CN109644375A - AT order for honeycomb Internet of Things rate control - Google Patents

Abstract

Embodiment of the disclosure describes the method and apparatus of the AT order for honeycomb Internet of Things rate control.

Description

AT order for honeycomb Internet of Things rate control

Cross reference to related applications

Entitled " the AT COMMANDS FOR that the application requires submit on September 29th, 2016 according to 35 U.S.C. § 119 (e) The U.S. Provisional Patent Application No.62/401 of CIOT RATE CONTROL ", the disclosure of 710 priority, the latter pass through It is incorporated herein by reference.

Technical field

Embodiment of the disclosure relates generally to network field, more particularly, to for honeycomb Internet of Things (" CIoT ") The devices, systems, and methods of the AT order of rate control.

Background technique

The 13rd edition (" Rel-13 ") the 3rd stage of third generation cooperative partner program (" 3GPP ") is directed to CT1/CT3/CT4/CT6 The job of the CIoT core technology (" CT ") of working group aims at framework enhancing, to support to frequently and infrequently small The efficient process of data transmission.CIoT may relate to setting certain data for sending and receiving relatively small amount with infrequently interval It is standby to be connected to cellular network, etc..This may cause signaling overheads problem, for example, due to being connected to network via same node Number of devices, device location causes signal level low, and therefore causes repeatedly to retransmit etc..As a part of Rel-13, Control plane and user plane CIoT optimization has been provided in 3GPP, and it is small to support that this can solve these problems and other problems Data transmission.

Controlling plane evolved packet system (" EPS ") optimization, (it is referred to as via mobility management entity (" MME ") Data) them can be transmitted via MME by the way that user data to be encapsulated in Non-Access Stratum (" NAS ") message, this can be with Reduce the quantity of the control plane message for small data transmission.This may be generated at MME for carry for example data (via MME new NAS message, encryption and integrity protection and the compression of Internet protocol (" IP ") head).Turn in the free time to connection mode During change, user plane may not be established using packet data network (" the PDN ") connection of control plane EPS optimization and is connected.

User plane EPS optimizes (it is referred to as user plane solution) can be flat based on the user of user data Face transmission.Optimized using user plane EPS, user equipment (" UE ") context can be stored in evolution during idle state In node B (" eNB ") and UE, and in order to establish network connection, pause and recovery process is can be used in UE, which can be down to It is at least partly based on UE and/or whether network supports user plane EPS to optimize.

Detailed description of the invention

It will readily appreciate that embodiment by being described in detail below in conjunction with attached drawing.For ease of description, similar attached drawing Label indicates similar structural element.Embodiment is shown in each figure of attached drawing by way of example, and not limitation.

Fig. 1 shows the framework of wireless network in accordance with some embodiments.

Fig. 2 shows UE in accordance with some embodiments.

Fig. 3 shows example operational flow/algorithm structure of terminal device in accordance with some embodiments (" TE ").

Fig. 4 shows example operational flow/algorithm structure of mobile terminal in accordance with some embodiments (" MT ").

Fig. 5 shows example operational flow/algorithm structure of TE in accordance with some embodiments.

Fig. 6 shows example operational flow/algorithm structure of TE in accordance with some embodiments.

Fig. 7 shows electronic equipment in accordance with some embodiments.

Specific embodiment

It is described in detail below to refer to attached drawing.Can be identified in different drawings using identical appended drawing reference it is identical or Similar element.In the following description, following detailed description, elaborate such as specific structure, framework, interface, The detail of technology etc., in order to provide the thorough understanding of the various aspects to invention claimed.However, for being benefited In the disclosure it should be apparent to those skilled in the art that the various aspects of the claimed invention can be detached from this Implement in other examples of a little details.In some cases, the description to known device, circuit and method is omitted, with Exempt from the unnecessary detail masks description of this invention.

The various aspects that the term for using those skilled in the art to generally use is described to illustrative embodiments, by him The essence that works be communicated to others skilled in the art.It is apparent, however, to one skilled in the art, that can be with Implement alternate embodiment merely with described some aspects.For illustrative purposes, elaborate it is specific number, material and Configuration, in order to provide the thorough understanding to illustrative embodiments.However, it will be apparent to those skilled in the art that It is that may be practiced without these specific details alternate embodiment.In other cases, it has been omitted or simplified known Feature, in order to avoid cover illustrative embodiments.

In addition, each operate will and then be described as multiple discrete in a manner of most helpful in illustrative embodiments is understood Operation；However, the sequence of description, which should not be construed as to imply that these operations, is necessarily dependent upon sequence.Particularly, these are operated It does not need to be performed in the order presented.

Phrase " in various embodiments ", " in some embodiments " etc. are reused.The phrase is not usually to refer to The same embodiment；However, it may refer to the same embodiment.Unless the context requires otherwise, otherwise term "comprising", " having " It is synonym with " comprising ".Phrase " A or B " indicates (A), (B) or (A and B).

Example embodiment can be described as a processing, the processing be depicted as flow table, flow chart, data flowchart, Structure chart or block diagram.Although flow chart can describe the operations as sequential processes, many operations can execute parallel, concurrently It executes or is performed simultaneously.Furthermore it is possible to rearrange the sequence of operation.Processing can be termination when its operation is completed, but It is that also can have the additional step for not including in attached drawing.Processing can correspond to method, function, process, subroutine, subprogram Deng.When a process corresponds to a function, it terminates and can correspond to function back to calling function and/or principal function.

As it is used herein, term " processor circuit " refers to following circuits, for part of it or including it: Neng Goushun Sequence and automatically carry out a series of arithmetic or logical operation；The circuit of record, storage and/or transmission numerical data.Term " place Reason device circuit " may refer to one or more application processor, one or more baseband processor, physical central processing unit (CPU), single core processor, dual core processor, three core processors, four core processors and/or be able to carry out or operate computer can Execute instruction any other equipment of (for example, program code, software module and/or function process).As it is used herein, art Language " interface circuit " refers to following circuits, for part of it or including it: providing between two or more components or equipment The circuit of information exchange.Term " interface circuit " may refer to one or more hardware interfaces (for example, bus, input/output (I/O) interface, peripheral component interface etc.).

As it is used herein, term " user equipment " or " UE " are considered the synonym of following item, and It is properly termed as them sometimes below: client, mobile station, mobile device, mobile terminal, user terminal, mobile unit, movement It stands, mobile subscriber, subscriber, user, remote station, access agency, user agent, receiver etc., and communication network can be described In Internet resources remote subscriber.In addition, term " user equipment " or " UE " may include any kind of Wireless/wired set It is standby, such as consumer electronics, cellular phone, smart phone, tablet personal computer, Internet of Things (" IoT ") equipment, intelligence Sensor, wearable computing devices, personal digital assistant (PDA), desktop computer and laptop computer.

The market IoT is extensive, supports various applications, such as intelligent metering, seismic sensor, automatic vending machine, asset tracking Deng.In order to meet the needs of various market categories, IoT solution development personnel can integrate such as modem in UE Module is to realize MT, although MT can be referred to as mobile terminal fitting, it can additionally or alternatively be known as mobile terminal. The AT order abbreviation of order (" ATtention ") may be such that can be between modem module or and modem Module transmission information (transmits letter to the MT transmission information for using modem module to realize or from the MT including such as TE Breath) mechanism.

At least two rate control mechanisms may be used as a part of CIoT optimization: access point name (" APN ") rate control System and service public land mobile network (" PLMN ") rate control.As explained in more detail below, APN rate control information can To indicate what permission uplink (" the UL ") Packet Data Unit (" PDU ") of the every time interval indicated by time quantum transmitted Quantity is expressed as the data volume of the every time quantum of every APN.APN rate control can for example make Home PLMN (" HPLMN ") to transport Battalion quotient is capable of providing the customer service of such as " at most Y message daily ".For example, with reference to 23.401 v14.1.0 of 3GPP TS (on September 26th, 2016).As explained in more detail below, service PLMN rate control information can indicate permitting for every time interval Perhaps the maximum quantity of UL PDU transmission, being expressed as the every time interval added up in multiple or all PDN connections, (it can be example Such as six minutes (also referred to as " deci-hour ")) data volume.Service PLMN rate control can for example to service PLMN operation Quotient can configure " every deci-hour X NAS data PDU ".See, for example, 3GPP TS 23.401.Network can be notified to MT The APN rate control and service PLMN rate control requirement to be applied in UL.

Such as according to 24.008 v14.0.0 of 3GPP TS (on June 24th, 2016), rate control information can be agreement A part of config option (" PCO ").A purpose of PCO can be by using such as open system interconnection (also referred to as " OSI ") or the application layer of transmission control protocol/Internet protocol (also referred to as " TCP/IP ") network protocol stack access PDN.Benefit The adaptation technique being adjusted with the network condition for variation, can more efficiently use Internet resources.Adaptation can occur In the different layers of network protocol stack.At physical layer, for example, optimal energy allocation technology can mitigate the change of wireless environment Change.At network layer, for example, dynamic rerouting mechanism can reduce congestion and mitigate the variation of mobile environment.At application layer, The access point (" AP ") that agreement can be used to be limited on network generates PDU.

The embodiments herein, which describes, can be used for enabling TE or MT to send and receive about can be answered by application layer The AT order of the information of rate limit in UL.AT order can enable UE to combine other AT for supporting similar functions Order carrys out reading rate control parameter.Rate control parameter can be determined for example by network or network operator.UE can lead to The data volume for for example based on UL rate control parameter, being limited in and sending in UL is crossed, to be effected or carried out UL rate control.It is similar Ground, PDN Gateway (" P-GW ")/service ability open function (" SCEF ") (" P-GW/SCEF ") can be for example, by based on DL speed Rate control parameter is limited in the data volume sent in DL, to be effected or carried out downlink (" DL ") rate control.Therefore, fast Rate control parameter can enable to for example reduce or prevent network congestion or overload.

Fig. 1 shows the framework of wireless network in accordance with some embodiments.System 100 is shown as including wireless access network (" RAN ") --- in this embodiment it is that evolved universal mobile communication system (" UMTS ") land radio access web (" E- UTRAN ") 110, it may include one or more access points that connection 102 can be realized to UE 200.One or more access Point can be referred to as access node, base station (" BS "), NodeB, eNodeB (" eNB "), RAN node etc., and can be one Earth station's (for example, land access point) or the inserting of satellite point of covering are provided in geographic area (for example, cell).E-UTRAN 110 may include RAN node 111 for providing macrocell and for providing Femto cell or picocell (for example, with macro Cell compare with smaller overlay area, smaller user capacity and/or higher bandwidth cell) RAN node 112.

Any of RAN node 111 and 112 can terminate air interface protocol, and can be the first of UE 200 Contact point.In some embodiments, any of RAN node 111 and 112 can fulfil the various logic of E-UTRAN 110 Function, including but not limited to radio network controller (" RNC ") function, such as radio bearer management, UL and DL dynamic nothing Line resource management and data packet scheduling and mobile management.

According to some embodiments, UE 200 be can be configured as: according to the various communication technologys, over a multicarrier communication channel It is communicated each other or with any of RAN node 111 and 112 using orthogonal frequency division multiplexing (" OFDM ") signal of communication, example Such as, but not limited to, orthogonal frequency division multiple access (" OFDMA ") communication technology (for example, being communicated for DL) or single-carrier frequency division multiple access (" SC- FDMA ") communication technology (for example, for UL and the communication of adjacent service (" ProSe ") or sidelinks), but the range of embodiment is not It is limited to this.Ofdm signal may include multiple orthogonal sub-carriers.

In some embodiments, DL resource grid can be used for from any of RAN node 111 and 112 to UE 200 DL transmission, and UL transmission similar technology can be used.Grid can be time frequency grid, referred to as resource grid or running time-frequency resource Grid is the physical resource in each time slot in DL.This time-frequency plane expression is common practice for ofdm system, This makes it be intuitive for radio resources allocation.The each column of resource grid and every row correspond respectively to an OFDM symbol With an OFDM subcarrier.The duration of resource grid in the time domain corresponds to a time slot in radio frames.Resource grid In minimum time frequency unit be known as resource element.Each resource grid includes multiple resource blocks, and which depict certain physical channels To the mapping of resource element.Each resource block includes the set of resource element；In a frequency domain, this expression is currently able to assigned Least resource amount.There are the physics DL channels of the transmission of resource block as several different uses.

User data and higher level signaling can be carried to UE 200 by physical downlink shared channel (" PDSCH ").Physics DL Control channel (" PDCCH ") can be carried about transformat related with PDSCH channel and information of resource allocation etc..It is also It can notify that (" mixed automatic retransfer is asked by transformat related with the shared channel of UL, resource allocation and H-ARQ to UE 200 Ask ") information.In general, can be based on the channel quality information fed back from UE 200, in any of RAN node 111 and 112 Place execute DL scheduling (200 assigned control channels resource block of UE and shared channel resources block into cell), then can with In transmission DL non-resource assignment information on the PDCCH of (for example, being dispatched to) UE 200.

