KR100522883B1 - Demodulation method in wireless telemetry systems using frame combining - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a demodulation method in a wireless telemetry system, and more particularly, to a demodulation method using a frame combining method using time diversity in a CDMA wireless communication system, in particular, a wireless measuring device used in a wireless telemetry system. It is about. In the wireless telemetry system, when the data is transmitted from the central processing center (CU), the same frame is repeatedly transmitted several times, and in the wireless measuring device (RT), the repeated frame is combined to demodulate the demodulated signal. A method of improving the signal to noise ratio is disclosed. According to the present invention, by not using the rake receiver structure in the receiver, it is possible to minimize the hardware complexity of the RT, reduce power consumption, and significantly reduce the manufacturing cost of the modem. The present invention is particularly effective for wireless telemetry systems that must supply and accommodate a very large number of RTs at a low price.

Description

Demodulation method by frame combining method in wireless telemetry system {Demodulation method in wireless telemetry systems using frame combining}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a demodulation method in a wireless telemetry system. More specifically, the present invention relates to a remote terminal (RT) used in a CDMA wireless communication system, particularly a wireless telemetry system. The present invention relates to a demodulation method using a frame combining method using time diversity.

In the code division multiple access (CDMA) scheme, signals transmitted in a multi-path are separated and demodulated in a rake receiver, and the signals of each demodulated path are combined to combine a signal-to-noise ratio. Demodulation is used to improve the performance. However, the rake receiver must have multiple independent demodulators to separate the signals transmitted in multipath, which has become an important cause of increasing the hardware burden of the receiver. In modems for high-quality voice and data communications, such as mobile communication systems, the rake receiver architecture may be an appropriate way to improve performance.However, in a wireless instrument that needs to be implemented at low cost and low power, only for low-speed data transmission. It can be said that it is impossible to use the receiver structure.

FIG. 1 is a diagram schematically illustrating a method of using a rake receiver in an existing CDMA system. Referring to the operation of a rake receiver, a received signal 1 is input to m independent CDMA demodulators 2 and m demodulators. These signals separate signals transmitted through multipaths and demodulate the signals for each path. The demodulated symbols in the CDMA demodulator are combined in the symbol combiner 3, and finally the demodulated symbols 4 are outputted. do. As can be seen from Fig. 1, as the number of demodulators for CDMA increases, the effect of improving the signal-to-noise ratio increases, but the hardware complexity also increases proportionally. This is an unsuitable construction for wireless instruments that need to reduce hardware complexity as much as possible.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to provide a modem for a wireless instrument when transmitting a signal using a code division multiple access (CDMA) method in a wireless telemetry system In order to solve the hardware complexity problem of the modem caused by using the rake receiver structure, a radio that can drastically reduce the hardware of the modem for a radio instrument by using a frame combining technique using time diversity The present invention provides a demodulation method using a frame combining method in a telemetry system.

In order to achieve the object of the present invention as described above, the present invention, in the wireless remote measurement system, when transmitting data in a central processing center (Control Unit, hereinafter referred to as "CU"), the same frame is repeated several times The present invention discloses a method of improving the signal-to-noise ratio of a demodulated signal by combining repeated frames in a wireless measuring instrument (Remote Terminal, hereinafter referred to as 'RT').

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in detail.

2 is a diagram schematically illustrating a method of transmitting data using a pilot channel and data channels to transmit data to a plurality of RTs interspersed with a CU.

In FIG. 2, the CU may transmit a pilot channel 5 for PN code synchronization and synchronous demodulation and may transmit multiple data channels 6, 7 as needed. Multiple data channels 6 and 7 are spread and transmitted in orthogonal code for channel separation. When the period of each data channel 6, 7 is 1 / N of the period of the pilot channel 5, each data channel 6, 7 is repeatedly transmitted N times, so that the frame start position of the pilot channel 5 and The frame start positions of the data channels 6 and 7 are matched in time and transmitted. For example, in the case of the data channel i 6, the frame period is 1 / m of the pilot channel 5 frame period, and thus the same frame is repeatedly transmitted m times. In the case of the data channel j (7), the frame period is 1 / k of the pilot channel, and thus, the same frame is repeatedly transmitted k times.

