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Title:
CONFIGURATION OF DEDICATED UPLINK RESOURCE TRANSMISSION SCHEDULE
Document Type and Number:
WIPO Patent Application WO/2020/193557
Kind Code:
A1
Abstract:
The present invention relates to a method for operating a base station of a cellular network for serving at least one user equipment camping on said base station, said base station having agreed with the user equipment on a periodic dedicated prescheduled uplink transmission schedule, in case one ore more uplink occasion of the dedicated prescheduled uplink transmission schedule is missed by the user equipment, the method comprising for the base station the step of determining if the user equipment is considered as unavailable for communicating at said uplink occasion in relation with the base station, -if so, maintaining presently active dedicated prescheduled uplink transmission schedule, -otherwise cancelling the presently active dedicated prescheduled uplink transmission schedule.

Inventors:
BREUER VOLKER (DE)
KHALIQ OSAID (DE)
Application Number:
PCT/EP2020/058178
Publication Date:
October 01, 2020
Filing Date:
March 24, 2020
Export Citation:
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Assignee:
THALES DIS AIS DEUTSCHLAND GMBH (DE)
International Classes:
H04W72/04; H04W72/12; H04W28/26
Domestic Patent References:
WO2017015528A12017-01-26
Foreign References:
EP3285535A12018-02-21
EP3032903A12016-06-15
Other References:
NOKIA ET AL: "Signaling Aspects for D-PUR", vol. RAN WG2, no. Athens, Greece; 20190225 - 20190301, 15 February 2019 (2019-02-15), XP051601718, Retrieved from the Internet [retrieved on 20190215]
SIERRA WIRELESS: "Email discussion [104#43][eMTC & NB-IoT R16] D-PUR report", vol. RAN WG2, no. Athens, Greece; 20190225 - 20190301, 14 February 2019 (2019-02-14), XP051601520, Retrieved from the Internet [retrieved on 20190214]
Attorney, Agent or Firm:
GREVIN, Emmanuel (FR)
Download PDF:
Claims:
CLAIMS

1 . Method for operating a base station (4) of a cellular network (1 ) for serving at least one user equipment (10) camping on said base station, said base station (4) having agreed with the user equipment (10) on a periodic dedicated prescheduled uplink transmission schedule,

in case one or more uplink occasion (26) of the dedicated prescheduled uplink transmission schedule is missed by the user equipment (10), the method comprising for the base station (4) the step of determining if the user equipment (10) is considered as unavailable for communicating at said uplink occasion in relation with the base station (4),

- if so, maintaining presently active dedicated prescheduled uplink transmission schedule,

- otherwise cancelling the presently active dedicated prescheduled uplink transmission schedule.

2. Method according to claim 1 ,

wherein for determining if the user equipment (10) is considered as unavailable for communicating at said uplink occasion (26) with the base station, determining at least one of the situations, that:

- the user equipment (10) is in course of a data exchange session (27),

- the user equipment (10) is operating in connection to another base station of the cellular network (1 ), and

- the user equipment (10) was instructed to refrain from uplink communication as part of a radio policy.

3. Method according to claim 1 or 2,

comprising the step of cancelling the presently active dedicated prescheduled uplink transmission schedule in case a predetermined consecutive number of missed uplink occasions is detected where the user equipment (10) is determined to be unavailable.

4. Method according to at least one of the claims 1 to 3,

further comprising the step of allocating the resources allocated for the uplink occasion (26) of presently active dedicated prescheduled uplink transmission schedule for another user equipment in case the user equipment (10) is considered as being unavailable for communicating at said uplink occasion (26) in relation with the base station (4).

5. Method according to at least one of the claims 1 to 4,

wherein the base station (4) is configured to provide an instruction to refrain from uplink communication as part of a radio policy to the user equipment (10), wherein the instruction comprises a limitation of communication attempts with the base station (4) within a predetermined time to a certain number of attempts,

comprising omitting data transmissions (23) of the user equipment (10) at the uplink occasion (26) according to the dedicated prescheduled uplink transmission schedule for counting against said certain number of attempts.

6. Method according to claim 5,

wherein said instruction to refrain from uplink communication as part of a radio policy is provided in response (24) to the reception of a data transmission (23) from the user equipment (10) in conjunction with the uplink occasion of the dedicated prescheduled uplink transmission schedule.

7. Base station (4) of a cellular network (1 ), configured to serve at least one user equipment (10) camping on said base station, said base station (4) being

configured to agree with the user equipment (10) on a periodic dedicated prescheduled uplink transmission schedule,

wherein the base station (10) is configured, in case one or more uplink occasion (26) of the dedicated prescheduled uplink transmission schedule is missed by the user equipment (10),

- to determine if the user equipment (10) is considered as unavailable for communicating at said uplink occasion (26) in relation with the base station (4),

- if so, to maintain presently active dedicated prescheduled uplink transmission schedule,

- otherwise to cancel presently active dedicated prescheduled uplink transmission schedule.

8. Base station (4) according to claim 7,

wherein for determining if the user equipment (10) is considered as unavailable for communicating at said uplink occasion (26) with the base station (4), the base station (4) is configured to determine at least one of the situations, that:

- the user equipment (10) is in course of a data exchange session (27),

- the user equipment (10) is operating in connection to another base station of the cellular network (1 ),

- the user equipment (10) is instructed to refrain from uplink communication as part of a radio policy.

9. Base station (4) according to at least one of the claims 7 or 8,

further configured to cancel the presently active dedicated prescheduled uplink transmission schedule in case a predetermined consecutive number of missed uplink occasions (26) is detected where the user equipment (10) is determined to be unavailable for communicating with the base station (4).

10. Base station (4) according to at least one of the claims 7 to 9,

wherein the base station (4) is further configured to allocate the resources allocated for the uplink occasion (26) of presently active dedicate prescheduled uplink transmission schedule for another user equipment in case it has considered the user equipment (10) being unavailable for communicating with the base station (4) during said uplink occasion (26).

