switching an interface of the terminal between at least one active state and a sleep state, wherein the at least one active state comprises a connected state where the terminal maintains a data connection on a wireless link with the network, the data connection being released during the sleep state, and the uplink control data being piggybacked onto a control message communicated during a procedure for establishing the data connection. 18. A method, comprising:controlling an interface of a terminal connected to a network to switch between at least one active state and a sleep state according to a schedule, the at least one active state comprising a connected state where the terminal maintains a data connection on a wireless link with the network, the data connection being released during the sleep state, and transmitting, to the network, uplink control data indicative of a temporary prolongation of the at least one active state, the uplink control data being piggybacked onto a control message communicated during a procedure for establishing the data connection. 19. A method, comprising:receiving uplink control data from a terminal, the uplink control data being indicative of a temporary prolongation of at least one active state of a schedule for switching an interface of the terminal between at least one active state and a sleep state, wherein the at least one active state comprises a connected state where the terminal maintains a data connection on a wireless link with the network, the data connection being released during the sleep state, and the uplink control data being piggybacked onto a control message communicated during a procedure for establishing the data connection.
意見反饋
使用該功能遇到問題