Telecommunications – Radiotelephone system – Zoned or cellular telephone system
Reexamination Certificate
2001-06-06
2003-09-02
Le, Thanh Cong (Department: 2684)
Telecommunications
Radiotelephone system
Zoned or cellular telephone system
C455S442000, C370S331000
Reexamination Certificate
active
06615044
ABSTRACT:
FIELD OF THE INVENTION
The present invention generally relates to a mobile telecommunications network and, in particular, to a handover event when a mobile terminal approaches a border of service area of the mobile phone network.
BACKGROUND OF THE INVENTION
In a mobile phone network, the covering area of an operator is divided into cells. A cell corresponds to the covering area of one transmitter or a small collection of transmitters. When the user of a mobile terminal moves between cells, or the radio coverage areas associated with different base station sites, an ongoing call must be switched to a different radio coverage channel or cell. This is known as handover, or handoff.
The starting point of the third-generation mobile system, Universal Mobile Telecommunication System (UMTS) is the new radio interface generally known as Universal Terrestrial Radio Access Network (UTRAN), and the GSM/GPRS base core network.
UTRAN is a conceptual term identifying a part of a radio communication network, wherein a plurality of mobile terminals communicate with each other through one or more base stations. In particular, UTRAN identifies part of the network, which consists of radio network controllers (RNCs) and Node Bs between an interconnection point (Iu) and the radio interface (Uu). The interconnection point (In) is located between an RNC and a core network, and the radio interface (Uu) is located between UTRAN and the user equipment (UE). One of the modes of UTRAN for the user equipment (UE) is the FDD (Frequency-Division Duplex) mode, as distinguished from the time-division duplex (TDD) mode. UE radio transmission and reception (FDD) is described in the Technical Specification (TS) 25.101 v 3.1.0 (1999-12) of the Third Generation Partnership Project (3GPP) and documents referenced therein. UTRAN can operate in two different modes: Wideband Code Division Multiple Access (WCDM) mode and Time Division/Code Division Multiple Access (TD/CDMA) mode.
WCDMA has a bandwidth of 5 MHz or more. However, the nominal bandwidth for all third-generation proposals is 5 MHz. In 3G WCDMA mobile radio networks, the primary means
for keeping a connection for a mobile station from being dropped while moving between different cells of the network uses a procedure known as handover. Handover can be soft handover (SHO) or hard handover. However, SHO is only operational within one operator network on a single 5 MHz UMTS band. In hard handover, the radio frequency band of the connection between the UE and UTRAN is changed or the cell on the same frequency is changed when no network support of macrodiversity exists. Hard handover is possible when the mobile terminal is in the Cell_DCH state (DCH=dedicated channel) and when SHO is not possible within one frequency band of the 3G network. Hard handover is slower and has a higher risk of failure than SHO. When approaching the edge of the network coverage, the mobile terminal must initiate inter-frequency (IF) or inter-system (IS) measurements in an effort to perform a regular HO.
As mentioned above, handover is functionality to keep a connection from being dropped while the mobile terminal is moving from one cell to another cell of the network. However, handover can occur due to a change of radio resources providing a service without necessarily any change of base stations involved. In particular, when the radio resources providing a service change from one of the UTRA modes (UTRA-FDD and UTRA-TDD) to another. Handover can also be due to a change of radio systems, from UMTS to GSM, for example.
In a GSM system, the mobile terminal is the active participant in the handover procedure. The mobile terminal continuously measures the strength of the signal from the serving cell and that of the neighboring cells. The signal strength of the cells can be obtained from the received signal strength indicator (RSSI) measurements of all cells in neighbor list, which is provided by the base station. The signal strength measurements allow the base station controller (BSC) to decide which is the best available cell in order to maintain the quality of the communication link. Two basic algorithms are used for the handover.
With the “minimum acceptable performance” algorithm, the power level of the mobile terminal is increased as the quality of the transmission decreases. A handover is performed when the power increase no longer has effect on the quality of the signal.
With the “power budget” algorithm, the handover is performed when the quality of the signal has deteriorated to a certain degree, without continuously increasing the power level.
When handover is performed from a UTRAN system to a non-UTRAN system, such as GSM, the procedure starts when the UE is receiving the GSM neighbor cell parameters on System Information messages provided on a downlink broadcast control channel (BCCH), or Measurement Control message provided on a downlink dedicated control channel (DCCH). Based on the measurement report from the UE, RNC makes a handover decision. Similarly, when handover is performed from a non-UTRAN system to UTRAN, the procedure starts when the dual-mode UE is receiving the UTRAN neighbor cell parameters on GSM System Information messages. After receiving the measurement report, the GSM BSC makes a handover decision. In GSM, the UE can make inter-system measurements all the time in the same way as normal intra-GSM measurements.
For WCDMA soft handovers, the mobile terminal continuously makes measurements on other cells. For IF and IS handovers, the RNC needs to initiate the measurements by the mobile terminal. Thus, the mobile terminal will not make measurements unless it is particularly commanded. It is desirable and advantageous to provide a method for triggering an IF or IS handover to ensure continuous operation of a mobile terminal as it approaches the border of its current radio network coverage, thereby reducing dropped call rate and improving the quality of a mobile telecommunications network.
SUMMARY OF THE INVENTION
It is a primary object of the invention to ensure continuous operation of a mobile terminal as it approaches the border of its current radio network coverage by way of handover. A successful handover sequence will result in the mobile terminal terminating connection to the original base station and continuing the call at another frequency using the same network system or a different network system. This objective can be achieved by determining in a reliable fashion a point at which the mobile terminal should initiate the search for an alternative network connection by starting the handover measurements.
Accordingly, the present invention provides a method of triggering a handover event in telecommunication networks having a plurality of base stations operated by a plurality of network operators each having one or more frequency carriers, wherein the handover event is used in a frequency division multiplex (FDD) mode of a mobile terminal capable of communicating with one or more base stations of the telecommunication networks over corresponding uplink and downlink, for allowing the mobile terminal to move from the radio coverage area of a first frequency carrier to the radio coverage area of a second frequency carrier while maintaining communication with one or more base stations, wherein the handover event is performed based on signal strength and/or signal quality measurement, said method comprising the steps of:
obtaining a first signal indicative of a triggering parameter;
determining from the first signal whether the triggering parameter has fulfilled a triggering condition regarding a reference value; and
providing a second signal when the triggering parameter has fulfilled the triggering condition for starting the signal strength and/or signal quality measurement.
The triggering parameter can be indicative of a transmission power of the mobile terminal in the uplink, and the reference value is indicative of a threshold value for the transmission power, and wherein the triggering condition is fulfilled when the transmission power has exceede
Artamo Atte
Heikkinen Kai
Holma Harri
Schwarz Uwe
Tigerstedt Karl
Cong Le Thanh
Corsaro Nick
Nokia Mobile Phones Ltd.
Ware Fressola Van Der Sluys & Adolphson
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