JP2001256052A - Software radio equipment and software verifying method to be applied to the same equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide software radio equipment with a software verification function capable of surely recognizing that change of software is exactly performed when replacement of software is performed. SOLUTION: The software radio equipment capable of changing modulating and demodulating methods by software is disclosed. This equipment is provided with a modulation processing part 120 to execute modulation and demodulation processings by replaceable software, a demodulation processing part 121 and a verification processing part 122 to execute a software verification processing. The verification processing part 122 executes software verification processings in steps by every change of each software by successively changing software for modulation processing or software for demodulation processing.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital radio apparatus, and more particularly to a software radio apparatus capable of changing a modulation / demodulation method by changing software.

[0002]

2. Description of the Related Art In recent years, in the field of digital radio communication systems, software radio equipment capable of executing modulation / demodulation processing by software and changing the modulation / demodulation method by changing the software has attracted attention. Specifically, it has been proposed that the software defined radio apparatus is applied to a base station of a mobile phone, a receiving apparatus used in a radio wave monitoring system, and the like.

To change the software of a software defined radio device, for example, a method of transferring new software to the device via a LAN (local area network) or a recording medium (a floppy (registered trademark) disk, CD-ROM, etc.) ) There is a method to load new software from the).

[0004]

In a software defined radio, when changing to new software from the outside,
Normally, all the software is replaced at once, and the software before the change is deleted. Normally, a software defined radio is provided with a software verification function for verifying whether or not software functions normally.

[0005] However, as described above, if all software is changed at once, the conventional software verification function (self-verification function) cannot distinguish the verification result before and after the change. However, even if the software is not changed to the correct software, a verification result indicating that the software functions normally may be output. In short, if the software before and after the change is exactly the same, it is determined that the software has been changed to the correct software as the verification result.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a software defined radio having a software verification function capable of reliably recognizing that software has been correctly changed when the software is replaced.

[0007]

SUMMARY OF THE INVENTION The present invention relates to a software defined radio apparatus in which the modulation / demodulation method can be changed by software, in particular, software having a software verification function (self-verification function) for verifying whether the software functions normally. Related to wireless devices.

[0008] More specifically, the present invention provides a changing means for replacing software before change with software for modulation processing and software for demodulation processing obtained from the outside, and a software for modulation processing or demodulation processing by the changing means. Verification means for sequentially changing software, executing software verification processing for each software change, and verifying whether or not each of the changed software functions normally based on the respective software verification results. It is a software defined radio.

With such a configuration, the software for modulation processing or the software for demodulation processing is sequentially changed, and the software verification processing is executed stepwise in accordance with each change. That is, for example, first, the modulation processing software is changed, and the transmission / reception processing is executed together with the demodulation processing software before the change to confirm that communication is not possible. Next, change the demodulation processing software,
A verification process is executed based on a transmission / reception result accompanying the modulation / demodulation process after the change. If normal communication is possible based on the verification result, it can be confirmed that the correct software has been changed.

[0010]

Embodiments of the present invention will be described below with reference to the drawings.

(Configuration of Software Defined Radio Apparatus) FIG.
FIG. 2 is a block diagram showing a configuration of a software defined radio related to the embodiment. This device is roughly divided into a transmitting unit 10
, A receiving unit 11, a signal processing unit 12, and a software transfer control unit 13.

The transmitting section 10 has a function of transmitting a signal (a digital signal modulated by a predetermined modulation method) output from the signal processing section 12. The receiving unit 11 has a function of receiving a digital signal (normal communication signal) transmitted from the outside and a digital signal (software verification signal) transmitted from the transmitting unit 10.

The signal processing unit 12 is specifically composed of a digital signal processor (DSP), and has a function of executing transmission / reception signal modulation / demodulation processing and software verification processing by software. That is, the signal processing unit 1
Reference numeral 2 denotes a modulation processing unit 120 functioning by software and a demodulation processing unit 121 as functions related to the embodiment.
And a verification processing unit 122. The modulation processing unit 120 and the demodulation processing unit 121 respond to a change in software.
The modulation method and the demodulation method can be changed. The verification processing unit 122 executes a software verification process (self-verification process) related to the embodiment.

The software transfer control unit 13 is connected to the external system 20, acquires software (modulation processing software, demodulation processing software, etc.) supplied from the external system 20, and replaces the software of the signal processing unit 12. (Change) control. Further, the software transfer control unit 13 performs an error process based on the verification result from the verification processing unit 122. The error processing includes processing such as notifying the external system 20 that the software change has not been correctly performed. The external system 20 is, for example, a software supply device such as a personal computer connected via a LAN, or a recording medium storing software and an interface.

The verification processing unit 122 of the signal processing unit 12
Alternatively, as shown by a dotted line in FIG. 1, a configuration using a verification processing unit 130 provided in the software transfer control unit 13 may be used.

(Software Verification Processing) The procedure of the software verification processing of the embodiment will be described with reference to the flowchart of FIG. 2 together with FIG.