Control channel element (" CCE ") can be used to convey control information in PDCCH.Be mapped to resource element it Before, PDCCH complex-valued symbol can be organized into four-tuple first, and sub-block interleaver then can be used and be arranged, with Carry out rate-matched.One or more of these CCE can be used to send each PDCCH, wherein each CCE can be right Ying Yujiu group is known as four physical resource elements of resource element groups (" REG ").It can be by four quadrature phase shift keying (" QPSK ") symbol is mapped to each REG.One or more CCE can be used to send PDCCH, this depends on DL and controls information The size and channel condition of (" DCI ").Can be defined in LTE there are four types of or more it is different with different number CCE PDCCH format (for example, polymerization grade L=1,2,4 or 8).

Resource allocation concept as the extension of above-mentioned concept can be used for control channel information by some embodiments.Example Such as, some embodiments can use enhancing physical downlink control channel (EPDCCH), be controlled using PDSCH resource Information transmission.One or more enhancings control channel element (ECCE) can be used to send EPDCCH.It is similar to above, each ECCE can correspond to nine groups of four physical resource elements for being known as enhancing resource element groups (EREG).In some cases, ECCE can have the EREG of other quantity.

E-UTRAN 110 is illustrated as being communicably coupled to core net via S1-MME interface 113 --- in the implementation It is evolution block core (" EPC ") network 120 in example.In some embodiments, such as in non-roaming scene, EPC 120 can To be HPLMN.In some embodiments, such as in roaming scence, EPC 120 can be service PLMN.

In this embodiment, EPC network 120 may include MME/CIoT service gateway nodes (" C-SGN ") 121, service Gateway (" S-GW ") 122, P-GW/SCEF 123 and P-GW/ SMS service center (" SMSC ")-intercommunication MSC (" IWMSC ") 124 (it is referred to as SMSC-IWMSC).S1-MME interface 113 can be RAN node 111 and 112 and MME/C-SGN 121 Between signaling interface.MME/C-SGN 121 can functionally be similar to legacy services general packet radio service The control plane of (" GPRS ") supporting node (" SGSN ").In terms of MME can for example manage the mobility in access, such as gateway Selection and tracking zone list management.C-SGN can be the node for example for CIoT optimization.Home subscriber servers (" HSS ") (not shown) can be the database for the network user, including for supporting network entity to carry out communication session The subscription related information of processing.EPC network 120 may include one or several HSS (not shown), this depends on mobile subscriber Quantity, the capacity of equipment, tissue of network etc..For example, HSS can be provided to routing/roaming, authentication, authorization, name/address The support of parsing, position dependence etc..

S-GW 122 can route data grouping between E-UTRAN 110 and EPC network 120.In addition, S-GW 122 can To be the local mobility anchor for the switching of RAN intermediate node, and mobility anchoring can also be provided between 3GPP.Other duties Appointing may include lawful interception, charging and certain strategy implement.

P-GW/SCEF 123 can EPC network 120 and external network (e.g., including application server 130 is (alternatively Referred to as application function (" AF ")) network) between route data grouping.P-GW/SCEF 123 for example can be used to pass through control Plane transmits non-IP data, such as machine type data.In this embodiment, P-GW/SCEF 123 is illustrated as non-IP data (for example, machine type data) are sent to application server 130 from P-GW/SCEF 123.P-GW/SMSC-IWMSC 124 can be with Such as relaying, storage and forwarding SMS message.In this embodiment, P-GW/SMEC-IWMSC 124 is illustrated as sending out SMS data It is sent to application server 130.Application server 130 can be the element for supporting various services, such as communication service, such as interconnect Voice (" VoIP ") session, push to speak (" PTT ") session, group communication sessions, social networking service etc. on fidonetFido；CIoT clothes Business, such as intelligent metering, seismic sensor, automatic vending machine, asset tracking etc.；Via EPC network 120 for UE's 102 SMS service, such as messaging service, information service, notice service etc..It additionally or alternatively, can be with for non-IP data grouping It, can be for example via IP such as via the point-to-point tunnel 125 (" PtP ") for non-IP data, or for IP data grouping Data tunnel 126 routes data grouping between MME/C-SGN 121 and application server 130.

Service PLMN rate control can permit service PLMN and protect its MME (for example, MME/C-SGN 121) and E- The influence of Signaling Radio Bearer in UTRAN (for example, E-UTRAN 120) from the NAS PDU load generated.This can pass through Such as when using CIoT control plane optimizing, allow MME/C-SGN with signaled for the user data that transmits via NAS Permitted maximum load value is completed.Can when PDN connection is established with signaling to PGW/SCEF (for example, PGW/SCEF 123) and UE (for example, UE 200) informs maximum rate.Maximum rate can be expressed as the number of the data PDU of every time interval Amount.In some embodiments, time interval can be six minutes.Other than being expressed as the quantity of data PDU, maximum rate is also Can be expressed as include user data information of container element (" IE ") UL EPS session management (" ESM ") data transmission message Quantity.In addition, maximum rate can be expressed as the quantity of UL data-message.

In some embodiments, UE 200 can be responsible for for UL user data being maintained at maximum UL limitation hereinafter, and P- GW (for example, P-GW/SCEF 123 or P-GW/SMSC-IWMSC124) can be responsible for for DL user data being maintained at maximum DL limit System is following.UL and DL maximum rate can be independent.Furthermore, it is possible to notify S-GW (for example, S-GW 122) service PLMN speed When in use rate controls, and S-GW is allowed to notify P-GW (for example, P-GW/SCEF 123 or P-GW/SMSC-IWMSC 124) it, for specific PDN connection, controls plane or when user plane is using.Service PLMN can be abandoned or is delayed over With the user data of the maximum rate of signaled.Therefore, MME (for example, MME/C-SGN 121) may be implemented for limit by The monitoring function of data transmitted by the entity with the maximum rate of signaled is not followed.

APN rate control can be intended to allow HPLMN by using the maximum allowable UL of signaled to UE (for example, UE 200) Rate come limit using specific APN PDN connection data payload.The maximum rate can be by P-GW (for example, P-GW/SCEF 123 or P-GW/SMSC-IWMSC 124) use signaled.In addition, the maximum DL rate that P-GW intends to implement can also use signaling It informs to UE.Rate can be indicated with several data volumes of every time quantum.For example, rate can be expressed as UL data-message Quantity.Rate can also be expressed as the quantity of data PDU.In addition, rate can be expressed as include user data container IE UL The quantity of ESM data transmission message.APN rate control can be applied to any number sent using for example specific PDN connection According to, and be using control plane or user plane it is unrelated.P-GW is (for example, P-GW/SCEF 123 or P-GW/SMSC- IWMSC 124) can be responsible for for DL user data being maintained at maximum DL limitation hereinafter, and UE (for example, UE200) can be responsible for It is following that UL user data is maintained at maximum UL limitation.Similar to the case where servicing PLMN rate control is related to, to data payload It is monitored and can be data that are possible, and can abandoning or be delayed over the maximum rate with signaled.In APN speed It, can be by P-GW (for example, P-GW/SCEF 123 or P-GW/SMSC/IWMSC 124) implementing monitoring in the case that rate controls.

The embodiments herein, which describes, can handle APN rate control and service PLMN rate control mechanism to carry out CIoT The AT order of optimization.Embodiment may be used as the basis to the related 3GPP update standardized, including but not limited to 3GPP TS 27.007, v14.0.0 (on June 23rd, 2016).

Some modifications to AT order that APN rate control or service PLMN rate control can be enabled can be such that

+ CGDCONT AT order can be enhanced, to provide whether TE or (in general) UE supports APN rate to MT The instruction of control；

+ CGCONTRDP AT order can be enhanced, to provide service PLMN rate control or APN rate from network to TE Control information；Or

The new AT order+CGRATECIOT of the rate control for CIoT can be introduced, to provide speed from network to TE Rate control information.

In some embodiments ,+CGDCONT AT order may include following parameter, these parameters may include APN speed Rate control information or PLMN rate control information, as shown in Table 1 below.Following table 1 can be based on such as 3GPP TS 27.007 table 111.

Table 1:+CGDCONT parameter command grammer

Above-mentioned setting command may indicate that the PDP Context for being identified by (local) Context identifier parameter<cid> Packet data protocol (" PDP ") context parameters value, and TE can also allow for indicate whether to request the safeguard protection of ESM information Transmission, because PCO may include the information for requiring encryption.There may be UE to use other of the safeguard protection transmission of ESM information Reason, for example, if UE needs to transmit APN.The quantity for the PDP Context that institute's definition status may be in simultaneously can be by testing The range that order returns provides.

For EPS, PDN connection and associated EPS default bearing can be thus identified.

The special shape of setting command ,+CGDCONT=<cid>can make the value of context numbers<cid>become uncertain Justice.

If supporting primary PDP context, the context of<cid>=0 can be defined automatically on startup, for example, ginseng See the sub-clause 10.1.0 of 3GPP TS 27.007.As every other context, the parameter of<cid>=0 can with+ CGDCONT modification.If supporting primary PDP context, it is specific that context numbers 0 can be reset to its by+CGDCONT=0 Default setting.

Reading order can return to the current setting of the context of each definition.

Test command can return to the value supported as stowed value.If MT supports several PDP types<PDP_type>, The range of parameter values of each<PDP_type>can be then returned on individual row.

The value defined for table 1

<cid>can be integer type parameter, indicate specific PDP Context definition.The parameter can for TE-MT interface To be local, and can be used in the relevant order of other PDP Contexts.Permissible value range (for example, minimum value=1, Or if supporting primary PDP context (see, e.g., the sub-clause 10.1.0 of 3GPP TS 27.007), minimum value= 0) it can be returned by the test form of order.

It is noted that in the test form of order+CGDCONT and+CGDSCONT, the PDP Context of network initiation <cid>can have for<cid>instruction range except value.

<PDP_type>can be character string type parameter, indicate PDP type.It is specific that default value can be manufacturer 's.The PDP type that can be supported in various embodiments may include: X.25 (such as in ITU telecommunication standardization sector " ITU- Described in T ")/(X.25 the 3rd layer of International Telegraph and Telephone Co (" CCITT "))；Internet protocol (" IP ") (such as in Internet Engineering Task group (" IETF ") standard (" STD ") 5, described in " Internet protocol ")；Internet protocol View, and version 6 (" IPV6 ") (such as (" RFC ") 2460 is annotated in request, it is retouched in " Internet protocol, version 6 (IPv6) specification " State))；IP, edition 4/version 6 (" IPV4V6 ") can be and introduce to handle the virtual PDP type of double IP stack UE abilities (such as described in 3GPP TS 24.301V14.0.1 (on June 30th, 2016))；Internet trustship octet stream association It discusses (" OSPIH ")；Or point-to-point protocol (" PPP ") (such as described in IETF STD 51 (in July, 1994)).One In a little embodiments, IP, IPV6 and IPV4V6 value can only be supported for EPS service.

<APN>can be character string type parameter, for for selecting Gateway GPRS Support Node (" GGSN ") or outside The logical name of packet data network.If the value is null or omission, can pull subscription value.

<PDP_addr>can be character string type parameter, identify the MT suitable for the address space of PDP.Work as support When+CGPIAF, setting can influence the format of this parameter returned with the reading form of+CGDCONT.Setting life can be used Enable the value for ignoring the parameter.Merely for backward compatibility reason, which may include in setting command.

<d_comp>can be integer type parameter, and (it can be only applicable to the remittance of subnet correlation for control PDP data compression Poly- agreement (" SNDCP ")) (for example, with reference to 3GPP TS 44.065V13.0.0 (on December 18th, 2015))).In various implementations In example,<d_comp>be can have: value 0, to indicate to close；Value 1 opens (for example, manufacturer's preferred compressed) with instruction；Value 2, To indicate V.42bis；Or value 3, to indicate V.44.

<h_comp>can be integer type parameter, control PDP compressions (for example, with reference to 44.065 He of 3GPP TS 3GPP TS 25.323v13.0.0 (on January 8th, 2016)).In various embodiments,<h_comp>can have: value 0, to refer to Show closing；Value 1 opens (for example, manufacturer's preferred compressed) with instruction；Value 2, to indicate RFC 1144, " Compressing TCP/IP Headers for Low-Speed Serial Links " (it can be only applicable to SNDCP)；Value 3, to indicate RFC 2507, " IP Header Compression "；Or value 4, to indicate RFC3095, " RObust Header Compression (ROHC): (it can only be applicable in Framework and four profiles:RTP, UDP, ESP, and uncompressed " In Packet Data Convergence Protocol (" PDCP ")).

<IPv4AddrAlloc>can be integer type parameter, and control MT/TA how believe by the address request IPv4 Breath.In various embodiments,<IPv4AddrAlloc>can have: value 0, carry out the address IPv4 point by NAS signaling with instruction Match；Or value 1, to indicate the address IPv4 by dynamic host configuration protocol (" DHCP ") distribution.

