JP5600091B2 - Wireless communication system and wireless signal processing assignment method - Google Patents

Description

  The present invention provides a radio system by realizing radio signal processing required in a radio base station (access point) by software on a general-purpose signal processing device arranged on the network within the access point or via the network. And a radio signal processing allocation method.

  2. Description of the Related Art Conventionally, a technique has been proposed in which wireless signal processing that has been executed by hardware at an access point is executed by software on a general-purpose signal processing device arranged in the access point or on a network (for example, Patent Documents). 1). As described above, since the access point accommodates the wireless system by realizing the wireless signal processing by software, the single access point can accommodate not only a plurality of wireless systems, but also the single access point. It is possible to realize a small size, low cost and long life by functionalization. In addition, the signal processing apparatus on the network can flexibly cope with software update when supporting a new wireless system.

  FIG. 6 is a block diagram showing a configuration of a wireless communication system according to a conventional technique (see Patent Document 1). The wireless communication system 1 includes a wireless signal processing device 1-1 that executes wireless signal processing connected via a network 100, a wireless system management device 1-2, and an access point 1-3 provided in a home 1-20. And. The network 100 includes a public network such as a telephone network and the Internet, and a private network such as a LAN (Local Area Network) and a dedicated line.

  The wireless signal processing device 1-1 includes a communication processing unit 1-1-1 and a signal processing unit 1-1-2, and performs signal processing according to a signal processing request signal received from the access point 1-3. Do. The communication processing unit 1-1-1 receives the signal processing request signal from the access point 1-3 via the network 100, and transmits a response signal corresponding to the signal processing request signal to the access point 1-3. The signal processing unit 1-1-2 performs signal processing in response to the signal processing request signal received by the communication processing unit 1-1-1, and returns a processing result and signal processing identification information for identifying the signal processing. A signal is output to the communication processing unit 1-1-1.

  The radio system management device 1-2 includes a communication processing unit 1-2-1 and a software storage unit 1-2-2. The communication processing unit 1-2-1 transmits corresponding wireless processing software to the access point 1-3 as a response signal corresponding to the program request signal received from the access point 1-3. The software storage unit 1-2-2 stores wireless processing software corresponding to each wireless system for realizing a plurality of wireless systems.

  The access point 1-3 performs wireless signal processing by its own signal processing unit 1-3-4 for the wireless system that can be processed by its own signal processing unit 1-3-4, and the own signal processing unit 1-3-3- For the wireless system that cannot be processed in 4, the signal processing request signal is transmitted to the wireless signal processing device 1-1, and the processing result transmitted from the wireless signal processing device 1-1 is received. That is, the radio signal processing is executed in the access point 1-3 or in the radio signal processing device 1-1 via the network 100. At this time, if the processing location is determined according to the type of the wireless system and wireless processing software for realizing one wireless system is downloaded to the access point 1-3, the wireless signal processing is performed at the access point 1-3. If it is not downloaded to the access point 1-3, the wireless signal processing device 1-1 performs wireless signal processing via the network 100. Further, based on a request from the access point 1-3, the wireless processing software required for the access point 1-3 is downloaded from the wireless system management device 1-2 and rewritten, thereby enabling flexible signal processing.

JP 2009-231903 A

  By the way, in wireless communication, signal transmission is realized by transmitting and receiving a wireless signal based on a signal transmission procedure (sequence) and a frame format, and there is a time regulation to be observed (for example, packet communication, TDMA: Time Division Multiple Access). For this reason, when performing radio signal processing of a certain radio system by software processing, the system cannot be established unless time rules are observed (even if established, signal transmission efficiency is greatly reduced). For example, in various wireless LANs stipulated by IEEE 802.11, it is necessary to satisfy a time constraint of the order of microseconds when realizing a packet transmission interval based on CSMA (Carrier Sense Multiple Access).

  From the viewpoint of satisfying the time regulations of each wireless system, it is desirable to perform all signal processing at the access point 1-3, but considering that the small size and low cost of the access point 1-3 are important merits. In this case, it is necessary to reduce the signal processing resources provided in the access point 1-3. For this reason, it is necessary to efficiently allocate signal processing to the signal processing resources of the access point 1-3 and the signal processing device 1-1 while satisfying the time rule of each wireless system.

  In Patent Document 1 described above, the access point 1-3 autonomously determines the signal processing type. For example, when the access point 1-3 exceeds a predetermined signal processing time, the access point 1-3 No specific signal processing resource allocation method is shown for a method of issuing a signal processing request to the signal processing device 1-1 via the network 100 and leaving the processing to the processing without performing the signal processing within the network.

  Therefore, in the prior art, the signal processing originally performed by the access point 1-3 is performed using any one of the wireless signal processing devices 1-1 arranged on the network including the access point 1-3. There is a problem that the signal processing device (or access point) to which the processing is to be assigned cannot be effectively specified when the processing is performed.

