CN104219774A - Random access processing method, base station and user equipment - Google Patents

Abstract

The invention provides a random access processing method, a base station and user equipment. The method comprises the following steps: when the base station is at an activation state time interval in a DTX (Discontinuous Transmission) mode or at a preset time interval before the activation state time interval, transmitting random access request information to the base station by UE (User Equipment); and monitoring random access response information transmitted by the base station in order that the UE accesses to the base station after receiving the random access response information transmitted by the base station. In the embodiment of the invention, the UE transmits the random access request information to the base station when the base station is at the activation state time interval in the DTX mode or at the preset time interval before the activation state time interval, so that the base station can process the random access request information instantaneously after receiving the random access request information; and moreover, random access response is transmitted, so that the UE can access to the base station in time, and access delay is avoided.

Description

Random access processing method, base station and subscriber equipment

Technical field

The present invention relates to the communication technology, relate in particular to a kind of random access processing method, base station and subscriber equipment.

Background technology

Along with the development of mobile communication technology, and third generation partner program (3rd Generation Partnership Project, be called for short 3GPP), Long Term Evolution (Long Term Evolution, be called for short LTE) large scale deployment, the business of the large bandwidth of two-forty is just bringing the application experience that user enriches, the extensive growth particularly using along with smart mobile phone, for new vitality has been injected in communication, but has also brought more challenge to network operation, wherein, the progressively increase of application service, the demand of network capacity is also constantly increased, in order further to strengthen the capacity of network, the network architecture is (Heterogeneous Network from homogeneous network to heterogeneous network, be called for short HetNet) evolution, under heterogeneous network, can be coated with multiple access points, these access points can be little base station (Pico), indoor base station (Femto), Hypomobility base station (Low Mobility, be called for short LoMo), local wireless access point (Access Point, be called for short AP), low power transmissions node (Low Power Node, be called for short LPN) etc., under this heterogeneous network, small base station can be given subscriber equipment (the User Equipment under its coverage, be called for short UE) service is provided, but, under this heterogeneous network, need to consider the power saving of small base station and macro base station, so introduced discontinuous transmission (Discontinuous Transmission in base station, be called for short DTX) pattern, under DTX pattern, base station, for example eNB can be in the length of one's sleep or activationary time, when eNB is during in the length of one's sleep, do not send downlink information.

Inventor finds in the process that realizes the embodiment of the present invention, adopt prior art, in the random access procedure of UE, UE receives after the random access scrambling code information of eNB broadcast, can on the ascending wireless resource of specifying, send random access scrambler, UE sends after this random access scrambler, monitor eNB by Physical Downlink Control Channel (Physical downlink control channel at an accidental access response window, be called for short PDCCH) send accidental access response message, if run into eNB in the length of one's sleep, UE may not receive accidental access response message for a long time, thereby make UE postpone access, reducing user experiences.

Summary of the invention

The embodiment of the present invention provides a kind of random access processing method, base station and subscriber equipment, for solving UE when the access base station, may not receive for a long time accidental access response message, and postpones the problem of access.

Embodiment of the present invention first aspect provides a kind of random access processing method, comprising:

User equipment (UE) sends in the state of activation time period in DTX pattern or the Preset Time section before the state of activation time period in discontinuous in base station, sends random access request information to base station;

Described UE monitors the accidental access response information that described base station sends, so that described UE accesses described base station after the accidental access response information that receives the transmission of described base station.

In conjunction with first aspect, in the possible execution mode of the first of first aspect, described UE monitors the accidental access response information that described base station sends, and comprising:

Described UE monitors the accidental access response information that described base station sends in default listening period section.

In conjunction with the possible execution mode of the first of first aspect, in the second of first aspect may ear execution mode, described UE is in base station in the state of activation time period in DTX pattern, while sending random access request information to base station,

Described UE monitors the accidental access response information that described base station sends in default listening period section, comprising:

Described UE monitors the accidental access response information that described base station sends in the residue state of activation time period in the current DTX cycle of described base station; Or,

In the residue state of activation time period of described UE in the current DTX cycle of described base station and in the state of activation time period extending, monitor the accidental access response information that described base station sends; Or,

In the residue state of activation time period of described UE in the current DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In the state of activation time period in the residue state of activation time period of described UE in the current DTX cycle of described base station and next DTX cycle, monitor the accidental access response information that base station sends; Or,

Described UE obtains the transmitting time segment information of base station transmission accidental access response information, monitors the accidental access response information that described base station sends in described transmitting time section;

Wherein, the described residue state of activation time period is the time period finishing to the state of activation time the current DTX cycle after described UE sends random access request information.

In conjunction with the possible execution mode of the second of first aspect, in the third possible execution mode of first aspect, described UE in the Preset Time section before the state of activation time period in the DTX cycle, sends random access request information in base station to base station;

Described UE monitors the accidental access response information that described base station sends in default listening period section, comprising:

Described UE monitors the accidental access response information that described base station sends in the state of activation time period in the described DTX cycle of described base station; Or,

In the state of activation time period that in the state of activation time period of described UE in the described DTX cycle of described base station and described base station extends, monitor the accidental access response information that base station sends;

In the state of activation time period of described UE in the described DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In the state of activation time period of described UE in the described DTX cycle of described base station and in the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or,

Described UE obtains the transmitting time segment information of base station transmission accidental access response information, monitors the accidental access response information that described base station sends in described transmitting time section.

In conjunction with the possible execution mode of the second of first aspect or the third possible execution mode, in the 4th kind of possible execution mode of first aspect, described UE obtains the transmitting time segment information of base station transmission accidental access response information, comprising:

Described UE receives the transmitting time segment information of the accidental access response information of base station broadcast; Or,

Described UE receives the transmitting time section corresponding relation of base station broadcast, determine that base station sends the transmitting time segment information of accidental access response information, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

In conjunction with first aspect, to any one in the 4th kind of possible execution mode of first aspect, in the 5th kind of possible execution mode of first aspect, described UE also comprises monitor the accidental access response information that base station sends in default listening period section after:

Described UE sends upstream data message to described base station;

Described UE receives the upstream data response message that described base station sends.

In conjunction with the 5th kind of possible execution mode of first aspect, in the 6th kind of possible execution mode of first aspect, described UE sends upstream data message to described base station, comprising:

In the residue state of activation time period of described UE in the current DTX cycle that receives described accidental access response information, send upstream data message to described base station; Or,

The random time of described UE after receiving described accidental access response information sends upstream data message to described base station; Or,

Described UE sends upstream data message to described base station within the time period of making an appointment with described base station.

In conjunction with the 5th kind of possible execution mode of first aspect, in the 7th kind of possible execution mode of first aspect,

Described UE receives the upstream data response message that described base station sends, and comprising:

Described UE monitors the upstream data response message that described base station sends within the state of activation time period of described base station; Or,

Described UE sends described UE and receives the suggestion time period of upstream data response message to described base station, and within the described suggestion time period, monitors the upstream data response message that described base station sends; Or,

Described UE receives the designated time section that base station sends, and in described designated time section, monitors the upstream data response message that described base station sends, and wherein said base station sends described upstream data response message in described designated time section.

In conjunction with first aspect to any one in the 7th kind of possible execution mode of first aspect, in the 8th kind of possible execution mode of first aspect, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

Embodiment of the present invention second aspect provides a kind of random access processing method, comprising:

Base station receives the random access request information sending in the state of activation time period of user equipment (UE) in the discontinuous transmission in described base station DTX pattern or the Preset Time section before the state of activation time period;

Described base station, according to described random access request information, sends accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

In conjunction with second aspect, in the possible execution mode of the first of second aspect, described base station, according to described random access request information, sends accidental access response information to described UE, comprising:

Described base station, according to described random access request information, sends accidental access response information to described UE when in state of activation.

In conjunction with the possible execution mode of the first of second aspect, in the possible execution mode of the second of second aspect, when described base station receives the random access request information sending in the state of activation time period of UE in the DTX pattern of described base station,

Described base station sends accidental access response information to described UE when in described state of activation, comprising:

In the residue state of activation time period of described base station in the current DTX cycle, send accidental access response information to described UE; Or,

In the state of activation time period that in the residue state of activation time period of described base station in the current DTX cycle and described base station extends, send accidental access response information to described UE; Or,

In the residue state of activation time period of described base station in the current DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In the state of activation time period in the residue state of activation time period of described base station in the current DTX cycle and next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of described base station broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section;

Wherein, the residue state of activation time period is that described base station receives after described random access request information the time period between finishing state of activation time in the current DTX cycle.

In conjunction with the possible execution mode of the first of second aspect, in the third possible execution mode of second aspect, when described base station receives the random access request information sending in the Preset Time section before the state of activation time period of UE in the DTX pattern of described base station

Described base station sends accidental access response information to described UE when in described state of activation, comprising:

In the state of activation time period of described base station in the described DTX cycle, send accidental access response information to described UE; Or,

In the state of activation time period of described base station in the described DTX cycle and in the state of activation time period extending, send accidental access response information to described UE; Or,

In the state of activation time period of described base station in the described DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In the state of activation time period in the state of activation time period of described base station in the described DTX cycle and in next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of described base station broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section.

In conjunction with second aspect to any one in the third possible execution mode of second aspect, in the 4th kind of possible execution mode of second aspect, described base station, according to described random access request information, before sending accidental access response information, also comprises to described UE:

Described base station is to the transmitting time segment information of UE broadcast accidental access response information, so that described UE monitors the accidental access response information that described base station sends after receiving the transmitting time segment information of described accidental access response information in described transmitting time section; Or,

Described base station is to UE broadcast transmission time period corresponding relation, so that described UE determines that base station sends the transmitting time segment information of accidental access response information after receiving described transmitting time section corresponding relation, and in described transmitting time section, monitor the accidental access response information that described base station sends, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

In conjunction with second aspect to any one in the 4th kind of possible execution mode of second aspect, in the 5th kind of possible execution mode of second aspect, described base station, according to described random access request information, after described UE sends accidental access response information, also comprises:

Described base station receives the upstream data message that described UE sends;

Described base station sends upstream data response message to described UE.