1 1 . Method for operating a user equipment (10) with a base station (4) of a cellular network (1 ), comprising the steps for the user equipment of:

- agreeing with the base station on a periodic dedicated prescheduled uplink transmission schedule,

- carrying out at least one uplink transmission (23) at at least one uplink occasion (26) according to said dedicated prescheduled uplink transmission schedule,

- and refraining from carrying out an uplink transmission (23) in case the user equipment (10) being unavailable for communicating at this uplink occasion (26) with the base station (4).

12. Method according to claim 1 1 ,

wherein in case of receiving a radio policy instruction from the base station (4) comprising instructions to refrain from uplink communication, the method further comprises the step of:

- in response carrying out uplink transmissions (2§) only at uplink occasions (26) according to said dedicated prescheduled uplink transmission schedule.

13. Method according to claim 12,

wherein in case of reception of a radio policy instruction the step of carrying out uplink transmission (23) comprises transmission of information of different origin and/or content than the previously submitted data transmission (23) as part of the uplink occasion (26) according to said dedicated prescheduled uplink transmission schedule.

14. Method according to at least one of the claims 1 1 to 13,

in case of reception instructions to limit communication attempts with the base station (4) within a predetermined time to a certain number of attempts, the method comprising the steps of omitting the occurring uplink occasions (26) in that time for counting against that certain number.

15. Method according to at least one of the claims 1 1 to 14,

in case of reception instructions from the first base station (4) to limit communication attempts with the base station (4),

carrying out uplink transmissions with a second base station than the first base station,

and returning to the first base station (4) afterwards.

16. User equipment (10) configured to be operated on a base station (4) of a cellular network (1 ),

wherein the user equipment (10) is configured to agree with the base station (4) on a periodic dedicated prescheduled uplink transmission schedule, and to carry out at least one uplink transmission (23) at at least one uplink occasion (26) according to said dedicated prescheduled uplink transmission schedule, and to refrain from carrying out said uplink transmission (23) in case the user equipment (10) is unavailable for communicating at the uplink occasion (26) with the base station (4).

17. User equipment (10) according to claim 16,

further configured to receive radio policy instructions from the base station (4) comprising instructions to refrain from uplink communication,

- in response carry out uplink transmissions (23) only at uplink occasions (26) according to said dedicated prescheduled uplink transmission schedule.

Description:
CONFIGURATION OF DEDICATED UPLINK RESOURCE TRANSMISSION

SCHEDULE

FIELD OF THE INVENTION

The present invention relates to a method for operating a base station capable of supporting dedicated uplink resource transmission schedule for a user equipment operating in a cellular network.

The invention also pertains to a base station of a cellular network using said method.

The invention also pertains to a method for a user equipment operating with said base station. The invention further relates to a user equipment operating using said method.

BACKGROUND OF THE INVENTION

In the field of cellular wireless communication the cellular network tends to support a wide variety of user equipments. In particular in the field of machine- type devices, also covered by the term Internet of things, a couple of modifications are in preparation that are used to streamline the operation between cellular network and user equipment for special needs of the machine-type device.

In particular machine-type communication (MTC) devices are configured to carry out regular transmission like daily measurements, status updates, requests for updates etc. In the wireless technology standards adaptations are developed e.g. as discussed in EP3032903A1 , how to better prepare the cellular networks for such kinds of periodic data transmissions. This approach is treated in the current cellular technology standard under the term D-PUR = dedicated preconfigured uplink resources. Generally this concept is called hereinafter dedicated prescheduled uplink transmission schedules.

With this concept the machine-type user equipment negotiates with the base station resp. the cellular network a regular periodic scheduling, e.g. once a day / once per hour at a specific time. That means, the user equipment does not need to ask for resource on that specific occasion, but is expected to carry out at least one uplink transmission, while the base station is prepared for this transmission and has reserved resources for that user equipment, but without or at least minimized additional signalling in preparation of each data transmission.

This is advantageous for both the user equipment, as it saves power consumption, and the cellular network, as it reduces the congestion and is plannable. It is in particular advantageous as in many cases the user equipment only submits very low amounts of payload. The necessary signalling without D-PUR for setting up a connection and requesting resources for such a low data transmission often outnumbers the amount of payload.

A problem appears with the currently defined solution, that in case the user equipment misses one or a few uplink transmission occasion, the base station cancels the agreed D-PUR session, and prior to the next data transmission a new D-PUR session needed to be negotiated.

This is generally a straightforward approach, as the user equipment might be out of order or deactivated or moved to another cell. Hence the base station would reserve resources for such a user equipment which are not used.

However, one disadvantage of this approach is, when the user equipment has missed the uplink transmission occasion out of other reasons. This is disadvantageous as the amount of signalling for setting up the D-PUR session again congests the cellular network and might overcompensate the savings which are supposed to be achieved with introducing this approach. Further in an already congested cellular network the user equipment might lose its resource reservation and in extreme case would not be served anymore for e.g. some hours.

As MTC user equipments are often equipped with limited transmitter/receiver circuitry, this situation might happen more frequently than for other devices. This is in particular due to being operating in half duplex (for FDD), that means during a download session there is no way to carry out an uplink transmission at the uplink transmission occasion. Other limitations when the user equipment might miss the uplink transmission occasion are further encompassed. The situation may also arise if the application attached to the user equipment started an additional uplink (UL) communication which may be allocated on a different frequency, and hence cannot fulfill or does momentary not need the pre-scheduled transmission occasion. The same situation occurs when the user equipment just needs to send signaling acknowledgment in UL or listen in downlink (DL) direction.

Therefore it requires a solution to improve dedicated prescheduled uplink transmission schedules approaches like D-PUR, in order to reduce the situations where a running session of dedicated prescheduled uplink transmission schedules is cancelled due to the user equipment missing an uplink transmission occasion.

It is therefore the goal of present invention to overcome the mentioned disadvantages and to propose a solution for an improved handling of dedicated prescheduled uplink transmission schedules

Further alternative and advantageous solutions would, accordingly, be desirable in the art.