First, the verification processing unit 122 executes transmission / reception processing (verification transmission / reception processing) with the software before the change, and executes verification processing based on the transmission / reception result (step S1). Here, the verification processing unit 122 performs the following verification processing. First, the verification data is output to the modulation processing unit 120. The modulation processing unit 120 outputs to the transmission unit 10 a digital signal obtained by modulating the verification data using a predetermined modulation method (set by software). The transmitting unit 10 transmits the digital signal to the receiving unit 11. The receiving unit 11 outputs the received digital signal to the demodulation processing unit 121. The demodulation processing unit 121 outputs the verification data demodulated by a predetermined demodulation method (set by software) to the verification processing unit 122. Verification processing unit 12
2 determines that communication is possible (establishment of transmission and reception) if the input and output verification data match, and outputs to the software transfer control unit 13 a verification result that determines that there is an error in the software if they do not match. . Here, it is assumed that before the change, the software has no error and is in a communicable state.

Next, upon acquiring, for example, the modulation processing software from the external system 20, the software transfer control unit 13 replaces the software of the modulation processing unit 120 of the signal processing unit 12 (step S2). At this stage, the verification processing unit 122 performs the above-described series of verification processing (Steps S3 to S5). That is, the verification data is output to the modulation processing unit 120. The modulation processing unit 120 outputs to the transmission unit 10 a digital signal modulated by the modulation method using the changed software. The transmitting unit 10 transmits the digital signal to the receiving unit 11. The receiving unit 11 outputs the received digital signal to the demodulation processing unit 121. The demodulation processing unit 121 outputs to the verification processing unit 122 the verification data demodulated by the demodulation method using the software before the change.

The verification processing unit 122 determines whether the input / output verification data matches based on the above transmission / reception results. Here, since the modulation processing software is changed and the demodulation processing software is before the change, the input and output verification data do not match. Therefore, the verification processing unit 122 determines that communication cannot be performed (step S5).
NO). If the communication is possible, since the correct modulation processing software has not been changed (it has not been replaced correctly), the verification processing unit 122 determines that an error exists (YES in step S5). In this case, the software change processing is stopped.

On the other hand, if communication is not possible, the software transfer control unit 13 next obtains demodulation processing software from the external system 20, and replaces the software of the demodulation processing unit 121 of the signal processing unit 12 (step S).
6). At this stage, the verification processing unit 122 performs the above-described series of verification processing again (Steps S7 to S9). That is, based on the result of transmission / reception of the verification data, the verification processing unit 122 determines that the communication is possible when the input / output verification data matches (YE in step S9).
S). As a result, it is confirmed that both the modulation processing software and the demodulation processing software of the signal processing unit 12 have been correctly replaced.

On the other hand, if the input and output verification data do not match, it is determined that communication is not possible (NO in step S9). In this case, since the software for the modulation processing or the software for the demodulation processing has not been correctly changed (not correctly replaced), the software transfer control unit 13 executes the above-described error processing.

As described above, according to the embodiment, each software for modulation and demodulation of the signal processing unit 12 is changed stepwise, and the software verification processing is executed stepwise. Therefore, it is possible to reliably recognize whether or not each software has been replaced correctly. Thus, when software is changed, inconveniences such as malfunction or re-operation of the wireless device due to software replacement failure can be prevented.

(Modification) FIG. 3 is a block diagram related to a modification of the embodiment. Although the wireless device of the embodiment is assumed to be a transceiver, this modification assumes a receiving device 30 used for a radio wave monitoring system, for example.

In the case of the receiving apparatus 30, the configuration of the software verification function related to the present invention is basically the same.
However, since the receiving device 30 does not include the normal transmitting unit 10, in this modification, a dummy transmitting unit 31 having a dummy transmitting function (verifying transmitting function) is provided. Therefore, the modulation processing unit 330 of the signal processing unit 33
The data for verification output from is modulated by a modulation method (can be changed by software) necessary for the verification processing and output to the dummy transmission unit 31.

Referring now to the flowchart of FIG. 4, a description will be given of the procedure of the software verification processing of the present modified example.

First, as in the embodiment, the verification processing unit 332 executes transmission / reception processing (transmission / reception processing for verification) with the software before the change, and executes verification processing based on the transmission / reception result ( Step S11). here,
Before the change, it is assumed that the software has no error and is in a communicable state.

Next, upon acquiring the demodulation processing software from the external system 20, the software transfer control section 34 replaces the software of the demodulation processing section 331 of the signal processing section 33 (step S12). At this stage, the verification processing unit 332 performs a series of verification processes including the dummy transmission (steps S13 to S15).

That is, the verification data is output to the modulation processing section 330. The modulation processing unit 330 outputs a digital signal modulated by a modulation method using predetermined software to the dummy transmission unit 31. The dummy transmitting unit 31 transmits the digital signal to the receiving unit 32. The receiving section 32 outputs the received digital signal to the demodulation processing section 331. The demodulation processing unit 331 outputs, to the verification processing unit 332, the verification data demodulated by the software-based demodulation method after the change.