In conjunction with the 5th kind of possible execution mode of second aspect, in the 6th kind of possible execution mode of second aspect, described base station receives the upstream data message that described UE sends, and comprising:

Described base station receives the upstream data message sending in the residue state of activation time period of described UE in the current DTX cycle receiving after accidental access response information; Or,

Described base station receives described UE and is receiving the upstream data message that after accidental access response information, random time sends; Or,

Described base station receives the upstream data message that described UE sends within the time period of making an appointment with described base station.

In conjunction with the 5th kind of possible execution mode of second aspect, in the 7th kind of possible execution mode of second aspect, described base station sends upstream data response message to described UE, comprising:

Described base station, in the time of state of activation, sends upstream data response message to described UE; Or,

Described base station receives the suggestion time period of the reception upstream data response message of described UE transmission, replys confirmation to described UE, and sends upstream data response message to described UE within the described suggestion time period; Or,

Described base station is to the designated time section of described UE broadcast upstream data response message, and sends upstream data response message to described UE in described designated time section.

In conjunction with the 7th kind of possible execution mode of second aspect, in the 8th kind of possible execution mode of second aspect, described base station sends upstream data response message to described UE within the described suggestion time period, comprising:

If in the described suggestion time, described base station is in state of activation, and described base station sends upstream data response message to described UE;

If in the described suggestion time, described base station is in sleep state, and described base station is switched to state of activation, and sends upstream data response message to described UE.

In conjunction with second aspect to any one in the 8th kind of possible execution mode of second aspect, in the 9th kind of possible execution mode of second aspect, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

The embodiment of the present invention third aspect provides a kind of subscriber equipment, comprising:

Transport module, in the Preset Time section before state of activation time period or the state of activation time period in discontinuous transmission DTX pattern in base station, sends random access request information to base station;

Monitor module, the accidental access response information sending for monitoring described base station, so that described UE accesses described base station after the accidental access response information that receives the transmission of described base station.

In conjunction with the third aspect, in the possible execution mode of the first of the third aspect, described monitoring module, specifically for monitoring the accidental access response information that described base station sends in default listening period section.

In conjunction with the possible execution mode of the first of the third aspect, in the possible execution mode of the second of the third aspect, described transport module, within the state of activation time period in DTX pattern in base station, sends random access request information to base station; Correspondingly,

Described monitoring module, the accidental access response information sending specifically for monitoring described base station in the residue state of activation time period in the current DTX cycle of described base station; Or,

In the residue state of activation time period in the current DTX cycle of described base station and in the state of activation time period extending, monitor the accidental access response information that described base station sends; Or,

In the residue state of activation time period in the current DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In residue state of activation time period in the current DTX cycle of described base station and the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or,

Obtain the transmitting time segment information that base station sends accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends;

Wherein, the described residue state of activation time period is the time period finishing to the state of activation time the current DTX cycle after described UE sends random access request information.

In conjunction with the possible execution mode of the first of the third aspect, in the third possible execution mode of the third aspect, described transport module, in the Preset Time section before the state of activation time period in the DTX cycle in base station, sends random access request information to base station; Correspondingly,

Described monitoring module, the accidental access response information sending specifically for monitoring described base station in the state of activation time period in the described DTX cycle of described base station; Or,

In the state of activation time period that in the state of activation time period in the described DTX cycle of described base station and described base station extends, monitor the accidental access response information that base station sends;

In the state of activation time period in the described DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In the state of activation time period in the described DTX cycle of described base station and in the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or,

Obtain the transmitting time segment information that base station sends accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends.

In conjunction with the possible execution mode of the second of the third aspect or the third possible execution mode, in the 4th kind of possible execution mode of the third aspect, described transport module comprises:

Receiving element, for receiving the transmitting time segment information of accidental access response information of base station broadcast; Or,

Receive the transmitting time section corresponding relation of base station broadcast, determine that base station sends the transmitting time segment information of accidental access response information, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

In conjunction with the third aspect to any one in the 4th kind of possible execution mode of the third aspect, in the 5th kind of possible execution mode of the third aspect, described transport module, also, for monitor the accidental access response information of base station transmission in default listening period section after, send upstream data message to described base station; Receive the upstream data response message that described base station sends.

In conjunction with the 5th kind of possible execution mode of the third aspect, in the 6th kind of possible execution mode of the third aspect, described transport module, specifically for sending upstream data message to described base station in the residue state of activation time period in the current DTX cycle that receives described accidental access response information; Or,

Random time after receiving described accidental access response information sends upstream data message to described base station; Or,

Described UE sends upstream data message to described base station within the time period of making an appointment with described base station.

In conjunction with the 5th kind of possible execution mode of the third aspect, in the 7th kind of possible execution mode of the third aspect, described transport module, the upstream data response message sending specifically for monitor described base station within the state of activation time period of described base station; Or,

Send the suggestion time period that described UE receives upstream data response message to described base station, and monitor the upstream data response message that described base station sends within the described suggestion time period; Or,

Receive the designated time section that base station sends, and in described designated time section, monitor the upstream data response message that described base station sends, wherein said base station sends described upstream data response message in described designated time section.

In conjunction with the third aspect to any one in the 7th kind of possible execution mode of the third aspect, in the 8th kind of possible execution mode of the third aspect, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

Embodiment of the present invention fourth aspect provides a kind of base station, comprising:

Receiver module, for receiving the random access request information sending in the Preset Time section of user equipment (UE) before state of activation time period or the state of activation time period of the discontinuous transmission in described base station DTX pattern;

Sending module, for according to described random access request information, sends accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

In conjunction with fourth aspect, in the possible execution mode of the first of fourth aspect, described sending module according to described random access request information, sends accidental access response information to described UE specifically for described base station when in state of activation.

In conjunction with the possible execution mode of the first of fourth aspect, in the possible execution mode of the second of fourth aspect, described receiver module, specifically for receiving the random access request information sending in the state of activation time period of UE in the DTX pattern of described base station; Correspondingly,

Described sending module, specifically for sending accidental access response information to described UE in the residue state of activation time period in the current DTX cycle; Or,

In the state of activation time period that in the residue state of activation time period in the current DTX cycle and described base station extends, send accidental access response information to described UE; Or,

In the residue state of activation time period in the current DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In residue state of activation time period in the current DTX cycle and the state of activation time period in next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section;

Wherein, the residue state of activation time period is that described base station receives after described random access request information the time period between finishing state of activation time in the current DTX cycle.

In conjunction with the possible execution mode of the first of fourth aspect, in the third possible execution mode of fourth aspect, described receiver module, specifically for receiving the random access request information sending in the Preset Time section before the state of activation time period of UE in the DTX pattern of described base station; Correspondingly,

Described sending module, specifically for sending accidental access response information to described UE in the state of activation time period in the described DTX cycle; Or,

In the state of activation time period in the described DTX cycle and in the state of activation time period extending, send accidental access response information to described UE; Or,

In the state of activation time period in the described DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In the state of activation time period in the state of activation time period in the described DTX cycle and in next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section.

In conjunction with fourth aspect to any one in the third possible execution mode of fourth aspect, in the 4th kind of possible execution mode of fourth aspect, described sending module, also for the transmitting time segment information to UE broadcast accidental access response information, so that described UE monitors the accidental access response information that described base station sends after receiving the transmitting time segment information of described accidental access response information in described transmitting time section; Or,

To UE broadcast transmission time period corresponding relation, so that described UE determines that base station sends the transmitting time segment information of accidental access response information after receiving described transmitting time section corresponding relation, and in described transmitting time section, monitor the accidental access response information that described base station sends, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

In conjunction with fourth aspect to any one in the 4th kind of possible execution mode of fourth aspect, in the 5th kind of possible execution mode of fourth aspect, described receiver module, also for according to described random access request information, after described UE sends accidental access response information, receive the upstream data message that described UE sends;

Described sending module, also, for receive the upstream data message of described UE transmission at described receiver module after, sends upstream data response message to described UE.

In conjunction with the 5th kind of possible execution mode of fourth aspect, in the 6th kind of possible execution mode of fourth aspect, described receiver module, specifically for receiving the upstream data message sending in the residue state of activation time period of described UE in the current DTX cycle receiving after accidental access response information; Or,

Receive described UE and receiving the upstream data message that after accidental access response information, random time sends; Or,

Receive the upstream data message that described UE sends within the time period of making an appointment with described base station.

In conjunction with the 5th kind of possible execution mode of fourth aspect, in the 7th kind of possible execution mode of fourth aspect, described sending module, specifically for when the state of activation, sends upstream data response message to described UE; Or,

Receive the suggestion time period of the reception upstream data response message of described UE transmission, reply confirmation to described UE, and send upstream data response message to described UE within the described suggestion time period; Or,

To the designated time section of described UE broadcast upstream data response message, and send upstream data response message to described UE in described designated time section.

In conjunction with fourth aspect to any one in the 7th kind of possible execution mode of fourth aspect, in the 8th kind of possible execution mode of fourth aspect, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

The embodiment of the present invention the 5th aspect provides a kind of random access processing method, comprising:

Base station receives the random access request information that user equipment (UE) sends;

In the Preset Time of described base station after receiving described random access request information, remain in the state of activation in discontinuous transmission DTX pattern, and send accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

In conjunction with the 5th aspect, in the possible execution mode of the first aspect the 5th, base station also comprises after receiving the random access request information that user equipment (UE) sends:

Described base station opening timing device;

In the Preset Time of described base station after receiving described random access request information, remain in the state of activation in discontinuous transmission DTX pattern, comprising:

In the Preset Time that described base station is set at described timer, remain in the state of activation in discontinuous transmission DTX pattern.

In conjunction with the possible execution mode of the first of the 5th aspect, in the possible execution mode of the second aspect the 5th, in the Preset Time of described base station after receiving described random access request information, remain in the state of activation in discontinuous transmission DTX pattern, comprising:

If described base station, in the time receiving the random access request information of described UE transmission, in state of activation, remains in state of activation in the described Preset Time of described base station after receiving described random access information;

If described base station is in the time receiving the random access request information of described UE transmission, in sleep state, described base station is switched to state of activation, and remains in state of activation in described Preset Time.