SUMMARY OF THE INVENTION

For this it is according to a first aspect of the invention suggested a method to operate base station according to claim 1 . It is further suggested according to a second aspect of the invention a base station according to claim 7.

It is further proposed according to the third aspect of the invention a method for operating a user equipment according to claim 1 1 . According to the fourth aspect of the invention it is proposed a user equipment according to claim 16.

According to the first aspect of the invention it is proposed a method for operating a base station of a cellular network for serving at least one user equipment camping on said base station, said base station having agreed with the user equipment on a periodic dedicated prescheduled uplink transmission schedule,

in case one or more uplink occasion of the dedicated prescheduled uplink transmission schedule is missed by the user equipment, the method comprising for the base station the step of determining if the user equipment is considered as unavailable for communicating at said uplink occasion in relation with the base station,

- if so, maintaining presently active dedicated prescheduled uplink transmission schedule,

- otherwise cancelling the presently active dedicated prescheduled uplink transmission schedule.

This aspect of the invention relates to a base station of a cellular network, in particular implementing one of the cellular technology standards 3G, 4G, 5G or beyond. The base station is one of the plurality of base stations of the cellular network.

The base station is configured to serve at least one user equipment, which is regularly transmitting in particular a similar amount of data to a remote server and is in particular moreover operated stationary, where“stationary” means at least not or merely not moving for a certain time period in which several regular transmissions should be carried out. An example for such a user equipment is a metering device which periodically transmits its measurements at a defined time, or at least in a defined corridor of time. This periodicity is preferably in the range from seconds up to days, depending upon the purpose of the user equipment.

For limiting the signalling load for such kind of regular data transmissions a periodic dedicated prescheduled uplink transmission schedule is arranged between base station and user equipment. The dedicated prescheduled uplink transmission schedule is a mode of operating between the user equipment and the base station which allows transmitting data in a predefined periodicity and data amount. No or at least limited additional signalling is necessary per each uplink occasion, that is the period where according to the dedicated prescheduled uplink transmission schedule the base station allocates resources sufficient for the expected data transmissions from the user equipment.

For setting up the dedicates prescheduled uplink transmission schedule the user equipment preferably transmits a request to the base station indicative of the envisaged data transmission, in particular comprising amount of data and the planned periodicity. Moreover this request may also contain the duration for which the dedicated prescheduled uplink transmission schedule is envisaged, which my last from hours to infinity, the latter one especially beneficial for meter applications.

The base station in response evaluates the request according to the requested periodicity, duration and/or on the requested data amount, respective resources for uplink transmission according to a schedule with the approved periodicity. This information is provided in response to the user equipment with a confirmation message.

The user equipment can then preferably decide to accept the schedule or reject it and continue to operate without the dedicated prescheduled uplink transmission schedule. Preferably it may ask later, at least for a limited amount of times during a given period, for setting up the dedicate prescheduled uplink transmission schedule again, which then better fits to the requirements of the user equipment.

Preferably the base station indicates, in particular by means of SIBs, that it supports the dedicated prescheduled uplink transmission schedule.

When this dedicated prescheduled uplink transmission schedule is set up, the base station expects the user equipment to carry out a data transmission on each uplink occasion that means the time when according to a schedule resources for a data transmission from the user equipment are allocated.

Such data transmission does not require additional signalling for setting up the connection, or at least far less, than when the base station is not expecting it according to a schedule.

However, should the user equipment miss the uplink occasion once or more than once, the base station by now terminated the transmission schedule. It is preferably a question of configuration how many of such missed uplink occasion lead to a termination, in any case this is from the base station’s perspective preferably a quite low number in order not to allocate resources for a user equipment that is not operating anymore, while for a user equipment this amount is preferably a quite high number in order to avoid setting up the dedicated prescheduled uplink transmission schedule again, which needs a lot of power. In particular for battery driven user equipments this might be an issue and is preferably avoided. Obviously here no good number is possible, as the requirements of both user equipment and base station contradict.

Here comes the invention into play.

According to this it is proposed that in case one or more uplink occasion is missed by the user equipment, that means the base station does not receive an uplink transmission from the respective user equipment, that instead of cancelling immediately the presently active dedicated prescheduled uplink transmission schedule, the base station is supposed to consider why the user equipment missed the uplink occasion(s).

Preferably this process is not necessarily started at the first missed occasion, which could be ignored by default, but when two or more missed occasions occur. Then the base station is supposed to check if cancelling the dedicated prescheduled uplink transmission schedule is appropriate.

In case the user equipment is capable of determining that the user equipment is to be considered as unavailable for communication in relation with the base station, at least at the uplink occasion, then the presently active dedicated prescheduled uplink transmission schedule is supposed to be maintained. This step of considering comprises a check about the situation of the user equipment. In particular low-bandwidth devices, e.g. operating in half duplex, or with limited processing power, are unavailable for communication at said uplink occasion with the base station, in particular for making the data transmissions expected in course of the dedicated prescheduled uplink transmission schedule. That means, although the user equipment might be operating in a communication session with the respective base station, it is to be considered as unavailable for communication at said uplink occasion with the base station, if such communication session is the reason for not making the data transmission at the uplink occasion.

This check takes into account that the base station might know about the reason for the missed uplink occasion. If this reason indicates, that the user equipment is in particular occupied resp. busy with other means, in particular initiated by the base station, then the missed uplink occasion is not considered for cancelling the presently active dedicated prescheduled uplink transmission schedule.

This is advantageous as it brings in conformance the needs of the base station to cope with that situation, as it can anticipate the missing of uplink occasions, and consequently react, while the user equipment needs to setup again the dedicated prescheduled uplink transmission schedule less often, than with the currently known procedure.

Preferably the reasons for considering the user equipment as being unavailable for communication with the base station might vary.

According to a preferred embodiment it is proposed that for determining if the user equipment is considered as unavailable for communicating at said uplink occasion with the base station, determining at least one of the situations, that:

- the user equipment is in course of a data exchange session,

- the user equipment is operating in connection to another base station of the cellular network, and

- the user equipment was instructed to refrain from uplink communication as part of a radio policy.

