Telecommunications – Radiotelephone system – Zoned or cellular telephone system
Reexamination Certificate
1999-07-20
2002-10-15
Bost, Dwayne (Department: 2681)
Telecommunications
Radiotelephone system
Zoned or cellular telephone system
C455S447000, C370S330000
Reexamination Certificate
active
06466794
ABSTRACT:
FIELD OF APPLICATION OF THE INVENTION
This invention concerns a method and an arrangement for allocation of a traffic channel for a radio connection in a mobile communications system, wherein some radio connections are implemented with a discontinuous transmission function. Continuously transmitted calls are identified in the method.
BACKGROUND OF THE INVENTION
In mobile communications systems of the cellular type it is an aim to arrange the reuse of frequencies as efficiently as possible due to their limited scope. The same frequency may be used again in another cell, which is at least at such a reuse distance from the cell concerned which is determined by mutual interference. By using methods for reducing mutual interference, e.g. discontinuous transmission and frequency hopping, the frequency reuse distance will shorten and the network capacity will grow at the same time.
DTX (Discontinuous Transmission) means a functionality where the transmission of a mobile station or a base station to the radio path can be cut off when the transmitted signal does not contain any information significant to the recipient, e.g. for the time of pauses in speech. This is to reduce the power consumption, which is very essential for the mobile station, and to lower the network interference level.
Discontinuous transmission is generally known in connection with digital mobile communications systems. E.g. in the mobile station and at the base station of a GSM system the speech activity of the transmitted signal is monitored and the transmission to the radio path is cut off when there is no speech information. When speech is resumed, the speech is coded and transmitted to the radio path in the correct time slot. Of course, it is possible to utilise discontinuous transmission only when the contents of the transmission are known, that is, e.g. in connection with speech and non-transparent data transmission. At other times, e.g. in a case of transparent data transmission, the transmission can not be cut off, because it is not known when this can be done without reducing the quality of the service.
Co-channel interference caused by various base station signals and the effect of fading of the signal to be transferred in the radio path can be reduced with the aid of frequency hopping, whereby the frequency used in the radio connection is changed in accordance with a predetermined frequency hopping pattern. Frequency hopping may be implemented as either base-band frequency hopping or for individual transmitters as a change of radio frequency. In base-band hopping, the transmitted signal is connected to the radio path from a fixed-frequency transmitter selected at each moment. In radio-frequency hopping, the transmission frequency of the transmitter is changed by a synthesiser. In both methods hopping is usually carried out in one-burst (time slot) cycles.
GSM is a mobile communications system implemented with TDMA (Time Division Multiple Access) technology wherein each carrier (radio frequency) is time-divided into eight successive time slots of equal length. In each time slot some logical channel is placed, such as a BCH (Broadcast Channel), e.g. a BCCH (Broadcast Control Channel), a CCCH (Common Control Channel), a Dedicated Channel, e.g. SDCCH (Standalone Dedicated Control Channel) or a TCH (Traffic Channel), e.g. as is presented in FIG.
2
.
FIG. 1
in the enclosed drawing shows a simplified block diagram of the GSM (Global System for Mobile communications). The MS (Mobile Station) is connected over a radio path to some BTS (Base Transceiver Station), in the case shown in
FIG. 1
to base transceiver station BTS
1
. The BSS (Base Station System) consists of a BSC (Base Station Controller) and of base stations BTS controlled by the BSC. An MSC (Mobile Services Switching Centre) usually controls several base station systems BSS. The MSC is in connection with other mobile services switching centres and via GMSC (Gateway Mobile Services Switching Centre) the GSM network is connected to other networks, such as a public services telephone network PSTN, another mobile telephone network PLMN, an ISDN network or an intelligent network IN. The operation of the entire system is monitored by an OMC (Operation and Maintenance Centre). Subscriber data of the mobile station MS is stored permanently in the system's HLR (Home Location Register) and temporarily in that VLR (Visitor Location Register) in the area of which the mobile station MS is located at each time.
Base transceiver stations BTS transmit continuously on their broadcast channels such information intended for all mobile stations MS, which contains e.g. a BSIC (Base Station Identity Code), information on frequencies used at the base station and possibly on frequency hopping pattern applied, and adjacent cell information. The mobile station MS performs constant measurements of the signals of base transceiver stations BTS located closest to its location cell, e.g. in order to determine the base station providing the best signal and for a possible cell exchange. From the adjacent cell information transmitted by each base station on its broadcast channel the mobile station MS learns those frequencies of adjacent base stations which it should measure. From the base station identity code BSIC transmitted by each adjacent base station on its broadcast channel the mobile station MS will identify the measured base station. E.g. in a GSM mobile communications system, the mobile station MS can measure, besides the serving base station, also the signal level and/or quality of no more than 32 other base stations at the same time. The base transceiver stations BTS must transmit constantly at the same frequency the broadcast control channel BCCH containing the base station identity code BSIC and there must be transmission in all time slots of this carrier, for a mobile station MS not synchronised with the transmission of an adjacent base station to be able to interpret the base station identity code (BSIC) and to measure the signal level of the adjacent base station. When moving in the area of the mobile communications network, the mobile station MS is connected normally to listen to that base transceiver station BTS which has the most powerful signal. Thus the objective is to form a call terminating at the mobile station MS or a call originated by the mobile station MS primarily via this base transceiver station BTS on a free traffic channel assigned by the base station system BSS.
Continuously transmitted signals are a problem in networks utilising frequency hopping or discontinuous transmission for making the use of frequencies more efficient. When such a signal which is not suitable for discontinuous transmission is transmitted in a network at a frequency planned for shortened reuse distances, interference exceeding the interference level pre-planned will be caused to other cells of the network which use the same frequency and adjacent frequencies. Depending on the number of such interfering transmissions, the interference level may rise in the network to seriously interfere with other traffic, whereby the network capacity will be reduced. On the other hand, if interference which may be caused by continuously transmitted signals is taken into account in the frequency planning, it is not possible to arrange the reuse of frequencies very efficiently.
BRIEF DESCRIPTION OF THE INVENTION
It is a purpose of this invention to adapt a continuously transmitted signal to a radio network designed for discontinuous transmission so that any interference caused to the rest of the network will be minimised.
This new type of channel allocation for a radio connection is achieved with a method according to the invention which is characterised both by the features presented in the introduction and in that a fixed-frequency traffic channel defined as a continuous transmission channel is allocated in the method for a continuous transmission call.
The invention also concerns an arrangement for allocation of a traffic channel in a mobile communications system where some radio con
Peltola Jukka
Posti Harri
Altera Law Group LLC
Bost Dwayne
Contee Joy K.
Nokia Telecommunications Oy
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