JP4559205B2 - Wireless communication system - Google Patents

Description

  The present invention relates to a radio communication system that performs radio communication by switching between a plurality of modulation schemes, and in particular, in a receiving apparatus (reception-side radio device), coefficient updating is performed by switching equalizer parameters according to the modulation scheme. Thus, the present invention relates to a wireless communication system that improves the characteristics of an equalizer.

With the development of wireless communication technology, wireless communication systems for communicating various media data such as voice and images between wireless devices have been widely put into practical use.
As an example of a wireless communication system in which data is communicated in frame units within a wireless communication system and the transmission speed between wireless devices (wireless sections) is variable, it is defined by the Institute of Electrical and Electronics Engineers (IEEE 802.11a). Wireless LAN (Local Area Network) is known. In the wireless LAN system of the standard, wireless packets are transmitted and received between an access point (AP) and a station (STA) or between a plurality of stations (STA).

FIG. 9 shows a wireless section format of the IEEE 802.11a standard.
In the figure, a PLCP preamble part (preamble part) is a bit string for the receiving side radio to synchronize. The SIGNAL part (signal part) is always transmitted at a fixed rate of 6 Mbit / s. The RATE field of the SIGNAL part indicates the transmission rate (transmission speed) of the DATA part (data part).
The receiving side radio of the wireless LAN system synchronizes the received signal with the preamble part, then performs demodulation corresponding to the modulation method of 6 Mbit / s, reads the RATE field of the demodulated SIGNAL part, and continues to the DATA part The transmission rate is determined and the demodulation method is switched. Here, in the first transmission, the DATA section is modulated and transmitted at a transmission rate preset in the system.
When the transmitting side radio device does not receive an ACK response (acknowledgment) from the receiving side, the transmission side radio device switches the transmission speed to a low speed and modulates and transmits it, thereby transmitting according to the response on the receiving side. The speed is variable.

Further, as a method of changing the transmission rate in a wireless communication system, a receiving-side radio detects a data error or a reception level of a received signal and notifies the transmitting-side radio, and the transmitting-side radio determines the transmission rate based on the notification. A technique for changing the transmission rate of a signal to be transmitted thereafter is known (see, for example, Patent Document 1).
Here, in recent years, fixed wireless access systems (FWA: Fixed Wireless Access System) are used by telecommunications carriers using quasi-millimeter waves and millimeter-wave bands (22 GHz, 26 GHz, and 38 GHz) as part of the expansion of use of wireless bands. ) Service is provided, and its introduction is progressing as a means of Internet access and the like.
The cover area radius of FWA is about several kilometers, but in the quasi-millimeter wave and millimeter-wave bands, the amount of attenuation due to rain is large, so a line margin of several tens of dB is required.
In response to this problem, the application of adaptive modulation to FWA has been studied so that long-distance transmission can be performed with relatively small transmission power by switching the modulation method to adapt to fluctuations in the radio channel due to rain attenuation. ing. In other words, communication is performed using a modulation method with a high transmission rate in fine weather, and communication is performed by switching to a modulation method with a low transmission rate during rain, thereby realizing good wireless communication using FWA with a smaller line margin. A method is being considered.

As described above, adaptive modulation is a method that adaptively changes the modulation method in response to changes in radio channel characteristics, and is an effective technique for ensuring efficient transmission capacity in a digital radio system. (For example, refer nonpatent literature 1.).
In general, a modulation scheme having a large number of modulation multi-levels can provide a larger transmission capacity, while a required CNR (Carrier to Noise Ratio) for ensuring a constant bit error rate is higher. .

As an example, two modulation schemes of QPSK (Quadrature Phase Shift Keying) and 16QAM (16 Quadrature Amplitude Modulation) will be described.
QPSK with 4-valued symbols has 2 transmission bits per symbol, and 16QAM with 16-valued symbols has 4 transmission bits per symbol. Therefore, 16QAM can double information transmission. On the other hand, as is clear from the relationship between the CNR and the bit error rate of QPSK and 16QAM shown in FIG. 10, in order to obtain the same bit error rate, for example, 10 ⁻⁴ , 16QAM is approximately compared with QPSK. Requires a 7 dB higher CNR.
In the adaptive modulation scheme, for example, when the CNR is higher than the threshold value Vth shown in FIG. 10, 16QAM is adopted, and when it is lower than this, QPSK is adopted so that the bit error rate does not fall below 10 ^−4. Thus, switching to a modulation scheme with a larger transmission capacity is performed as appropriate while ensuring a minimum transmission quality.
In the above description, the case of two types of modulation schemes has been shown, but it is also possible to combine with BPSK (Binary Phase Shift Keying) with a smaller number of modulation multilevels or 64QAM with a larger number of modulation multilevels. .

Also, in receivers used in digital radio systems, equalizers may be used as a compensation technique for distortion components caused by non-uniformity in the frequency characteristics of the analog part and multiple propagation on the radio transmission path. This is effective for modulation.
FIG. 11 shows a configuration example of the equalizer. This equalizer is an example of a linear equalizer to which the LMS algorithm is applied.
The equalizer of this example includes a received signal input terminal A11, an equalized signal output terminal A12, a complex linear filter 31, an error detector 32 that detects an equalization error included in the equalized output, and a coefficient. An update unit 33 is provided.
The received signal input from the input terminal A11 is compensated for distortion components by the complex linear filter 31 and output from the output terminal A12. Further, the error detection unit 32 detects an equalization error included in the equalization output from the complex linear filter 31, and the coefficient update unit 33 sequentially updates the tap coefficients so that the error is minimized, and the result Is reflected in the complex linear filter 31.

In order to realize an ideal equalizer, it is necessary to obtain a more accurate tap coefficient and reduce the error remaining after equalization as much as possible. The cause of the equalization error is the phase characteristics and amplitude of the received signal. There is a lack of followability with respect to temporal variations in characteristics, and it is necessary to improve followability as much as possible. In addition, a noise component included in the received signal is also a cause of the equalization error, and the equalizer is required to be resistant to this noise at the same time. However, in general, these high tracking ability and high noise resistance are contradictory in principle.
Such equalizer characteristics depend on the parameters used in the coefficient update algorithm. For example, in general, an algorithm called LMS uses a step size as a parameter, and an algorithm called RLS uses a forgetting factor as a parameter.
In the equalizer shown in FIG. 11, these parameters are fixed values, and the characteristics of the equalizer are constant regardless of the modulation scheme.