This embodiment collects a couple of situations which for the base station are preferably considered to rate the user equipment as currently unavailable, at least at the uplink occasion.

In case the user equipment is in course of a data exchange session, then it is

- in particular when being a limited-bandwidth user equipment - unable to carry out an uplink data transmission.

Such user equipments are often only capable of half-duplex communication i.e. can either receive or transmit at a given time but not both simultaneously, in or operate in a limited frequency range only. Additionally or alternatively they may be limited in the sense of being capable only to support a limited number of processes i.e. one or two HARQ processes only because they only have the corresponding number of HARQ chains, means respective storage for processing said receptions/ transmissions. This situation is known to the base station, as the data exchange session is happening through the base station.

In particular for the base station the user equipment is additionally rated as being in course of a data exchange session, when the user equipment has transmitted data, and is waiting for a confirmation from the base station for the previous transmission. That means, that no real activity might be sufficient to rate the user equipment as unavailable, resp. occupied at the time of the uplink occasion.

Further a running software download to low-end devices camping on the base station is rated as data exchange session. This might be part of MBMS or SCPTM (Single Cell Point To Multipoint) transmission.

Due to the fact that in such cases the base station is involved in the data transmission it is aware of it and can consequently consider the affected user equipment as unavailable for communication, at least for uplink transmissions at the uplink occasion according to the dedicated prescheduled uplink transmission schedule.

Additionally or alternatively a user equipment might be rated as unavailable for communication with the (first and serving) base station, when it notices that the user equipment is operating in connection with another (second) base station of the cellular network.

This is in particular determined by communication between base stations, resp. through the cellular network.

When the first base station is aware of this situation, then it is supposed not to expect an uplink transmission at the uplink occasion according to the presently active dedicated prescheduled uplink transmission schedule.

Additionally resp. alternatively the base station may consider the user equipment as unavailable of communicating with the base station in case the user equipment was instructed to refrain from uplink communication, in particular as part of a radio policy. Radio policy management (RPM) mechanisms are typically used to prevent the cellular network from and solve overload situations, i.e. limiting the access for such user equipments. This is preferably the case for the situation of a radio policy management instruction which is foreseen to limit traffic, in particular caused through machine type communication resp. Internet of Things (loT) devices. Such RPM messages are submitted by the base station to one or more camping user equipments, in particular in response to a service request with a corresponding reject cause.

With such RPM messages the user equipments are preferably instructed to refrain from accessing the cellular network, that means carrying out data transmissions, at least under given preconditions.

Should that be the case, and additionally the affected period also encompasses uplink occasions, though previously agreed and therefore allocated (hereinafter called hard RPM) then this embodiment suggests that the user equipment is not to blame for this situation. Hence the base station considers also in that situation the user equipment as unavailable for communicating with the base station, at least at the uplink occasion.

Further the base station is aware of this situation, and consequently it is able to determine that the user equipment is not capable of carrying out the uplink transmission as part of the uplink occasion.

Hence, when one or a combination of this situations is detected, this leads to the situation that the base station will not cancel the presently active dedicated prescheduled uplink transmission schedule upon detection of one or more missed uplink occasions

However, this situation might nonetheless not be maintained for good. Therefore it is suggested according to a further preferred embodiment the step of cancelling the presently active dedicated prescheduled uplink transmission schedule in case a predetermined consecutive number of missed uplink occasions is detected where the user equipment is determined to be unavailable.

This embodiment is a last resort for such situations that the base station for a long time detects a user equipment being considered as unavailable for communication in relation with the base station during said uplink occasion. Preferably the predetermined number is rather high, in any case higher than the number of missed uplink occasions that are needed for cancelling the presently active dedicated prescheduled uplink transmission schedule, when the base station cannot consider the user equipment as unavailable for communicating with the base station.

According to another preferred embodiment it is proposed the step of allocating the resources allocated for the uplink occasion of presently active dedicate prescheduled uplink transmission schedule for another user equipment in case the user equipment is considered as being unavailable for communicating at said uplink occasion in relation with the base station.

With that embodiment it is proposed for the base station to reallocate the resources originally reserved for the respective user equipment according to the presently active dedicated prescheduled uplink transmission schedule for other user equipments, in case the base station is aware of the situation that the respective user equipment will not be able to use the resources which would be reserved at a specific uplink occasion.

That means, when the base station e.g. initiated a downlink transmission to the user equipment, and is aware of the capability of the user equipment not to be able to make an uplink transmission during said downlink transmission session, then the base station can anticipate that the user equipment will not be able to use the imminent next occasions for an uplink transmission by the user equipment.

As said before, this will not lead to a cancellation of the presently active dedicated prescheduled uplink transmission schedule.

Additionally, as part of this embodiment, the base station can use the resources that will not be used for uplink transmission for another user equipment which is requesting for uplink resources at that time.

In particular for a quite congested traffic situation this is an advantageous embodiment as no resources are wasted.

Further this reduces for the base station negative impact of a user equipment which is unable to use the uplink transmission occasion, as long it is anticipated by the base station. For the base station only an optimal usage of resources is important. That is achieved with this embodiment, hence for the base station it is no issue to continue the presently active dedicated prescheduled uplink transmission schedule, though the user equipment missed one or more uplink occasions. According to another embodiment it is proposed that the base station is configured to provide an instruction to refrain from uplink communication as part of a radio policy to the user equipment, wherein the instruction comprises a limitation of communication attempts with the base station within a predetermined time to a certain number of attempts, comprising omitting data transmissions of the user equipment at the uplink occasion according to the dedicated prescheduled uplink transmission schedule for counting against said certain number of attempts.

This embodiment relates to another variant of RPM instructions. The instructions following a radio policy sent by the base station to the user equipment comprises an indication, that it is only allowed to carry out a defined number of accesses during the validity of the RPM instructions, resp. during a predetermined time.

