Telecommunications – Transmitter and receiver at separate stations – With control signal
Reexamination Certificate
2000-11-13
2003-10-21
Chin, Vivian (Department: 2682)
Telecommunications
Transmitter and receiver at separate stations
With control signal
C455S522000
Reexamination Certificate
active
06636724
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention is directed to a method for indoor operation of a wireless telecommunication device that comprises at least one base station and at least one mobile part, whereby the momentary reception power is measured in the receiver of the mobile part and the reception power value is communicated to the base station for control of the transmission power.
Wireless telecommunication devices, i.e. mobile radio transmission/reception devices that are utilized as terminal devices, are well known. Let, for example, cordless, mobile, satellite, trunk radio telephones and the like be cited here.
In Europe, fixing on the DECT standard (Digital European Cordless Telecommunication Standard) occurs via the European Telecommunication Standard Institute. DECT systems are based on the wireless information exchange between base and mobile stations or mobile parts, whereby the range within a radio cell amounts to up to a few hundred meters. The DECT frequency ranges lie between 1880 and 1900 MHz. The DECT standard can be employed both given individual cell arrangements, for example wireless home telephones in the indoor area, as well as in multiple radio cell arrangements, for example a corporate network.
The standardized radio protocols are designed such that an operation of a plurality of base and mobile stations is possible in the same physical environment since a division of the frequency spectrum into a predetermined plurality of physical channels is undertaken. For example, the DECT standard provides a fixed allocation between physical DECT channels and logical channel numbers. The protocols defined in the standard for the information and message exchange enable the implementation of transmission and communication procedures even when different subscribers are active in a local network of a DECT system.
The message transmission is possible on the basis of various transmission methods, for example FDMA (frequency division multiple access), TDMA (time division multiple access) and/or CDMA (code division multiple access) within the radio standards DECT, GSM or others.
The power or, respectively, energy consumption of the wireless telecommunication device is determined by the type of communication that is specific by different ranges in the transmission of radio messages.
Due to slight transmission range and the relatively slight transmission power given cordless telephones according to the DECT standard, the energy consumption is lower than given comparably operated cellular mobile radiotelephones according to the GSM standard, whereby the latter have transmission powers up to 2000 mW.
EP 0 330 166 B1 discloses that power surpluses in radio systems be avoided by a control of transmission power dependent on the transmission quality as well as on the reception field strength.
As disclosed therein, a combination of a reception level evaluation and a quality evaluation in a base station of the mobile radiotelephone system via the phase jitter determined from the signal incoming in the base station is employed as a control criterion for the control of the transmission power of a mobile handset of a mobile radiotelephone system.
Given the mobile radio transmission/radio reception unit, particularly the mobile part of a cordless telecommunication system according to DE 44 26 255 A1, the mobile part—independently of a reception level evaluation with the base station—should itself be in the position to control the transmission power in order to reduce the power or, energy consumption, so that maximum possible operating duration results in the standby or active mode. It is proposed therefor to design the mobile part such that it is placed in the position of analyzing acquired special information, for example field strength values and/or transmission error values, in order to correspondingly adapt the transmission power with a servo control circuit on the basis thereof. In order to be able to implement the described control of the transmission power, the cordless mobile part disclosed therein is modified such that a control circuit is allocated to a micro-controller, the control circuit being formed of individual program modules implemented in the micro-controller.
The field strength values and transmission error values available in the micro-controller are interpreted and used with the control circuit for regulating the transmission power of the mobile part. The control circuit therein is designed such that the value of the manipulated quantity, i.e. the transmission power to be regulated, follows the changing values of the reference variable, namely the field strength values and the transmission error values. The distance from the base station can be derived from the acquired field strength values, whereas a criterion for the quality of the received radio messages derives from the transmission error values. Following a corresponding interpretation in the micro-controller, the raising or lowering of the transmission power in the radio part is initiated via corresponding ports or registers, for example in a burst mode controller. The known regulation can thereby work both continuously as well as in a few large steps, i.e. discontinuously.
The known transmission power controls at the side of the mobile part for lengthening the operating times or for reducing the energy consumption are activated when the corresponding mobile parts are synchronized with a base station via predetermined protocol frames. However, it is disadvantageous that a plurality of values must be exchanged between the mobile part and the base station or vice versa for the implementation of the control itself, this increasing the channel load and reducing the data rate that is to be otherwise transmitted.
The time variance of the channel or of the channels is extremely slight in the transmission power control in mobile radiotelephone systems and indoor transmission, since it is to be assumed that the respective mobile only moves very slowly, i.e. at a speed of ≦3 km/h. The time dispersion of the respective channel is likewise slight. In other words, the channel under consideration is hardly frequency-selective but time-selective. A suitable, resulting channel model taking the aforementioned circumstances into consideration is that of flat fading (Rayleigh fading channel). Given such a channel model, relatively brief-duration fluctuations in reception signal power result that can exhibit a dynamics of up to a few 10 dB.
Due to the highly fluctuating reception signal power, extremely high values of the ratio of reception signal power to noise power are to be documented in order to achieve a satisfactory bit error rate of the actual data transmission. The variation of the reception signal power in the scenario under consideration can be reduced by the above-described transmission power regulation, whereby it is necessary therefor that the reception signal power be measured at the receiver and these measured values be transmitted to the transmitter on the basis of a suitable signalling, so that the transmission power of the base part can be regulated, as disclosed in the Prior Art. However, the transmission of the measured values from the mobile part to the base station is problematic due to the fast and frequent change of the measured values under certain circumstances.
EP 0 682 417 A2 discloses a method wherein a current signal/interference power ratio is determined in a mobile part and is compared to a predetermined value of this ratio, so that a transmission power control bit is generated dependent on the result of this comparison and is communicated to a base station, whereby the base station determines and sets a new, current transmission power value on the basis of the plurality of successive transmission power control bits with the same value.
SUMMARY OF THE INVENTION
It is therefore an object of the invention to specify a method for indoor operation of a wireless telecommunication device that comprises at least one base station and at least one mobile part, and whereby the base station—with minim
Pillekamp Klaus-Dieter
Reinhardt Markus
Bell Boyd & Lloyd LLC
Chin Vivian
Pan Yuwen
Siemens Aktiengesellschaft
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