JP 2003-51781 A Matsuoka et al. “Transmission characteristics analysis of variable rate modulation system with variable symbol rate and modulation”, IEICE Technical Report RCS94-64 (1994/9)

However, an equalizer used for an adaptive modulation system needs to support a wide range of C / N (carrier power to noise ratio) as in the adaptive modulation system. There was a problem that the tolerance of the low.
For this reason, in order to cope with a highly effective adaptive modulation system, it is considered necessary to appropriately set parameters according to the modulation scheme.
The present invention has been made in view of such a conventional situation, and when performing wireless communication by switching between a plurality of modulation schemes, an equalizer according to a modulation scheme is used in a reception apparatus (reception-side radio). An object of the present invention is to provide a wireless communication system capable of improving the characteristics of an equalizer by switching parameters and updating coefficients.

In order to achieve the above object, in the wireless communication system according to the present invention, the transmitting-side wireless device modulates and transmits data, and the receiving-side wireless device receives and demodulates the data, based on the state of wireless communication. When the modulation / demodulation method used by the transmitting-side radio and the receiving-side radio is switched by the mode switching means, the following processing is performed.
That is, in the receiving-side radio, the storage means stores values corresponding to each of the plurality of modulation / demodulation methods, and when the equalization processing means equalizes the received signal using the coefficient, the reading means Based on the switched modulation / demodulation method, the corresponding value is read from the storage means, and the coefficient updating means updates the coefficient of the equalization processing using the read value as a parameter value.

  Therefore, based on the modulation / demodulation method switched for use in wireless communication between the transmitting-side radio and the receiving-side radio, the parameters used to update the equalization processing coefficient in the receiving-side radio Since the value is set, for example, when performing wireless communication by switching between a plurality of modulation schemes, the parameter value of the equalizer is switched to an appropriate value according to the modulation scheme in the receiving apparatus (reception-side radio device). By updating the coefficients, it is possible to improve the characteristics of the equalizer, and thus it is possible to deal with an adaptive modulation system with high effectiveness.

Here, various transmitters may be used as the transmitter-side radio and the receiver-side radio, for example, a transceiver (communication device) having both a transmission function and a reception function may be used. .
As a modulation / demodulation method, a modulation method is used for modulation processing on the transmission side, a demodulation method is used for demodulation processing on the reception side, and a modulation method and a demodulation method corresponding to each other are used on the transmission side and the reception side. .
For example, one of the transmission side and the reception side decides to switch between the modulation method and the demodulation method, performs switching, notifies the other, and the other performs switching according to the notification. Alternatively, switching may be performed independently of each other if modulation and demodulation methods corresponding to each other are used on the transmission side and the reception side.
Also, various wireless communication statuses referred to for switching the modulation / demodulation method may be used. For example, the level of the received signal, the value of the equalization error, the bit error rate, the C / C Information relating to communication quality in the wireless propagation path such as N (carrier power to noise ratio) can be used. As an example, switching to a modulation / demodulation method with a higher communication speed as the communication quality becomes better, and switching to a modulation / demodulation method with a lower communication speed as the communication quality becomes worse.

Various processes may be used as the equalization process, for example, a filtering process using a plurality of coefficients is used.
Further, as a mode for storing values corresponding to each of a plurality of modulation / demodulation methods, for example, a mode for storing values corresponding to each of a plurality of modulation / demodulation methods to be switched is used.
Further, as a mode for reading out the corresponding value from the storage unit based on the switched modulation / demodulation method, for example, a mode of reading the value stored in correspondence with the switched modulation / demodulation method may be used, or the switched modulation / demodulation method A mode in which a value determined based on a method and other conditions is read may be used.
In addition, as an algorithm for updating the equalization processing coefficient, for example, various algorithms such as LMS and RLS may be used. In order to update the coefficient of the equalization process, for example, an equalization error value, a signal to be processed, or the like may be referred to.
Various values may be used as parameter values to be used (values stored in the storage means). For example, a smaller parameter value can be used as the communication speed of the modulation / demodulation method is higher, and conversely, a smaller parameter value can be used as the communication speed of the modulation / demodulation method is lower.

The radio communication system according to the present invention has the following configuration as an example configuration.
That is, in the radio communication system, when there is data to be preferentially communicated between the transmitting-side radio and the receiving-side radio in the radio communication system, among the plurality of modulation / demodulation systems that can be switched, Control is performed so that a modulation / demodulation method whose communication speed is one step higher than that of the modulation / demodulation method switched by the method switching means is used for communication.
The read / write unit of the reception-side radio unit, when there is data to be preferentially communicated with the transmission-side radio unit, can be switched by the mode switching unit among a plurality of switchable modulation / demodulation modes. Based on a modulation / demodulation method whose communication speed is one step higher than that of the method, a corresponding value is read from the storage means.
Therefore, when preferential data exists, the one-step fast modulation / demodulation method is used for communication, and the parameter value based on the one-step fast modulation / demodulation method is used for updating the coefficient of equalization processing. Therefore, it is possible to perform communication processing of preferential data using an appropriate modulation / demodulation method and an appropriate parameter value of equalization processing.

The radio communication system according to the present invention has the following configuration as another configuration example.
That is, the method switching means switches the modulation / demodulation method based on the status of wireless communication and the status of data to be preferentially communicated.
Accordingly, the modulation / demodulation method is switched in consideration of not only the wireless communication status but also the preferential data status, and the parameter value based on the modulation / demodulation method is used for updating the coefficient of the equalization processing. It is possible to perform communication processing using a proper modulation / demodulation method and an appropriate equalization processing parameter value.

Here, various modes may be used as the mode for switching the modulation / demodulation method based on the status of wireless communication and the status of data to be preferentially communicated. It is possible to use a mode in which the mode is switched to a modulation / demodulation method in which the communication speed differs (for example, fast or slow) by a predetermined number of stages as compared with the case where the status of data to be communicated is not taken into consideration.
In addition, various situations may be used for the data to be preferentially communicated. For example, the presence / absence of preferentially communicated data, the amount or number of preferentially communicated data (for example, the number of packets) Or the number of frames), quality required for data to be preferentially communicated, priority or priority of data to be preferentially communicated, and the like.

