EP0968618A2

EP0968618A2 - Communications terminal and method for data transmission between a communications network and a communications terminal

Info

Publication number: EP0968618A2
Application number: EP98916821A
Authority: EP
Inventors: Horst Fenske
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 1997-03-18
Filing date: 1998-03-02
Publication date: 2000-01-05
Also published as: JP2001515671A; WO1998042112A3; WO1998042112A2; CN1250581A

Abstract

According to the invention, the use of several narrow-band paging channels enables the data rate to be reduced thereby creating appropriate conditions for further reducing power consumption of mobile communication terminals in stand-by mode without impairing accessibility.

Description

description

Communication terminal and method for

Information transmission between a communication network and a communication terminal

The power consumption in standby mode in mobile communication terminals, for example in cellular telephone terminals, depends to a large extent on how long the receiver can be switched off. With conventional mobile radio networks, this time is specified by the system. The longer this time, the lower the energy consumption, but the longer the mean time until an incoming call is switched through (response time). The system reacts more slowly, the lower the energy consumption of the end devices is to be kept in the idle state. This situation results from a time-division multiplex method in which a signaling channel (a so-called paging channel, also referred to as PCH in the GSM standard) is divided into paging sub-channels (so-called paging sub-channels). Paging information from different paging subchannels is transmitted at different times from the communication network (ie, for example from a base station subsystem). Each mobile radio terminal is assigned to a paging subchannel. For this reason, the receiver only has to be switched on in those time intervals in which information from the corresponding paging subchannel is broadcast. As a result, the power consumption of the terminal is reduced, but the longer the receiver is switched off, the longer the average time it takes to switch through an incoming call. The invention aims at an improvement here with the aim of further reducing the energy consumption and at the same time keeping the mean time until an incoming call is switched through (response time) as short as possible. This object is achieved by a method for transmitting information between a communication network and a communication terminal according to claim 1 and by a communication terminal according to claim 4.

The present invention is based on the idea of reducing the data rate instead of the duty cycle of the receiver in the idle state. Since the power consumption of a communication terminal can decrease with the data rate used for information transmission, this measure leads to a reduction in the power consumption during reception. While in the known methods the power consumption during reception is essentially independent of whether the communication terminal is currently in the idle state or not, and consequently only the average power consumption in the idle state due to short

Duty cycles of the receiving part have been reduced, the invention achieves a reduction in the (instantaneous) power consumption during reception in the idle state. The reception times (switch-on times of the receiver) can therefore be longer in the invention than in the known systems, as a result of which the mean time until incoming calls are switched through or the energy consumption can be reduced.

Advantageous developments of the invention result from the subclaims. The inventive idea of reducing the power consumption of a communication terminal in the idle state during reception by using a low data rate can, of course, also be combined with a time limit or a reduction in the reception times in order to achieve further savings in energy consumption. By a suitable choice of the corresponding parameters, even the average switching time, the energy consumption in the idle state and the receiver sensitivity can be improved at the same time.

Thus, according to an embodiment variant of the invention, a multiplicity of narrow-band channels can be provided, each such channel being assigned to a group of communication terminals for information transmission in the idle state. These channels can be separated from one another in the time domain or in the frequency domain or in other ways known to those skilled in the art. Some of these channels or other narrow-band channels can also be used for information transmission from a communication terminal to the communication network.

The invention can be illustrated with the aid of the following figures:

FIG. 1 schematically shows an embodiment of the invention in which the paging channel is subdivided into a large number of narrow-band paging subchannels which are used next to one another in time. Figure 2 shows a schematic of an embodiment of the

Invention, in which the paging channel is subdivided into a plurality of narrow-band paging subchannels, some of which are used in succession or side by side.

FIG. 3 schematically shows a combination of the embodiments of the invention shown in FIGS. 1 and 2.

FIG. 4 schematically shows a preferred embodiment of the communication terminal according to the invention.

The invention is described in more detail below on the basis of preferred exemplary embodiments and with the aid of the figures.

The invention provides for the use of a narrowband paging channel or a plurality of narrowband paging channels, the bandwidth of which is considerably less than the bandwidth used or required for the actual call transmission. A possible implementation is shown schematically in FIG. 1. Instead of temporally offset paging subchannels, as are used in some conventional mobile radio standards, here is a paging channel (PCH) in narrowband paging subchannels (PSCH1, ..., PSCHn) divided, which are in different subbands (PSB1, ..., PSBn) of the frequency band (PB) of the paging channel. The total bandwidth (PB) available for paging is thus divided into n subbands with a correspondingly low bandwidth. FIG. 2 shows a further particularly advantageous embodiment of the invention, in which the separation of the paging subchannels in the frequency range (f) is combined with a separation in the time range (t). A paging subchannel is defined here by a frequency range (PSB) and a time range (PTS). It is clear to the person skilled in the art from the present description that the decision as to which embodiment of the invention is preferred depends on which quality criterion (sensitivity of the receiver, energy requirement in the idle state or the mean time until a call is switched through to a terminal, etc.) is optimized shall be .