In conjunction with the possible execution mode of the second of the 5th aspect, in the third the possible execution mode aspect the 5th, described base station, after described UE sends accidental access response information, also comprises:

Described base station receives the upstream data message that includes the suggestion time period that described UE sends to described base station after receiving described accidental access response information;

Described base station, according to described upstream data message, sends upstream data response message to described UE, so that described UE receives described upstream data response message within the described suggestion time period within the described suggestion time period.

The embodiment of the present invention the 6th aspect provides a kind of base station, comprising:

Receiver module, the random access request information sending for receiving user equipment (UE);

Processing module, for making to remain in the Preset Time of described base station after receiving described random access request information the state of activation of discontinuous transmission DTX pattern, and send accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

In conjunction with the 6th aspect, in the possible execution mode of the first aspect the 6th, described base station also comprises:

Time block, for opening timing device;

Described processing module, specifically for remaining in the state of activation in discontinuous transmission DTX pattern in the Preset Time that described base station is set at described timer.

In conjunction with the possible execution mode of the first of the 6th aspect, in the possible execution mode of the second aspect the 6th, described processing module, if specifically for described base station in the time receiving the random access request information that described UE sends, in state of activation, in the described Preset Time of described base station after receiving described random access information, remain in state of activation;

If described base station is in the time receiving the random access request information of described UE transmission, in sleep state, described base station is switched to state of activation, and remains in state of activation in described Preset Time.

In conjunction with the possible execution mode of the second of the 6th aspect, the third possible execution mode kind aspect the 6th, described receiver module, the upstream data message that includes the suggestion time period also sending to described base station after receiving described accidental access response information for receiving described UE;

Described sending module also, for according to described upstream data message, sends upstream data response message to described UE, so that described UE receives described upstream data response message within the described suggestion time period within the described suggestion time period.

In the embodiment of the present invention, by making UE in base station in the Preset Time section before state of activation time period or the state of activation time period in DTX pattern, send random access request information to base station, can realize like this base station receive just can be instant after random access request information processing, and send accidental access response, make above-mentioned UE access base station timely, avoided access delay.

Brief description of the drawings

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the schematic flow sheet of random access processing method embodiment mono-provided by the invention;

Fig. 2 is the schematic flow sheet of random access processing method embodiment bis-provided by the invention;

Fig. 3 is the schematic flow sheet of random access processing method embodiment tri-provided by the invention;

Fig. 4 is the DTX cycle schematic diagram of random access processing method embodiment tetra-provided by the invention;

Fig. 5 is the DTX cycle schematic diagram of random access processing method embodiment five provided by the invention;

Fig. 6 is the DTX cycle schematic diagram of random access processing method embodiment six provided by the invention;

Fig. 7 is the structural representation of subscriber equipment embodiment mono-provided by the invention;

Fig. 8 is the structural representation of base station embodiment mono-provided by the invention;

Fig. 9 is the structural representation of base station embodiment bis-provided by the invention;

Figure 10 is the structural representation of base station embodiment tri-provided by the invention;

Figure 11 is the structural representation of subscriber equipment embodiment bis-provided by the invention;

Figure 12 is the structural representation of base station embodiment tetra-provided by the invention;

Figure 13 is the structural representation of base station embodiment five provided by the invention.

Embodiment

For making object, technical scheme and the advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

Fig. 1 is the schematic flow sheet of random access processing method embodiment mono-provided by the invention, and as shown in Figure 1, the method comprises:

S101, UE in the Preset Time section before state of activation time period or the state of activation time period in DTX pattern, send random access request information in base station to base station.Wherein, this random access request information can be the random access scrambler that UE sends.

It should be noted that, when the sleep state of base station in DTX pattern, base station does not send downlink information to UE; When the state of activation of base station in DTX pattern, just send downlink information to UE, for example, send access request corresponding information to UE.Particularly, base station can be broadcasted at set intervals it and be entered the time of state of activation, UE is receiving after broadcast, comes as the case may be to determine the opportunity that sends random access request information, so that base station is receiving after this random access request information with regard to energy summary responses.Wherein, in the Preset Time section of UE before base station enters the state of activation time period, send random access request information in this case to base station, also can be in advance through calculating, calculating in advance base station is in state of activation receiving after this random access request information, or receive after this random access request information and can enter state of activation in the short time, and do not affect the random access of UE.

S102, above-mentioned UE monitor the accidental access response that above-mentioned base station sends, so that this UE accesses this base station after the accidental access response information that receives the transmission of above-mentioned base station.

UE, after base station sends random access request, can monitor the accidental access response that base station sends, and after receiving this accidental access response, UE just can access this base station.

In the embodiment of the present invention, in the DTX cycle, comprise and activate and sleep two states, therefore also can be called two period of state, or the double mode cycle.

In the present embodiment, by making UE in base station in the Preset Time section before state of activation time period or the state of activation time period in DTX pattern, send random access request information to base station, can realize like this base station receive just can be instant after random access request information processing, and send accidental access response, make above-mentioned UE access base station timely, avoided access delay.

Particularly, above-mentioned UE monitors the accidental access response information that above-mentioned base station sends, can be that this UE monitors the accidental access response information that this base station sends in default listening period section, because base station is not send downlink information when the sleep state, thereby UE can monitor always, can also economize on resources like this.

It should be noted that, the state of activation time period in above-mentioned DTX pattern can be initial activation state time period or the regular state of activation time period default in DTX pattern, wherein the initial activation state time period is the one period of state of activation time period starting most in the DTX cycle, conventionally, the one period of state of activation time period starting is most one period of state of activation time period fixing, the rule state of activation time period is not necessarily in the beginning in DTX cycle, can be preset in the random time section in the DTX cycle, following specific embodiment described as an example of the initial activation state time period example, wherein the initial activation state time period all can replace with the regular state of activation time period.

Further, in above-mentioned S101, in a kind of situation, UE in the state of activation time period in DTX pattern, sends random access request information in base station to base station; In this case, above-mentioned UE monitors the accidental access response information that above-mentioned base station sends in default listening period section, has multiple possibility:

1) this UE monitors the accidental access response information that this base station sends in the residue state of activation time period in the current DTX cycle of this base station; In the current DTX cycle, in the residue state of activation time period of initial activation state time period, monitor downlink information.Optionally, monitor the accidental access response information that base station sends in one section of Preset Time section in the residue state of activation time period in the described current DTX cycle, this default listening period section can be set by accidental access response window.

2) in the residue state of activation time period of this UE in the current DTX cycle of above-mentioned base station and in the state of activation time period extending, monitor the accidental access response information that above-mentioned base station sends; Wherein, the state of activation time period extending specifically refers to, according to concrete application scenarios needs, after the original initial state of activation time period, extend, UE does not listen to accidental access response information in the residue state of activation time period in the current DTX cycle, then within the state of activation time period of this elongated segment, monitors downlink information.The default duration of optionally, to extend the state of activation time period be UE accidental access response window deducts the residue state of activation time period in the current DTX cycle.

3) in the residue state of activation time period of this UE in the current DTX cycle of above-mentioned base station and in the interim state of activation time period, monitor the accidental access response information that above-mentioned base station sends; Wherein the interim state of activation time period specifically refers to, according to the needs of concrete application scenarios, one section of state of activation of interim initiation in the sleep state time period after the original initial state of activation time period, UE does not listen to accidental access response information in the residue state of activation time period in the current DTX cycle, then within the interim state of activation time period of this section, monitors downlink information.Optionally, the default duration of described interim state of activation time period accidental access response window that is UE deducts the residue state of activation time period in the current DTX cycle.

4) in the state of activation time period in the residue state of activation time period of this UE in the current DTX cycle of above-mentioned base station and next period of DTX cycle, monitor the accidental access response information that base station sends; Particularly, in the residue state of activation time period in the current DTX cycle, do not listen to accidental access response information, then within the initial activation state time period in next period of DTX cycle, continue to monitor.Optionally, the default duration of the state of activation time period in described next period of DTX cycle accidental access response window that is UE deducts the residue state of activation time period in the current DTX cycle.

5) this UE obtains the transmitting time segment information of base station transmission accidental access response information, monitors the accidental access response information that above-mentioned base station sends in this transmitting time section; Particularly, in this case, base station is the time period of broadcast transmission accidental access response information periodically, and UE receives after this information, just during this period of time monitors, and can also save like this resource of UE.

It should be noted that, the above-mentioned residue state of activation time period is the time period finishing to the state of activation time period in current DTX cycle after above-mentioned UE sends random access request information.

Further, in above-mentioned S101, in another kind of situation, above-mentioned UE in the Preset Time section before the state of activation time period in the DTX cycle, sends random access request information in base station to base station.In this case, above-mentioned UE monitors the accidental access response information that above-mentioned base station sends in default listening period section, has multiple possibility:

1) above-mentioned UE monitors the accidental access response information that this base station sends in the state of activation time period in the above-mentioned DTX cycle of base station; Be to send random access request information in the Preset Time of UE before the state of activation time period, then within this state of activation time period, monitor downlink information.Optionally, in the default duration of the accidental access response window within this state of activation time period, monitor the accidental access response information that base station sends.

2) in the state of activation time period that in the state of activation time period of above-mentioned UE in the above-mentioned DTX cycle of above-mentioned base station and above-mentioned base station extends, monitor the accidental access response information that base station sends; According to concrete application scenarios needs, after the original initial state of activation time period, extend certain hour, UE does not listen to accidental access response information in the state of activation time period in this DTX cycle, then within the state of activation time period of this elongated segment, monitors downlink information.The default duration of the accidental access response window that the state of activation time period that optionally, above-mentioned base station extends is UE deducts the state of activation time period in the above-mentioned DTX cycle.

3) in the interim state of activation time period of in the state of activation time period of above-mentioned UE in the above-mentioned DTX cycle of above-mentioned base station and above-mentioned base station, monitor the accidental access response information that base station sends; Wherein the interim state of activation time period specifically refers to, according to the needs of concrete application scenarios, one section of state of activation of interim initiation in the sleep state time period after the original initial state of activation time period, UE does not listen to accidental access response information in the state of activation time period in this DTX cycle, then within the interim state of activation time period of this section, monitors downlink information.Optionally, the default duration of described interim state of activation time period accidental access response window that is UE deducts the state of activation time period in the current DTX cycle.