As described above, according to the radio communication system according to the present invention, when performing radio communication between the transmission-side radio and the reception-side radio by adaptively switching the modulation / demodulation method, Since the coefficient of the equalization process is updated using the parameter value based on the modulation / demodulation method, it is possible to improve the characteristics of the equalizer, thereby supporting a highly effective adaptive modulation system. .
Further, in the wireless communication system according to the present invention, the modulation / demodulation method and the parameter value of the equalization processing are further set based on the status of data that is preferentially communicated between the transmission-side wireless device and the reception-side wireless device. Since switching is performed, for example, it is possible to provide a high-quality communication service corresponding to priority control in QoS (Quality of Service).

Embodiments according to the present invention will be described with reference to the drawings.
FIG. 1 shows a configuration example of an equalizer according to an embodiment of the present invention, and also shows a signal processing unit 6. The equalizer of this example is an example of a linear equalizer.
The equalizer of this example includes a reception signal input terminal A1, an equalization signal output terminal A2, a complex linear filter 1, an error detection unit 2, a coefficient update unit 3, an adaptive modulation control unit 4, A memory reading unit 5 and a plurality of n memories B1 to Bn are provided.
In this example, the number n of the memories B1 to Bn is the number of modulation schemes used for adaptive modulation.

A signal wirelessly received by a receiver provided with the equalizer of this example is input to the input terminal A1, and the signal is input to the complex linear filter 1.
The complex linear filter 1 performs filtering on the input received signal and outputs the filtered signal (equalized signal) to the output terminal A2.
Here, the complex linear filter 1 is configured using, for example, a transversal filter that sets a plurality of tap coefficients and performs filtering according to the values of these tap coefficients.
The signal output from the output terminal A2 is input to the signal processing unit 6 at the subsequent stage.

Further, the error detection unit 2 acquires a part of the signal output from the complex linear filter 1, detects an equalization error included in the equalization output from the complex linear filter 1, and calculates the equalization error. Output to the coefficient update unit 3.
In the coefficient update unit 3, an update algorithm for tap coefficients to be set in the complex linear filter 1 is set, and an equalization error input from the error detection unit 2 using a parameter value specified from the memory reading unit 5. Based on the above, the tap coefficient is updated, and the updated tap coefficient is set in the complex linear filter 1. Note that the coefficient update unit 3 inputs and refers to, for example, a signal input from the input terminal A1 when necessary for updating.
Here, for example, an LMS algorithm or an RLS algorithm is used as the tap coefficient update algorithm. In general, in LMS, a parameter called step size (or even including another name) is used, and in RLS, a parameter called forgetting factor (or including another name) is used. These parameters determine the characteristics of the update, and the characteristics of the update change according to the values of these parameters.

The adaptive modulation control unit 4 receives information (modulation method information) for specifying a modulation method used in a receiver provided with the equalizer of this example. In the receiver, since the received signal is demodulated by a demodulation method corresponding to the modulation method used on the transmission side, for example, information specifying the corresponding demodulation method is used as information specifying the modulation method. May be used.
In this example, the configuration in which the modulation scheme information is input from the signal processing unit 6 to the adaptive modulation control unit 4 is shown. However, as another configuration example, the output from the error detection unit 2 or the like is adaptive modulation control as the modulation scheme information. A configuration input to the unit 4 may be used.
The adaptive modulation control unit 4 outputs information (memory specifying information) specifying a memory (any one of the memories B1 to Bn) corresponding to the modulation method specified by the input modulation method information to the memory reading unit 5. Thereby, the adaptive modulation control unit 4 tells the memory reading unit 5 from which memory the information is read.

  Each of the plurality of memories B1 to Bn stores and stores parameter values corresponding to different modulation schemes. This parameter is used in the tap coefficient updating algorithm in the coefficient updating unit 3. In addition, in the receiver of this example and the transmitter integrated therewith, a plurality of modulation schemes are adaptively switched, and each of the memories B1 to Bn corresponds to each modulation scheme switched in this way. The parameter value is stored. Note that the parameter value varies depending on, for example, the modulation scheme, but the same value may be used for two or more modulation schemes.

The memory reading unit 5 reads the parameter value stored in the memory (any one of the memories B1 to Bn) specified by the memory specifying information input from the adaptive modulation control unit 4, and uses the read parameter value as a coefficient. Specify in the update unit 3.
The signal processing unit 6 receives the signal output from the output terminal A2 of the equalizer of this example, and performs, for example, demodulation processing by a switched demodulation method, radio frame decoding processing, propagation path estimation processing, and the like, thereby Get received data. Further, in this example, the signal processing unit 6 specifies a modulation method to be switched (a demodulation method on the reception side) based on the received signal, and outputs information on the specified modulation method (modulation method information). .

Thus, in this example, according to the switching modulation method (or demodulation method) to be switched, the parameter value of the equalizer corresponding thereto is switched.
Here, various methods may be used as a method for switching the modulation method. For example, the method is switched based on one or more of reception level, equalization error, bit error rate, C / N, and the like. Can do. Further, on the transmission side using the modulation scheme and the reception side using the corresponding demodulation scheme, for example, the transmission side decides to switch the modulation scheme and notifies the reception side of the modulation scheme (or the corresponding demodulation scheme). Alternatively, the reception side may decide to switch the modulation method (or demodulation method) and notify the modulation method to the transmission side, or the transmission side modulation method and the reception side demodulation method May be independently switched between the transmission side and the reception side.

As a specific example, when the modulation method and the parameter value are switched based on the reception level, they are switched by the reception level detection function and determination function provided in the signal processing unit 6 or elsewhere, and equalization is performed. In the case of switching based on the error, the adaptive modulation control unit 4 or a determination function provided elsewhere is used according to the output from the error detection unit 2 (equalization error information used as modulation scheme information). When switching is performed based on the bit error rate, the switching is performed by the bit error rate detection function and the determination function provided in the signal processing unit 6 or elsewhere, and the switching is performed based on C / N. In such a case, switching is performed by the C / N detection function and the determination function provided in the signal processing unit 6 or elsewhere.
Further, when the modulation method is switched on the communication partner side, the information is transmitted to the reception side, and the reception side switches the modulation method (demodulation method on the reception side) based on the received information.