This allows for a user equipment to manage its data transmissions and allow - e.g. in emergency situations - to contact a remote server etc. However, for regular data transmissions in terms of measurements or the like, this amount might be too less. Hence, the user equipment will then not be able to make its regular data transmissions.

However, as the base station is aware of the active dedicated prescheduled uplink transmission schedule of the user equipment, it softens the RPM instructions in that sense, that data transmissions at the uplink occasions according to the dedicated prescheduled uplink transmission schedule are not counted against the predetermined number.

Alternatively no such number is defined, but data transmissions are allowed for the user equipment only at uplink occasions according to the dedicates prescheduled uplink transmission schedule, while any other data transmission in between is prohibited. This means that the base station has considered the occasions and accounted for them in its overload evaluation, i.e. has still the required resources and just wants to block further communication attempts but not the transmission in conjunction with prescheduled uplink occasions themselves.

This is a kind of soft RPM, as it allows for the user equipment operating in a dedicated prescheduled uplink transmission schedule to operate as before. Only data transmission outside of this schedule are blocked resp. limited.

This is advantageous as the base station knows about expected data transmissions of the camping user equipments as long as they are part of the dedicated prescheduled uplink transmission schedule. Other data transmissions shall be limited, preferably not fully prohibited.

This embodiment fulfills the requirement of both the user equipment’s and the base station’s resp. cellular network needs.

According to another preferred embodiment it is proposed that said instruction to refrain from uplink communication as part of a radio policy is provided in response to the reception of a data transmission from the user equipment in conjunction with the uplink occasion of the dedicated prescheduled uplink transmission schedule.

This embodiment comprises that the instructions according to radio policy, in particular RPM instructions, are different to the known approach not (only) transmitted as part of a rejection message, but as part of a confirmation message confirming receipt of the data transmission as part of an uplink occasion.

As with this soft RPM approach the communication according to the dedicated prescheduled uplink transmission schedule are supposed to be allowed, it is therefore advantageous to instruct the respective user equipment over this way. So the user equipment is not surprised by a rejection for a data transmission that was possible before the radio policy was raised.

As data transmissions according to the dedicated prescheduled uplink transmission schedule are allowed as part of this soft RPM approach, this is the best channel to communicate changes of the radio policy. According to the second aspect of the invention it is proposed a base station of a cellular network, configured to serve at least one user equipment camping on said base station, said base station being configured to agree with the user equipment on a periodic dedicated prescheduled uplink transmission schedule, wherein the base station is configured, in case one or more uplink occasion of the dedicated prescheduled uplink transmission schedule is missed by the user equipment,

- to determine if the user equipment is considered as unavailable for communicating at said uplink occasion in relation with the base station,

- if so, to maintain presently active dedicated prescheduled uplink transmission schedule,

- otherwise to cancel presently active dedicated prescheduled uplink transmission schedule.

The base station of this aspect of the invention is communicatively connected to other components of the cellular network. That is preferably happening through a wired connection link.

The base station further comprises transmitting and receiving circuitry and an antenna for communication with a plurality of user equipments in the cell area populated by the base station. The base station further comprises processing circuitry for executing operating software, and in particular software implementing the method according to the first aspect of the invention.

Further the base station preferably comprises volatile and permanent memory for storing software, configuration data and caching data.

In particular data relating to camping user equipments are stored at least volatile.

The second aspect shares the advantages of the first aspect of the invention.

According to the third aspect of the invention it is proposed a method for operating a user equipment with a base station of a cellular network, comprising the steps for the user equipment of:

- agreeing with the base station on a periodic dedicated prescheduled uplink transmission schedule, - carrying out at least one uplink transmission at at least one uplink occasion according to said dedicated prescheduled uplink transmission schedule,

- refraining from carrying out an uplink transmission in case the user equipment being unavailable for communicating at this uplink occasion with the base station.

This aspect of the invention relates to the operation of the user equipment in the situation described for the previous aspects of the invention.

According to that the user equipment is camping on a base station, the so called serving base station. That is possible when it is situated, in particular stationary, in the cell area of the base station, or in other words it is sufficiently close to the base station for being able to receive signals of the base station and to transmit signals to the base station that are well received at the base station.

A stationary user equipment is one that is expected, at least for a remarkable period of time, not or not materially move from its place. This is the case in particular for fixed installed devices, like metering devices. But this can also apply to user equipment installed in a parking car. The special situation for stationary user equipments is, that in the normal procedure it would not leave the cell area of the currently serving base station.

The user equipment is further capable of agreeing with the base station on a periodic dedicate prescheduled uplink transmission schedule. This is in particular the case for a stationary metering device or other devices that are frequently, periodically transmit data in a similar amount.

Preferably the base station is previously providing an indication to the user equipment that it supports the dedicated prescheduled uplink transmission schedules. This is preferably done via a broadcast, e.g. of system information, or as part of the registration resp. during a dedicated connection.

Hence the user equipment sends a request for setting up such a dedicated prescheduled uplink transmission schedule to the serving base station. That request in particular comprises the requested periodicity and the amount of data to be transmitted on each occasion for transmitting data, hereinafter uplink occasion. It is advantageous when this request is part of data transmission session, in particular one that is common to the following data transmissions according to the dedicated prescheduled uplink transmission schedule.

When the base station confirms in response to the request setting up the dedicated prescheduled uplink transmission schedule, then the schedule is operative. Consequently the user equipment will according to the periodicity agreed upon send uplink data transmissions on each uplink occasion in the size as agreed.

When no data transmission is possible for a few occasions the user equipment would prefer that it does not have to set up the dedicated prescheduled uplink transmission schedule again, in particular for a congested base station which might even refuse due to the high traffic a new uplink transmission schedule. Consequently when the user equipment is not capable of communicating with the base station at this uplink occasions, and in particular knows that this situation is known to the serving base station, then it will refrain from carrying out such uplink transmission. The consequence of ending the dedicated prescheduled uplink transmission schedule would under this condition not happen.