<request_type>can be integer type parameter, indicate to request the PDP context activation of PDP Context Type, see, for example, 24.008 (sub-clause of 3GPP TS 24.301 (sub-clause 6.5.1.2) and 3GPP TS 10.5.6.17).It, can if supported primary PDP context (for example, with reference to the sub-clause 10.1.0 of 3GPP TS 27.007) It can not allow to assign<cid>=0 for emergency bearer service.According to such as 3GPP TS 24.008 (sub-clause 4.2.4.2.2 and son Clause 4.2.5.1.4) and 3GPP TS 24.301 (sub-clause 5.2.2.3.3 and sub-clause 5.2.3.2.2), it is necessary to promptly to hold Individual PDP Context is established in the service of load.

If the PDP Context for emergency bearer service is the context uniquely activated, only allow urgent call, joins See such as 3GPP TS 23.401, sub-clause 4.3.12.9.In various embodiments,<request_type>can have: value 0, to indicate that PDP Context is established for new PDP Context or for switching over (how MT determines from non-3 GPP access network PDP Context is to establish for new PDP Context or is that implementation is specific for switching)；Value 1, to indicate PDP or more Text is used for emergency bearing business；Value 2, to indicate that PDP Context is established for new PDP Context；Or value 3, to indicate PDP or more Text from non-3 GPP access network for switching over.

<P-CSCF_discovery>can be integer type parameter, influence MT/TA how request packet call Address conversation control function (" P-CSCF "), see, for example, 3GPP TS24.229, " IP multimedia call control protocol based on Session Initiation Protocol(SIP)and Session Description Protocol (SDP) ", accessories B and attachment L.In various embodiments,<P-CSCF_discovery>can have: value 0, with Indicate the preference that P-CSCF address discovery is not influenced by+CGDCONT；Value 1 carries out the address P-CSCF by NAS signaling with instruction It was found that preference；Or value 2, to indicate to carry out the preference of P-CSCF address discovery by DHCP.

<IM_CN_Signalling_Flag_Ind>can be integer type parameter, be to network instruction PDP Context It is no to be only used for IP multimedia (" IM ") core net (" CN ") subsystem related signaling.In various embodiments, < IM_CN_ Signalling_Flag_Ind > can have: value 0 is related to be not only used for IM CN subsystem to UE instruction PDP Context Signaling；Or value 1, to be only used for IM CN subsystem related signaling to UE instruction PDP Context.

<NSLPI>can be integer type parameter, be designated as the NAS signaling priority of PDP Context request.Each In kind embodiment,<NSLPI>be can have: value 0, will activate the PDP Context with instruction, wherein excellent with setting low in MT The value of first grade indicator；Or value 1, which will be activated with instruction, wherein the value of low priority indicator is set For " MS is not configured for NAS signaling low priority ".MT can use the NSLPI information of offer, such as can be in such as 3GPP It is indicated in TS 24.301 and 3GPP TS 24.008.

<securePCO>can be integer type parameter, indicate whether that the safeguard protection transmission of request PCO (is only applicable in In EPS, see, for example, 23.401 sub-clause 6.5.1.2 of 3GPP TS).In various embodiments,<securePCO>can have Have: value 0 does not request the safeguard protection of PCO to be transmitted with instruction；Or value 1, to indicate to request the safeguard protection transmission of PCO.

<IPv4_MTU_discovery>can be integer type parameter, influence MT/TA how request IPv4 most Big transmission unit (" MTU ") size, see, for example, 24.008 sub-clause 10.5.6.3 of 3GPP TS.In various embodiments, < IPv4_MTU_discovery > can have: value 0, to indicate that IPv4MTU size finds the preference not influenced by+CGDCONT； Or value 1, to indicate to carry out the preference of IPv4MTU size discovery by NAS signaling.

<Local_Addr_Ind>can be integer type parameter, whether support the local in TFT to network instruction MS IP address (for example, with reference to 24.008 sub-clause 10.5.6.3 of 3GPP TS 24.301 and 3GPP TS).In various embodiments, <Local_Addr_Ind>can have: value 0, to indicate that MS does not support the local ip address in TFT；Or value 1, to indicate MS branch Hold the local ip address in TFT.

Whether<APN_Rate_Control_Support_Ind>can be integer type parameter, prop up to network instruction MS Hold APN rate control (referring to 24.008 sub-clause 10.5.6.3 of 3GPP TS).In various embodiments, < APN_Rate_ Control_Support_Ind > can have: value 0, to indicate that MS does not support APN rate control；Or value 1, to indicate that MS is supported APN rate control.

In some embodiments ,+CGDCONTRDP AT order may include following parameter, these parameters may include APN Rate control information or PLMN rate control information, as shown in Table 2 below.Following table 2 can be based on such as 3GPP TS 27.007 table 10.1.23-1.

Table 2:CGCONTRDP action command grammer

Relevant information can be returned to by executing order<bearer_id>,<apn>,<local_addr and subnet_mask >、<gw_addr>、<DNS_prim_addr>、<DNS_sec_addr>、<P-CSCF_prim_addr>、<P-CSCF_sec_ Addr>,<IM_CN_Signalling_Flag>,<LIPA_indication>,<IPv4_MTU>,<WLAN_Offload>and< Serving_PLMN_Rate_Control>, for the activity non-auxiliary PDP Context with context identifier<cid>.

If MT indicate P-CSCF server more than two IP address or domain name system (" DNS ") server be more than two A IP address can then be returned per<cid>lines of information.

If MT has dual stack ability, at least a pair of row for having information can be returned per<cid>.The first row has IPv4 parameter is followed by a line with IPv6 parameter.If the MT instruction P-CSCF server with dual stack ability The more than two IP address of more than two IP address or dns server can then return to multiple such rows pair.If MT does not have It include in a row, such as in UE receiving four IP address and P-CSCF server of dns server by all IP address In the case where two IP address, then it represents that the parameter value for the IP address that cannot be filled can be set to null character string or not deposit In character string.

If omitted parameter<cid>, the relevant information of all movable non-auxiliary PDP Contexts can be returned.Test Order can return to<cid>list with movable non-auxiliary context relation.

The value defined for table 2

<cid>can be integer type parameter, indicate specific non-auxiliary PDP Context definition.The parameter is for TE- MT interface is local, and can be used for other PDP Context related commands and (order referring to+CGDCONT and+CGDSCONT It enables).

<bearer_id>it can be integer type parameter, identification carrying is (that is, EPS carrying and UMTS/GPRS in EPS In Network Service Access point indicator (" NSAPI ")).

<apn>can be character string type parameter, can be the logical name for selecting GGSN or outside PDN.

<local_addr and subnet_mask>it can be character string type parameter, show the IP address and son of MT Net mask.The character string can be given number (0-255) parameter separated in form:

For IPv4, " a1.a2.a3.a4.m1.m2.m3.m4 "；Or

For IPv6, " a1.a2.a3.a4.a5.a6.a7.a8.a9.a10.a11.a12.a13.a14.a15.a16.

m1.m2.m3.m4.m5.m6.m7.m8.m9.m10.m11.m12.m13.m14.m15.m16。

As support+CGPIAF, setting can influence the lattice of the parameter returned with the execution form of+CGCONTRDP Formula.

<gw_addr>can be character string type parameter, show the gateway address of MT.The character string can be given a little Number (0-255) parameter of separation.As support+CGPIAF, setting can influence to be returned with the execution form of+CGCONTRDP The format for the parameter returned.

<DNS_prim_addr>can be character string type parameter, show the IP address of primary dns server.When support+ When CGPIAF, setting can influence the format of the parameter returned with the execution form of+CGCONTRDP.

<DNS_sec_addr>can be character string type parameter, show the IP address of secondary dns server.Work as support When+CGPIAF, setting can influence the format of the parameter returned with the execution form of+CGCONTRDP.

<P_CSCF_prim_addr>can be character string type parameter, show the IP address of main P-CSCF server. As support+CGPIAF, setting can influence the format of the parameter returned with the execution form of+CGCONTRDP.

<P_CSCF_sec_addr>can be character string type parameter, the IP address of display auxiliary P-CSCF server. As support+CGPIAF, setting can influence the format of the parameter returned with the execution form of+CGCONTRDP.

<IM_CN_Signalling_Flag>can be integer type parameter, and whether display PDP Context can only be used In IM CN subsystem related signaling.In various embodiments,<IM_CN_Signalling_Flag>can have: value 0, to refer to Show that PDP Context can be used not only for IM CN subsystem related signaling；Or value 1, to indicate that PDP Context can be only used for IM CN subsystem related signaling.

<LIPA_indication>can be integer type parameter, and instruction PDP Context uses local ip address (" LIPA ") PDN connection provides connectivity.The parameter can not be by TE setting.In various embodiments, < LIPA_ Indication > can have: value 0 does not receive PDP Context with instruction and provides internuncial finger using LIPA PDN connection Show；Or value 1, PDP Context is received with instruction and provides internuncial instruction using LIPA PDN connection.

<IPv4_MTU>can be integer type parameter, show the IPv4MTU size indicated with eight bit byte.

<WLAN_Offload>can be integer type parameter, indicate whether to connect via WLAN using specified PDN Fetch unloading business.This can quote WLAN unloading acceptability IE position 1 and 2, such as can in such as 3GPP TS 24.008, As being indicated in sub-clause 10.5.6.20.In various embodiments,<WLAN_Offload>can have: value 0, with instruction When be in S1 mode when or when be in Iu mode when via WLAN unloading PDN connection business can be it is unacceptable；Value 1, to indicate to be acceptable when being in S1 mode via the business of WLAN unloading PDN connection, but under Iu mode It can be unacceptable；Value 2, to indicate to can be and can connect via the business of WLAN unloading PDN connection when being in Iu mode It receives, but can be under S1 mode unacceptable；Or value 3, with instruction when being in S1 mode or when in Iu mould It can be acceptable when formula via the business of WLAN unloading PDN connection.

<Local_Addr_Ind>can be integer type parameter, indicate whether MS and network support the local in TFT IP address (for example, with reference to 3GPP TS 24.301 and 3GPP TS24.008, sub-clause 10.5.6.3).In various embodiments, <Local_Addr_Ind>can have: value 0, to indicate that MS or network or both can not support the local ip address in TFT； Or value 1, to indicate the local ip address in MS and network support TFT.

<Serving_PLMN_Rate_Control>can be integer type parameter, and instruction UE can be allowed to every 6 points The maximum quantity for the UL ESM DATA TRANSPORT message (including user data container IE) that clock interval is sent.This can draw It, such as can be in such as 3GPP TS 24.301, sub-clause 9.9.4.28 with the eight bit byte 3 to 4 of service PLMN rate control IE In indicate as.Service PLMN rate control information can indicate every 6 minute time interval added up in all PDN connections The maximum quantity for allowing UL PDU to transmit.If indicated value is 0xFFFFH, it may be an indicator that Serving_ is not present PLMN_Rate_Control limitation.

<Max_Uplink_rate>can be integer type parameter, instruction UE by<timing_unit>indicate when Between the maximum quantity of UL subscriber data message that can send in interval.This can quote eight of APN rate control parameter IE Byte 2 to 4, as can such as being indicated in such as 3GPP TS 24.008, sub-clause 10.5.6.3.2.

<timing_unit>can be integer type parameter, can be the time corresponding with<Max_Uplink_rate> Interval, they can indicate the maximum quantity for the UL subscriber data message that UE can be sent in the time interval of APN together.? In various embodiments,<timing_unit>be can have: value 0, to indicate without limitation；Value 1, to indicate minute；Value 2, with instruction Hour；Value 3, to indicate day；Or value 4, to indicate week.

For example, if<Max_Uplink_rate>is 100 and<timing_unit>is 3 (that is, days), for by< Apn>instruction APN, it may be an indicator that the maximum quantity of UL subscriber data message can be restricted to often for this<apn> Its 100 message.

<Add_Exception_Reports>can be integer type parameter, even if instruction is having reached APN rate Whether can permit UE after the limitation of control and sends UL exception reporting.In various embodiments, < Add_Exception_ Reports > can have: value 0 cannot allow the additional exception reporting under the maximum rate reached with instruction；Or value 1, To indicate the additional exception reporting allowed under the maximum rate reached.

<Max_Uplink_Message_Size>can be integer type parameter, indicate the UL indicated with eight bit byte The largest amount of message.

In some embodiments ,+CGRATECIOT AT order may include following parameter, these parameters may include APN Rate control information or PLMN rate control information, as shown in Table 3 below.Following table 3 can be to such as 3GPP TS 27.007 supplement.