4) in the state of activation time period of above-mentioned UE in the above-mentioned DTX cycle of above-mentioned base station and in the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Particularly, in the state of activation time period in this DTX cycle, do not listen to accidental access response information, then within the initial activation state time period in next period of DTX cycle, continue to monitor.Optionally, the default duration of the state of activation time period in described next the DTX cycle accidental access response window that is UE deducts the state of activation time period in the current DTX cycle.

5) above-mentioned UE obtains the transmitting time segment information of base station transmission accidental access response information, monitors the accidental access response information that above-mentioned base station sends in this transmitting time section; Particularly, in this case, base station is the time period of broadcast transmission accidental access response information periodically, and UE receives after this information, just during this period of time monitors, and can also save like this resource of UE.

Above-mentioned multiple possible mode, in specific implementation process, can be that UE is after sending random access request information, as the case may be, the time of setting accidental access response window, is equivalent to set a timer, in the Preset Time of this timer, monitors.

Particularly, above-mentioned UE obtains the transmitting time segment information of base station transmission accidental access response information, specifically can have various ways:

1) above-mentioned UE receives the transmitting time segment information of the accidental access response information of base station broadcast; Be a directly time period information of broadcast of base station, particularly, this time period information can comprise initial time and lasting duration.

2) above-mentioned UE receives the accidental access response access time section corresponding relation of base station broadcast, determines that base station sends the transmitting time segment information of accidental access response information.

Wherein, this transmitting time section corresponding relation can be the corresponding relation between transmitting time segment information and the random access request information of accidental access response information; Be that UE receives after this corresponding relation, the random access request information of sending according to oneself is determined the transmitting time segment information of corresponding accidental access response information.

This transmitting time section corresponding relation can be also that transmitting time segment information and the random access request information of accidental access response information sends the corresponding relation between resource, be that UE receives after this corresponding relation, the transmission resource of the random access request information sending according to oneself is determined the transmitting time segment information of corresponding accidental access response information.Concrete transmission resource can send for UE positional information or the location index information of the frequency domain resource of random access request message, send positional information or the location index information of the time-domain resource of random access request message, or positional information or the location index information of the spatial domain resource of transmission random access request message, or the combination of the code territory resource information of transmission random access request message.Here, the form of random access request message can be random access scrambler.

The transmitting time segment information that this transmitting time section corresponding relation can also be accidental access response information and random access request information and random access request information send the corresponding relation between resource; Be that UE receives after this corresponding relation, according to oneself the random access request information of transmission and the transmission resource of transmission random access request information, determine the transmitting time segment information of corresponding accidental access response information.

Further, on the basis of above-described embodiment, after above-mentioned UE monitors the accidental access response information of base station transmission in default listening period section, this UE sends upstream data message to above-mentioned base station, and then this UE receives the upstream data response message that this base station sends.UE receives after upstream data response message, has just accessed this UE, and whole random access has also just completed.Particularly, this upstream data message can be connection request message, corresponding, this upstream data response message is connection request response message.

In specific implementation process, above-mentioned UE sends upstream data message to base station, can in different time sections, send:

1) this UE sends above-mentioned data-message to above-mentioned base station in the residue state of activation time period in the current DTX cycle that receives above-mentioned accidental access response information; This residue state of activation time period can be the time period finishing to the state of activation time in current DTX cycle after above-mentioned UE receives accidental access response information.

2) random time of this UE after receiving above-mentioned accidental access response information sends upstream data message to above-mentioned base station.

3) this UE sends upstream data message to this base station within the time period of making an appointment with above-mentioned base station.Can be specifically that UE receives the designated time segment information that base station sends, in this designated time segment information, can comprise the initial time and the lasting duration that send upstream data message.Further, passable if UE thinks, reply confirmation to base station, this UE just sends upstream data message to this base station within the time period of this agreement afterwards.Or UE sends the suggestion time period information of above-mentioned UE transmission upstream data message to above-mentioned base station, further, UE waits for base station reply confirmation.

Accordingly, above-mentioned UE receives the upstream data response message that above-mentioned base station sends, also can be in different time sections, and above-mentioned any transmission situation all can corresponding following any reception condition, does not limit corresponding relation:

1) this UE monitors the upstream data response message that this base station sends within the state of activation time period of above-mentioned base station.

2) this UE sends above-mentioned UE to above-mentioned base station and receives the suggestion time period of above-mentioned upstream data response message, and within the above-mentioned suggestion time period, monitors the upstream data response message that above-mentioned base station sends.

3) this UE receives the designated time section that base station sends, and in this designated time section, monitors the upstream data response message that this base station sends, and wherein, this base station sends above-mentioned upstream data response message in above-mentioned designated time section.

In the present embodiment, by making UE in base station in the Preset Time section before state of activation time period or the state of activation time period in DTX pattern, send random access request information to base station, can realize like this after base station receives random access request information and just can process timely, and send accidental access response, particularly, base station can also be according to specific circumstances, the former state of activation time period is extended, or interim initiation the state of activation time period of former sleep state time period, and send accidental access response within these state of activation time periods, make the above-mentioned UE can be timely, access base station flexibly.Certainly, the UE of the present embodiment receives the accidental access response message of base station, UE sends upstream data message to base station, the method relating in the upstream data response message that UE reception base station sends is also applicable to UE and in the non-designated time in DTX pattern, sends the situation of random access request information in base station to base station.

Fig. 2 is the schematic flow sheet of random access processing method embodiment bis-provided by the invention, and the executive agent of the method is base station, carries out alternately with above-mentioned UE, and on the basis of above-described embodiment, as shown in Figure 2, the method comprises:

S201, base station receive the random access request information sending in the Preset Time section before state of activation time period or the state of activation time period of UE in the DTX pattern of this base station.

S202, above-mentioned base station, according to above-mentioned random access request information, send accidental access response information to above-mentioned UE, so that above-mentioned UE accesses above-mentioned base station after receiving above-mentioned base station transmission accidental access response information.

Specific implementation is similar to the above embodiments, does not repeat them here.

In the present embodiment, base station receives the random access request sending in the Preset Time section before state of activation time period or the activationary time section state of UE in the DTX pattern of this base station, base station can be processed timely, and send accidental access response information to UE when in state of activation, make UE can access in time this base station.

Above-mentioned base station, according to above-mentioned random access request information, sends accidental access response information to above-mentioned UE, is specially, and base station, according to above-mentioned random access request, sends accidental access response information to above-mentioned UE when in state of activation.

On the basis of above-described embodiment, for S201, in a kind of situation, above-mentioned base station receives the random access request information sending in the state of activation time period of UE in the DTX pattern of above-mentioned base station, in this case, base station sends accidental access response information to described UE when in described state of activation, has multiple possibility:

1) in the residue state of activation time period of above-mentioned base station in the current DTX cycle, send accidental access response information to above-mentioned UE.Optionally, in one section of Preset Time section in the residue state of activation time period in the described current DTX cycle, send accidental access response information to above-mentioned UE, this default listening period section can be set by accidental access response window.

2) in the state of activation time period that in the residue state of activation time period of above-mentioned base station in the current DTX cycle and above-mentioned base station extends, send accidental access response information to above-mentioned UE.The default duration of optionally, to extend the state of activation time period be UE accidental access response window deducts the residue state of activation time period in the current DTX cycle.

3) in the residue state of activation time period of above-mentioned base station in the current DTX cycle and in the interim state of activation time period, send accidental access response information to above-mentioned UE.Optionally, the default duration of described interim state of activation time period accidental access response window that is UE deducts the residue state of activation time period in the current DTX cycle.

4) in the state of activation time period in the residue state of activation time period of above-mentioned base station in the current DTX cycle and next DTX cycle, send accidental access response information to above-mentioned UE.Optionally, the default duration of the state of activation time period in described next period of DTX cycle accidental access response window that is UE deducts the residue state of activation time period in the current DTX cycle.

5) the transmitting time segment information of above-mentioned base station broadcast accidental access response information, and send accidental access response information to above-mentioned UE in above-mentioned transmitting time section.

It should be noted that, the above-mentioned residue state of activation time period is that above-mentioned base station receives the state of activation time period in the above-mentioned random access request information current DTX cycle afterwards.

On the basis of above-described embodiment, for S201, in another kind of situation, above-mentioned base station receives the random access request information sending in the Preset Time section before the state of activation time period of UE in the DTX pattern of above-mentioned base station, in this case, base station sends accidental access response information to described UE when in described state of activation, has multiple possibility:

1) in the state of activation time period of above-mentioned base station in the above-mentioned DTX cycle, send accidental access response information to above-mentioned UE.Optionally, in the default duration of the accidental access response window within this state of activation time period, send accidental access response information to above-mentioned UE.

2) in the state of activation time period of above-mentioned base station in the above-mentioned DTX cycle and in the state of activation time period extending, send accidental access response information to above-mentioned UE.The default duration of the accidental access response window that the state of activation time period that optionally, above-mentioned base station extends is UE deducts the state of activation time period in the above-mentioned DTX cycle.

3) in the state of activation time period of described base station in the described DTX cycle and in the interim state of activation time period, send accidental access response information to described UE.Optionally, the default duration of described interim state of activation time period accidental access response window that is UE deducts the state of activation time period in the current DTX cycle.

4) in the state of activation time period in the state of activation time period of described base station in the described DTX cycle and in next DTX cycle, send accidental access response information to described UE.Optionally, the default duration of the state of activation time period in described next the DTX cycle accidental access response window that is UE deducts the state of activation time period in the current DTX cycle.

5) the transmitting time segment information of described base station broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section.

Further, UE can be according to the transmitting time section of obtaining accidental access response information in the information of base station periodic broadcast.Particularly, a kind of mode is, above-mentioned base station is according to above-mentioned random access request information, before sending accidental access response information to above-mentioned UE, the transmitting time segment information of accidental access response information can be broadcasted to UE in this base station, so that above-mentioned UE monitors the accidental access response information that above-mentioned base station sends after receiving the transmitting time segment information of above-mentioned accidental access response information in above-mentioned transmitting time section.