In this case, as the dedicated prescheduled uplink transmission schedule is not cancelled despite missing this uplink occasion due to unavailability of the user equipment, the user equipment will use the next uplink occasion to carry out data transmission, at least as long as it is not still or again unavailable at the time of the next uplink occasion.

This is advantageous as a temporary unavailability will not end the dedicated prescheduled uplink transmission schedule, and both user equipment and base station are aware of it.

In a preferred embodiment it is suggested that in case of receiving a radio policy instruction from the base station comprising instructions to refrain from uplink communication, the method further comprises the step of:

- in response carrying out uplink transmissions only at uplink occasions according to said dedicated prescheduled uplink transmission schedule. This embodiment relates to instructions from the base station to refrain from uplink communication. This relates to base station that support means to prevent from overload situations, i.e. blocking or rejecting momentary traffic requests and indicating a time when the next attempt is expected. Such methods are known under the terms RPM or network friendly behavior. I.e. a user equipment is not allowed to do more connection attempts in a certain time or they are in generally blocked for a certain time. To mitigate the relation of these overload mechanisms and related pre-scheduled transmission is also a goal of present invention.

Hence it is according to this embodiment suggested, that the user equipment when operating in a dedicated prescheduled uplink transmission schedule may ignore the instructions as part of the RPM, and consequently continue sending data transmission at the time of the uplink occasion.

This is due to the fact that the base station has agreed on allocating the resources at that agreed periodicity. Hence, for making a decision to send RPM instructions that shall user equipments, in particular MTC devices, refrain from setting up data exchange sessions, the already allocated resources could be taken into account.

Preferably the base station indicates with its RPM instructions that this consideration of pre-allocated resources according to the dedicated prescheduled uplink transmission schedule for user equipment camping on the base station has been carried out. Consequently a user equipment which is operating in an active dedicated prescheduled uplink transmission schedule will carry out its data transmissions at the uplink occasions despite receiving the RPM instruction. However, at other times resp. for other purposes outside of the uplink occasion no data transmission may be carried out for the same user equipments.

Hence this embodiment provides situational exceptions from the general RPM instructions, but not individual exceptions. That means, no originally affected user equipment is fully free to make data transmissions in contrast to the RPM instructions, only because a dedicated prescheduled uplink transmission schedule is active. This RPM related behavior is called soft RPM hereinafter. It differs from other RPM schemes, where a coordination of the RPM related effects with the aims of a dedicated prescheduled uplink transmission schedule is carried out under different premises.

According to a preferred embodiment it is proposed that in case of reception of a radio policy instruction the step of carrying out uplink transmission comprises transmission of information of different origin and/or content than the previously submitted data transmission as part of the uplink occasion according to said dedicated prescheduled uplink transmission schedule.

With this embodiment the user equipment is put into the position to react on the communication limitation as part of the radio policy instruction.

Typically for higher priority resp. importance information that are supposed to be transmitted then - provided the allowed amount of data is sufficient - the user equipment may use the uplink occasion for transmitting other data. Those data are typically of other origin, e.g. no measurement data but in particular status data.

Such higher priority information do not refer to emergency calls, as these are usually allowed, resp. overrule the RPM instructions.

Such status data may in particular comprise the information to the remote server that a radio policy instruction is active. This might lead to avoid software update or other request from the remote server side.

Also a status update might relate to the situation of the user equipment resp. the attached application. An example would be to detect in a connected car a situation, like mileage, oil level etc., that would trigger requesting to schedule a visit to the garage.

This is also an example for the situation that this transmission may even be addressed to another communication endpoint than the regular data transmissions in this periodic data transmission.

According to another preferred embodiment of the invention it is proposed that in case of reception instructions to limit communication attempts with the base station within a predetermined time to a certain number of attempts, the method comprising the steps of omitting the occurring uplink occasions in that time for counting against that certain number.

This embodiment relates to another variant, wherein the RPM instructions comprises an indication for the addressed user equipment, that it is only allowed to carry out a defined number of accesses during the validity of the RPM instructions, resp. during a predetermined time.

According to this embodiment however, in case of an active dedicated prescheduled uplink transmission schedule, this issues is resolved.

As a further variant of the soft RPM scheme for such a situation it is proposed that data transmissions at uplink occasions according to the active dedicated prescheduled uplink transmission schedule would not be accounted against the allowed number of data transmissions.

This leads to the advantageous effect, that also for such RPM schemes user equipments with a running dedicated prescheduled uplink transmission schedule are not limited in its data transmission activity, and the base station can foresee this.

According to another preferred embodiment it is proposed that in case of reception instructions from the first base station to limit communication attempts with the base station, carrying out uplink transmissions with a second base station than the first base station, and returning to the first base station afterwards.

This embodiment relates to a “hard RPM”, as opposed to the soft RPM mentioned before. That means that even user equipments that are currently operating in a dedicated prescheduled uplink transmission schedule would be blocked from transmitting data.

As set out before, a base station would consequently not cancel the dedicated prescheduled uplink transmission schedule due to the missing of an uplink occasion through the user equipment as this is following the RPM instruction. However, in case the user equipment has a need of carrying out its data transmission, in particular after a couple of uplink occasions have passed, then it is proposed according to this embodiment that the user equipment tries to register on another base station and carrying out its data transmission there. Should no such base station be available or such base stations are blocked, this will certainly fail, but at least the user equipment shall be able to try.

After this attempt the user equipment returns to the first user equipment, where the dedicated prescheduled uplink transmission schedule is still active. Preferably that means, that once the hard RPM instruction not to carry out data transmissions has ended, that the dedicated prescheduled uplink transmission schedule continues without any additional signalling needs. It is supposed to continue as if nothing has happened.

This embodiment is advantageous as it allows the user equipment to carry out data transmissions when it is temporary blocked from the serving base station, however that does not mean that the dedicated prescheduled uplink transmission schedule needs to be cancelled. In particular in dense traffic agreeing upon a new dedicated prescheduled uplink transmission schedule could possibly not be successful.