An example of the operation performed in the equalizer of this example will be shown.
The reception signal input from the input terminal A1 is compensated for distortion components by the complex linear filter 1 and output from the output terminal A2. Further, the error detection unit 2 detects an equalization error included in the output. The coefficient updating unit 3 sequentially updates the tap coefficients so as to minimize the equalization error using the optimum parameter value in each modulation method, and reflects the result in the complex linear filter 1. The optimum parameter value is read out from the corresponding memory (any one of the memories B1 to Bn) by the memory reading unit 5 based on the signal corresponding to the modulation method output from the adaptive modulation control unit 4 and the coefficient. It is sent to the update unit 3.

In the above description, the configuration example in which the parameter value of the tap coefficient update algorithm is switched according to the modulation scheme (or the corresponding demodulation scheme) to be switched has been described. However, as another configuration example, QoS (quality It is also possible to use a configuration in which the parameter value is switched based on the situation such as priority control in the service).
For example, the signal processing unit 6 or elsewhere manages the status of priority control in QoS, and manages data to be preferentially communicated. If there is such priority data, the priority data communication is compared with the modulation scheme corresponding to the parameter value when this is not taken into account (that is, compared with the above case), one stage. A parameter value corresponding to a fast (or weak to one stage error) modulation method is selected and used.
Here, a control function for specifying which parameter value to select based on the status of modulation system switching and priority control, for example, the parameter selected as compared with the case where priority control is not considered. For example, the control function for shifting the value may be provided in the adaptive modulation control unit 4 or may be provided in another place such as the signal processing unit 6.

As described above, the equalizer of the present example is provided on the reception side of the communication apparatus in the adaptive modulation system that adaptively switches the modulation scheme of radio communication, and has the following configuration.
That is, memories B1 to Bn having storage tables for storing parameter values for equalizers corresponding to the respective modulation schemes, and a plurality of memories B1 to B1 based on a signal to that effect when the modulation schemes are adaptively switched. An adaptive modulation control unit 4 and a memory reading unit 5 for selecting a corresponding equalizer parameter value from one of Bn, and an error detection unit 2 using the equalizer parameter value selected by the memory reading unit 5 A coefficient updating unit 3 that performs coefficient updating of the complex coefficient filter 1 based on the detection result is provided.

In this example, the same number of memories B1 to Bn that store parameter values of the equalizer as the modulation schemes used for adaptive modulation are provided, and the range of C / N (carrier power to noise ratio) in which each modulation scheme is used. The optimum parameter values (for example, time constant parameter values) are written in advance in the memories B1 to Bn, and the parameter values are read from the corresponding memories by the modulation method to update the coefficients.
Therefore, in the equalizer of this example, when the modulation scheme (for example, QAM or PSK) is adaptively switched by adaptive modulation according to the propagation path characteristics, the optimum parameter (for example, step size) for each modulation scheme is selected. For example, an equalizer coefficient (in this example, a tap coefficient) that is more accurate than the conventional one can be obtained by performing the coefficient update process using the value of the forgetting coefficient). Thereby, an equalizer suitable for an adaptive modulation system corresponding to a wide range of C / N can be realized, and an equalizer corresponding to a highly effective adaptive modulation system can be realized.

Further, in the equalizer of this example, it is also possible to perform processing in consideration of priority control in QoS.
For example, in the configuration as described above, when there is priority data based on priority control in QoS control as a modulation method and a parameter value for an equalizer corresponding thereto, it is one step faster (or weak to one step error). ) Select the modulation method and the corresponding parameter value for the equalizer.
Therefore, the coefficient updating process can be performed using the optimal parameter value according to the situation such as the priority control in the QoS control, and an equalizer with high effectiveness can be realized.

Here, an example of a wireless device provided with the equalizer of this example is shown.
In a radio communication system that transmits and receives radio section signals in units of frames, the radio units that make up the radio communication system modulate a data by a plurality of modulation schemes, and a demodulation function that demodulates a signal modulated by a plurality of modulation schemes And a channel estimation function for estimating the channel quality and selecting a modulation scheme corresponding to the channel quality. The radio apparatus starts communication using a predetermined modulation method, and then switches to a modulation method corresponding to the channel quality estimated by the channel estimation function and performs communication. In addition, when switching the modulation method, the wireless device includes information indicating the modulation method to be switched in a frame transmitted before the frame for switching the modulation method, and notifies the opposite wireless device of the modulation method. Notification of change.

  Therefore, in such a wireless device, since communication is started with a modulation method determined in advance between wireless stations at the start of communication, synchronization pull-in can be easily performed without notifying the modulation method between wireless stations. . For example, if communication is started with a modulation method corresponding to a low transmission rate, synchronization between wireless stations can be easily obtained even when the propagation path condition is bad. After synchronization between the radio stations is established, the modulation system is switched to a modulation method corresponding to the propagation path condition, so that the wireless station can communicate at a transmission rate suitable for the propagation path condition. Furthermore, since the FWA which is a subscriber radio can expect a stable propagation path condition for a long time, when notifying the opposite radio unit of the change of the modulation method, it is sufficient to notify the frame before the transmission of the changed frame. is there. This eliminates the need for high-speed switching processing in the wireless device, thereby realizing an economical wireless communication system. Further, since there is a time margin for executing processing corresponding to the band change, the routing path and the QoS control in the wireless communication system can be switched in time for the change in the wireless section band, which is effective in avoiding packet loss. Thus, an adaptive modulation wireless communication system with good transmission efficiency suitable for FWA can be realized.

Note that in the equalizer of the radio device on the receiving side in the wireless communication system of this example, the equalization processing means is configured by the function of the complex linear filter 1, and the storage means is configured by the functions of the memories B1 to Bn. The function of the adaptive modulation control unit 4 and the function of the memory reading unit 5 constitute a reading unit, and the function of the error detection unit 2 and the function of the coefficient updating unit 3 constitute a coefficient updating unit.
In addition, in the wireless device on the transmitting side and the receiving side in the wireless communication system of the present example, it has a function of a method switching means for switching the modulation / demodulation method based on one or both of the wireless communication status and the priority data status, or A function switching means for switching the modulation / demodulation system based on the wireless communication status and a function of a system control means for correcting the switched modulation / demodulation system to another speed when considering the priority data status are provided.