Another kind of mode is, above-mentioned base station is to UE broadcast transmission time period corresponding relation, so that above-mentioned UE determines that this base station sends the transmitting time segment information of accidental access response information after receiving above-mentioned transmitting time section corresponding relation, and in this transmitting time section, monitor the accidental access response information that above-mentioned base station sends, wherein, above-mentioned transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information; Transmitting time segment information and the random access request information that can be also accidental access response information send the corresponding relation between resource; Can also be that the transmitting time segment information of accidental access response information and random access request information and random access request information send the corresponding relation between resource.

Further, above-mentioned base station is according to above-mentioned random access request information, after above-mentioned UE sends accidental access response information, in order to complete whole random access procedure, above-mentioned base station receives the upstream data message that above-mentioned UE sends, then, this base station sends upstream data response message, this UE access base station subsequently to above-mentioned UE.

Particularly, there is multiple possibility in the upstream data message that above-mentioned base station receives above-mentioned UE transmission, can receive UE and send upstream data message on following arbitrary opportunity:

1) above-mentioned base station receives the upstream data message sending in the residue state of activation time period of above-mentioned UE in the current DTX cycle receiving after accidental access response information.

2) above-mentioned base station receives above-mentioned UE and is receiving the upstream data message that after accidental access response information, random time sends.

3) above-mentioned base station receives the upstream data message that above-mentioned UE sends within the time period of making an appointment with described base station.

Accordingly, above-mentioned base station receives the reception upstream data response message that above-mentioned UE sends, and has multiple possibility, and base station can send on following arbitrary opportunity upstream data response message:

1) above-mentioned base station, in the time of state of activation, sends upstream data response message to above-mentioned UE.

2) above-mentioned base station receives the suggestion time period of the reception upstream data response message of above-mentioned UE transmission, replys confirmation to above-mentioned UE, and sends upstream data response message to above-mentioned UE within this suggestion time period.

In specific implementation process, if in the above-mentioned suggestion time period, above-mentioned base station is in state of activation, and this base station sends upstream data response message to above-mentioned UE.

If in the above-mentioned suggestion time period, this base station is in sleep state, and this base station is switched to state of activation, and sends upstream data response message to above-mentioned UE.Particularly, according to the different suggestion time periods, can be that the former state of activation time period is extended, can be also the interim one section of state of activation of initiating.

3) above-mentioned base station is to the designated time section of above-mentioned UE broadcast upstream data response message, and sends upstream data response message to above-mentioned UE in this designated time section.

It should be noted that, in above-described embodiment, the above-mentioned state of activation time period is initial activation state time period or the regular state of activation time period in above-mentioned DTX pattern.

Fig. 3 is the schematic flow sheet of random access processing method embodiment tri-provided by the invention, and as shown in Figure 3, the method comprises:

S301, base station receive the random access information that UE sends.Particularly, UE can be that the random access configuration information sending according to base station is initiated random access, sends random access information to base station, and this random access information can be to access at random scrambler.When base station sends random access configuration information, can broadcast, can be also to adopt specific command to send separately to each UE.

In S302, the Preset Time of above-mentioned base station after receiving above-mentioned random access information, remain in the state of activation in DTX pattern, and send accidental access response information to above-mentioned UE, so that above-mentioned UE accesses above-mentioned base station after receiving above-mentioned base station transmission accidental access response information.

Base station just allows and lays oneself open to state of activation after receiving random access information, if original just in state of activation, continue to keep, if be not originally just switched to state of activation in state of activation, to ensure sending accidental access response to UE in time, make UE can complete in time random access.

In the present embodiment, base station is after receiving the random access request information of UE transmission, if be in state of activation, continue to keep, if not in state of activation, be switched to state of activation, just make oneself to remain in state of activation, this random access request information of processing that base station just can be instant like this, and send accidental access response information to UE, make UE can complete in time random access, and can not cause postponing access in sleep state because of base station.

In specific implementation process, after this base station receives the random access request information of UE transmission, this base station can opening timing device.Further, in the Preset Time of above-mentioned base station after receiving random access request information, remain in the state of activation in DTX pattern, be specially, this base station remains in the state of activation in DTX pattern in above-mentioned timer setting-up time.

Particularly, after base station receives random access request information, open a random access scrambler timer, set the duration of timer according to concrete scene, in timer setting-up time, this base station is always in state of activation, under state of activation, base station just can send accidental access response information to UE in time.

More specifically, in the Preset Time of above-mentioned base station after receiving random access request information, remain in the state of activation in DTX pattern, have two kinds of possibilities:

1) if above-mentioned base station, in the time receiving the random access request information of above-mentioned UE transmission, in state of activation, remains in state of activation in the above-mentioned Preset Time of this base station after receiving above-mentioned random access information.

2) if above-mentioned base station is in the time receiving the random access request information of above-mentioned UE transmission, in sleep state, above-mentioned base station is switched to state of activation, and remains in state of activation in above-mentioned Preset Time.

Further, above-mentioned base station is after above-mentioned UE sends accidental access response information, and this base station receives the upstream data message that includes the suggestion time period that above-mentioned UE sends to above-mentioned base station after receiving above-mentioned accidental access response information.This base station, according to upstream data message, sends upstream data response message to above-mentioned UE, so that above-mentioned UE receives above-mentioned upstream data response message within the above-mentioned suggestion time period within the above-mentioned suggestion time period.Wherein, in this suggestion time period, can comprise initial time and the lasting duration of this suggestion time period.

Corresponding with above-described embodiment three, UE can send random access request information at any time to base station.This UE, after sending above-mentioned random access request information, starts to monitor the accidental access response information that base station sends, and after receiving this accidental access response information, this UE can access base station.Particularly, this UE can open random turn-on time of window, in the time of setting, monitors at this time window.

This UE, after receiving accidental access response information, sends the upstream data message that includes the suggestion time period to above-mentioned base station, so that this base station sends upstream data response message to this UE after receiving this upstream data message within this suggestion time period.This UE monitors the upstream data response message that base station sends within the above-mentioned suggestion time period.This UE, receiving after this upstream data response message, completes random access procedure.

Fig. 4 is the DTX cycle schematic diagram of random access processing method embodiment tetra-provided by the invention, as shown in Figure 4, represent two DTX cycles in above-described embodiment, wherein, jut represents the initial activation state time period in the DTX cycle, and remainder represents the sleep state time period.

Fig. 5 is the DTX cycle schematic diagram of random access processing method embodiment five provided by the invention, as shown in Figure 5, represent two DTX cycles in above-described embodiment, be different from Fig. 4 embodiment, in Fig. 5, jut represents the regular state of activation time period in the DTX cycle, rule also can be preset the state of activation time period, but not necessarily in the part at the beginning in DTX cycle.

Fig. 6 is the DTX cycle schematic diagram of random access processing method embodiment six provided by the invention, in preceding method embodiment, sometimes need to be at this in dormant time, one section of state of activation of interim initiation, it is the interim state of activation time period, as shown in Figure 6, wherein dotted portion represents the interim state of activation time period of initiating.

Fig. 7 is the structural representation of subscriber equipment embodiment mono-provided by the invention, and as shown in Figure 7, this is used for equipment and comprises: transport module 701 and monitoring module 702, wherein:

Transport module 701, in the Preset Time section before state of activation time period or the state of activation time period in discontinuous transmission DTX pattern in base station, sends random access request information to base station; Monitor module 702, the accidental access response information sending for monitoring described base station, so that described UE accesses described base station after the accidental access response information that receives the transmission of described base station.

Above-mentioned each module is for embodiment of the method shown in execution graph 1, and it realizes principle and technique effect is similar, does not repeat them here.

Further, this monitoring module 702, specifically for monitoring the accidental access response information that described base station sends in default listening period section.

Transport module 701, within the state of activation time period in DTX pattern in base station, sends random access request information to base station; Correspondingly, monitor module 702, the accidental access response information sending specifically for monitoring described base station in the residue state of activation time period in the current DTX cycle of described base station; Or, in the residue state of activation time period in the current DTX cycle of described base station and in the state of activation time period extending, monitor the accidental access response information that described base station sends; Or, in the residue state of activation time period in the current DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or, in the residue state of activation time period in the current DTX cycle of described base station and the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or, obtain base station and send the transmitting time segment information of accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends; Wherein, the described residue state of activation time period is the time period finishing to the state of activation time the current DTX cycle after described UE sends random access request information.

Transport module 701, in the Preset Time section before the state of activation time period in the DTX cycle in base station, sends random access request information to base station; Correspondingly, monitor module 702, the accidental access response information sending specifically for monitoring described base station in the state of activation time period in the described DTX cycle of described base station; Or, in the state of activation time period that in the state of activation time period in the described DTX cycle of described base station and described base station extends, monitor the accidental access response information that base station sends; In the state of activation time period in the described DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or, in the state of activation time period in the described DTX cycle of described base station and in the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or, obtain base station and send the transmitting time segment information of accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends.

Further, above-mentioned transport module 702, also for receiving the transmitting time segment information of accidental access response information of base station broadcast, or, receive the transmitting time section corresponding relation of base station broadcast, determine that base station sends the transmitting time segment information of accidental access response information, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

Above-mentioned transport module 702, also, for monitor the accidental access response information of base station transmission in default listening period section after, sends upstream data message to described base station; Receive the upstream data response message that described base station sends.Wherein, transport module 702, specifically for sending upstream data message to described base station in the residue state of activation time period in the current DTX cycle that receives described accidental access response information; Or the random time after receiving described accidental access response information sends upstream data message to described base station; Or, within the time period of making an appointment with described base station, send upstream data message to described base station.Transport module 702, the upstream data response message sending specifically for monitor described base station within the state of activation time period of described base station; Or, send described UE to described base station and receive the suggestion time period of upstream data response message, and within the described suggestion time period, monitor the upstream data response message that described base station sends; Or, receiving the designated time section that base station sends, and in described designated time section, monitor the upstream data response message that described base station sends, wherein said base station sends described upstream data response message in described designated time section.