Additionally after a hard RPM - which might be necessary from the base station perspective at certain situations - it is with this embodiment prevented, that afterwards a run for setting up dedicated prescheduled uplink transmission schedules is happening which in the end increases the signalling load again, just for setting up the schedules, that were already defined prior to the hard RPM.

With this embodiment the operation continues undisturbed after the hard RPM. This makes the decision for the base station easier to launch a hard RPM, as no such counter effects are to be expected.

According to the fourth aspect of the invention it is proposed a user equipment configured to be operated on a base station of a cellular network, wherein the user equipment is configured to agree with the base station on a periodic dedicated prescheduled uplink transmission schedule, and to carry out at least one uplink transmission (23) at at least one uplink occasion according to said dedicated prescheduled uplink transmission schedule, and to refrain from carrying out said uplink transmission in case the user equipment is unavailable for communicating in the uplink occasion with the base station. This embodiment relates to a user equipment capable of operating with a base station according to the second aspect of a cellular network.

The user equipment provides a couple of components for conducting wireless communication. This comprises at least processing circuitry for executing operation software, in particular those implementing the method of the first aspect of the invention. Preferably the user equipment is capable of operating with a base station supporting the standards of 3G, 4G, 5G or beyond, including variants, like Nb-loT, CAT-M, Cat-1 etc., which also includes user equipments that are momentary operating in NB-loT or Cat-M mode for power saving reasons in low activity phases, although being possible to operate in higher categories.

Further the user equipment comprises transmitting and receiving circuitry in connection with at least one antenna, typically a transceiver for exchanging wireless communication signals with the base station of the cellular network. Further a memory unit for volatiles and/or permanent storage of executable software, configuration data and measured data e.g. before transmitting as part of a neighbor measurement report.

The user equipment is configured to camp on a serving base station and to carry out data transmissions by means of the transmitting and receiving circuitry.

Preferably the user equipment provides an application part having processing circuitry for collecting measurement data, either measured by a sensor of the application or a remote sensor communicatively coupled to the application. Such communicatively coupling might employ the transmitting and receiving circuitry of the user equipment, alternatively other communication circuitry, including wired connections, are used. E.g. a Bluetooth, Wimax, or Wifi connection might be used.

The fourth aspect of the invention shares the advantages of the first aspect of the invention.

As it is shown this invention advantageously solves the depicted problem and offers a solution which increases the benefit of agreeing on a dedicated prescheduled uplink transmission schedule between a base station and a user equipment. This leads to better congestion situation for the base station and to a advantageous power management of the user equipment.

BRIEF DESCRIPTION OF THE DRAWINGS

The following description and the annexed drawings set forth in detail certain illustrative aspects and are indicative of but a few of the various ways in which the principles of the embodiments may be employed. Characteristics and advantages of the present invention will appear when reading the following description and annexed drawings of advantageous embodiments given as illustrative but not restrictive examples.

FIG. 1 schematically shows a user equipment 10 in conjunction with a base station of the type to which the present invention is applied as an embodiment.

FIG. 2 a + b show the timeline of a base station and a user equipment operating in dedicated uplink resource transmission schedule according to an embodiment of the invention

FIG. 3 shows a flow diagram describing a preferred embodiment of the invention.

FIG. 1 schematically shows a user equipment 10 of the type according to an embodiment of the invention, where the user equipment 10 is in a spatial relationship with a respective base station 4, according to an embodiment of another aspect of the invention. The user equipment 10 is in particular stationary and a machine-type communication device. That is it is preferably configured to regularly transmit a certain amount of data to a remote server, in particular as electricity metering device, a vending machine or other device for monitoring of a defined situation with sensors.

The base station 4 is one of a plurality of base stations being part of cellular network 1 . This base station 4 is the direct counterparts to the user equipments 10 on the air interface 2. Such a base station is in particular for cellular networks supporting the LTE technology standard an eNodeB. Compared to previous technology standards eNodeBs cover more functionality and flexibility in terms of scheduling of resources for the assigned user equipment 10.

The base station 4 supplies in a geographical area of cell 5 connectivity for user equipments situated in this geographical area. This allows for a user equipment 10 located in the cell are 5 to associate with base station 4, in particular to camp on the base station 4.

The user equipment 10 according to this exemplifying embodiment comprises an antenna 1 1 as connection point to the air interface 2. It further comprises an identification module 3, in particular a SIM card, an UICC, or a soldered identification module, or a piece of software contained in one of the other components in a secure manner, which holds the authentication credentials with which the user equipment 10 registers at the cellular network 1 , in particular the base station 4. This identification modules resp. its stored data allows the cellular network 1 to figure out if the user equipment 10 is entitled to be served within the cellular network 1 , and in particular if it is prepaid or a contract subscription with proven credibility. Additionally the user equipment 10 comprises receiving and transmitting circuitry, processing circuitry and volatile and/or permanent memory (all not shown).

FIG. 2a shows schematically the situation, how a user equipment 10, which is configured to transmit data in a periodicity related transmission mode, and the base station 4 it is camping on, are exchanging data in order to fulfil a regular sending task.

In FIG. 2a are visible time bars for the user equipment 10 and the base station 4. Arrows indicate a data transmission from one party to the other.

The user equipment 10 is typically equipped with a clock resp. a timer which figures out, when a data transmission is due. In a preferred embodiment the user equipment 10 received information about the schedule from a remote server (not shown). The remote server thus tries to avoid peaks where all supported user equipments, even in different cells, are providing their data. With data transmission 20 the user equipment sends a request to the base station to set up a dedicated prescheduled uplink transmission schedule. This request comprises at least an indication relating to the preferred periodicity and the amount of data to be transmitted per uplink occasion.

The base station 4 evaluates the request and in case of sufficient resources for fulfilling the request confirms setting up a dedicated prescheduled uplink transmission schedule, by means of sending response message 21 , which includes the details of periodicity and allocated resources for data transmission at the respective uplink occasion 26.