Next, a detailed example of adaptive modulation will be described. Note that adaptive modulation is not limited to the following, and various modes can be used.
For example, in a conventional wireless communication system, when the transmission rate is to be changed, the transmitting side radio first transmits a signal at a predetermined transmission rate, and whether or not there is an acknowledgment from the receiving side radio that receives this signal. Alternatively, a notification of a data error or reception level is received, and the transmission rate of data to be transmitted thereafter is changed based on the information received from the receiving side wireless device.
Thus, in the prior art, since the transmission rate of transmission data is subsequently changed based on the wireless communication status of the signal transmitted to the receiving side, the error occurrence rate and the number of retransmission processes are increased, and the efficient wireless It could not be said that transmission was realized.
In particular, when adaptive modulation is applied to FWA, data is transmitted using a plurality of modulation schemes. Therefore, if the reception radio device does not know the modulation scheme of the received signal, the received data cannot be demodulated. There are specific challenges like this.

  As a method of notifying the receiving side radio apparatus of the modulation method, there is a method of fixing the modulation method at the head of each wireless packet and designating the modulation method of the data part in that portion as in the IEEE802.11a standard. The wireless LAN defined by the standard is premised on semi-fixed communication and ad hoc communication, and the access method in the wireless section is CSMA / CA (Carrier Sense Mu1tip Access / Collection Avidance). In CSMA / CA, since the transmitting radio transmits a wireless packet after detecting a non-signal for a certain period of time, it is easy to determine the beginning of the packet, but a non-signal period of a certain time is required. In addition, it is assumed that the wireless LAN usage environment is indoors, and fluctuations in the wireless propagation path environment are difficult to predict. Therefore, if transmission fails for each packet, the transmission is switched to a lower transmission speed each time and retransmitted. .

  On the other hand, since the quasi-millimeter-wave and millimeter-wave band FWAs are fixed communications, FDD (Frequency Division Duplex) and TDD (Time Division Duplex) can be applied as access methods between radios. In TDD, no signal interval between wireless transmission units (frame packets) is not necessary. In addition, FWA is basically wireless communication between fixed stations that are in line of sight, and a stable propagation path condition can be expected over a long period of time. Therefore, switching of the modulation method in a short time is unnecessary. In spite of such characteristics, there is a problem that transmission efficiency is extremely deteriorated when a method such as IEEE 802.11a is applied when adaptive modulation is applied to FWA.

The present embodiment has been made in view of the above-described conventional circumstances, and wireless communication in which a transmission-side wireless device modulates and transmits data in units of frames, and a reception-side wireless device wirelessly receives and demodulates the data. The system aims to realize efficient wireless transmission.
In particular, the present embodiment is aimed at realizing the application of adaptive modulation to FWA while avoiding a decrease in transmission efficiency.
As described above, the present embodiment relates to a wireless system that wirelessly communicates data in units of frames between wireless devices, and more particularly, to a wireless communication system in which a modulation method is variable according to the state of wireless communication.

This embodiment will be specifically described.
This embodiment is an example in which adaptive modulation is applied to an FWA wireless communication system as shown in FIG. In this FWA wireless communication system, a plurality of terminal station devices 22 are fixedly installed in a wireless communication service area of a base station device 21 that is fixedly installed, and wireless communication between the base station device 21 and the terminal station device 22 is performed. The base station apparatus performs data communication between user terminal apparatuses (not shown) such as PCs connected to the terminal station apparatus 22 and data communication with a backbone line connected to the base station apparatus 21 through communication. 21.

Each of the base station device 21 and the terminal station device 22 is a station device having a radio function, and these radio function portions have a configuration as shown in FIG.
In the FWA wireless communication system, since data is transmitted and received between the base station device 21 and the terminal station device 22, both the base station device 21 and the terminal station device 22 are on the transmission side or the reception side. In the following, for the sake of simplicity, the base station apparatus 21 to the terminal station apparatus are assumed to have a radio apparatus constituting the base station apparatus 21 as a transmission side radio apparatus and a radio apparatus constituting the terminal station apparatus 22 as a reception side radio apparatus. A case where data is wirelessly transmitted to 22 in units of frames will be described as an example.

As shown in FIG. 2, the radio function unit (radio device) on the transmission side includes a radio frame encoding unit 11, a modulation unit 12, a transmission RF unit 13, a duplexer 14, an antenna unit 15, a reception RF unit 16, and a demodulation unit. 17, a radio frame decoding unit 18, and a propagation path estimation unit 19.
The radio function unit (radio device) on the reception side has the same configuration, but as will be described later, the demodulation process performed by the demodulation unit 17 in accordance with the modulation method notified from the transmission side radio device. It has a function to change the method.
In the transmission side radio having the above configuration, the radio frame encoding unit 11 divides transmission data into frame units, performs error correction encoding processing, training bit and guard bit addition processing, and transmits a transmission frame to the radio section. create. The radio section transmission frame is modulated by the modulation unit 12 using a predetermined modulation method, converted to a radio frequency by the transmission RF unit 13, and wirelessly transmitted from the antenna unit 15 to the space via the duplexer 14.
On the other hand, when receiving by the said radio | wireless machine, a radio signal is received from the antenna part 15, The received radio signal is converted into a baseband signal by the receiving RF part 16 via the duplexer 14, and this baseband signal Is demodulated by the demodulator 17 in a method corresponding to the modulation method. The demodulated data is subjected to error correction decoding by the radio frame decoding unit 18 to obtain received data. In other words, as will be described later, the radio device on the receiving side performs a process of switching the demodulation method by the demodulator 17 to correspond to the modulation method on the transmitting side in accordance with the information notified from the transmitting side radio device.

