JP4568532B2 - Wireless device control system, wireless device and control device - Google Patents

Description

  The present invention relates to a method for rewriting data stored in an apparatus and a system to which the method is applied.

  In a wireless device remote control system including a wireless communication device and a remote control device that remotely controls the wireless communication device, the remote control device transmits a control signal for controlling the wireless device, and the wireless device operates based on the control signal. The remote control device itself stores setting data for defining a control signal, and generates a control signal based on the setting data. The wireless device itself stores setting data for enabling an operation based on the control signal, and is controlled by the remote control device based on the operation setting based on the setting data. Therefore, in order to construct a wireless device remote control system, it is necessary to store the same setting data in the remote control device and the wireless device.

  As a method for storing the same setting data in the remote control device and the wireless device, there is a method in which the setting data is transmitted from the remote control device and stored in the wireless device. For example, when setting data is updated, the remote control device transmits new setting data to the wireless device, stores it, and rewrites the data. In the self-diagnosis of the system, the remote control device checks the contents of the setting data stored in the wireless device by communicating with the wireless device. If an error is found in the setting data, the remote control device re-reads the setting data. Transmit and rewrite the setting data on the wireless device side. At this time, the remote control device receives the setting data from the wireless device, compares it with the setting data stored in the wireless device, and performs processing such as retransmitting the data from the remote control device if there is a difference.

  In contrast to the previous method, there is also a method in which setting data is transmitted from a wireless device and stored in a remote control device. The rewriting of the setting data at the time of updating the setting data or in the self-diagnosis of the system is performed by the same process.

  A system for transmitting / receiving data of a device in a remote place through a telephone line and a wireless line is disclosed in the following documents.

URL www.mew.co.jp/tecrepo/83j/pdfs/83_13.pdf

  In the conventional wireless device remote control system, all the setting data is transmitted and received between the remote control device and the wireless device when the setting data is updated or the system self-diagnosis is performed. However, transmission of all setting data requires a great amount of communication time, and the amount of data to be transmitted / received becomes enormous, which may cause a code error.

  The present invention has been made for such a problem, and it is possible to rewrite data by rewriting data only for a portion different between the setting data stored in the remote control device and the setting data stored in the wireless control device. The present invention provides a data rewriting method that reduces the amount of data and shortens the time for setting data updating and system self-diagnosis, and a system to which the method is applied.

The present invention provides a wireless device control system comprising a wireless device and a control device connected to the wireless device via communication means, wherein the wireless device is transmitted from the control device via the communication means. A wireless unit that is controlled according to a control signal, wirelessly transmits a transmission signal transmitted from the control device via the communication unit, and transmits a wirelessly received reception signal to the control device via the communication unit; Each of the wireless device and the control device divides the setting data stored in the storage unit into a plurality of divided data, the storage unit storing setting data for setting the operating state of the wireless unit An attribute discrimination code corresponding to each divided data is applied to each divided data by the setting data dividing unit and a process for shortening the code length of the code string to be processed according to a predetermined regularity. An attribute determination code generation unit that generates data, and the wireless device transmits the attribute determination code data generated by the attribute determination code generation unit of the wireless device to the control device via the communication unit. An attribute determination code data transmission unit that transmits the attribute determination code data generated by the attribute determination code generation unit of the control device; and the attribute determination code data transmitted from the attribute determination code data transmission unit A comparison unit that generates, based on the comparison result, information indicating mismatched divided data in which the attribute determination code data does not match among the divided data obtained by the setting data dividing unit of the control device. Based on the information generated by the comparison unit, the inconsistent division data is extracted from the storage unit of the control device and sent to the wireless device via the communication unit. A non-matching divided data transmission unit, wherein the wireless device replaces a portion corresponding to the non-matching divided data in the setting data stored in the storage unit of the wireless device with the non-matching divided data It is characterized by providing.