The verification processing unit 332 determines whether the input and output verification data match based on the above transmission / reception results. Here, since the modulation processing software has not been changed and the demodulation processing software has been changed, the input and output verification data do not match. Therefore,
The verification processing unit 332 determines that communication is not possible (NO in step S16). If the communication is possible, the correct demodulation processing software has not been changed (it has not been correctly replaced), so the verification processing unit 332 determines that an error exists (YE in step S16).
S). In this case, the software change processing is stopped.

On the other hand, if communication is not possible, the software transfer control unit 34 next replaces the software of the modulation processing unit 330 of the signal processing unit 33 when acquiring the modulation processing software from the external system 20. Therefore, the modulation of the dummy transmission by the dummy transmission unit 31 is changed (step S17). At this stage, the verification processing unit 332
Performs again a series of verification processing including the dummy transmission (steps S18 to S20). That is, the verification processing unit 3
32 determines that the communication is possible when the input and output verification data match based on the verification data transmission / reception result (YES in step S20). As a result, it is confirmed that the demodulation processing software of the signal processing unit 33 has been correctly replaced.

On the other hand, if the input and output verification data do not match, it is determined that communication is not possible (NO in step S20). In this case, since the demodulation processing software has not been correctly changed (it has not been correctly replaced), the software transfer control unit 34 executes the above-described error processing.

As described above, even in the case of the receiving apparatus 30, the software verification function of the present invention is applied, and in particular, it can be reliably recognized whether or not the replacement of the demodulation processing software has been correctly performed.

The software radio device to which the software verification function of the present invention can be applied is not only a radio device used for a base station of a cellular phone and a receiving device used for a radio wave monitoring system, but also a digital television receiver, for example. Applicable.

[0034]

As described above in detail, according to the present invention, in a software defined radio, when software is externally changed to new software, a software verification function capable of reliably recognizing that the software change has been correctly performed. Can be realized. Therefore, when software is changed, it is possible to prevent inconvenience such as malfunction or re-operation of the wireless device due to software replacement failure. As a result, a highly reliable software defined radio can be provided as a result.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a main part of a software defined radio apparatus according to an embodiment of the present invention.

FIG. 2 is an exemplary flowchart illustrating the procedure of a software verification process according to the embodiment.

FIG. 3 is an exemplary block diagram showing a main part of a software defined radio apparatus according to a modification of the embodiment.

FIG. 4 is an exemplary flowchart showing the procedure of a software verification process of the modification.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Software radio apparatus 10 ... Transmission part 11 ... Reception part 12 ... Signal processing part 13 ... Software transfer control part 20 ... External system 30 ... Reception apparatus 31 ... Dummy transmission part 32 ... Reception part 33 ... Signal processing part 34 ... Software transfer Control units 120 and 330 Modulation processing units 121 and 331 Demodulation processing units 122 and 332 Verification processing units

Claims (5)

[Claims] 1. A software defined radio capable of changing a modulation / demodulation method in a transmission / reception function by changing software, wherein the software before the change is replaced with modulation processing software and demodulation processing software acquired from outside, respectively. Means, the software for modulation processing or the software for demodulation processing is sequentially changed by the changing means, and software verification processing is executed for each software change, and each software after change is executed based on the software verification result. A software defined radio, comprising: verification means for verifying whether or not it functions normally. 2. The verification unit executes a first-stage software verification process based on a transmission / reception process result of the modulation processing software changed by the changing unit and the demodulation processing software before the change. 2. The software defined radio according to claim 1, wherein a second-stage software verification process is executed based on a result of transmission / reception processing by the modulation processing software changed by the changing unit and the demodulation processing software changed by the changing unit. apparatus. 3. A software defined radio capable of changing a demodulation method of a receiving function by changing software, a changing means for replacing software before the change with demodulation processing software acquired from outside, and a modulating method being changeable. Dummy changing means for performing a dummy transmitting process, and changing the demodulation software by the changing means, executing a software verification process based on a transmission / reception result accompanying the dummy transmitting process, and performing the demodulation process after the change. A software defined radio, comprising: verification means for verifying whether software functions normally. 4. The verification means executes a first-stage software verification processing based on the demodulation processing software changed by the change means and a transmission / reception result by the dummy transmission processing, and then performs the change by the change means. 4. The software defined radio apparatus according to claim 3, wherein a software verification process of a second stage is executed based on a result of transmission / reception processing by the dummy transmission processing in which a demodulation processing software and a modulation scheme are changed. 5. A software verification method applied to a software defined radio apparatus capable of changing a modulation / demodulation method in a transmission / reception function by changing a software, wherein a step of replacing software before the change with software for modulation processing obtained from outside is performed. Executing a first-stage software verification process based on the transmission / reception processing results of the changed modulation processing software and the demodulation processing software before the change; and a demodulation software obtained from outside the software before the change. And a step of executing a second-stage software verification process based on a transmission / reception process result with the changed modulation processing software and the changed demodulation processing software. And the second stage software Based on the verification result, software verification method characterized by verifying whether each software after the change to function properly.