In the transmitter-side radio, in addition to the data transmission / reception processing as described above, the propagation path estimation unit 19 estimates the propagation path state from the output signal of the demodulation unit 17, and selects the optimum modulation method according to the estimation result. Thus, the modulation scheme to be switched is specified for the radio frame encoding unit 11 and the modulation unit 12. Then, as will be described later, the radio frame encoding unit 11 creates a transmission frame including information indicating the designated modulation method, and the modulation unit 12 changes the modulation method with a predetermined delay.
In general, the parameters for estimating the propagation path condition include a reception level, an equalization error, a bit error rate, and the like. In this example described below, communication in a wireless transmission path is performed according to the reception level of the received signal. Detecting the situation.

Here, the propagation path estimation unit 19 has a table in which the modulation scheme and code information for identifying each modulation scheme are set in advance corresponding to the reception level as shown in FIG. Receives the reception level information of the received signal detected by the demodulator 17 constantly or periodically, refers to the table shown in FIG. 4, selects a modulation method corresponding to the detected reception level, and selects the selected modulation method. The code information shown is notified to the radio frame encoding unit 11 and the modulation unit 12.
In this example, specifically, when the reception level is −60 dBm or more, the 64QAM modulation method is selected and code information “3” is notified, and when the reception level is −67 to −60 dBm, the 16QAM modulation method is selected. Is selected and the code information “2” is notified. When the reception level is −75 to −67 dBm, the QPSK modulation method is selected and the code information “1” is notified, and the reception level is −75 dBm or less. Selects the BPSK modulation method and notifies the code information “0”. That is, the modulation scheme is switched so that stable communication can be obtained as the communication status of the wireless transmission path becomes worse.

FIG. 5 shows a configuration of a data transmission frame format for wireless communication between the base station radio and the terminal station radio in this example.
The frame for data transmission includes a training bit (TRN) for timing synchronization, a block for maintenance information (RCB: Radio Control Block) including information (MODTYPE) indicating a modulation method, and a block (DTB: Data Traffic) for storing data traffic. Block) and guard bits (G) for delimiting between frames.
The radio frame encoding unit 11 sets code information indicating the modulation method in MODTYPE of the data transmission frame, and notifies the modulation method to be switched to the counterpart station radio.
The RCB does not need to be transmitted every frame, but may be transmitted every several frames or when the modulation method is switched, and in other cases, the DTB may be transmitted instead.

Next, communication processing and modulation system switching processing by the FWA wireless communication system having the above configuration will be described.
The FWA wireless communication system according to this example realizes data communication between stations by connecting the base station device 21 and the terminal station device 22 by P-P (Point to point).
FIG. 6 shows a connection procedure between the base station apparatus 21 and the terminal station apparatus 22 in the case of PP connection. After resetting by turning on the power, the base station device 21 starts transmitting a synchronization code, and the terminal station device 22 starts reception synchronization supplementation by the synchronization code received from the base station device 21. Then, when reception synchronization is established, the terminal station device 22 starts transmission of a synchronization code, and the base station device 21 starts reception synchronization supplementation with the synchronization code received from the terminal station device 22.
The base station apparatus 21 may start reception synchronization supplementation together with the start of transmission of the synchronization code, for example.

When the reception synchronization is established, the base station apparatus 21 starts data transmission using the data transmission frame. When the terminal station apparatus 22 receives the data transmission frame, the base station apparatus 21 performs data reception processing, and also transmits the data transmission frame. Use to start data transmission.
As the modulation method for the synchronization frame and the data transmission frame, the same modulation method set in advance between the base station device 21 and the terminal station device 22 is used in the initial stage. That is, in this example, any one of the above-described 64QAM modulation, 16QAM, QPSK, and BPSK modulation schemes is initially used.
By starting communication in such a procedure, synchronization is established between the base station apparatus 21 and the terminal station apparatus 22, and transmission / reception of data is started using a preset modulation scheme.

After starting data communication as described above, processing when switching the modulation method by adaptive modulation will be described. Adaptive modulation implements efficient communication by switching the modulation method according to the propagation path condition.
In this example, the propagation path estimation unit 19 estimates the propagation path condition using the reception level, and the propagation path estimation unit 19 selects from the table the modulation method corresponding to the reception level information input from the demodulation unit 17. Then, the radio frame encoding unit 11 and the modulation unit 12 are notified of code information representing the modulation scheme. The radio frame encoding unit 11 generates a radio frame including code information indicating the notified modulation scheme when creating a frame for data transmission. That is, when the radio frame is transmitted to the reception-side radio device via the modulation unit 12, the transmission RF unit 13, the duplexer 14, and the antenna unit 15, the modulation scheme to be switched to the reception-side radio device is notified. .

FIG. 7 shows a modulation processing procedure that circulates every frame by the modulation unit 12, and FIG. 8 shows a demodulation processing procedure that circulates every frame by the demodulation unit 17. Note that the demodulation processing by the demodulator 17 performs demodulation processing by switching to the demodulation method corresponding to the modulation method based on the code information indicating the modulation method notified from the radio device on the transmission side.
As shown in FIG. 7, the modulation unit 12 reads code information indicating the modulation method notified from the propagation path estimation unit 19 for each frame process, and the notified modulation method is currently used for modulation. It is determined whether or not they are different (step S1). If they are not different, the transmission frame is modulated by the currently set method (step S3). On the other hand, if they are different, the modulation unit 12 sets a predetermined integer value N in an internal transmission frame counter (TxCounter) and sets a transmission flag (TxFlag) to “1” (step S2), and is currently set. (Step S3).

In this way, every time one transmission frame is modulated, it is determined whether the transmission flag (TxFlag) is “1” (step S4). If the transmission flag is reset and not “1” as described later, the next frame is determined. On the other hand, if it is “1”, the value of the transmission frame counter (TxCounter) is decremented by 1 (ie, N−1) (step S5). Then, it is determined whether or not the value of the transmission frame counter (TxCounter) has become zero (step S6). If it is not “0”, the process proceeds to the determination process of step S1 to process the next frame. In the case of “0”, switching to the modulation method previously notified from the propagation path estimation unit 19 is performed and the transmission flag (TxFlag) is reset to “0” (step S7) to process the next frame. The process proceeds to the determination process in step S1.
That is, when the modulation channel change is notified from the propagation path estimation unit 19, the number of transmission frames defined by the counter value N is modulated, and then switched to the notified modulation method.