In RT, when the PN code synchronization is performed through the pilot channel, the frame start position of the pilot channel is known. Since the frame start position of the pilot channel and the data channel position are the same, the frame start position of each data channel is automatically known. have. RT combines the retransmitted frames in time by considering how many data frames have been repeatedly transmitted in one pilot channel period by a preset appointment.

Figure 3 shows a schematic diagram of a receiver using the method according to the present invention.

When using the method according to the invention, it is not necessary to use a rake receiver structure to improve the signal-to-noise ratio. As shown in Fig. 3, in the receiver according to the present invention, the received signal 8 is input to only one CDMA demodulator 9, and in the CDMA demodulator 9, the frame is repeatedly demodulated and transmitted. Will be sent to you (10). The frame combiner 10 accumulates the repeated frame data demodulated and transmitted by the CDMA demodulator 9 by a predetermined number of repetitions, and then outputs the combined final data 11.

4 is a block diagram showing the application of the method according to the present invention to a receiver structure using a plurality of demodulators.

When the signal change is severe in a multi-path fading channel environment, a plurality of CDMA receivers may be used in the demodulation method according to the present invention to increase the reliability of demodulation. In the conventional demodulation method, a method of combining and combining all demodulated signals in m CDMA demodulators is used. However, in the method according to the present invention, only the one having the maximum energy value among m CDMA demodulators is selected for each frame. Send to you. First, the received signal 12 is input to the m CDMA demodulators 13, and among the signals output from the m CDMA demodulators, only those having the maximum energy value are selected by comparing energy (14). It is sent to the binner 15. The frame combiner 15 combines the repeatedly transmitted frame and finally outputs a demodulation symbol 16.

5 is a diagram illustrating a method of performing frame combining in a receiver using the method according to the present invention. If the transmitted data frame consists of N bits, the frame combiner must have N registers 17. When the first frame is demodulated in the CDMA demodulator and transmitted to the frame combiner, the frame combiner stores the demodulated symbols in the N registers 17. In this case, the stored N pieces of data C _{1, j} become demodulated symbol data when the first frame is demodulated.

Next, when the second frame is demodulated and transmitted to the frame combiner, the frame combiner stores the transmitted symbol in addition to the previously stored N symbols. Therefore, N data C _{2, j} stored in the frame combiner after the second frame demodulation is a value obtained by adding symbol data of the first frame and symbol data when the second frame is demodulated.

If the frame is repeatedly transmitted m times, the CDMA demodulator demodulates m frames and transmits them to the frame combiner. After demodulation of the mth frame, the frame combiner combines the m frames. Finally, N symbol data Cm, j are output. The final data C _{m, j} is the sum of symbol data repeatedly transmitted from the first frame to the mth frame.

When demodulation is completed for the mth frame and the combining operation is completed for all frames, the frame combiner outputs the final data and initializes the register for combining the next new frame.

FIG. 6 is a view comparing frame error rates (FERs) of a method according to the present invention and a conventional method in a Rayleigh fading channel environment, which will be described in detail as follows.

In the case of the conventional algorithm 18 which transmits and demodulates a frame only once in the figure, when the rake receiver is not used, the performance is very poor in terms of frame error rate. Increasing the signal-to-noise ratio by 10dB results in a frame error rate of around 60%. However, it can be seen that the proposed algorithm that repeatedly transmits frames, combines them, and demodulates results in much higher performance than the existing algorithms. In the case of transmitting twice repeatedly (19), it can be seen that when the signal-to-noise ratio is increased to 10 dB, the frame error rate drops to 10%.

Increasing the number of iterations leads to higher performance. In the case of the method 20 repeatedly transmitting four times, even if the signal-to-noise ratio is increased up to 7 dB, the frame error rate may be reduced to 1%.

As described so far, unlike the conventional CDMA system demodulation method, the frame combining method using the time diversity disclosed in the present invention can improve the signal-to-noise ratio without using a rake receiver in the modem for the receiver. Reduce hardware complexity. In particular, the disclosed invention can be said to be very effective for a wireless instrument modem requiring very low power operation while being very small in a wireless telemetry system for transmitting low speed data.