If the receiver (the communication terminal) is e.g. In a public transport system whose body has a strong shielding effect or is far from the nearest base station in a rural area and only the transmission of a character string is important (paging, short message service), the sensitivity of reception should have a higher priority than that

System response time. The invention enables a very flexible reaction to such different circumstances in that, depending on the application, a suitable paging subchannel can be assigned to a communication terminal, the properties of which are adapted to these circumstances as far as possible. Such a variant is shown schematically in FIG. 3. Here the paging channel is composed of different paging subchannels, some of which differ in the size of the time range they occupy. According to the present description, it is clear that paging

Subchannels also in the size of their frequency range (ie in the bandwidth) can distinguish. This could be achieved, for example, by bundling elementary paging subchannels into broadband paging subchannels. The communication terminal can thus optimize its energy consumption in the idle state given the data rate specified by the network and the current reception conditions. In addition, the communication terminal can make its response to a paging call dependent on the transmission conditions and the type of call (voice, data, SMS).

In a further embodiment, the invention enables the paging channel to be divided into subchannels based on the current conditions in the communication network, e.g. in a cell.

A communication terminal according to the present invention has means for adapting its reception bandwidth to the properties of the paging subchannel assigned to it. For this purpose, digital filters are preferably provided, the parameters (i.e. e.g. their filter coefficients) of which can be easily changed when changing to another reception band. Such digital filters are e.g. with the help of suitable software tools that run on suitable signal processors.

The reduction in the bandwidth of the paging subchannels, each of which is assigned to a group of terminals, is accompanied by a reduction in the maximum data rate. This is desirable in view of the reduced power consumption of the end devices. To transmit a certain amount of data with a lower data rate is one accordingly longer time required. For this reason, it is particularly advantageous to structure the information transmitted in the paging channel or in its subchannels in such a way that a terminal which has not just been called can recognize the paging subchannel assigned to it after a fraction of the transmission time. that it is not being called. In this case, the terminal can switch off reception until the next (or later) return of the paging subchannel assigned to it. In this way, the energy consumption can be further reduced without reducing the accessibility.

Such structuring can e.g. can be achieved in that a list of all called terminals is selected at the beginning of a transmission duration of a paging subchannel. Only then would further information, if any, be sent out for these affected devices. According to another embodiment of the invention, it is also possible to start each transmission with the subscriber number of the subscriber to be called. In a corresponding

Communication terminal devices are provided for carrying out a comparison “in real time”; the first time a character does not match, the receiver is switched off and preferably only switched on again for the transmission of the next subscriber number. The transmission of subscriber numbers preferably takes place after a fixed time grid.

The reduction in the data rate, as has been shown in the present description, can reduce the power consumption and thus the energy consumption. be used. By setting a short time grid

Paging subchannel can also be used to reduce the mean time until a call is switched through. And finally, the reduction in the bandwidth of the paging subchannels can also be used to increase the receiver sensitivity. Through a suitable choice of the bandwidths, data rates and time slots of the narrow-band paging subchannels and through a suitable design of the receivers of corresponding communication terminals, it is possible for the person skilled in the art on the basis of the present description to achieve any desired balance between possibly opposite requirements with regard to power consumption, time availability and the Realize reception sensitivity.

A reduction in the power consumption of the terminal can be achieved with a reduced data rate, for example by reducing the cross currents in the receiving stages or by switching off entire amplifier blocks. If, on the other hand, an increase in receiver sensitivity is desired, this can be done e.g. by increasing the cross currents in the receiving stages or by redundant coding of the data to be transmitted. Any combination of these objectives can be achieved by combining these or equivalent measures.

Claims

claims

1. A method for transmitting information between a communication network and a communication terminal, the communication terminal having an idle state, characterized by the use of data rates in the idle state which are low in comparison to data rates in the case of information transmission outside the idle state.

2. The method according to claim 1, characterized by using a plurality of narrow-band channels (PSCH), each such channel being assigned to a group of communication terminals for the transmission of information in the idle state.

3. The method according to claim 2, characterized in that further narrow-band channels are provided for transmitting information from a communication terminal to the communication network.

4. The method according to any one of claims 2 or 3, in which different channels different frequency ranges

(PB1, ..., PBn).

5. The method according to any one of claims 2 or 3, wherein a channel is defined by a frequency range and by a time slot.

6. The method according to claim 5, wherein the size of the frequency ranges and / or time slots of different channels can be different.

7. Communication terminal (KE) with an idle state and means (EM) for receiving information from a communication network (KN) even in this idle state, characterized by a data rate during reception in the idle state, which is low compared to the data rate when received outside the idle state is.

8. Communication terminal according to claim 7, characterized by a power consumption during reception in the idle state, which is low compared to the power consumption when receiving outside the idle state.

9. Communication terminal according to one of claims 7 or 5, characterized by an increased receiver sensitivity in

Hibernation.

10. Communication terminal according to one of claims 7, 8 or 9 with means (SM) for sending information to the communication network at a data rate which is low compared to the data rate when receiving outside the idle state.

11. Communication terminal according to one of claims 7 to 10 with a) means (ONM) for switching on the receiving means (EM) in the idle state at times of a fixed time frame, b) means (CM) for comparing received characters with characters of a subscriber number and c) means (OFFM) to switch off this means of reception until the next time in this time grid, as soon as this comparison has shown a deviation