  On the other hand, as shown in FIG. 8, in the receiving-side radio, code information indicating the modulation method is separated from the data transmission frame after error correction decoding by the radio frame decoding unit 18, and the code information is demodulated by the demodulation unit. 17 is notified. The demodulator 17 determines whether or not the modulation scheme specified by the notified code information indicating the modulation scheme is different from the modulation scheme corresponding to the demodulation scheme currently used for demodulation (step S11). In this case, the received frame is demodulated by the currently set method (step S13). On the other hand, if they are different, the demodulator 17 sets a predetermined integer value M in the internal reception frame counter (RxCounter) and sets a reception flag (RxFlag) to “1” (step S12), and is currently set. The demodulating process is performed by the above-described method (step S13).

In this way, each time one received frame is demodulated, it is determined whether the reception flag (RxFlag) is “1” (step S14). If the received flag is reset and not “1” as described later, the next reception is performed. In order to process the frame, the process proceeds to the determination process in step S11. On the other hand, if “1”, the value of the reception frame counter (RxCounter) is decremented by 1 (that is, M−1) (step S15). Then, it is determined whether or not the value of the reception frame counter (RxCounter) has become zero (step S16). If not “0”, the process proceeds to the determination process of step S11 to process the next frame. If it is “0”, it switches to the demodulation method corresponding to the modulation method previously notified from the radio frame decoding unit 18 and the reception flag (RxFlag) is reset to “0” (step S17), and the next frame The process proceeds to the determination process of step S11.
In other words, when switching of the modulation method is notified from the radio frame decoding unit 18 (that is, when a frame including the notification information is received), the notification is made after demodulating the number of received frames defined by the counter value M. It is possible to switch to a demodulation method corresponding to the modulation method.

Here, the value N of the transmission frame counter (TxCounter) and the value M of the reception frame counter (RxCounter) are theoretically set to the same value in order to achieve frame synchronization. The value of N is determined in consideration of the frame period, the time required for the radio to switch between modulation and demodulation methods, the time required for switching various controls in the radio communication system, and the value of M is the processing delay of the radio And frame synchronization may be established for switching between the modulation method and the demodulation method.
Note that the propagation path estimation unit 19 may select a modulation method using a time average value of the reception level as necessary in order to absorb the fluctuation of the reception level. The propagation path estimation unit 19 can also be configured to perform propagation path estimation using the error correction decoding result of the radio frame decoding unit 18. Moreover, although the case where the base station apparatus 21 and the terminal station apparatus 22 are connected by P-P has been described, in this embodiment, P-MP (Point to MultiPoint) is performed between the transmitting-side radio apparatus and the receiving-side radio apparatus. ) Applicable when connecting.

  As described above, according to the present embodiment, the following effects can be obtained. Since the wireless device starts communication with a predetermined modulation method between wireless stations at the start of communication, synchronization can be easily acquired without notifying the modulation method between wireless stations. For this reason, for example, if communication is started with a modulation method corresponding to a low transmission rate, synchronization between wireless stations can be easily acquired even when the propagation path condition is bad. Then, after establishing synchronization between the radio stations, the modulation system is switched to a modulation scheme corresponding to the propagation path condition, so that the radio station can communicate at a transmission rate suitable for the propagation path condition. Furthermore, in FWA, a stable propagation path condition can be expected over a long period of time. Therefore, when notifying a corresponding radio device of a change in modulation scheme, it is sufficient to notify in a frame prior to transmission of a frame for changing the scheme, This eliminates the need for high-speed switching processing in the wireless device, thereby realizing an economical wireless communication system. In addition, since there is a time margin for executing processing corresponding to the bandwidth change, the routing route and QoS (Quality of Service) control in the wireless communication system can be switched in time for the change of the wireless zone bandwidth, thereby avoiding packet loss. It is effective for.

As described above, in this embodiment, the transmission side wireless device modulates and transmits data in units of frames, and the reception side wireless device wirelessly receives and demodulates the data. A determination unit that determines a wireless communication state based on a received signal, a method switching unit that switches a modulation method according to the determined wireless communication state, and a frame that modulates information indicating the modulation method to be switched by the switched method. And a notification means for transmitting to the reception side radio unit included in the previous frame, whereby the reception side radio unit changes the modulation method that the transmission side radio unit switches based on self-determination. Knowing in advance, the received data can be demodulated in a corresponding manner.
Further, in this embodiment, an FWA wireless communication system that wirelessly transmits and receives data in frame units between a terminal station apparatus and a base station apparatus that are fixedly installed, and constitutes a base station apparatus or a terminal station apparatus The wireless device modulates the information indicating the modulation method to be switched using the switching method, the determination unit that determines the wireless communication state based on the received signal, the method switching unit that switches the modulation method according to the determined wireless communication state And a notification means for transmitting to a radio station constituting a terminal station apparatus or base station apparatus that is a communication partner included in a frame before the frame, thereby providing a terminal station on the receiving side The radio constituting the device or the base station device knows in advance the modulation scheme to be switched by the transmitting radio based on self-determination, and demodulates the received data using the corresponding scheme. It can be carried out.

More specifically, in the present embodiment, for example, the transmitting-side radio starts communication with a predetermined modulation scheme, and then uses a modulation scheme corresponding to the propagation path quality estimated by the propagation path estimation means (determination means). Switch to communicate. Here, when the transmission-side radio switches the modulation method by the method switching unit, the information indicating the modulation method switched by the notification unit is included in the frame transmitted before the frame for switching the modulation method, and the corresponding reception-side radio This notifies the machine, thereby giving prior notice of the modulation method.
Therefore, since communication is started with a predetermined modulation method between the wireless devices when communication is started, synchronization can be easily pulled in without notification of the modulation method between the wireless devices. Then, after synchronization is established between the radios, the modulation method is switched to the radio channel conditions, so that the radios can communicate at a transmission rate suitable for the channel conditions.

In addition, since the FWA can expect a stable radio channel condition over a long period of time, when notifying the corresponding receiver radio unit of the change of the modulation method, the notification is performed in the transmission frame immediately before the transmission of the frame to be changed. This is sufficient, so that a high-speed switching process is not necessary in the wireless device, and an economical wireless communication system can be realized. In addition, since there is a time margin for executing processing corresponding to the bandwidth change, the routing path and QoS control in the wireless communication system can be switched in time for the change in the wireless zone bandwidth, which is also effective in avoiding packet loss. .
According to the present embodiment, the modulation method is switched based on the self-determination of the wireless communication status by the transmitting-side radio, and the method switching is notified to the receiving-side radio in advance. It is possible to realize a wireless communication system using an adaptive modulation scheme with good transmission efficiency that performs modulation / demodulation using an appropriate method.