Table 3:+CGRATECIOT parameter command grammer

The order can permit TE and obtain APN rate control (see, for example, 3GPP TS24.008) and service PLMN rate Control parameter (see, for example, 3GPP TS 24.301).Test command can return to the value of MT support.If omitting parameter < cid >, then it can return to the relevant information for all movable non-auxiliary PDP Contexts.

The value defined for table 3

<cid>can be integer type parameter, indicate the definition of specific PDP Context (see, for example,+CGDCONT and+ CGDSCONT order).

Following parameter can be defined in such as 3GPP TS 24.008:

<Additional_exception_reports>can be integer type parameter, indicate whether can permit Additional_exception_reports.This can quote the position 4 of the eight bit byte 1 of APN rate control parameter IE, such as may be used As being indicated in such as 3GPP TS 24.008, sub-clause 10.5.6.3.2.In various embodiments, < Additional_exception_reports > can have: value 0 cannot be allowed under the maximum rate reached with instruction Additional_exception_reports；Or value 1, it can permit under the maximum rate reached with instruction Additional_exception_reports。

<Uplink_time_unit>can be integer type parameter, indicate time quantum to be used.This can be with The position 1 to 3 for quoting the eight bit byte 1 of APN rate control parameter IE, such as can be in such as 3GPP TS 24.008, sub-clause 10.5.6.3.2 as being indicated in.In various embodiments,<Uplink_time_unit>can have: value 0, to indicate nothing Limitation；Value 1, to indicate minute；Value 2, to indicate hour；Value 3, to indicate day；Or value 4, to indicate week.

<Maximum_uplink_rate>can be integer type parameter, indicate that UE can be limited every time quantum The maximum quantity of the message of transmission.This can quote the eight bit byte 2 to 4 of APN rate control parameter IE, such as can be for example As being indicated in 3GPP TS 24.008, sub-clause 10.5.6.3.2.

For example, if<Max_Uplink_rate>is 100 and<timing_unit>is 3 (that is, days), for by< Apn>instruction APN, it may be an indicator that the maximum quantity of UL subscriber data message can be restricted to often for this<apn> Its 100 message.

<Max_Uplink_Message_Size>can be integer type parameter, and instruction indicates upper with eight bit byte The largest amount of downlink message.

Following parameter can be defined in such as 3GPP TS 24.301:

<Serving_PLMN_rate_control_value>can be integer type parameter, indicate that UE can be permitted Perhaps the maximum quantity of the UL message sent in interval at 6 minutes.This can quote the eight bit byte 3 of service PLMN rate control IE To 4, as such as being indicated in such as 3GPP TS24.301, sub-clause 9.9.4.28.Servicing PLMN rate control information can be with Indicate the maximum quantity for allowing UL PDU to transmit of every 6 minute time interval added up in all PDN connections.

Fig. 2 shows UE 200 in accordance with some embodiments.In some embodiments, UE 200 can be IoT UE, It can be the network access layer to design using the low-power IoT of short-term UE connection application.IoT UE can use such as machine Device to machine (M2M) or machine type communication (MTC) technology, with for (machine is initiated) via PLMN, ProSe or equipment To equipment (D2D) communication, sensor network or IoT network and MTC server and/or devices exchange data.In addition to by IoT UE Except the background application (for example, keeping efficient message, state update etc.) of execution, IoT network can also describe interconnection and (interconnect In net infrastructure) there is the unique identifiable embedding assembly equipment connected in short term.UE 200 can also be intelligent hand Machine (for example, the hand-held touch screen mobile computing device that may be connected to one or more cellular networks) is but it is also possible to be any shifting Dynamic or stationary computing devices, for example, it is personal digital assistant (PDA), pager, laptop computer, desktop computer, wireless Handheld device, tablet computer or any calculating equipment including wireless communication interface.

UE 200 can be configured as access RAN, such as E-UTRAN 110.It may include physics that UE 200, which can use, The connection of communication interface or layer.The air interface that the connection can be for realizing communicative couplings, and it is logical to meet honeycomb Believe PTT in agreement, such as global system for mobile communications (GSM) agreement, CDMA (CDMA) network protocol, PTT agreement, honeycomb (POC) agreement, UMTS agreement, 3GPP long term evolution (LTE) agreement, the 5th generation (5G) agreement, (NR) agreement etc. of newly eating dishes without rice or wine.

UE 200 can also via ProSe interface (not shown) directly with another UE exchange communication data.Alternatively, ProSe interface can be referred to as sidelinks interface, may include one or more logic channels, including but not limited to physical side Link control channel (PSCCH), physical side link shared channels (PSSCH), physical side link discovery channel (PSDCH) and physics Sidelinks broadcast channel (PSBCH).

UE 200 can be configured as: via may include local wireless be connected in connection (not shown) (for example, symbol Close the connection of any 802.11 agreement of IEEE) access access point (" AP ") (not shown), wherein AP can be Wireless Fidelity (WiFi) router.AP can be connected to internet in the case where being not connected to 120 EPC.

UE 200 may include TE circuit 202, and the TE operation of UE 200 may be implemented.TE circuit 202 can be with UE 200 user and application interface, and can also be with 204 interface of MT circuit for the UE 200 that MT operation may be implemented.MT circuit 204 acceptable and network interfaces.In some embodiments, TE circuit 202 can be coupled directly with MT circuit 204.In some realities It applies in example, intermediate terminals adapter (" TA ") circuit 206 can be placed between TE circuit 202 and MT circuit 204, for converting The message exchanged between TE circuit 202 and MT circuit 204.In some embodiments, TA circuit 206 can be merged into TE circuit It in 202, is merged into MT circuit 204, or is merged into individual equipment.

As it is used herein, may refer to realize the circuit of TE operation to the reference of " TE ", and the reference to " MT " It may refer to realize the circuit of MT operation.TE can provide following functions, including but not limited to for example with keyboard, screen, storage Device or other hardware or the related operation of software service.MT and can provide following functions with network interface, including But it is not limited to such as wireless radio transmission and switching, voice coding and decoding, EDC error detection and correction.TA can provide following functions, The communication of use such as AT order between including but not limited to such as TE and MT.In some embodiments, TA can be at it The bus of upper transmitting AT order.

As it is used herein, term " circuit " may refer to following hardware component, for part of it or including them: example Such as, it can be configured as and specific integrated circuit (ASIC), electronic circuit, the logic circuit, processor of described function be provided (shared, dedicated or group) and/or memory (shared, dedicated or group).In some embodiments, circuit can be with One or more softwares or firmware program are executed, to provide at least some described functions.Example embodiment can calculate The general described in the text, such as program code, software or firmware module and/or function process up and down of machine executable instruction, they It is executed by one or more foregoing circuits.Program code, software module and/or function process may include execute particular task or Realize routine, programs, objects, component, the data structure etc. of specific data type.The program code that is discussed herein, software module And/or the existing hardware in existing communication network can be used to realize in function process.It is, for example, possible to use existing network elements Or the existing hardware at control node realizes the program code being discussed herein, software module and/or function process.

In some embodiments, MT circuit 204 can be such as modem module.In some embodiments, TE electricity Road 202 and MT circuit 204 can be communicated by AT order, AT order make it possible between modem module or with Modem module transmits information.In some embodiments, AT order can be used to send out in TE circuit 202 and MT circuit 204 Transmission rate control information simultaneously identifies the rate control information received.TE circuit 202 can send MT for rate control information Circuit 204.MT circuit 204 can send rate control information to TE circuit 202 or network.TE circuit 202 can identify from The received rate control information of MT circuit 204.MT circuit 204 can be identified from TE circuit 202 or from the received rate control of network Information processed.

It is transmitted as described above, rate control information can limit UE (for example, UE 200) to the UL PDU of network.UL PDU Transmission or the transmission of UL data and DL PDU transmission or the transmission of DL data may include such as IP data, non-IP data (for example, machine Device categorical data or SMS data or message).Rate control information can be related with rate control mechanism.In some embodiments In, rate control mechanism can be APN rate control mechanism, and rate control information may include APN rate control information. In some embodiments, rate control mechanism can be service PLMN rate control mechanism, and rate control information can wrap Include service PLMN rate control information.

In some embodiments, APN rate control information may include TE circuit 202 or (in general) UE 200 is The no instruction for supporting APN rate control.For example, if TE circuit 202 or (in general) UE 200 do not support APN rate control System, then UE 200 may by may for example reduce, limit or prevent other UE using bandwidth carry out they UL PDU transmission Amount is transmitted to send UL PDU.Network can have other modes to handle the UL PDU for the UE for not supporting APN rate control transmission. In some embodiments, APN rate control information may include the UL PDU for allowing UE 200 to be sent to APN in time quantum The quantity of transmission, such as maximum quantity.Time quantum can be for example without limitation, minute, hour, day, week or any other when Between section.For example, if for APN, time quantum be it is unconfined, then UE 200 can send unlimited number of UL PDU and pass It is defeated, and can receive unlimited number of DL PDU.In addition, for example, if for APN, the quantity of UL PDU transmission is 100 simultaneously And time quantum is day, then for the APN, the quantity transmitted from the UL PDU of UE 200 can be restricted to daily 100 and disappear Breath.

In some embodiments, if APN rate control information may include the quantity that UE 200 reaches UL PDU transmission Whether (for example, maximum quantity), UE 200 can send the instruction of UL exception reporting.In some embodiments, APN rate control Information may include the size of UL message, such as largest amount.The size of UL message can be indicated with such as eight bit byte.

In some embodiments, rate control information can be service PLMN rate control information.In some embodiments, Service PLMN rate control information may include the quantity that UE 200 is allowed to the UL PDU transmission of the every time interval sent, In, the quantity of UL PDU transmission is added up in one or more or all PDN connections.Time interval can be deci- Hour or any other period.For example, if service PLMN rate be 10 and time interval be deci-hour, from UE The quantity of 200 UL PDU transmission can be restricted to every six minutes 10 message on one or more or all APN.

Fig. 3 shows example operational flow/algorithm structure of TE in accordance with some embodiments.Operating process/algorithm structure 300 may include: to send AT order, which includes rate control information related with rate control mechanism at 304. In some embodiments, rate control mechanism can be APN rate control mechanism.In some embodiments, it is wrapped in AT order The rate control information included may include APN rate control information, may include such as TE (for example, TE circuit 202) or UE Whether (for example, UE 200) supports the instruction of APN rate control.Thus, for example, AT order can be such as+CGDCONT AT Order comprising<APN_Rate_Control_Support_Ind>parameter, to indicate whether TE or UE supports APN rate control System.Described above is<APN_Rate_Control_Support_Ind>parameters.

Operating process/algorithm structure 300 can also include: to identify the AT order received at 308 comprising receive The rate control information related with rate control mechanism arrived.Included by the AT order in some embodiments, received The rate control information received may include APN rate control information, may include that such as UE is permitted in time quantum Permitted the quantity for the UL PDU transmission for being sent to APN, such as maximum quantity.Therefore, in some embodiments, the AT order received It can be such as+CGCONTRDP AT order comprising<Max_Uplink_rate>parameter and<timing_unit>parameter, with Indicate the quantity of the UL PDU allowed in time quantum transmission.Described above is<Max_Uplink_rate>parameter and< Timing_unit > parameter.In other embodiments, the AT order received can be such as+CGRATECIOT AT order, Including<Maximum_Uplink_rate>parameter and<Uplink_time_unit>parameter, to indicate the UL in time quantum The quantity of PDU transmission.Described above is<Maximum_Uplink_rate>parameters and<Uplink_time_unit>parameter.

In some embodiments, the included rate control information received may include example in the AT order received If whether UE can send the instruction of UL exception reporting as UE reaches the quantity (for example, maximum quantity) of UL PDU transmission.? In some embodiments, the AT order received can be such as+CGCONTRDP AT order comprising < Add_Exception_ Reports > parameter, if whether UE can send UL exception reporting to indicate that UE reaches the quantity of UL PDU transmission.It retouches above <Add_Exception_Reports>parameter is stated.In other embodiments, the AT order received can be for example+ CGRATECIOT AT order comprising<Additional_exception_reports>parameter, if to indicate that UE reaches UL Whether the quantity of PDU transmission, UE can send UL exception reporting.Described above is < Additional_exception_ Reports > parameter.

In some embodiments, the included rate control information received may include example in the AT order received The instruction of the size (for example, largest amount) of the UL message such as indicated with such as eight bit byte.In some embodiments, it receives AT order can be such as+CGCONTRDP AT order, may include<Max_Uplink_Message_Size>parameter, To indicate the size of UL message.Described above is<Max_Uplink_Message_Size>parameters.In other embodiments, it connects The AT order received can be such as+CGRATECIOT AT order comprising<Max_Uplink_Message_Size>parameter, To indicate the size (for example, largest amount) of the UL message for example indicated with eight bit byte.Described above is < Max_Uplink_ Message_Size > parameter.