According to another aspect of the present invention , in a wireless device control system comprising a wireless device and a control device connected to the wireless device via a communication unit, the wireless device transmits from the control device via the communication unit. A wireless unit that is controlled according to a control signal to be transmitted, wirelessly transmits a transmission signal transmitted from the control device via the communication unit, and transmits a wirelessly received reception signal to the control device via the communication unit Each of the wireless device and the control device includes a storage unit that stores setting data for setting an operation state of the wireless unit, and the setting data stored in the storage unit into a plurality of divided data. A setting data dividing unit to be divided and a process for shortening the code length of the code string to be processed in accordance with the defined regularity are performed on each divided data, and an attribute identification code corresponding to each divided data An attribute determination code generation unit that generates data, and the control device transmits the attribute determination code data generated by the attribute determination code generation unit of the control device to the wireless device via the communication unit. An attribute determination code data transmission unit that transmits the attribute determination code data generated by the attribute determination code generation unit of the wireless device, and the attribute determination code data transmitted from the attribute determination code data transmission unit A comparison unit that generates, based on the comparison result, information indicating mismatched divided data in which the attribute determination code data does not match among the divided data obtained by the setting data dividing unit of the wireless device Based on the information generated by the comparison unit, the inconsistent division data is extracted from the storage unit of the wireless device, and the control is performed via the communication unit. A non-matching divided data transmission unit that transmits to the device, and the control device converts a portion corresponding to the non-matching division data in the setting data stored in the storage unit of the control device to the non-matching division data. It is characterized by comprising replacement means for replacement.

According to another aspect of the present invention, in a control device that is connected to a wireless device via a communication unit and controls the wireless device, a storage unit that stores setting data for setting an operation state of the wireless device; and A setting data dividing unit that divides the stored setting data into a plurality of pieces of divided data, and a process for shortening the code length of the code string to be processed according to the defined regularity, each divided data, Attribute discrimination code generation unit for generating attribute discrimination code data corresponding to the divided data, attribute discrimination code data generated by the attribute discrimination code generation unit, and each attribute transmitted from the wireless device via the communication means Compared with the code data corresponding to the discriminant code data, out of the divided data obtained by the setting data dividing unit, these code data are inconsistent divided data A comparison unit that generates information to be shown based on a comparison result, and the mismatched divided data is extracted from the storage unit based on the information generated by the comparison unit, and is transmitted to the wireless device via the communication unit And a non-matching divided data transmission unit.

Further, the present invention is a wireless device connected to a control device via a communication means and controlled by the control device, controlled according to a control signal transmitted from the control device via the communication means, A wireless unit that wirelessly transmits a transmission signal transmitted from the control device via the communication unit, and transmits a wirelessly received reception signal to the control device via the communication unit, and sets an operation state of the wireless unit A storage unit that stores setting data, a setting data division unit that divides the setting data stored in the storage unit into a plurality of divided data, and a regularity in which the code length of the code string to be processed is determined Generated by the attribute discriminating code generator and the attribute discriminating code generator that generates the attribute discriminating code data corresponding to each divided data by performing the shortening process on each piece of the divided data. The sex discrimination code data is compared with the code data corresponding to each attribute discrimination code data transmitted from the control device via the communication means, and these codes among the divided data obtained by the setting data division unit A comparison unit that generates information indicating non-matching divided data in which the data does not match based on the comparison result;
A non-matching divided data transmission unit that extracts the non-matching divided data from the storage unit based on the information generated by the comparison unit and transmits the non-matching divided data to the control device via the communication unit.

According to the present invention, it can be a wireless device or controller smell Te, to shorten the time required for data rewriting. In addition, since the amount of data related to rewriting is reduced, code errors can be reduced.

Further, according to an embodiment of the present invention, the data stored in each of the plurality of devices needs to be rewritten so that the data stored in one device matches the data stored in the plurality of devices. It can be applied to general systems.

  A first embodiment of the present invention will be described. FIG. 1 shows a wireless device remote control system including a wireless device 2 and a remote control device 1 that controls the wireless device 2. From the remote control device 1, a transmission signal to be wirelessly transmitted and a control signal for controlling the wireless device 2 are wired and transmitted via the transmission / reception unit 16 and the transmission line 32. The transmission signal includes information such as audio information input from a microphone connected to the wireless operation unit 22, document data, and image data input to the wireless operation unit 22. Further, the control signal is a signal transmitted by wire from the wireless operation unit 22 via the transmission / reception unit 16 when setting the transmission / reception frequency, transmission / reception level, and the like of the wireless device 2 in the wireless operation unit 22 of the remote control device 1. It has information related to the control of the wireless device 2. The wireless device 2 receives a transmission signal and a control signal by wire via the transmission / reception unit 16, operates based on the control signal, and modulates the transmission signal in the wireless control unit 26. The modulated transmission signal is transmitted from the antenna 30 by the radio unit 28.

  In addition, the wireless device 2 demodulates the reception signal received by the wireless unit 28 via the antenna 30 in the wireless control unit 26, and wire-transmits the signal to the remote control device 1 via the transmission / reception unit 16. The remote control device 1 receives the received signal by wire via the transmission / reception unit 16 and reproduces the sound with a speaker or displays a document or an image on a display.