It should be noted that, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

Above-mentioned each module is used for carrying out preceding method embodiment, and it realizes principle and technique effect is similar, does not repeat them here.

Fig. 8 is the structural representation of base station embodiment mono-provided by the invention, and as shown in Figure 8, this base station comprises receiver module 801 and sending module 802, wherein:

Receiver module 801, for receiving the random access request information sending in the Preset Time section of user equipment (UE) before state of activation time period or the state of activation time period of the discontinuous transmission in described base station DTX pattern; Sending module 802, for according to described random access request information, sends accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

Further, above-mentioned sending module 802 according to described random access request information, sends accidental access response information to described UE specifically for described base station when in state of activation.

Above-mentioned receiver module 801, specifically for receiving the random access request information sending in the state of activation time period of UE in the DTX pattern of described base station.Correspondingly, sending module 802, specifically for sending accidental access response information to described UE in the residue state of activation time period in the current DTX cycle; Or, in the residue state of activation time period in the current DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or, in the residue state of activation time period in the current DTX cycle and the state of activation time period in next DTX cycle, send accidental access response information to described UE; Or, the transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section; Wherein, the residue state of activation time period is that described base station receives after described random access request information the time period between finishing state of activation time in the current DTX cycle.

Receiver module 801, specifically for receiving the random access request information sending in the Preset Time section before the state of activation time period of UE in the DTX pattern of described base station.Correspondingly, sending module 802, specifically for sending accidental access response information to described UE in the state of activation time period in the described DTX cycle; Or, in the state of activation time period in the described DTX cycle and in the state of activation time period extending, send accidental access response information to described UE; Or, in the state of activation time period in the described DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or, in the state of activation time period in the state of activation time period in the described DTX cycle and in next DTX cycle, send accidental access response information to described UE; Or, the transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section.

Further, sending module 802, also for the transmitting time segment information to UE broadcast accidental access response information, so that described UE monitors the accidental access response information that described base station sends after receiving the transmitting time segment information of described accidental access response information in described transmitting time section, or, to UE broadcast transmission time period corresponding relation, so that described UE determines that base station sends the transmitting time segment information of accidental access response information after receiving described transmitting time section corresponding relation, and in described transmitting time section, monitor the accidental access response information that described base station sends, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

Above-mentioned receiver module 801, also for according to described random access request information, after described UE sends accidental access response information, receives the upstream data message that described UE sends; Sending module 802, also, for receive the upstream data message of described UE transmission at described receiver module after, sends upstream data response message to described UE.Wherein, receiver module 801, specifically for receiving the upstream data message sending in the residue state of activation time period of described UE in the current DTX cycle receiving after accidental access response information; Or, receive described UE and receiving the upstream data message that after accidental access response information, random time sends; Or, receive the upstream data message that described UE sends within the time period of making an appointment with described base station.Sending module 802, specifically for when the state of activation, sends upstream data response message to described UE; Or, receive suggestion time period of the reception upstream data response message that described UE sends, reply confirmation to described UE, and within the described suggestion time period to described UE transmission upstream data response message; Or, to the designated time section of described UE broadcast upstream data response message, and send upstream data response message to described UE in described designated time section.

It should be noted that, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

Fig. 9 is the structural representation of base station embodiment bis-provided by the invention, and as shown in Figure 9, this base station comprises receiver module 901 and processing module 902, wherein:

Receiver module 901, the random access request information sending for receiving user equipment (UE); Processing module 902, for making to remain in the Preset Time of this base station after receiving described random access request information the state of activation of discontinuous transmission DTX pattern, and send accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

Figure 10 is the structural representation of base station embodiment tri-provided by the invention, and as shown in figure 10, on the basis of Fig. 9, this base station also comprises time block 903, particularly,

This time block 903, for opening timing device; Above-mentioned processing module 902, specifically for remaining in the state of activation in discontinuous transmission DTX pattern in the Preset Time that this base station is set at described timer.

Processing module 902, if specifically for described base station in the time receiving the random access request information that described UE sends, in state of activation, in the described Preset Time of described base station after receiving described random access information, remain in state of activation; If described base station is in the time receiving the random access request information of described UE transmission, in sleep state, described base station is switched to state of activation, and remains in state of activation in described Preset Time.

Further, as shown in figure 10, this base station also comprises sending module 904, particularly:

Above-mentioned receiver module 901, the upstream data message that includes the suggestion time period also sending to described base station after receiving described accidental access response information for receiving described UE; Sending module 904 for according to described upstream data message, sends upstream data response message to described UE, so that described UE receives described upstream data response message within the described suggestion time period within the described suggestion time period.

Above-mentioned each module, for carrying out preceding method embodiment, it realizes principle and technique effect is similar, does not repeat them here.

Figure 11 is the structural representation of subscriber equipment embodiment bis-provided by the invention, and as shown in figure 11, this subscriber equipment comprises: antenna 110, transceiver 111, wherein: antenna 110 is connected with transceiver 111, for according to the command signal of transceiver 111.

Transceiver 111, in the Preset Time section before state of activation time period or the state of activation time period in discontinuous transmission DTX pattern in base station, sends random access request information to base station; Monitor the accidental access response information that described base station sends, so that described UE accesses described base station after the accidental access response information that receives the transmission of described base station.

Transceiver 111, specifically for monitoring the accidental access response information that described base station sends in default listening period section.

Further, transceiver 111, within the state of activation time period in DTX pattern in base station, sends random access request information to base station; Correspondingly, in the residue state of activation time period in the current DTX cycle of described base station, monitor the accidental access response information that described base station sends; Or, in the residue state of activation time period in the current DTX cycle of described base station and in the state of activation time period extending, monitor the accidental access response information that described base station sends; Or, in the residue state of activation time period in the current DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or, in the residue state of activation time period in the current DTX cycle of described base station and the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or, obtain base station and send the transmitting time segment information of accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends; Wherein, the described residue state of activation time period is the time period finishing to the state of activation time the current DTX cycle after described UE sends random access request information.

Transceiver 111, in the Preset Time section before the state of activation time period in the DTX cycle in base station, sends random access request information to base station; Correspondingly, in the state of activation time period in the described DTX cycle of described base station, monitor the accidental access response information that described base station sends; Or, in the state of activation time period that in the state of activation time period in the described DTX cycle of described base station and described base station extends, monitor the accidental access response information that base station sends; In the state of activation time period in the described DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or, in the state of activation time period in the described DTX cycle of described base station and in the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or, obtain base station and send the transmitting time segment information of accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends.

Further, transceiver 111, also for receiving the transmitting time segment information of accidental access response information of base station broadcast, or, receive the transmitting time section corresponding relation of base station broadcast, determine that base station sends the transmitting time segment information of accidental access response information, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

In addition, transceiver 111, also, for monitor the accidental access response information of base station transmission in default listening period section after, sends upstream data message to described base station; Receive the upstream data response message that described base station sends.

Particularly, transceiver 111, specifically for sending upstream data message to described base station in the residue state of activation time period in the current DTX cycle that receives described accidental access response information; Or the random time after receiving described accidental access response information sends upstream data message to described base station; Or, within the time period of making an appointment with described base station, send upstream data message to described base station.

Transceiver 111, the upstream data response message sending specifically for monitor described base station within the state of activation time period of described base station; Or, send described UE to described base station and receive the suggestion time period of upstream data response message, and within the described suggestion time period, monitor the upstream data response message that described base station sends; Or, receiving the designated time section that base station sends, and in described designated time section, monitor the upstream data response message that described base station sends, wherein said base station sends described upstream data response message in described designated time section.The described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

This subscriber equipment is used for carrying out preceding method embodiment, and it realizes principle and technique effect is similar, does not repeat them here.

Figure 12 is the structural representation of base station embodiment tetra-provided by the invention, and as shown in figure 12, this base station comprises: antenna 120 and transceiver 121, wherein: antenna 120 is connected with transceiver 121, for according to the command signal of transceiver 121.

Transceiver 121, for receiving the random access request information sending in the Preset Time section of user equipment (UE) before state of activation time period or the state of activation time period of the discontinuous transmission in described base station DTX pattern; According to described random access request information, send accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

Transceiver 121 according to described random access request information, sends accidental access response information to described UE specifically for described base station when in state of activation.

Further, transceiver 121, specifically for receiving the random access request information sending in the state of activation time period of UE in the DTX pattern of described base station; Correspondingly, in the residue state of activation time period in the current DTX cycle, send accidental access response information to described UE; Or, in the state of activation time period that in the residue state of activation time period in the current DTX cycle and described base station extends, send accidental access response information to described UE; Or, in the residue state of activation time period in the current DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or, in the residue state of activation time period in the current DTX cycle and the state of activation time period in next DTX cycle, send accidental access response information to described UE; Or, the transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section; Wherein, the residue state of activation time period is that described base station receives after described random access request information the time period between finishing state of activation time in the current DTX cycle.

Transceiver 121, specifically for receiving the random access request information sending in the Preset Time section before the state of activation time period of UE in the DTX pattern of described base station; Correspondingly, in the state of activation time period in the described DTX cycle, send accidental access response information to described UE; Or, in the state of activation time period in the described DTX cycle and in the state of activation time period extending, send accidental access response information to described UE; Or, in the state of activation time period in the described DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or, in the state of activation time period in the state of activation time period in the described DTX cycle and in next DTX cycle, send accidental access response information to described UE; Or, the transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section.

Further, transceiver 121, also for the transmitting time segment information to UE broadcast accidental access response information, so that described UE monitors the accidental access response information that described base station sends after receiving the transmitting time segment information of described accidental access response information in described transmitting time section, or, to UE broadcast transmission time period corresponding relation, so that described UE determines that base station sends the transmitting time segment information of accidental access response information after receiving described transmitting time section corresponding relation, and in described transmitting time section, monitor the accidental access response information that described base station sends, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

Transceiver 121, also for according to described random access request information, after described UE sends accidental access response information, receives the upstream data message that described UE sends; After described receiver module receives the upstream data message of described UE transmission, send upstream data response message to described UE.