Although it includes rate control information related with rate control mechanism that the embodiments herein, which may describes transmission, AT order and identify that is received includes the AT order of rate control information related with the rate control mechanism, but herein The embodiment of description has been not required for the AT order for rate control mechanism that identification receives and has sent for the rate control The AT order of making mechanism.In addition, although the embodiments herein may describes the finger for sending TE or UE supporting rate controlling mechanism Show and identify rate control information related with the rate control mechanism, but embodiment described herein be not required for knowing What is do not received includes the AT order of rate control information related with rate control mechanism and sends TE or UE and support the rate The instruction of controlling mechanism.

Operating process/algorithm structure 300 can also include: to identify another AT order received at 312 comprising Another rate control information related with another rate control mechanism received.Another rate control mechanism can with receive AT order rate control mechanism it is similar and different.Similarly, included in another AT order received to receive Another rate control information can be similar and different with the rate control information received included in the AT order that receives. In some embodiments, another rate control mechanism can be service PLMN rate control mechanism.In some embodiments, another The included another rate control information received can be service PLMN rate control information in the AT order received, It may include the quantity for the UL PDU transmission that such as UE (for example, UE 200) is allowed to the every time interval sent (for example, maximum Quantity), wherein the quantity of UL PDU transmission is added up in one or more or all PDN connections.Therefore, some In embodiment, another AT order received can be such as+CGCONTRDP AT order comprising < Serving_PLMN_ Rate_Control > parameter, to indicate the UL PDU of the every time interval added up in one or more or all PDN connections The quantity of transmission.Described above is<Serving_PLMN_Rate_Control>parameters.In other embodiments, another reception To AT order can be such as+CGRATECIOT AT order, may include < Serving_PLMN_Rate_Control_ Value > parameter, to indicate the quantity for allowing UL PDU to transmit added up in one or more or all PDN connections.Above Describe<Serving_PLMN_Rate_Control_value>parameter.

Operating process/algorithm structure 300 can also include: to make UE (for example, UE 200) human's operating control at 316 Information goes to the UL PDU transmission of network to limit, which, which can be, is for example wrapped in the AT order received The rate control information received included or the included another rate control received in another AT order received Information.

Fig. 4 shows example operational flow/algorithm structure of MT in accordance with some embodiments.Operating process/algorithm structure 400 may include: to identify the AT order received at 404 comprising rate control letter related with rate control mechanism Breath.Operating process/algorithm structure 400 can also include: the sending rate control information at 408.Operating process/algorithm structure 400 can also include: to make UE (for example, UE 200) human's operating control information at 412 to limit the UL PDU for going to network Transmission.

In some embodiments, identification includes the AT life of rate control information related with rate control mechanism received Order may include: identification from TE include rate control information related with rate control mechanism the AT order received, And sending rate control information may include: to send network for rate control information.In some embodiments, rate control Mechanism can be APN rate control mechanism, and APN rate control information may include whether such as TE or UE support APN rate control The instruction of system, and the AT order received can be such as+CGDCONT AT order comprising < APN_Rate_Control_ Support_Ind > parameter, to indicate whether TE or UE supports APN rate control.

Some embodiments may include: the rate control information received that identification carrys out automatic network, and sends and wrap to TE Include the AT order of rate control information.In some embodiments, for example, rate control mechanism can be APN rate control mechanism, And APN rate control information may include that UE is allowed to be sent to the quantity of the UL PDU transmission of APN in time quantum.Cause This, in some embodiments, AT order can be such as+CGCONTRDP AT order comprising<Max_Uplink_rate>ginseng Several and<timing_unit>parameter is allowed to the quantity of the UL PDU sent transmission to indicate UE in time quantum.At other In embodiment, AT order can be such as+CGRATECIOT AT order comprising<Maximum_Uplink_rate>parameter and <Uplink_time_unit>parameter, to indicate the quantity of the transmission of the UL PDU in time quantum.

Various embodiments may describe TE circuit 202 and send MT circuit 204 for AT order, or may describe by AT order is sent to MT.Even if not being expressly recited, the reality that TE circuit 202 sends AT order in MT circuit 204 can be described Applying example also may include: the identification of MT circuit 204 from the received AT order of TE circuit 202, and describe to send MT for AT order Embodiment may include: identification from the received AT order of TE.Similarly, various embodiments may describe MT circuit 204 and incite somebody to action AT order is sent to TE circuit 202, or may describes and send TE for AT order.Even if not being expressly recited, can retouch It also may include: that TE circuit 202 is identified from MT circuit 204 that MT circuit 204, which is stated, by the embodiment that AT order is sent to TE circuit 202 Received AT order, and describe to may include: to identify the embodiment that AT order is sent to TE from the received AT order of MT.

Fig. 5 shows another example operational flow/algorithm structure of TE in accordance with some embodiments.Operating process/algorithm Structure 500 may include: to send AT order at 504.Operating process/algorithm structure 500 can also include: to know at 508 The not received one or more APN parameter in response to AT order, wherein one or more APN parameters include rate control letter Breath.Operating process/algorithm structure 500 can also include: so that UE human's operating control information is gone to network to limit at 512 UL PDU transmission.In some embodiments, one or more APN parameters may include<Maximum_Uplink_rate>ginseng Number provides the UL PDU that UE is sent in time quantum by the limitation maximum quantity transmitted.Described above is < Maximum_ Uplink_rate > parameter.In some embodiments, one or more APN parameters may include provide time quantum < Uplink_time_unit > parameter.Described above is<Uplink_time_unit>parameters.In some embodiments, the time is single Member may include no limitation, minute, hour, day or week.In some embodiments, one or more APN parameters may include using If reaching the maximum quantity of UL PDU transmission in time quantum in instruction UE, whether UE can send the ginseng of UL exception reporting Number.Described above is<Additional_exception_reports>parameters.

Fig. 6 shows another example operational flow/algorithm structure of TE in accordance with some embodiments.Operating process/algorithm Structure 600 may include: to send AT order at 604.Operating process/algorithm structure 600 can also include: to know at 608 The not received service PLMN parameter in response to AT order, wherein service PLMN parameter includes rate control information comprising is used Family equipment (UE) was allowed to the maximum quantity of the uplink message sent at six minutes in interval.Operating process/algorithm structure 600 can also include: to make UE human's operating control information at 612 to limit the UL PDU transmission for going to network.In some realities It applies in example, service PLMN parameter may include<Serving_PLMN_Rate_Control_value>parameter.Described above is < Serving_PLMN_Rate_Control_value > parameter.

In some embodiments, UE may include that can send one or more parameters including rate control information MT, and can identify the TE of the one or more parameters received, wherein TE can be such that UE human's operating control information limits System goes to the UL PDU transmission of network.In some embodiments, one or more parameters may include one or more APN ginsengs Number, for example, APN parameter described herein.In some embodiments, one or more parameters may include service PLMN parameter, For example, service PLMN parameter described herein.

Fig. 7 shows electronic equipment 700 in accordance with some embodiments.In embodiment, electronic equipment 700 can be UE's TE circuit or MT circuit (for example, above Fig. 2 described in), realize them, are incorporated to they or they a part. Embodiment described herein any appropriately configured hardware and/or software realization can be used in systems.

In some embodiments, electronic equipment 700 may include application circuit 702, baseband circuit 704, radio frequency (RF) electricity Road 706, front-end module (FEM) circuit 708 and one or more antennas 710, are at least coupled as shown in the figure.It is set in electronics Standby 700 realize in eNB 710 or the embodiment realized by eNB 710 in, electronic equipment 700 can also include for by have The network interface circuit (not shown) that line interface (for example, X2 interface, S1 interface etc.) is communicated.

Application circuit 702 may include one or more application processor.For example, application circuit 702 may include TE, example Such as, but not limited to, TE 202 or TA, such as, but not limited to TA 206.In addition, for example, application circuit 702 may include for example but It is not limited to the circuit of one or more single or multiple core processor 702a.Processor 702a may include general processor and dedicated Any combination of processor (for example, graphics processor, application processor etc.).Processor 702a can be coupled in and/or can be with Including computer-readable medium 702b (also referred to as " CRM 702b ", " memory 702b ", " storage 702b " or " memory/storage 702b "), and can be configured as: the instruction stored in CRM 702b is executed, so that various applications and/or operation system System can operate in system.

Baseband circuit 704 may include TE, such as, but not limited to TE 202 or MT, such as, but not limited to MT 204, or TA, such as, but not limited to TA 206.In addition, for example, baseband circuit 704 may include such as, but not limited to one or more monokaryons Or the circuit of multi-core processor.Baseband circuit 704 may include one or more baseband processor and/or control logic, with place It manages the baseband signal received from the reception signal path of RF circuit 706 and generates the transmission signal road for being used for RF circuit 706 The baseband signal of diameter.Baseband circuit 704 can with 702 interface of application circuit, for generating and handling baseband signal and control The operation of RF circuit 706 processed.For example, in some embodiments, baseband circuit 704 may include the second generation (2G) baseband processor 704a, the third generation (3G) baseband processor 704b, forth generation (4G) baseband processor 704c and/or for other existing generations, open It is in hair or will future exploitation generation (for example, the 5th generation (5G), 6G etc.) other baseband processor 704d.Baseband circuit 704 (for example, one or more of baseband processor 704a-d) can handle so that via RF circuit 706 and one or more The various radio control functions that the communication of radio net is possibly realized.Radio control functions can include but is not limited to letter Number modulating/demodulating, coding/decoding, radio frequency displacement etc..In some embodiments, the modulation/demodulation circuit of baseband circuit 704 It may include Fast Fourier Transform (FFT), precoding and/or constellation mapping/demapping function.In some embodiments, base Coding/decoding circuit with circuit 704 may include convolution, tail biting convolution, turbo, Viterbi and/or low-density checksum (LDPC) coder/decoder functionalities.The embodiment of modulating/demodulating and coder/decoder functionalities is not limited to these examples, and It and in other embodiments may include other suitable functions.

In some embodiments, baseband circuit 704 may include the element of protocol stack, such as the element of E-UTRAN agreement, Including such as physics (PHY), M AC (MAC), wireless spread-spectrum technology (RLC), PDCP and/or wireless heterogeneous networks (RRC) element.Central processing unit (CPU) 704e of baseband circuit 704 can be configured as: the element of protocol stack is run, with Signaling for PHY, MAC, RLC, PDCP and/or rrc layer.In some embodiments, baseband circuit 704 may include one or Multiple audio digital signal processor (DSP) 704f.Audio DSP 704f may include for compression/de-compression and echo cancellor Element, and in other embodiments may include other suitable processing elements.Baseband circuit 704 can also include calculating Machine readable medium 704g (also referred to as " CRM 704g ", " memory 704g ", " storage 704g " or " CRM 704g ").CRM 704g It can be used for loading and storing the data and/or instruction of the operation for the processor execution by baseband circuit 704.For one Embodiment, CRM 704g may include any combination of suitable volatile memory and/or nonvolatile memory.CRM 704g may include memory/storage any combination of various levels, including but not limited to there is embedded software to instruct (example Such as, firmware) read-only memory (ROM), random access memory (for example, dynamic random access memory (DRAM)), caching, Buffer area etc..CRM 704g can share between various processors, or be exclusively used in par-ticular processor.In some embodiments In, the component of baseband circuit 704 can be combined suitably in one single chip, one single chip group, or be arranged in same circuit On plate.In some embodiments, baseband circuit 704 and application circuit 702 for example can be realized together on system on chip (SOC) Some or all of composition components.

In some embodiments, baseband circuit 704 can provide the communication compatible with one or more radio technologies.Example Such as, in some embodiments, baseband circuit 704 can be supported and E-UTRAN and/or other wireless MANs (WMAN), wireless The communication of local area network (WLAN), wireless personal area network (WPAN).Baseband circuit 704 is configured as supporting more than one wireless protocols The embodiment of radio communication is properly termed as multimode baseband circuit.

RF circuit 706 can enable to use the electromagnetic radiation progress and wireless network modulated by non-solid medium Communication.In various embodiments, RF circuit 706 may include switch, filter, amplifier etc., to promote and wireless network Communication.RF circuit 706 may include receiving signal path, may include believing for down coversion from the received RF of FEM circuit 708 Number and baseband signal is supplied to the circuit of baseband circuit 704.RF circuit 706 can further include sending signal path, can be with Including the baseband signal provided for up-conversion baseband circuit 704 and RF output signal is supplied to FEM circuit 708 to be used for The circuit of transmission.