  The storage unit 10 of the wireless device 2 stores setting data for setting the communication protocol and the operation mode of the wireless device 2, and the setting data is read into the setting unit 24. The setting unit 24 sets each part of the wireless device 2 based on the setting data, and constructs hardware capable of wireless communication with other wireless devices and control by the remote control device 1.

  The setting data is updated by the control of the remote control device 1 at the time of initial setting of the system or when it is necessary to update the system due to version upgrade. The setting data to be updated is first stored in the storage unit 10 of the remote control device 1, and the setting data stored in the storage unit 10 of the remote control device 1 is written into the wireless device 2. Is stored in the storage unit 10 of the wireless device 2. Here, the conventional data rewriting method is that all the setting data is transmitted from the remote control device 1 regardless of what setting data is stored in the storage unit 10 of the wireless device 2. .

  In the following, when the setting data before update is already stored in the storage unit 10 of the wireless device 2, the storage unit 10 of the wireless device 2 is updated to the latest setting data stored in the storage unit 10 of the remote control device 1. A method and an operation for rewriting the setting data stored in the storage unit 10 of the wireless device 2 by the remote control device 1 so that the setting data stored in the remote control device 1 coincide with each other will be described with reference to FIGS. In FIGS. 2 to 7, only components related to data rewriting are shown for clarity of explanation. Further, in the following description, the operation that the storage unit 10 of the wireless device 2 stores the setting data, the wireless device 2 simply stores the setting data, and the storage unit 10 of the remote control device 1 stores the setting data. The operation of storing is simply expressed as the remote control device 1 storing the setting data.

  Now, the storage unit 10 of the wireless device 2 stores a setting data group including setting data 1 to setting data 4 as shown in FIG. In FIG. 2, setting data 1 to setting data 4 are expressed as setting 1 to setting 4, and the same applies to the following drawings. The setting data group is represented by a code string such as a binary number or a hexadecimal number. Here, the data length of the setting data 1 to the setting data 4 is arbitrary.

  The setting data group is divided by the setting data dividing unit 12. This division is performed regardless of the data length of the setting data 1 to the setting data 4. The division is not necessarily performed at equal intervals, and may be performed at intervals predetermined in the system specifications. In this way, the same division method can be applied to all setting data by making the division breaks independent of each setting data length. In addition, this eliminates the need to be aware of the setting data structure stored in the storage unit 10 and facilitates operations related to data rewriting. In the example of FIG. 2, the set data group is divided into five divided data from divided data A to divided data E at equal intervals.

The divided data A to the divided data E are respectively input to the attribute discrimination code generator 14, and the attribute discrimination code E is generated from the attribute discrimination code A. In FIG. 2, the attribute discrimination code E to the attribute discrimination code E are represented as the code A to the code E, and the same applies to the following drawings. Here, the attribute discrimination code is a code generated so that the attribute can be identified when the divided data is classified into a plurality of attributes based on the sequence of the codes. If the generated attribute discrimination codes are the same, it can be said that the original divided data that generated the same has the same attribute. Specifically, the attribute discrimination code is obtained by multiplying a code string representing the divided data by an attribute discrimination code generation matrix that is a matrix for generating the attribute discrimination code. The attribute discrimination code generation matrix can be defined by a known technique such as application of an error correction code technique. The attribute discrimination code generation matrix is defined such that the data length of the attribute discrimination code is shorter than the data length of the divided data. This shortens the time required for data transmission to be described later. For example, in order to generate an attribute determination code having a data length of 2 bytes from divided data having a data length of 1 kbytes, an 8000 × 16 attribute determination code generation matrix is defined. In this case, since the attribute discrimination code is 2 bytes, that is, 16 bits, the divided data is classified into 2 ¹⁶ types of attributes.

  The attribute determination code A to the attribute determination code E generated in this way are input to the transmission / reception unit 16 as a wireless device side attribute determination code group, and are transmitted to the remote control device 1 as shown in FIG. The operations from the setting data group division to the generation of the wireless device side attribute determination code group described so far are performed by the operation of the wireless operation unit 22 from the remote control device 1 to the wireless device 2. This is done when is sent. That is, when the setting data rewriting operation is started, a setting data rewriting request signal is transmitted from the remote control device 1. By operating in this way, the wireless device side attribute determination code group is generated for the first time when the setting data rewrite request is made, so that it is not necessary to store it in the storage unit 10 in advance. As a result, the amount of data to be resident in the storage unit 10 is reduced, and the access time to the storage unit 10 is shortened.