Particularly, transceiver 121, receives the upstream data message sending in the residue state of activation time period of described UE in the current DTX cycle receiving after accidental access response information; Or, receive described UE and receiving the upstream data message that after accidental access response information, random time sends; Or, receive the upstream data message that described UE sends within the time period of making an appointment with described base station.

In addition, transceiver 121, specifically for when the state of activation, sends upstream data response message to described UE; Or, receive suggestion time period of the reception upstream data response message that described UE sends, reply confirmation to described UE, and within the described suggestion time period to described UE transmission upstream data response message; Or, to the designated time section of described UE broadcast upstream data response message, and send upstream data response message to described UE in described designated time section.

It should be noted that, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

Above-mentioned base station is used for carrying out preceding method embodiment, and it realizes principle and technique effect is similar, does not repeat them here.

Figure 13 is the structural representation of base station embodiment five provided by the invention, and as shown in figure 13, this base station comprises: antenna 130, transceiver 131 and processor 132, wherein: antenna 130 is connected with transceiver 131, for according to the command signal of transceiver 131.

Transceiver 131, the random access request information sending for receiving UE; Processor 132, for making to remain in the Preset Time of this base station after receiving described random access request information the state of activation of discontinuous transmission DTX pattern, and send accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

Processor 132, for making described base station remain in the state of activation of discontinuous transmission DTX pattern in Preset Time.Particularly, can adopt timer to set this Preset Time, after opening timing device, in the Preset Time that processor 132 makes described base station set at timer, remain in the state of activation in DTX pattern.

Processor 132, if specifically for described base station in the time receiving the random access request information that described UE sends, in state of activation, in the described Preset Time of described base station after receiving described random access information, remain in state of activation; If described base station is in the time receiving the random access request information of described UE transmission, in sleep state, described base station is switched to state of activation, and remains in state of activation in described Preset Time.

Transceiver 131, the upstream data message that includes the suggestion time period also sending to described base station after receiving described accidental access response information for receiving described UE; According to described upstream data message, within the described suggestion time period, send upstream data response message to described UE, so that described UE receives described upstream data response message within the described suggestion time period.

This base station is used for carrying out preceding method embodiment, and it realizes principle and technique effect is similar, does not repeat them here.

One of ordinary skill in the art will appreciate that: all or part of step that realizes above-mentioned each embodiment of the method can complete by the relevant hardware of program command.Aforesaid program can be stored in a computer read/write memory medium.This program, in the time carrying out, is carried out the step that comprises above-mentioned each embodiment of the method; And aforesaid storage medium comprises: various media that can be program code stored such as ROM, RAM, magnetic disc or CDs.

Finally it should be noted that: above each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (45)

1. a random access processing method, is characterized in that, comprising:

User equipment (UE) sends in the state of activation time period in DTX pattern or the Preset Time section before the state of activation time period in discontinuous in base station, sends random access request information to base station;

Described UE monitors the accidental access response information that described base station sends, so that described UE accesses described base station after the accidental access response information that receives the transmission of described base station.

2. method according to claim 1, is characterized in that, described UE monitors the accidental access response information that described base station sends, and comprising:

Described UE monitors the accidental access response information that described base station sends in default listening period section.

3. method according to claim 2, is characterized in that, when described UE sends random access request information to base station in base station in the state of activation time period in DTX pattern,

Described UE monitors the accidental access response information that described base station sends in default listening period section, comprising:

Described UE monitors the accidental access response information that described base station sends in the residue state of activation time period in the current DTX cycle of described base station; Or,

In the residue state of activation time period of described UE in the current DTX cycle of described base station and in the state of activation time period extending, monitor the accidental access response information that described base station sends; Or,

In the residue state of activation time period of described UE in the current DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In the state of activation time period in the residue state of activation time period of described UE in the current DTX cycle of described base station and next DTX cycle, monitor the accidental access response information that base station sends; Or,

Described UE obtains the transmitting time segment information of base station transmission accidental access response information, monitors the accidental access response information that described base station sends in described transmitting time section;

Wherein, the described residue state of activation time period is the time period finishing to the state of activation time period the current DTX cycle after described UE sends random access request information.

4. method according to claim 2, is characterized in that, when described UE sends random access request information to base station in base station in the Preset Time section before the state of activation time period in DTX pattern,

Described UE monitors the accidental access response information that described base station sends in default listening period section, comprising:

Described UE monitors the accidental access response information that described base station sends in the state of activation time period in the described DTX cycle of described base station; Or,

In the state of activation time period that in the state of activation time period of described UE in the described DTX cycle of described base station and described base station extends, monitor the accidental access response information that base station sends;

In the state of activation time period of described UE in the described DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In the state of activation time period of described UE in the described DTX cycle of described base station and in the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or,

Described UE obtains the transmitting time segment information of base station transmission accidental access response information, monitors the accidental access response information that described base station sends in described transmitting time section.

5. according to the method described in claim 3 or 4, it is characterized in that, described UE obtains the transmitting time segment information of base station transmission accidental access response information, comprising:

Described UE receives the transmitting time segment information of the accidental access response information of base station broadcast; Or,

Described UE receives the transmitting time section corresponding relation of base station broadcast, determine that base station sends the transmitting time segment information of accidental access response information, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

6. according to the method described in any one in claim 1～5, it is characterized in that, described UE also comprises monitor the accidental access response information of base station transmission in default listening period section after:

Described UE sends upstream data message to described base station;

Described UE receives the upstream data response message that described base station sends.

7. method according to claim 6, is characterized in that, described UE sends upstream data message to described base station, comprising:

In the residue state of activation time period of described UE in the current DTX cycle that receives described accidental access response information, send upstream data message to described base station; Or,

The random time of described UE after receiving described accidental access response information sends upstream data message to described base station; Or,

Described UE sends upstream data message to described base station within the time period of making an appointment with described base station.

8. method according to claim 6, is characterized in that, described UE receives the upstream data response message that described base station sends, and comprising:

Described UE monitors the upstream data response message that described base station sends within the state of activation time period of described base station; Or,

Described UE sends described UE and receives the suggestion time period of upstream data response message to described base station, and within the described suggestion time period, monitors the upstream data response message that described base station sends; Or,

Described UE receives the designated time section that base station sends, and in described designated time section, monitors the upstream data response message that described base station sends, and wherein said base station sends described upstream data response message in described designated time section.

9. according to the method described in any one in claim 1～8, it is characterized in that, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

10. a random access processing method, is characterized in that, comprising:

Base station receives the random access request information sending in the state of activation time period of user equipment (UE) in the discontinuous transmission in described base station DTX pattern or the Preset Time section before the state of activation time period;

Described base station, according to described random access request information, sends accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

11. methods according to claim 10, is characterized in that, described base station, according to described random access request information, sends accidental access response information to described UE, comprising:

Described base station, according to described random access request information, sends accidental access response information to described UE when in state of activation.

12. methods according to claim 11, is characterized in that, when described base station receives the random access request information sending in the state of activation time period of UE in the DTX pattern of described base station,

Described base station sends accidental access response information to described UE when in described state of activation, comprising:

In the residue state of activation time period of described base station in the current DTX cycle, send accidental access response information to described UE; Or,

In the state of activation time period that in the residue state of activation time period of described base station in the current DTX cycle and described base station extends, send accidental access response information to described UE; Or,

In the residue state of activation time period of described base station in the current DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In the state of activation time period in the residue state of activation time period of described base station in the current DTX cycle and next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of described base station broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section;

Wherein, the residue state of activation time period is that described base station receives after described random access request information the time period between finishing state of activation time in the current DTX cycle.

13. methods according to claim 11, is characterized in that, when described base station receives the random access request information sending in the Preset Time section before the state of activation time period of UE in the DTX pattern of described base station,

Described base station sends accidental access response information to described UE when in described state of activation, comprising:

In the state of activation time period of described base station in the described DTX cycle, send accidental access response information to described UE; Or,

In the state of activation time period of described base station in the described DTX cycle and in the state of activation time period extending, send accidental access response information to described UE; Or,

In the state of activation time period of described base station in the described DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In the state of activation time period in the state of activation time period of described base station in the described DTX cycle and in next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of described base station broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section.

14. according to the method described in claim 10～13 any one, it is characterized in that, described base station, according to described random access request information, before sending accidental access response information, also comprises to described UE:

Described base station is to the transmitting time segment information of UE broadcast accidental access response information, so that described UE monitors the accidental access response information that described base station sends after receiving the transmitting time segment information of described accidental access response information in described transmitting time section; Or,

Described base station is to UE broadcast transmission time period corresponding relation, so that described UE determines that base station sends the transmitting time segment information of accidental access response information after receiving described transmitting time section corresponding relation, and in described transmitting time section, monitor the accidental access response information that described base station sends, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

15. according to the method described in any one in claim 10～14, it is characterized in that, described base station, according to described random access request information, after described UE sends accidental access response information, also comprises:

Described base station receives the upstream data message that described UE sends;

Described base station sends upstream data response message to described UE.

16. methods according to claim 15, is characterized in that, described base station receives the upstream data message that described UE sends, and comprising:

Described base station receives the upstream data message sending in the residue state of activation time period of described UE in the current DTX cycle receiving after accidental access response information; Or,

Described base station receives described UE and is receiving the upstream data message that after accidental access response information, random time sends; Or,

Described base station receives the upstream data message that described UE sends within the time period of making an appointment with described base station.

17. methods according to claim 15, is characterized in that, described base station sends upstream data response message to described UE, comprising:

Described base station, in the time of state of activation, sends upstream data response message to described UE; Or,

Described base station receives the suggestion time period of the reception upstream data response message of described UE transmission, replys confirmation to described UE, and sends upstream data response message to described UE within the described suggestion time period; Or,

Described base station is to the designated time section of described UE broadcast upstream data response message, and sends upstream data response message to described UE in described designated time section.

18. methods according to claim 17, is characterized in that, described base station sends upstream data response message to described UE within the described suggestion time period, comprising:

If in the described suggestion time, described base station is in state of activation, and described base station sends upstream data response message to described UE;

If in the described suggestion time, described base station is in sleep state, and described base station is switched to state of activation, and sends upstream data response message to described UE.