In some embodiments, RF circuit 706 may include receiving signal path and transmission signal path.RF circuit 706 Reception signal path may include mixer 706a, amplifier circuit 706b and filter circuit 706c.RF circuit 706 Transmission signal path may include filter circuit 706c and mixer 706a.RF circuit 706 can also include synthesis Device circuit 706d, for synthesizing the frequency used by the mixer 706a of reception signal path and transmission signal path.? In some embodiments, the mixer 706a for receiving signal path be can be configured as: be provided based on synthesizer circuit 706d Frequency synthesis to from the received RF signal of FEM circuit 708 carry out down coversion.Amplifier circuit 706b can be configured as: put Signal after big down coversion, and filter circuit 706c can be low-pass filter (LPF) or bandpass filter (BPF), quilt It is configured that from the signal after down coversion and removes undesired signal, to generate output baseband signal.It can be by output base band letter Number baseband circuit 704 is supplied to for further processing.In some embodiments, output baseband signal can be zero frequency base Band signal, but this is not required that.In some embodiments, it may include passive for receiving the mixer 706a of signal path Frequency mixer, but the range of embodiment is without being limited thereto.

In some embodiments, the mixer 706a for sending signal path can be configured as: based on synthesizer electricity The frequency synthesis up-conversion that road 706d is provided inputs baseband signal, to generate the RF output signal for being used for FEM circuit 708.Base band Signal can be provided by baseband circuit 704, and can be filtered by filter circuit 706c.Filter circuit 706c may include Low-pass filter (LPF), but the range of embodiment is without being limited thereto.

In some embodiments, it receives the mixer 706a of signal path and sends the mixer of signal path 706a may include two or more frequency mixers, and can be arranged to quadrature frequency conversion and/or up-conversion respectively.? In some embodiments, the mixer 706a for receiving signal path and the mixer 706a for sending signal path be can wrap Two or more frequency mixers are included, and mirror image can be arranged to and inhibit (for example, Hartley mirror image inhibits).Some In embodiment, receive signal path mixer 706a and send signal path mixer 706a can respectively by Arrangement is used for Direct-conversion and/or Direct conversion.In some embodiments, the mixer 706a of signal path is received Superheterodyne operation can be configured for the mixer 706a for sending signal path.

In some embodiments, output baseband signal and input baseband signal can be analog baseband signal, but implement The range of example is without being limited thereto.In some alternative embodiments, output baseband signal and input baseband signal can be digital baseband Signal.In these alternative embodiments, RF circuit 706 may include analog-digital converter (ADC) and digital analog converter (DAC) electricity Road, and baseband circuit 704 may include digital baseband interface, to be communicated with RF circuit 706.

In some bimodulus embodiments, individual radio IC circuit can be provided, for about each frequency spectrum processing Signal, but the range of embodiment is without being limited thereto.

In some embodiments, synthesizer circuit 706d can be decimal N synthesizer or decimal N/N+1 synthesizer, still The range of embodiment is without being limited thereto, because other kinds of frequency synthesizer can be suitably.For example, synthesizer circuit 706d It can be delta-sigma synthesizer, frequency multiplier or the synthesizer including having the phaselocked loop of frequency divider.Synthesizer circuit 706d can To be configured as: the mixer 706a based on frequency input and divider control input synthesis RF circuit 706 uses defeated Frequency out.In some embodiments, synthesizer circuit 706d can be decimal N/N+1 synthesizer.

In some embodiments, frequency input can be provided by voltage controlled oscillator (VCO), but this is not required that.Depend on In desired output frequency, divider control input can be provided by baseband circuit 704 or application processor 702.In some realities It applies in example, the channel that can be indicated based on application processor 702 determines divider control input (for example, N) from look-up table.

The synthesizer circuit 706d of RF circuit 706 may include divider, delay phase-locked loop (DLL), multiplexer and phase Accumulator.In some embodiments, divider can be bimodulus divider (DMD), and phase accumulator can be digital phase Bit accumulator (DPA).In some embodiments, DMD can be configured as: (for example, be based on carry) by input signal divided by N or N+1, to provide division of decimal ratio.In some example embodiments, DLL may include one group of cascade tunable delay member Part, phase detectors, charge pump and D flip-flop.In these embodiments, delay element can be configured as the VCO period It is decomposed into Nd equal phase groupings, wherein Nd is the quantity of the delay element in delay line.By this method, DLL provides negative Feedback, to assist ensuring to be a VCO period by the total delay of delay line.

In some embodiments, synthesizer circuit 706d can be configured as: carrier frequency is generated as output frequency, and In other embodiments, output frequency can be carrier frequency multiple (for example, twice of carrier frequency, carrier frequency four Times), and be used in combination with quadrature generator and divider circuit, to generate relative to each other in carrier frequency with multiple Multiple signals of out of phase.In some embodiments, output frequency can be LO frequency (fLO).In some embodiments, RF Circuit 706 may include IQ/ polar converter.

FEM circuit 708 may include receiving signal path, may include being configured as to from one or more antennas The 710 RF signals received are operated, and are amplified the signal received and are supplied to the amplified version of the signal received RF circuit 706 is with circuit for further processing.FEM circuit 708 can further include send signal path, may include by The signal for transmission of the amplification offer of RF circuit 706 is configured to for by one or more in one or more antennas 710 A circuit sent.In some embodiments, FEM circuit 708 may include TX/RX switch, with sending mode with It is switched between reception pattern operation.FEM circuit 708 may include receiving signal path and transmission signal path.FEM circuit Reception signal path may include low-noise amplifier (LNA), to amplify the RF signal that receives, and (for example, to RF electricity Road 706) the RF signal of amplification received is provided as output.The transmission signal path of FEM circuit 708 may include: power Amplifier (PA), for amplifying (for example, what RF circuit 706 provided) input rf signal；And one or more filters, it is used for RF signal is generated, then to send for (for example, being carried out by the one or more in one or more antennas 710).

In some embodiments, electronic equipment 700 may include add ons, such as display, camera, one or more Sensor and/or interface circuit (for example, input/output (I/O) interface or bus) (not shown).

In some embodiments, MT circuit 204 can provide network connectivity, and including 704,706,708 and 750； And TE circuit 202 can provide higher function, and including application circuit 702.

Herein to the description of shown implementation, including content described in abstract, it is not intended that it is exhaustive, or The disclosure is limited to disclosed precise forms by person.Although specific implementation is described herein for illustrative purpose And example, but without departing from the scope of the disclosure, it can be considered realizing phase according to being discussed in detail above to obtain With the various substitutions or equivalent integers or implementation of purpose, as the skilled person will recognize.

Some non-limiting examples presented below.

Example

Example 1 may include a kind of user equipment (UE), comprising: terminal device (TE) circuit；With mobile terminal (MT) electricity Road is coupled with the TE circuit, and the TE circuit is used for: being ordered via the first ATention (AT) by the first access point name (APN) rate control information is sent to the MT circuit, and the MT circuit is used for: sending the 2nd APN rate control information to The TE circuit, the first and second rate control informations limitation UE go to uplink (UL) Packet Data Unit of network (PDU) it transmits.

Example 2 may include example 1 or some other exemplary UE of this paper, wherein the first APN rate control information The instruction of APN rate control whether is supported including the TE circuit.

Example 3 may include example 1 or 2 or some other exemplary UE of this paper, wherein the 2nd APN rate control Information includes that the UE is allowed to be sent to the quantity of the UL PDU transmission of APN in time quantum.

Example 4 may include a kind of UE, comprising: terminal device (TE) circuit；Mobile terminal (MT) circuit, with the TE electricity Road coupling, the MT circuit are used for: being ordered via ATtention (AT) by non-serving Public Land mobile network (PLMN) rate control Information processed is sent to the TE circuit, and the service PLMN rate control information limitation UE goes to the uplink (UL) point of network Group data cell (PDU) transmission.

Example 5 may include example 4 or some other exemplary UE of this paper, wherein the service PLMN rate control letter Breath includes the quantity that the UE is allowed to the UL PDU transmission of the every time interval sent, and wherein, the UL PDU transmission Quantity be in one or more packets data network (PDN) connection add up to.

Example 6 may include one or more non-transient computer-readable mediums, including computer-readable instruction, described Instruction makes the TE when being executed by terminal device (TE): sending ATtention (AT) order, the AT order includes and speed The related rate control information of rate controlling mechanism；What identification received includes the rate received related with rate control mechanism Control the AT order of information；And user equipment (UE) is made to be based on the rate control information, the uplink of network is gone in limitation Road (UL) Packet Data Unit (PDU) transmission.

Example 7 may include example 6 or some other exemplary one or more computer-readable Jie of non-transient of this paper Matter, wherein the rate control mechanism is access point name (APN) rate control mechanism.

Example 8 may include example 6 or 7 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein the rate control information includes APN rate control information, and the APN rate control information includes that the TE is The no instruction for supporting APN rate control.

Example 9 may include example 6-8 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein the AT order is+CGDCONT AT order, which includes < APN_Rate_Control_Support_Ind > parameter, is used to indicate whether the TE supports APN rate control.

Example 10 may include example 6-9 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein the rate control information received includes APN rate control information, and the APN rate control information includes described UE is allowed to be sent to the quantity of the UL PDU transmission of APN in time quantum.

Example 11 may include example 6-8,10 or some other exemplary one or more non-transient computers of this paper Readable medium, wherein the AT order received is+CGCONTRDP AT order, which joins including<Max_Uplink_rate> Several and<timing_unit>parameter is used to indicate the quantity of the UL PDU transmission in the time quantum.

Example 12 may include example 6-8,10 or some other exemplary one or more non-transient computers of this paper Readable medium, wherein the AT order received is+CGRATECIOT AT order, which includes < Maximum_Uplink_ Rate>parameter and<Uplink_time_unit>parameter are used to indicate the quantity of the UL PDU transmission in the time quantum.

Example 13 may include example 6-12 or some other exemplary one or more non-transient computers can herein Read medium, wherein the rate control information received includes APN rate control information comprising if the UE reaches UL Whether the quantity of PDU transmission, the UE can send the instruction of UL exception reporting.

Example 14 may include example 6-8,10,11,13 or some other exemplary one or more non-transients of this paper Computer-readable medium, wherein the AT order received is+CGCONTRDP AT order, which includes < Add_ Exception_Reports > parameter, if being used to indicate the quantity that the UE reaches UL PDU transmission, whether the UE can be with Send UL exception reporting.

Example 15 may include example 6-8,10,12,13 or some other exemplary one or more non-transients of this paper Computer-readable medium, wherein the AT order received is+CGRATECIOT AT order, which includes < Additional_ Exception_reports > parameter, if being used to indicate the quantity that the UE reaches UL PDU transmission, whether the UE can be with Send UL exception reporting.

Example 16 may include example 6-15 or some other exemplary one or more non-transient computers can herein Read medium, wherein the rate control information received includes APN rate control information comprising the instruction of the size of UL message.

Example 17 may include example 6-8,10,11,13,14,16 or this paper some other exemplary one or more non- Instantaneity computer-readable medium, wherein the AT order received is+CGCONTRDP AT order, which includes < Max_ Uplink_Message_Size > parameter is used to indicate the size of the UL message indicated with eight bit byte.

Example 18 may include example 6-17 or some other exemplary one or more non-transient computers can herein Read medium, wherein computer-readable instruction further includes following computer-readable instruction, and described instruction makes when being executed by the TE The TE: another AT order received of identification comprising another rate received related with another rate control mechanism Control information.

Example 19 may include example 18 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein another rate control mechanism is non-serving Public Land mobile network (" PLMN ") rate control mechanism, and its In, another rate control information received includes service PLMN rate control information comprising the UE is allowed to transmission The quantity of the UL PDU transmission of every time interval, and wherein, the quantity of UL PDU transmission is in one or more packets data Add up in network (PDN) connection.

Example 20 may include example 18 or 19 or some other exemplary one or more non-transient computers of this paper Readable medium, wherein another AT order received is+CGCONTRDP AT order, which includes < Serving_PLMN_ Rate_Control > parameter is used to indicate the quantity of the UL PDU transmission added up in one or more PDN connections.

Example 21 may include example 18 or 19 or some other exemplary one or more non-transient computers of this paper Readable medium, wherein another AT order received is+CGRATECIOT AT order, which includes < Serving_PLMN_ Rate_Control_value > parameter is used to indicate the number for allowing UL PDU to transmit added up in one or more PDN connections Amount.

Example 22 may include one or more non-transient computer-readable mediums, including computer-readable instruction, institute Instruction is stated when being executed by mobile terminal (MT), makes the MT: identifying ATtention (AT) order received, the AT life Order includes rate control information related with rate control mechanism；Send the rate control information；And make user equipment (UE) it is based on the rate control information, uplink (UL) Packet Data Unit (PDU) transmission of network is gone in limitation.

Example 23 may include example 22 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein make that MT identification receives includes the rate control information related with the rate control mechanism One or more computer-readable mediums of AT order include: to receive the MT identification from terminal device (TE) including speed One or more computer-readable mediums of the AT order of rate control information, and wherein, so that the MT is sent the rate control One or more computer-readable mediums of information processed include: that the MT is made to send the network for the rate control information One or more computer-readable mediums.

Example 24 may include example 22 or 23 or some other exemplary one or more non-transient computers of this paper Readable medium, wherein the rate control mechanism is access point name (APN) rate control mechanism, and wherein, the rate Controlling information includes APN rate control information, and the APN rate control information includes whether the TE supports APN rate control Instruction.