The present invention has been described above with reference to an embodiment of the present invention, but the technical scope of the present invention should not be construed as being limited thereto. In addition, since the technical idea according to the present invention may be changed in various uses according to the intention of the person skilled in the art as well as the wireless measurement system, the technical scope of the present invention is not limited to the wireless measurement system.

According to the demodulation method using the frame combining method in the wireless telemetry system according to the present invention, since the rake receiver structure is not used in the receiver, the hardware complexity of the RT can be minimized and the power consumption can be reduced, and the manufacturing cost of the modem can be reduced. There is an effect that can be significantly reduced. The present invention is particularly effective for wireless telemetry systems that must supply and accommodate a very large number of RTs at a low price.

1 is a diagram schematically illustrating a method of using a rake receiver in an existing CDMA system.

2 is a diagram schematically illustrating a method of transmitting data using a pilot channel and data channels to transmit data to a plurality of RTs interspersed with a CU.

3 is a schematic diagram of a receiver using the method according to the invention.

4 is a block diagram showing the application of the method according to the present invention to a receiver structure using multiple demodulators.

5 is a view for explaining a method of performing frame combining in a receiver using the method according to the present invention.

FIG. 6 is a diagram comparing Frame Error Rate (FER) of the proposed method and the conventional method in a Rayleigh fading channel environment. FIG.

Claims (8)

delete The control unit (CU) repeatedly transmits the transmission data in time, and the receiver for the wireless terminal (RT) combines the repeatedly transmitted frames, The RT uses only one CDMA demodulator, and the repeatedly transmitted frame is combined in a frame combiner. The demodulation method according to the frame combining method in a wireless telemetry system. The control unit (CU) repeatedly transmits the transmission data in time, and the receiver for the wireless terminal (RT) combines the repeatedly transmitted frames, The RT uses a plurality of demodulators for CDMA, selects only demodulators having the maximum energy among the plurality of demodulators every frame, and transmits the demodulated symbols in the selected CDMA demodulator to a frame combiner, and repeatedly in a frame combiner. A frame demodulation method according to a frame combining method in a radio telemetry system, characterized in that the frames transmitted by the data are combined. The method according to claim 2 or 3, The frame combiner has only registers corresponding to the number of symbols of the transmitted frame, and combines the repeated frames by accumulating the registers in each register. Demodulation method by inning method. The method according to claim 2 or 3, The CU transmits one pilot channel and a plurality of data channels, and the frame length of each data channel is 1 / N of the pilot channel, and each data frame is repeated N times to start the frame of the pilot channel and the frame of each data channel. A demodulation method according to a frame combining method in a wireless telemetry system, characterized in that the start position is transmitted in the same manner. The method of claim 5, Regardless of the frame length of each data channel transmitted from the CU, the frame start position of each data channel should always be the same as the frame start position of the pilot channel. . The method of claim 2, A first step in which the RT performs PN code synchronization using a pilot channel received from a CU, RT is the second step of determining the frame start position of the pilot channel to start demodulation of the data channel transmitted from that position, RT demodulates data for a predetermined frame length, and then stores the demodulated data in a frame combiner. In step 4, the RT accumulates demodulated data of the data channel repeatedly transmitted until the next pilot channel starts, and then outputs the final output when the combining is finished, and initializes the internal register. A demodulation method according to the frame combining method in a wireless telemetry system, comprising a fifth step of repeatedly performing the second to fourth steps. The method of claim 3, A first step in which m CDMA demodulators of RT independently perform PN code synchronization using a pilot channel received from a respective CU, A second step in which the m CDMA demodulators of RT independently determine the frame start positions of the pilot channels and start demodulation of the data channels transmitted from those positions; Selecting a demodulator having the maximum energy among m CDMA demodulators of RT, The selected CDMA demodulator demodulates data for a predetermined frame length, and then stores the demodulated data in a frame combiner; RT repeats steps 3 and 4 every frame, accumulates demodulated data of the data channel repeatedly transmitted until the next pilot channel starts, and then returns the final output when combining is complete. The fifth step of exporting and initializing the internal registers, And a sixth step of repeatedly performing steps 2 to 5, wherein the demodulation method according to the frame combining method in a wireless telemetry system.