19. according to the method described in claim 10～18 any one, it is characterized in that, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

20. 1 kinds of random access processing methods, is characterized in that, comprising:

Base station receives the random access request information that user equipment (UE) sends;

In the Preset Time of described base station after receiving described random access request information, remain in the state of activation in discontinuous transmission DTX pattern, and send accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

21. methods according to claim 20, is characterized in that, base station also comprises after receiving the random access request information of user equipment (UE) transmission:

Described base station opening timing device;

In the Preset Time of described base station after receiving described random access request information, remain in the state of activation in discontinuous transmission DTX pattern, comprising:

In the Preset Time that described base station is set at described timer, remain in the state of activation in discontinuous transmission DTX pattern.

22. methods according to claim 21, is characterized in that, remain in the state of activation in discontinuous transmission DTX pattern in the Preset Time of described base station after receiving described random access request information, comprising:

If described base station, in the time receiving the random access request information of described UE transmission, in state of activation, remains in state of activation in the described Preset Time of described base station after receiving described random access information;

If described base station is in the time receiving the random access request information of described UE transmission, in sleep state, described base station is switched to state of activation, and remains in state of activation in described Preset Time.

23. methods according to claim 22, is characterized in that, described base station, after described UE sends accidental access response information, also comprises:

Described base station receives the upstream data message that includes the suggestion time period that described UE sends to described base station after receiving described accidental access response information;

Described base station, according to described upstream data message, sends upstream data response message to described UE, so that described UE receives described upstream data response message within the described suggestion time period within the described suggestion time period.

24. 1 kinds of subscriber equipmenies, is characterized in that, comprising:

Transport module, in the Preset Time section before state of activation time period or the state of activation time period in discontinuous transmission DTX pattern in base station, sends random access request information to base station;

Monitor module, the accidental access response information sending for monitoring described base station, so that described UE accesses described base station after the accidental access response information that receives the transmission of described base station.

25. subscriber equipmenies according to claim 24, is characterized in that, described monitoring module, specifically for monitoring the accidental access response information that described base station sends in default listening period section.

26. subscriber equipmenies according to claim 25, is characterized in that, described transport module, within the state of activation time period in DTX pattern in base station, sends random access request information to base station; Correspondingly,

Described monitoring module, the accidental access response information sending specifically for monitoring described base station in the residue state of activation time period in the current DTX cycle of described base station; Or,

In the residue state of activation time period in the current DTX cycle of described base station and in the state of activation time period extending, monitor the accidental access response information that described base station sends; Or,

In the residue state of activation time period in the current DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In residue state of activation time period in the current DTX cycle of described base station and the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or,

Obtain the transmitting time segment information that base station sends accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends;

Wherein, the described residue state of activation time period is the time period finishing to the state of activation time the current DTX cycle after described UE sends random access request information.

27. subscriber equipmenies according to claim 25, is characterized in that, described transport module, in the Preset Time section before the state of activation time period in the DTX cycle in base station, sends random access request information to base station; Correspondingly,

Described monitoring module, the accidental access response information sending specifically for monitoring described base station in the state of activation time period in the described DTX cycle of described base station; Or,

In the state of activation time period that in the state of activation time period in the described DTX cycle of described base station and described base station extends, monitor the accidental access response information that base station sends;

In the state of activation time period in the described DTX cycle of described base station and in the interim state of activation time period, monitor the accidental access response information that described base station sends; Or,

In the state of activation time period in the described DTX cycle of described base station and in the state of activation time period in next DTX cycle, monitor the accidental access response information that base station sends; Or,

Obtain the transmitting time segment information that base station sends accidental access response information, in described transmitting time section, monitor the accidental access response information that described base station sends.

28. according to the subscriber equipment described in claim 26 or 27, it is characterized in that, described transport module is also for receiving the transmitting time segment information of accidental access response information of base station broadcast; Or,

Receive the transmitting time section corresponding relation of base station broadcast, determine that base station sends the transmitting time segment information of accidental access response information, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

29. according to the subscriber equipment described in claim 24～28 any one, it is characterized in that described transport module also, for monitor the accidental access response information of base station transmission in default listening period section after, sends upstream data message to described base station; Receive the upstream data response message that described base station sends.

30. subscriber equipmenies according to claim 29, is characterized in that, described transport module, specifically for sending upstream data message to described base station in the residue state of activation time period in the current DTX cycle that receives described accidental access response information; Or,

Random time after receiving described accidental access response information sends upstream data message to described base station; Or,

Within the time period of making an appointment with described base station, send upstream data message to described base station.

31. subscriber equipmenies according to claim 29, is characterized in that, described transport module, the upstream data response message sending specifically for monitor described base station within the state of activation time period of described base station; Or,

Send the suggestion time period that described UE receives upstream data response message to described base station, and monitor the upstream data response message that described base station sends within the described suggestion time period; Or,

Receive the designated time section that base station sends, and in described designated time section, monitor the upstream data response message that described base station sends, wherein said base station sends described upstream data response message in described designated time section.

32. according to the subscriber equipment described in claim 24～31 any one, it is characterized in that, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

33. 1 kinds of base stations, is characterized in that, comprising:

Receiver module, for receiving the random access request information sending in the Preset Time section of user equipment (UE) before state of activation time period or the state of activation time period of the discontinuous transmission in described base station DTX pattern;

Sending module, for according to described random access request information, sends accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

34. base stations according to claim 33, is characterized in that, described sending module according to described random access request information, sends accidental access response information to described UE specifically for described base station when in state of activation.

35. base stations according to claim 34, is characterized in that, described receiver module, specifically for receiving the random access request information sending in the state of activation time period of UE in the DTX pattern of described base station; Correspondingly,

Described sending module, specifically for sending accidental access response information to described UE in the residue state of activation time period in the current DTX cycle; Or,

In the state of activation time period that in the residue state of activation time period in the current DTX cycle and described base station extends, send accidental access response information to described UE; Or,

In the residue state of activation time period in the current DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In residue state of activation time period in the current DTX cycle and the state of activation time period in next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section;

Wherein, the residue state of activation time period is that described base station receives after described random access request information the time period between finishing state of activation time in the current DTX cycle.

36. base stations according to claim 34, is characterized in that, described receiver module, specifically for receiving the random access request information sending in the Preset Time section before the state of activation time period of UE in the DTX pattern of described base station; Correspondingly,

Described sending module, specifically for sending accidental access response information to described UE in the state of activation time period in the described DTX cycle; Or,

In the state of activation time period in the described DTX cycle and in the state of activation time period extending, send accidental access response information to described UE; Or,

In the state of activation time period in the described DTX cycle and in the interim state of activation time period, send accidental access response information to described UE; Or,

In the state of activation time period in the state of activation time period in the described DTX cycle and in next DTX cycle, send accidental access response information to described UE; Or,

The transmitting time segment information of broadcast accidental access response information, and send accidental access response information to described UE in described transmitting time section.

37. according to the base station described in claim 33～36 any one, it is characterized in that, described sending module, also for the transmitting time segment information to UE broadcast accidental access response information, so that described UE monitors the accidental access response information that described base station sends after receiving the transmitting time segment information of described accidental access response information in described transmitting time section; Or,

To UE broadcast transmission time period corresponding relation, so that described UE determines that base station sends the transmitting time segment information of accidental access response information after receiving described transmitting time section corresponding relation, and in described transmitting time section, monitor the accidental access response information that described base station sends, wherein, described transmitting time section corresponding relation is the corresponding relation between transmitting time segment information and the random access request information of accidental access response information, or, for transmitting time segment information and the random access request information of accidental access response information send the corresponding relation between resource, or, for the corresponding relation between transmitting time segment information and random access request information and the random access request information transmission resource of accidental access response information.

38. according to the base station described in claim 33～37 any one, it is characterized in that described receiver module, also for according to described random access request information, after described UE sends accidental access response information, receives the upstream data message that described UE sends;

Described sending module, also, for receive the upstream data message of described UE transmission at described receiver module after, sends upstream data response message to described UE.

39. according to the base station described in claim 38, it is characterized in that, described receiver module, specifically for receiving the upstream data message sending in the residue state of activation time period of described UE in the current DTX cycle receiving after accidental access response information; Or,

Receive described UE and receiving the upstream data message that after accidental access response information, random time sends; Or,

Receive the upstream data message that described UE sends within the time period of making an appointment with described base station.

40. according to the base station described in claim 38, it is characterized in that described sending module, specifically for when the state of activation, sends upstream data response message to described UE; Or,

Receive the suggestion time period of the reception upstream data response message of described UE transmission, reply confirmation to described UE, and send upstream data response message to described UE within the described suggestion time period; Or,

To the designated time section of described UE broadcast upstream data response message, and send upstream data response message to described UE in described designated time section.

41. according to the base station described in claim 33～40 any one, it is characterized in that, the described state of activation time period is initial activation state time period or the regular state of activation time period in described DTX pattern.

42. 1 kinds of base stations, is characterized in that, comprising:

Receiver module, the random access request information sending for receiving user equipment (UE);

Processing module, for making to remain in the Preset Time of described base station after receiving described random access request information the state of activation of discontinuous transmission DTX pattern, and send accidental access response information to described UE, so that described UE accesses described base station after receiving described base station transmission accidental access response information.

43. according to the base station described in claim 42, it is characterized in that, also comprises:

Time block, for opening timing device;

Described processing module, specifically for remaining in the state of activation in discontinuous transmission DTX pattern in the Preset Time that described base station is set at described timer.

44. according to the base station described in claim 43, it is characterized in that, described processing module, if specifically for described base station in the time receiving the random access request information that described UE sends, in state of activation, in the described Preset Time of described base station after receiving described random access information, remain in state of activation;

If described base station is in the time receiving the random access request information of described UE transmission, in sleep state, described base station is switched to state of activation, and remains in state of activation in described Preset Time.

45. according to the base station described in claim 44, it is characterized in that described receiver module, the upstream data message that includes the suggestion time period also sending to described base station after receiving described accidental access response information for receiving described UE;

Described base station also comprises: sending module for according to described upstream data message, sends upstream data response message to described UE, so that described UE receives described upstream data response message within the described suggestion time period within the described suggestion time period.