Example 25 may include example 24 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein the AT order received is+CGDCONT AT order, which includes < APN_Rate_Control_ Support_Ind > parameter, is used to indicate whether the TE supports APN rate control.

Example 26 may include the method for rate control in terminal device (TE), comprising: send ATtention (AT) life It enables, the AT order includes rate control information related with rate control mechanism；Identify receive include and rate control The AT order of the related rate control information received of mechanism；And believe user equipment (UE) based on the rate control Uplink (UL) Packet Data Unit (PDU) transmission of network is gone in breath, limitation.

Example 27 may include example 26 or some other exemplary methods herein, wherein the rate control mechanism is Access point name (APN) rate control mechanism.

Example 28 may include example 26 or 27 or some other exemplary methods of this paper, wherein the rate control letter Breath includes APN rate control information, and the APN rate control information includes the instruction whether TE supports APN rate control.

Example 29 may include example 26-28 or some other exemplary methods herein, wherein and the AT order is+ CGDCONT AT order, the order include<APN_Rate_Control_Support_Ind>parameter, and being used to indicate the TE is No support APN rate control.

Example 30 may include example 26-29 or some other exemplary methods of this paper, wherein the rate control received Information includes APN rate control information, and the APN rate control information includes that the UE is allowed to be sent in time quantum The quantity of the UL PDU transmission of APN.

Example 31 may include example 26-28,30 or some other exemplary methods of this paper, wherein the AT life received Order is+CGCONTRDP AT order, which includes<Max_Uplink_rate>parameter and<timing_unit>parameter, is used for Indicate the quantity of the UL PDU transmission in the time quantum.

Example 32 may include example 26-28,30 or some other exemplary methods of this paper, wherein the AT life received Order is+CGRATECIOT AT order, which includes<Maximum_Uplink_rate>parameter and<Uplink_time_unit > parameter is used to indicate the quantity of the UL PDU transmission in the time quantum.

Example 33 may include example 26-32 or some other exemplary methods of this paper, wherein the rate control received Information includes APN rate control information comprising if the UE reaches the quantity of UL PDU transmission, whether the UE can be sent out Send the instruction of UL exception reporting.

Example 34 may include example 26-28,30,31,33 or some other exemplary methods of this paper, wherein receive AT order be+CGCONTRDP AT order, which includes<Add_Exception_Reports>parameter, be used to indicate as UE described in fruit reaches the quantity of UL PDU transmission, and whether the UE can send UL exception reporting.

Example 35 may include example 26-28,30,32,33 or some other exemplary methods, the AT received are ordered herein Order is+CGRATECIOT AT order, which includes<Additional_exception_reports>parameter, is used to indicate If the UE reaches the quantity of UL PDU transmission, whether the UE can send UL exception reporting.

Example 36 may include example 26-35 or some other exemplary methods of this paper, wherein the rate control received Information includes APN rate control information comprising the instruction of the size of UL message.

Example 37 may include example 26-28,30,31,33,34,36 or some other exemplary methods of this paper, wherein The AT order received is+CGCONTRDP AT order, which includes<Max_Uplink_Message_Size>parameter, is used In the size for the UL message that instruction is indicated with eight bit byte.

Example 38 may include example 26-37 or some other exemplary methods of this paper, wherein computer-readable instruction is also Including following computer-readable instruction, described instruction makes the TE when being executed by the TE: another AT received of identification is ordered It enables comprising another rate control information received related with another rate control mechanism.

Example 39 may include example 38 or some other exemplary methods herein, wherein another rate control mechanism is Non-serving Public Land mobile network (" PLMN ") rate control mechanism, and wherein, another rate control information packet received Including service PLMN rate control information comprising the UE is allowed to the quantity of the UL PDU transmission of the every time interval sent, And wherein, the quantity of UL PDU transmission is added up in one or more packets data network (PDN) connection.

Example 40 may include example 38 or 39 or some other exemplary methods of this paper, wherein another AT received Order is+CGCONTRDP AT order, which includes<Serving_PLMN_Rate_Control>parameter, is used to indicate The quantity of the UL PDU transmission added up in one or more PDN connections.

Example 41 may include example 38 or 39 or some other exemplary methods of this paper, wherein another AT received Order is+CGRATECIOT AT order, which includes<Serving_PLMN_Rate_Control_value>parameter, is used for Indicate the quantity for allowing UL PDU to transmit added up in one or more PDN connections.

Example 42 may include the method for rate control in mobile terminal (MT), comprising: identify the ATtention received (AT) it orders, the AT order includes rate control information related with rate control mechanism；Send the rate control information； And user equipment (UE) is made to be based on the rate control information, uplink (UL) Packet Data Unit of network is gone in limitation (PDU) it transmits.

Example 43 may include example 42 or some other exemplary methods of this paper, wherein receive the MT identification Include the rate control information related with the rate control mechanism AT order it is one or more computer-readable Medium includes: the one kind or more for the AT order including rate control information for receiving the MT identification from terminal device (TE) Kind computer-readable medium, and wherein, so that the MT is sent the one or more computer-readable of the rate control information Medium includes: the one or more computer-readable mediums for making the MT send the rate control information on the network.

Example 44 may include example 42 or 43 or some other exemplary methods of this paper, wherein the rate control machine System is access point name (APN) rate control mechanism, and wherein, the rate control information includes APN rate control information, The APN rate control information includes the instruction whether TE supports APN rate control.

Example 45 may include example 44 or some other exemplary methods herein, wherein and the AT order received is+ CGDCONT AT order, the order include<APN_Rate_Control_Support_Ind>parameter, and being used to indicate the TE is No support APN rate control.

Example 46 may include a kind of terminal device (TE), comprising: for sending the module of ATtention (AT) order, The AT order includes rate control information related with rate control mechanism；Receive for identification include and rate control The module of the AT order of the related rate control information received of mechanism；And for making user equipment (UE) to be based on the speed The module of uplink (UL) Packet Data Unit (PDU) transmission of network is gone in rate control information, limitation.

Example 47 may include example 46 or some other exemplary TE of this paper, wherein the rate control mechanism is to connect Access point title (APN) rate control mechanism.

Example 48 may include example 46 or 47 or some other exemplary TE of this paper, wherein the rate control information Including APN rate control information, the APN rate control information includes the instruction whether TE supports APN rate control.

Example 49 may include example 46-48 or some other exemplary TE herein, wherein and the AT order is+ CGDCONT AT order, the order include<APN_Rate_Control_Support_Ind>parameter, and being used to indicate the TE is No support APN rate control.

Example 50 may include the example 46-49 or some other exemplary TE of this paper, wherein the rate control letter received Breath includes APN rate control information, and the APN rate control information includes that the UE is allowed to be sent in time quantum The quantity of the UL PDU transmission of APN.

Example 51 may include example 46-48, the 50 or some other exemplary TE of this paper, wherein the AT order received It is+CGCONTRDP AT order, which includes<Max_Uplink_rate>parameter and<timing_unit>parameter, for referring to Show the quantity of the UL PDU transmission in the time quantum.

Example 52 may include example 46-48, the 50 or some other exemplary TE of this paper, wherein the AT order received It is+CGRATECIOT AT order, which includes<Maximum_Uplink_rate>parameter and<Uplink_time_unit> Parameter is used to indicate the quantity of the UL PDU transmission in the time quantum.

Example 53 may include the example 46-52 or some other exemplary TE of this paper, wherein the rate control letter received Breath includes APN rate control information comprising if the UE reaches the quantity of UL PDU transmission, whether the UE can be sent The instruction of UL exception reporting.

Example 54 may include example 46-48,50,51,53 or some other exemplary TE of this paper, wherein receive AT order is+CGCONTRDP AT order, which includes<Add_Exception_Reports>parameter, if be used to indicate The UE reaches the quantity of UL PDU transmission, and whether the UE can send UL exception reporting.

Example 55 may include example 46-48,50,52,53 or some other exemplary TE of this paper, wherein receive AT order is+CGRATECIOT AT order, which includes<Additional_exception_reports>parameter, is used for If indicating that the UE reaches the quantity of UL PDU transmission, whether the UE can send UL exception reporting.

Example 56 may include the example 46-55 or some other exemplary TE of this paper, wherein the rate control letter received Breath includes APN rate control information comprising the instruction of the size of UL message.

Example 57 may include example 46-48,50,51,53,54,56 or some other exemplary TE of this paper, wherein connect The AT order received is+CGCONTRDP AT order, which includes<Max_Uplink_Message_Size>parameter, is used for Indicate the size of the UL message indicated with eight bit byte.

Example 58 may include the example 46-57 or some other exemplary TE of this paper, wherein the TE is also used to: identification Another AT order received comprising another rate control information received related with another rate control mechanism.

Example 59 may include example 58 or some other exemplary TE of this paper, wherein another rate control mechanism is clothes Business public land mobile network (" PLMN ") rate control mechanism, and wherein, another rate control information received includes Servicing PLMN rate control information comprising the UE is allowed to the quantity of the UL PDU transmission of the every time interval sent, and And wherein, the quantity of UL PDU transmission is added up in one or more packets data network (PDN) connection.

Example 60 may include example 58 or 59 or some other exemplary TE of this paper, wherein another AT life received Order is+CGCONTRDP AT order, which includes<Serving_PLMN_Rate_Control>parameter, is used to indicate one The quantity of the UL PDU transmission added up in a or multiple PDN connections.

Example 61 may include example 58 or 59 or some other exemplary TE of this paper, wherein another AT life received Order is+CGRATECIOT AT order, which includes<Serving_PLMN_Rate_Control_value>parameter, for referring to Show the quantity for allowing UL PDU to transmit added up in one or more PDN connections.

Example 62 may include a kind of mobile terminal (MT), comprising: ATtention (AT) order received for identification Module, the AT order includes rate control information related with rate control mechanism；For sending the rate control letter The module of breath；And user equipment (UE) is made to be based on the rate control information, the uplink (UL) point of network is gone in limitation The module of group data cell (PDU) transmission.

Example 63 may include example 62 or some other exemplary MT herein, wherein what is received for identification includes The module of the AT order of the rate control information related with the rate control mechanism includes: for identification from terminal device (TE) module of the AT order including rate control information received, and wherein, for sending the rate control information Module include: module for sending the rate control information on the network.

Example 64 may include example 62 or 63 or some other exemplary MT of this paper, wherein the rate control mechanism It is access point name (APN) rate control mechanism, and wherein, the rate control information includes APN rate control information, institute Stating APN rate control information includes the instruction whether TE supports APN rate control.

Example 65 may include example 64 or some other exemplary MT herein, wherein and the AT order received is+ CGDCONT AT order, the order include<APN_Rate_Control_Support_Ind>parameter, and being used to indicate the TE is No support APN rate control.

Example 66 may include a kind of signal comprising<APN_Rate_Control_Support_Ind>parameter is used for Whether instruction TE supports APN rate control.

Example 67 may include a kind of signal comprising<Max_Uplink_rate>parameter, be used to indicate UE can when Between be spaced in send UL subscriber data message maximum quantity.

Example 68 may include a kind of signal comprising<timing_unit>parameter is used to indicate time interval.

Example 69 may include a kind of signal comprising<Maximum_Uplink_rate>parameter is used to indicate UE and is limited Make the maximum quantity for the message that every time quantum is sent.

Example 70 may include a kind of signal comprising<Uplink_time_unit>parameter is used to indicate to be used Time quantum.

Example 71 may include a kind of signal comprising<Add_Exception_Reports>parameter, be used to indicate even if After the limitation for having reached APN rate control, if can permit UE and send UL exception reporting.

Example 72 may include a kind of signal comprising<Additional_exception_reports>parameter is used for Whether instruction can permit additional exception reporting under the maximum rate reached.

Example 73 may include a kind of signal comprising<Max_Uplink_Message_Size>parameter, be used to indicate with The largest amount for the UL message that eight bit byte indicates.

Example 74 may include a kind of signal comprising<Serving_PLMN_Rate_Control>parameter is used to indicate The maximum number of UL evolved packet system (EPS) session management (ESM) data transmission message that UE can be sent with every 6 minutes intervals Amount.

Example 75 may include a kind of signal comprising<Serving_PLMN_Rate_Control_value>parameter is used In the maximum quantity for the UL message that instruction UE can be sent in interval at 6 minutes.

Example 76 may include a kind of signal comprising<Max_Uplink_Message_Size>parameter, be used to indicate with The largest amount for the uplink message that eight bit byte indicates.

Example 77 may include one or more non-transient computer-readable mediums, have instruction, and described instruction works as quilt Make when execution terminal device (TE): sending ATtention (AT) order；Identify one received in response to the AT order Or multiple access point name (APN) parameters, wherein one or more of APN parameters include rate control information；And it uses Family equipment (UE) is based on the rate control information, and uplink (UL) Packet Data Unit (PDU) that network is gone in limitation passes It is defeated.