  When the remote control device 1 receives the wireless device side attribute determination code group by the transmission / reception unit 16, the remote control device 1 inputs this to the comparison unit 18. Simultaneously with this operation, the remote control device 1 divides the update setting data group stored in the storage unit 10 of the remote control device 1 by the same process as the wireless device 2, and uses the attribute discrimination code A to the attribute discrimination code E. A remote control device side attribute discrimination code group to be configured is generated. This is shown in FIG. The remote control device side attribute determination code group is input to the comparison unit 18.

  The comparison unit 18 compares the wireless device side attribute determination code group and the remote control device side attribute determination code group. FIG. 5 shows that the attribute discrimination code A and the attribute discrimination code C are different between the wireless device side attribute discrimination code group and the remote control device side attribute discrimination code group. The comparison unit 18 outputs this result to the rewrite data extraction unit 20. The rewrite data extraction unit 20 reads the divided data A generated with the attribute determination code A and the divided data C generated with the attribute determination code C from the storage unit 10 of the remote control device 1, and the address of the storage unit 10 of the wireless device 2. Is added to the transmission / reception unit 16 as rewrite data. The remote control device 1 transmits the rewrite data generated in this way to the wireless device 2. This is shown in FIG.

  The wireless device 2 receives the rewrite data transmitted by the remote control device 1 via the transmission / reception unit 16 and stores the rewrite data in the storage unit 10 based on the address added by the rewrite data extraction unit 20 of the remote control device 1. Overwrite. In the example of FIG. 7, the divided data A and the divided data C transmitted from the remote control device 1 are overwritten in the storage unit 10. In this way, the setting data stored in the wireless device 2 and the setting data stored in the remote control device 1 can be matched. In the description here, the setting data group is composed of four setting data from the setting data 1 to the setting data 4, and the setting data group is divided into five from divided data A to divided data E. Although an example in which two attribute discrimination codes are generated has been described, it goes without saying that the number of setting data and the number of divisions can be arbitrarily set.

As described above, the comparison / matching of the setting data can be replaced with the comparison / collation of the attribute discrimination code group based on the fact that there is a high probability that the attribute is different if the code in the divided data is different. Speaking in the previous example, 1k bytes or information 2 ⁸⁰⁰⁰ ways, 2 bytes or 2 ¹⁶ kinds of the because it was classified into attribute, the divided data is an attribute with same attribute of a one divided data itself There are 2 ^{8000/2 16} -1 patterns except for. Thus, the probability of a verification error that is recognized as being the same because the attribute discrimination codes are the same even though the divided data is different is (2 ^{8000/2 16} −1) / 2 ⁸⁰⁰⁰ = 1 / 2 ¹⁶ −1/2 ⁸⁰⁰⁰ . If this is generalized, if the divided data is n bits and the attribute discrimination code is m bits, it can be said that a collation error occurs with a probability of 1/2 ^m -1/2 ⁿ . Therefore, collation errors can be reduced by making the data length m bits of the attribute discrimination code as close as possible to the data length n bits of the divided data. Moreover, since the values of n and m are determined so that the second term of 1/2 ^m −1/2 ⁿ is actually negligibly smaller than the first term, the verification error probability is about 1/2. ^m .

On the other hand, if the length m bits of the attribute determination code is shorter than the length n bits of the code string representing the divided data, the code length of the wireless device side attribute determination code group is shortened. It is clear from the above description of the operation that the time required for transmission to the control device 1 can be shortened. However, if the attribute discrimination code is shortened, the attribute type is reduced by the shortened amount. Therefore, when the wireless device side attribute discrimination code group and the remote control device side attribute discrimination code group are compared, ½ ^The matching error probability represented by ^m −1/2 ⁿ is increased. Therefore, it is preferable to determine the length of the attribute discrimination code in consideration of both the viewpoint of rewriting time and the viewpoint of code error probability.

  When changing the operation setting of the wireless device 2 in the first embodiment of the present invention, first, the setting data to be stored in the storage unit 10 on the remote control device 1 side is changed, and a setting data rewrite request is received from the remote control device 1. The data rewriting process described above is performed by transmitting a signal. As a result, only the changed divided data is rewritten. In the self-diagnosis for diagnosing whether or not the setting data is correctly stored in the wireless device 2, the contents of the storage unit 10 of the remote control device 1 are not changed, and the setting data rewrite request signal is sent from the remote control device 1. And the comparison result in the comparison unit 18 may be referred to in the above-described data rewriting process. Needless to say, the setting data can be corrected so as to be stored in the wireless device 2 accurately without being limited to self-diagnosis.