After reception of the response 21 , both the user equipment 10 and the base station activate the dedicated prescheduled uplink transmission schedule instead of normal scheduled communication. Preferably the user equipment conducts further steps, in particular switch off mobility related measures. That means it assumes due to the fact that it is a stationary user equipment and it successfully camped on a base station 4, no cell-reselection is necessary for the time being.

Consequently the user equipment 10 and the base station 4 each set a timer according to the periodicity, in particular an offset in seconds or frames to the last communication.

When the timer expired at the respective system frame number 22 the base station 4 allocates the respective resources for receiving the data transmission expected from the user equipment. This means now the data transmission window of the user equipment is open, which is here called uplink occasion 26.

With the data transmissions 23 user equipment 10 now submits without further signalling exchange in advance between the user equipment and the base station the data which are preferably dedicated for a remote server, e.g. the metering collection server, in the amount as allowed with the response message 21 . Here a method without further in advance signalling is provided but also a solution with reduced signalling exchange would be possible.

Preferably the base station 4 acknowledges with acknowledge message 24 safe receipt of the transmitted data from the user equipment 10. Here this is displayed with one message 24 after the complete data transmissions 23, but an acknowledgement message per data transmission message 23 is as alternative solution also part of this embodiment.

Once the data transmission has concluded the timer is reset and the same operation is started after the same amount of system frames or a defined time. The next data transmission comprises the same message flow as the previously described. It is a matter of agreement between the user equipment and the base station, if the next timer is started at the end of the transmission, that is with message 24, or directly after expiry of the previous timer, that is at system frame number 22.

In Fig. 2b the dedicated prescheduled uplink transmission schedule started in Fig. 2a is continued with another uplink occasion 26, where at time frame 22 further data transmissions 23 are carried out.

After a couple of such transmissions (indicated by blanked part 25) the user equipment is occupied with a data transmission 27 session unrelated to the dedicated prescheduled uplink transmission schedule. Instead in this example a larger download of data is carried out. This might be a software download or the like. In particular for low-capability devices, e.g. operating in low categories of the technology standard, like NB-loT, Cat-M, Cat-1 , and/or in a mode like enhanced coverage such data transmission may take a while.

As a matter of fact as shown here, the data transmission session overlaps with the uplink occasion window 26. Consequently the user equipment 10, in particular when not capable of carrying out additional data transmission sessions in parallel to a download, would miss the upload occasion 26, which means no data transmission 23 as agreed in the dedicated prescheduled uplink transmission schedule is carried out.

Normally this would after a predefined number of missed uplink occasions lead to the situation that the base station 4 cancels the dedicated prescheduled uplink transmission schedule. This is due to the fact that the user equipment 10 might be switched off, deactivated, out of power or moved to another cell. This situation would not be known to the base station 4.

Flowever the data transmission 27 is known to the base station 4. Flence the data transmissions 27 can be considered as reason for missing the uplink occasion 26. Consequently the base station does not cancel the dedicated prescheduled uplink transmission schedule, instead allocates for the next uplink occasion at next frame 22 the respective resources for receiving data transmissions 23 again.

At the next uplink occasion 26 the user equipment is not occupied anymore with a data transmission session and consequently makes its data transmissions 23 again. The dedicated prescheduled uplink transmission schedule is therefore supposed to continue.

In FIG. 3 the flow chart shows the procedure according to an exemplifying embodiment of the invention from the perspective of the base station according to the first aspect of the invention.

The workflow starts with step S1 , where user equipment 10 and base station 4 agree on a dedicated prescheduled uplink transmission schedule, in this case the implementation known as D-PUR. Such agreement typically requires a request from the user equipment, indicating at least envisaged periodicity and the amount of data. The base station then responds and provides data indicating which periodicity and allocated data per uplink occasion would be possible. The user equipment accepts this response or cancels the dedicated prescheduled uplink transmission schedule, when not sufficient.

When the response is accepted, either through another message to the base station or by just following the agreed schedule, then the base station sets an internal timer. At expiry of the timer at step S2 the base station expects an uplink transmission at the uplink occasion according to the dedicated prescheduled uplink transmission schedule.

It is then checked in decision step S3 if the base station received a data transmission according to the dedicated prescheduled uplink transmission schedule. If this is the case the flow branches again to step S2, where in the same periodicity the next uplink transmission is expected. As the periodicity might be in the range of hours or days, this might take some time, and is therefore preferably exception resp. interrupt triggered, instead of implementing a waiting loop. Should in S3 the base station detect that no data transmission was received during the uplink occasion, then the flow branches to step S4, where another check is carried out. Here it is checked if the base station considers the user equipment as unavailable, that means as occupied at the uplink occasion. That means, it is checked if the base station is aware of any reasons why the user equipment might not be able to make a data transmission. As shown in the example before, this might be due to unplanned massive data transmissions session. This might further be due to a blocked transmission from a radio policy instruction by the base station itself.

If this is the case the flow branches back to step S2. There at the next uplink occasion a normal data transmission according to the dedicated prescheduled uplink transmission schedule might happen.

Otherwise the flow branches to step S5 where the base station decides to cancel the dedicated prescheduled uplink transmission schedule resp. D-PUR agreement. This might in another embodiment be the case not before a predetermined number of - in particular successive - missed uplink occasions, where no unavailability of the user equipment is known to the base station, has occurred.

This ends the procedure flow.

Preferably, when the base station already is aware of the fact that the user equipment is considered to be unavailable at the next uplink occasion, it would in step S2 refrain from allocating resources for the next uplink occasion, instead such resources could be assigned to another user equipment, should it request resources at that time.

In the above detailed description, reference is made to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the invention, although different, are not necessarily mutually exclusive. For example, a particular feature, structure, or characteristic described herein in connection with one embodiment may be implemented within other embodiments without departing from the scope of the invention. In addition, it is to be understood that the location or arrangement of individual elements within each disclosed embodiment may be modified without departing from the scope of the invention. The above detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, appropriately interpreted, along with the full range of equivalents to which the claims are entitled.