Example 78 may include example 77 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein one or more of APN parameters include<Maximum_Uplink_rate>parameter, which provides the UE The maximum quantity that the UL PDU sent in time quantum by limitation is transmitted.

Example 79 may include example 78 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein one or more of APN parameters include<Uplink_time_unit>parameter, which provides the time Unit.

Example 80 may include example 79 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein the time quantum includes no limitation, minute, hour, day or week.

Example 81 may include example 78-80 or some other exemplary one or more non-transient computers can herein Read medium, wherein one or more of APN parameters include<Additional_exception_reports>parameter, the ginseng If number indicates that the UE reaches the maximum quantity of UL PDU transmission in the time quantum, whether UE can send UL exception Report.

Example 82 may include one or more non-transient computer-readable mediums, have instruction, and described instruction works as quilt Make when execution terminal device (TE): sending ATtention (AT) order；Identify the service received in response to the AT order Public land mobile network (PLMN) parameter, wherein the service PLMN parameter includes rate control information, the rate control Information includes user equipment (UE) was allowed to the uplink message sent at six minutes maximum quantity in interval；And make institute It states UE and is based on the rate control information, uplink (UL) Packet Data Unit (PDU) transmission of network is gone in limitation.

Example 83 may include example 82 or some other exemplary one or more non-transients are computer-readable herein Medium, wherein the service PLMN parameter is<Serving_PLMN_Rate_Control_value>parameter.

Example 84 may include a kind of device, comprising: terminal device (TE) is used for: send ATtention (AT) order simultaneously Identify the one or more parameters received in response to the AT order, wherein one or more of parameters include rate Information is controlled, the TE is made described device and limited uplink (UL) grouping for going to network based on the rate control information Data cell (PDU) transmission；With mobile terminal (MT), be used for: in response to the AT order, sending includes that the rate control is believed One or more of parameters of breath.

Example 85 may include example 84 or some other exemplary devices of this paper, wherein one or more of parameters Including one or more access point name (APN) parameter.

Example 86 may include example 85 or some other exemplary devices of this paper, wherein one or more of APN ginsengs Number includes<Maximum_Uplink_rate>parameter, which provides the UL that described device is sent in time quantum by limitation The maximum quantity of PDU transmission.

Example 87 may include example 86 or some other exemplary devices of this paper, wherein one or more of APN ginsengs Number includes<Uplink_time_unit>parameter, which provides the time quantum.

Example 88 may include example 87 or some other exemplary devices of this paper, wherein the time quantum includes nothing Limitation, minute, hour, day or week.

Example 89 may include example 86-88 or some other exemplary devices of this paper, wherein one or more of APN parameter includes<Additional_exception_reports>parameter, if the parameter indicates described device when described Between reach the maximum quantity of UL PDU transmission in unit, whether described device can send UL exception reporting.

Example 90 may include example 84 or some other exemplary devices of this paper, wherein one or more of parameters Including non-serving Public Land mobile network (PLMN) parameter.

Example 91 may include example 90 or some other exemplary devices of this paper, wherein the rate control information packet Include described device was allowed to the uplink message sent at six minutes maximum quantity in interval.

Example 92 may include example 90 or 91 or some other exemplary devices of this paper, wherein the service PLMN ginseng Number is<Serving_PLMN_Rate_Control_value>parameter.

Example 93 may include a kind of method, comprising: send ATtention (AT) order；Identification is ordered in response to the AT One or more access point name (APN) parameter for enabling and receiving, wherein one or more of APN parameters include rate Control information；And user equipment (UE) is made to limit the uplink (UL) point for going to network based on the rate control information Group data cell (PDU) transmission.

Example 94 may include example 93 or some other exemplary methods of this paper, wherein one or more of APN ginsengs Number includes<Maximum_Uplink_rate>parameter, which provides the UE and be limited in the UL sent in time quantum The maximum quantity of PDU transmission.

Example 95 may include example 94 or some other exemplary methods of this paper, wherein one or more of APN ginsengs Number includes<Uplink_time_unit>parameter, which provides time quantum.

Example 96 may include example 95 or some other exemplary methods of this paper, wherein the time quantum includes nothing Limitation, minute, hour, day or week.

Example 97 may include example 94-96 or some other exemplary methods of this paper, wherein one or more of APN parameter includes<Additional_exception_reports>parameter, if the parameter indicates the UE in the time Reach the maximum quantity of UL PDU transmission in unit, whether the UE can send UL exception reporting.

Example 98 may include a kind of method, comprising: send ATtention (AT) order；Identification is ordered in response to the AT Non-serving Public Land mobile network (PLMN) parameter for enabling and receiving, wherein the service PLMN parameter includes rate control Information, the rate control information include being allowed to the uplink message sent most in user equipment (UE) was spaced at six minutes Big quantity；And makes the UE and limit uplink (UL) the packet data list for going to network based on the rate control information First (PDU) transmission.

Example 99 may include example 98 or some other exemplary methods herein, wherein and the service PLMN parameter is < Serving_PLMN_Rate_Control_value > parameter.

Example 100 may include a kind of terminal device (TE), comprising: for sending the module of ATtention (AT) order； The module of one or more access point name (APN) parameter received for identification in response to the AT order, wherein institute Stating one or more APN parameters includes rate control information；And for carrying out user equipment (UE) human's operating control information The module of uplink (UL) Packet Data Unit (PDU) transmission of network is gone in limitation.

Example 101 may include example 100 or some other exemplary TE of this paper, wherein one or more of APN ginsengs Number includes<Maximum_Uplink_rate>parameter, which provides the UE UL sent in time quantum by limitation The maximum quantity of PDU transmission.

Example 102 may include example 101 or some other exemplary TE of this paper, wherein one or more of APN ginsengs Number includes<Uplink_time_unit>parameter, which provides time quantum.

Example 103 may include example 102 or some other exemplary TE of this paper, wherein the time quantum includes nothing Limitation, minute, hour, day or week.

Example 104 may include the example 101-103 or some other exemplary TE of this paper, wherein one or more of APN parameter includes<Additional_exception_reports>parameter, if the parameter indicates the UE in time quantum Inside reach the maximum quantity of UL PDU transmission, whether UE can send UL exception reporting.

Example 105 may include a kind of terminal device (TE), comprising: for sending the module of ATtention (AT) order； The module of non-serving Public Land mobile network (PLMN) parameter received for identification in response to the AT order, wherein The service PLMN parameter includes rate control information, which includes user equipment (UE) in six minutes intervals It is allowed to the maximum quantity of the uplink message sent；And it limits for making the UE based on the rate control information Go to the module of uplink (UL) Packet Data Unit (PDU) transmission of network.

Example 106 may include example 105 or some other exemplary TE herein, wherein and the service PLMN parameter is < Serving_PLMN_Rate_Control_value > parameter.

Claims (25)

1. one or more non-transient computer-readable mediums, have instruction, described instruction makes terminal device upon being performed (TE):

Send ATtention (AT) order；

Identify one or more access point name (APN) parameter received in response to the AT order, wherein one Or multiple APN parameters include rate control information；And

User equipment (UE) is set to be based on the rate control information, uplink (UL) Packet Data Unit of network is gone in limitation (PDU) it transmits.

2. one or more non-transient computer-readable mediums as described in claim 1, wherein one or more of APN parameter includes<Maximum_Uplink_rate>parameter, which provides what the UE was sent in time quantum by limitation The maximum quantity of UL PDU transmission.

3. one or more non-transient computer-readable mediums as claimed in claim 2, wherein one or more of APN parameter includes<Uplink_time_unit>parameter, which provides the time quantum.

4. one or more non-transient computer-readable mediums as claimed in claim 3, wherein the time quantum includes Without limitation, minute, hour, day or week.

5. one or more non-transient computer-readable mediums as described in claim 2,3 or 4, wherein it is one or Multiple APN parameters include<Additional_exception_reports>parameter, if the parameter indicates the UE described Reach the maximum quantity of UL PDU transmission in time quantum, whether UE can send UL exception reporting.

6. one or more non-transient computer-readable mediums, have instruction, described instruction makes terminal device upon being performed (TE):

Send ATtention (AT) order；

Identify non-serving Public Land mobile network (PLMN) parameter received in response to the AT order, wherein the clothes PLMN parameter of being engaged in includes rate control information, and the rate control information includes that user equipment (UE) was permitted in interval at six minutes Perhaps the maximum quantity of the uplink message sent；And

The UE is set to be based on the rate control information, uplink (UL) Packet Data Unit (PDU) of network is gone in limitation Transmission.

7. one or more non-transient computer-readable mediums as claimed in claim 6, wherein the service PLMN parameter It is<Serving_PLMN_Rate_Control_value>parameter.

8. a kind of device, comprising:

Terminal device (TE), is used for: sending ATtention (AT) and orders and identify one received in response to the AT order A or multiple parameters, wherein one or more of parameters include rate control information, and it is described that the TE is based on described device Rate control information goes to uplink (UL) Packet Data Unit (PDU) transmission of network to limit；With

Mobile terminal (MT), is used for: in response to the AT order, sending includes the one or more of the rate control information A parameter.

9. device as claimed in claim 8, wherein one or more of parameters include one or more access point name (APN) parameter.

10. device as claimed in claim 9, wherein one or more of APN parameters include < Maximum_Uplink_ Rate > parameter, the parameter provide the UL PDU that described device is sent in time quantum by the limitation maximum quantity transmitted.

11. device as claimed in claim 10, wherein one or more of APN parameters include < Uplink_time_unit > parameter, the parameter provide the time quantum.

12. device as claimed in claim 11, wherein the time quantum includes no limitation, minute, hour, day or week.

13. the device as described in claim 10,11 or 12, wherein one or more of APN parameters include < Additional_exception_reports > parameter, if parameter instruction described device reaches in the time quantum Whether the maximum quantity of UL PDU transmission, described device can send UL exception reporting.

14. device as claimed in claim 8, wherein one or more of parameters include non-serving Public Land mobile network (PLMN) parameter.

15. device as claimed in claim 14, wherein the rate control information includes described device in six minutes intervals It is allowed to the maximum quantity of the uplink message sent.

16. the device as described in claims 14 or 15, wherein the service PLMN parameter is < Serving_PLMN_Rate_ Control_value > parameter.

17. one or more non-transient computer-readable mediums, including computer-readable instruction, described instruction is when by mobile whole When (MT) being held to execute, make the MT:

Identify ATtention (AT) order received, the AT order includes rate control related with rate control mechanism Information；

Send the rate control information；And

User equipment (UE) is set to be based on the rate control information, uplink (UL) Packet Data Unit of network is gone in limitation (PDU) it transmits.

18. one or more non-transient computer-readable mediums as claimed in claim 17, wherein connect the MT identification What is received includes one or more computers of the AT order of the rate control information related with the rate control mechanism Readable medium includes: the one kind for the AT order including rate control information for receiving the MT identification from terminal device (TE) Or a variety of computer-readable mediums, and wherein,

So that the MT is sent one or more computer-readable mediums of the rate control information includes: to keep the MT described Rate control information is sent to one or more computer-readable mediums of the network.

19. one or more non-transient computer-readable mediums as described in claim 17 or 18, wherein the rate control Making mechanism is access point name (APN) rate control mechanism, and wherein,

The rate control information includes APN rate control information, and the APN rate control information includes whether the TE supports The instruction of APN rate control.

20. one or more non-transient computer-readable mediums as claimed in claim 19, wherein the AT order received It is+CGDCONT AT order, which includes<APN_Rate_Control_Support_Ind>parameter, is used to indicate the TE Whether APN rate control is supported.

21. one or more non-transient computer-readable mediums, including computer-readable instruction, described instruction is worked as to be set by terminal When standby (TE) is executed, make the TE:

ATtention (AT) order is sent, the AT order includes rate control information related with rate control mechanism；

Identify that is received includes the AT order of the rate control information received related with rate control mechanism；And

User equipment (UE) is set to be based on the rate control information, uplink (UL) Packet Data Unit of network is gone in limitation (PDU) it transmits.

22. one or more non-transient computer-readable mediums as claimed in claim 21, wherein the rate control machine System is access point name (APN) rate control mechanism.

23. one or more non-transient computer-readable mediums as described in claim 21 or 22, wherein the rate control Information processed includes APN rate control information, and the APN rate control information includes whether the TE supports APN rate control Instruction.

24. one or more non-transient computer-readable mediums as described in claim 21 or 22, wherein the AT order It is+CGDCONT AT order, which includes<APN_Rate_Control_Support_Ind>parameter, is used to indicate the TE Whether APN rate control is supported.

25. one or more non-transient computer-readable mediums as described in claim 21 or 22, wherein the speed received Rate control information includes APN rate control information, and the APN rate control information includes that the UE is allowed in time quantum It is sent to the quantity of the UL PDU transmission of APN.