  The embodiment has been described above in which the remote control device 1 rewrites the setting data stored on the wireless device 2 side so that the setting data stored in the remote control device 1 matches the setting data stored in the wireless device 2. A second embodiment in which the wireless device 2 rewrites the setting data stored on the remote control device 1 side by exactly the same processing is also conceivable.

  FIG. 8 shows a configuration of a wireless device remote control system for realizing the embodiment. Here, the same components as those in the first embodiment are given the same reference numerals, and the description thereof is omitted. The remote control device 1 transmits a setting data rewrite request signal by operating the wireless operation unit 22 and generates a remote control device side attribute determination code group based on the setting data stored in the storage unit 10. Send to. The remote control device side attribute determination code group is generated by the setting data dividing unit 12 and the attribute determination code generation unit 14 as in the first embodiment. The wireless device 2 receives the setting data rewrite request signal and the remote control device side attribute determination code group from the remote control device 1 and inputs the remote control device side attribute determination code group to the comparison unit 18. Further, based on the setting data stored in the storage unit 10 of the wireless device 2, a wireless device side attribute determination code group is generated by the setting data dividing unit 12 and the attribute determination code generation unit 14 and input to the comparison unit 18. Based on the comparison result between the remote control device side attribute determination code group and the wireless device side attribute determination code group in the comparison unit 18, the rewrite data extraction unit 20 reads the setting data related to the rewrite from the storage unit 10 and reads the rewrite data. Generate. The rewrite data is transmitted to the remote control device 1, and the remote control device 1 overwrites the rewrite data in the storage unit 10.

  Through the above processing, the setting data stored on the remote control device 1 side by the wireless device 2 can be rewritten so that the setting data stored by the wireless device 2 matches the setting data stored by the remote control device 1.

  The second embodiment according to the present invention is suitable when the environment on the remote control device 1 side is frequently changed. For example, when the remote control device 1 is replaced with a new one, the setting data stored in the remote control device 1 often does not match the setting data stored in the wireless device 2, and the conventional rewriting method uses a system It takes time to start up. According to the second embodiment, only the portion of the setting data related to the change is rewritten, so that the system start-up can be completed quickly.

  Although the embodiments of the present invention have been described above, the present invention is not limited to these examples. For example, the present invention is applied to a general system in which data stored in each of a plurality of devices needs to be rewritten so that data stored in one device matches data stored in a plurality of devices. be able to. The present invention can of course be implemented in various forms without departing from the scope of the invention.

It is a figure which shows the structure of the radio | wireless control remote control system which implement | achieves 1st Embodiment. It is a figure which shows the process in which the radio | wireless apparatus side attribute discrimination code group is produced | generated from a setting data group. It is a figure which shows the process in which a radio | wireless apparatus side attribute discrimination code group is transmitted to a remote control apparatus. It is a figure which shows the process in which the remote control apparatus side attribute discrimination code group is produced | generated from a setting data group. It is a figure which shows the process in which a radio | wireless apparatus side attribute discrimination code group and a remote control apparatus side attribute discrimination code group are compared. It is a figure which shows the process in which rewriting data is transmitted to a radio | wireless apparatus. It is a figure which shows the process in which rewriting data is overwritten to the setting data memorize | stored in the radio | wireless apparatus. It is a figure which shows the structure of the radio | wireless control remote control system which implement | achieves 2nd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Remote control apparatus, 2 Wireless apparatus, 10 Storage part, 12 Setting data division | segmentation part, 14 Attribute discrimination code production | generation part, 16 Transmission / reception part, 18 Comparison part, 20 Rewriting data extraction part, 22 Wireless operation part, 24 Setting part, 26 Radio control part, 28 Radio part, 30 Antenna, 32 Transmission line.