Here, the configurations of the wireless communication system and the communication station device (base station device, terminal station device, etc.) according to the present invention are not necessarily limited to those described above, and various configurations may be used. The present invention can also be provided as, for example, a method or method for executing the processing according to the present invention, a program for realizing such a method or method, or a recording medium for recording the program. It is also possible to provide various devices and systems.
The application field of the present invention is not necessarily limited to the above-described fields, and the present invention can be applied to various fields.
In addition, as various processes performed in the wireless communication system and the communication station apparatus (base station apparatus, terminal station apparatus, etc.) according to the present invention, for example, in a hardware resource including a processor, a memory, etc., the processor is a ROM (Read A configuration controlled by executing a control program stored in (Only Memory) may be used. For example, each functional unit for executing the processing may be configured as an independent hardware circuit. .
Further, the present invention can be grasped as a computer-readable recording medium such as a floppy (registered trademark) disk or a CD (Compact Disc) -ROM storing the control program, or the program (itself). The processing according to the present invention can be performed by inputting the program from the recording medium to the computer and causing the processor to execute the program.

It is a figure which shows the structural example of the equalizer which concerns on one Example of this invention. It is a figure which shows the structural example of a radio | wireless machine. It is a figure which shows the structural example of a FWA radio | wireless communications system. It is a figure which shows an example of the correspondence table of a reception level and a modulation system. It is a figure which shows an example of a frame format. It is a figure which shows an example of a connection process. It is a figure which shows an example of the procedure of a modulation process. It is a figure which shows an example of the procedure of a demodulation process. It is a figure which shows an example of a frame format. It is a figure which shows the example of the characteristic of a bit error rate. It is a figure which shows the structural example of an equalizer.

Explanation of symbols

  1, 31... Complex linear filter, 2, 32 .. Error detection unit, 3, 33 .. Coefficient update unit, 4.. Adaptive modulation control unit, 5 .. Memory reading unit, 6 .. Signal processing unit, A1 , A11, input terminal, A2, A12, output terminal, B1 to Bn, memory, 11, radio frame encoding unit, 12, modulation unit, 13, transmission RF unit, 14, duplexer, 15 .. Antenna unit, 16 .. Reception RF unit, 17 .. Demodulation unit, 18 .. Radio frame decoding unit, 19 .. Propagation path estimation unit, 21 .. Base station device, 22.

Claims (2)

Modulation / demodulation used by the transmitting-side radio and the receiving-side radio based on the status of radio communication based on the situation of radio communication. The transmitting-side radio modulates and transmits data, and the receiving-side radio receives and demodulates the data. In an FWA wireless communication system that switches a method by a method switching means,
The wireless communication system is a wireless communication system that starts communication with a modulation method corresponding to a low transmission rate predetermined between wireless stations at the start of communication,
Transmit data from the transmitter radio to the receiver radio using a data transmission frame,
The transmitting-side radio includes notification means for transmitting to the receiving-side radio by including information indicating a modulation scheme to be switched in a data transmission frame transmitted before the data transmission frame for switching the modulation scheme;
When the receiving radio determines that the modulation method can be switched based on the information included in the data transmission frame received from the transmitting radio, the receiving radio sets a predetermined integer value in the received frame counter. The received frame is demodulated by the currently set method, and each time the received frame is demodulated, the value of the received frame counter is decremented by one, and when the value of the received frame counter becomes 0, In addition to having a means for switching the demodulation method corresponding to the transmitter radio,
Equalization processing means for equalizing the received signal using a coefficient;
Storage means for storing values corresponding to each of a plurality of modulation / demodulation methods;
Reading means for reading a corresponding value from the storage means based on the switched modulation / demodulation method;
Coefficient update means for updating the coefficient of the equalization processing using the read value as a parameter value,
Furthermore,
The radio communication system is a modem that is switched by the mode switching means among a plurality of modes that can be switched when there is data to be preferentially communicated between the transmitter radio and the receiver radio. Comprising a system control means for controlling so that a modulation / demodulation system whose communication speed is one step faster than the system is used for communication;
The read / write unit of the reception-side radio unit, when there is data to be preferentially communicated with the transmission-side radio unit, can be switched by the mode switching unit among a plurality of switchable modulation / demodulation modes. A corresponding value is read from the storage means based on a modulation / demodulation method whose communication speed is one step higher than the method,
A wireless communication system. Modulation / demodulation used by the transmitting-side radio and the receiving-side radio based on the status of radio communication based on the situation of radio communication. The transmitting-side radio modulates and transmits data, and the receiving-side radio receives and demodulates the data. In an FWA wireless communication system that switches a method by a method switching means,
The wireless communication system is a wireless communication system that starts communication with a modulation method corresponding to a low transmission rate predetermined between wireless stations at the start of communication,
Transmit data from the transmitter radio to the receiver radio using a data transmission frame,
The transmitting-side radio includes notification means for transmitting to the receiving-side radio by including information indicating a modulation scheme to be switched in a data transmission frame transmitted before the data transmission frame for switching the modulation scheme;
When the receiving radio determines that the modulation method can be switched based on the information included in the data transmission frame received from the transmitting radio, the receiving radio sets a predetermined integer value in the received frame counter. The received frame is demodulated by the currently set method, and each time the received frame is demodulated, the value of the received frame counter is decremented by one, and when the value of the received frame counter becomes 0, In addition to having a means for switching the demodulation method corresponding to the transmitter radio,
Equalization processing means for equalizing the received signal using a coefficient;
Storage means for storing values corresponding to each of a plurality of modulation / demodulation methods;
Reading means for reading a corresponding value from the storage means based on the switched modulation / demodulation method;
Coefficient update means for updating the coefficient of the equalization processing using the read value as a parameter value,
Furthermore,
The method switching means switches the modulation / demodulation method based on the status of wireless communication and the status of data to be preferentially communicated,
A wireless communication system.

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