Claims (4)

A wireless device;
A control device connected to the wireless device via communication means;
In a wireless device control system comprising:
The wireless device includes:
Controlled according to a control signal transmitted from the control device via the communication means, wirelessly transmitting a transmission signal transmitted from the control device via the communication means, and wirelessly receiving a received signal as the communication means A wireless unit for transmitting to the control device via
Each of the wireless device and the control device is
A storage unit for storing setting data for setting an operation state of the wireless unit;
A setting data dividing unit that divides the setting data stored in the storage unit into a plurality of divided data;
An attribute discriminating code generating unit that performs processing for shortening the code length of a code string to be processed according to predetermined regularity on each divided data and generates attribute discriminating code data corresponding to each divided data;
With
The wireless device includes:
An attribute determination code data transmission unit configured to transmit the attribute determination code data generated by the attribute determination code generation unit of the wireless device to the control device via the communication unit;
The controller is
The attribute determination code data generated by the attribute determination code generation unit of the control device is compared with the attribute determination code data transmitted from the attribute determination code data transmission unit, and obtained by the setting data dividing unit of the control device. A comparison unit that generates, based on the comparison result, information indicating mismatched divided data in which the attribute determination code data does not match among the divided data;
Based on the information generated by the comparison unit, the mismatched divided data transmission unit that extracts the mismatched divided data from the storage unit of the control device and transmits the extracted data to the wireless device via the communication unit;
With
The wireless device includes:
A wireless device control system comprising replacement means for replacing a portion corresponding to the mismatched divided data in the setting data stored in the storage unit of the wireless device with the mismatched divided data. A wireless device;
A control device connected to the wireless device via communication means;
In a wireless device control system comprising:
The wireless device includes:
Controlled according to a control signal transmitted from the control device via the communication means, wirelessly transmitting a transmission signal transmitted from the control device via the communication means, and wirelessly receiving a received signal as the communication means A wireless unit for transmitting to the control device via
Each of the wireless device and the control device is
A storage unit for storing setting data for setting an operation state of the wireless unit;
A setting data dividing unit that divides the setting data stored in the storage unit into a plurality of divided data;
An attribute discriminating code generation unit that performs processing for shortening the code length of the code string to be processed according to the defined regularity, and generates attribute discriminating code data corresponding to each divided data;
With
The controller is
An attribute determination code data transmission unit configured to transmit the attribute determination code data generated by the attribute determination code generation unit of the control device to the wireless device via the communication unit;
The wireless device includes:
The attribute determination code data generated by the attribute determination code generation unit of the wireless device is compared with the attribute determination code data transmitted from the attribute determination code data transmission unit, and obtained by the setting data dividing unit of the wireless device. A comparison unit that generates, based on the comparison result, information indicating mismatched divided data in which the attribute determination code data does not match among the divided data;
Based on the information generated by the comparison unit, the mismatched divided data transmission unit that extracts the mismatched divided data from the storage unit of the wireless device and transmits the data to the control device via the communication unit;
With
The controller is
A wireless device control system comprising replacement means for replacing a portion corresponding to the inconsistent divided data in the setting data stored in the storage unit of the control device with the inconsistent divided data. In a control device that is connected to a wireless device via communication means and controls the wireless device,
A storage unit for storing setting data for setting an operation state of the wireless device;
A setting data dividing unit that divides the setting data stored in the storage unit into a plurality of divided data;
An attribute discriminating code generation unit that performs processing for shortening the code length of the code string to be processed according to the defined regularity, and generates attribute discriminating code data corresponding to each divided data;
The attribute discrimination code data generated by the attribute discrimination code generator is compared with code data corresponding to each attribute discrimination code transmitted from the wireless device via the communication means, and obtained by the setting data dividing unit. A comparison unit that generates, based on the comparison result, information indicating mismatched divided data in which the code data does not match among the divided data,
Based on the information generated by the comparison unit, the mismatched divided data transmission unit that extracts the mismatched divided data from the storage unit and transmits it to the wireless device via the communication unit;
A control device comprising: In a wireless device connected to a control device via communication means and controlled by the control device,
Controlled according to a control signal transmitted from the control device via the communication means, wirelessly transmitting a transmission signal transmitted from the control device via the communication means, and wirelessly receiving a received signal as the communication means A wireless unit for transmitting to the control device via
A storage unit for storing setting data for setting an operation state of the wireless unit;
A setting data dividing unit that divides the setting data stored in the storage unit into a plurality of divided data;
An attribute discriminating code generation unit that performs processing for shortening the code length of the code string to be processed according to the defined regularity, and generates attribute discriminating code data corresponding to each divided data;
The attribute determination code data generated by the attribute determination code generation unit is compared with code data corresponding to each attribute determination code data transmitted from the control device via the communication means, and obtained by the setting data dividing unit. A comparison unit that generates, based on the comparison result, information indicating mismatched divided data in which the code data does not match among the divided data,
Based on the information generated by the comparison unit, the mismatched divided data transmission unit that extracts the mismatched divided data from the storage unit and transmits the extracted data to the control device via the communication unit;
A wireless device comprising:

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