  The present invention has been made in consideration of such circumstances, and its purpose is to provide individual signals when implemented using any of the signal processing devices arranged on the network including the access point. It is an object of the present invention to provide a radio communication system and a radio signal processing allocation method that can identify a signal processing apparatus to which the signal processing should be allocated so that the usage rate of the processing apparatus is increased.

  In order to solve the above-described problem, the present invention is a wireless communication system including a wireless system management device, a plurality of wireless signal processing devices, and a base station device that accommodates wireless terminal devices connected to each other. The base station device, a communication processing means for notifying the wireless method management device of the wireless method used by the wireless terminal device, a relay means for relaying signals between the plurality of wireless signal processing devices and the wireless terminal device, A radio signal processing apparatus that performs radio signal processing of a signal relayed from a base station apparatus by a radio scheme based on stored radio processing software and responds with a processing result; and a radio terminal apparatus The software for receiving the wireless processing software corresponding to the wireless system used in the wireless system management apparatus and storing the received wireless processing software in the signal processing means. Rewriting means, and the wireless method management device includes software storage means for storing wireless processing software corresponding to each of a plurality of wireless methods used in the wireless terminal device, and a plurality of wireless methods used in the wireless terminal device A management means for managing the conditions required when executing the radio processing software corresponding to each of the radio processing software and the allocation status of signal processing resources possessed by a plurality of radio signal processing devices; When a wireless method to be used is notified, a wireless signal processing device capable of executing wireless processing software corresponding to the wireless method is extracted from a plurality of wireless signal processing devices with reference to the management unit, and the extracted wireless Select the radio signal processing device that calculates the load amount when the wireless processing software is executed in the signal processing device and the load amount is equal to or less than the threshold value And stage, the radio signal processing apparatus selected by the selection means, characterized in that it comprises a communication processing means for transmitting a radio processing software corresponding to the wireless system notified from the base station apparatus.

  In addition, the present invention is characterized in that the selecting means selects a radio signal processing device having a short distance from the base station device as the radio signal processing device to be selected.

  In addition, the present invention is characterized in that the selection means selects a radio signal processing device with the smallest load amount as a radio signal processing device to be selected.

  Further, the present invention is based on the processing time in the sequence that requires the shortest response time when the selection unit has a time rule to be observed in the wireless method and the shortest response time rule specified in the wireless method. The load amount when the wireless processing software is executed on the extracted wireless signal processing device is calculated.

  Further, the present invention enables the wireless system management device to emulate the target wireless processing software and measure the processing time for the required number of processing steps between each signal processing time, thereby reducing the response time in the shortest time. The processing time measuring means for acquiring the processing time is further provided.

  The present invention also relates to a radio signal processing allocation method for a radio communication system comprising radio system management devices, a plurality of radio signal processing devices, and a base station device that accommodates radio terminal devices connected to each other. A base station device notifying a wireless method management device of a wireless method used by the wireless terminal device; and software storage means for storing wireless processing software corresponding to each of a plurality of wireless methods used in the wireless terminal device Necessary when executing the radio processing software corresponding to each of a plurality of radio systems used in the radio terminal device when the radio system management apparatus provided is notified of the radio system used by the radio terminal apparatus from the base station device A wireless method from among a plurality of radio signal processing devices, with reference to the condition to be assigned and the allocation status of signal processing resources possessed by the plurality of radio signal processing devices A radio signal processing device capable of executing corresponding radio processing software is extracted, a load amount when the radio processing software is executed in the extracted radio signal processing device is calculated, and the load amount is equal to or less than a threshold value. A selection step for selecting the radio signal processing device, a step for transmitting to the selected radio signal processing device radio processing software corresponding to the radio method notified from the base station device, and a radio scheme used by the radio signal processing device in the radio terminal device Receiving the radio processing software according to the radio system management device, storing the received radio processing software, and the base station device relaying signals between the plurality of radio signal processing devices and the radio terminal devices Step and whether the wireless signal processing device is a base station device by a wireless method based on the stored wireless processing software. Run the radio signal processing repeated signal, comprising the steps of responding to the processing result, a radio signal processing allocation method, which comprises a.

  Further, the present invention is characterized in that the selecting step selects a radio signal processing device having a short distance from the base station device as a radio signal processing device to be selected.

  Further, the present invention is characterized in that the selecting step selects a radio signal processing device having the smallest load amount as a radio signal processing device to be selected.

  According to the present invention, when performing using any of the signal processing devices arranged on the network including the access point, the signal processing should be allocated so that the usage rate of the individual signal processing devices is increased. A signal processing device can be identified. That is, signal processing resources can be allocated so that the time rules required by the wireless system can be observed. In addition, since it is possible to assign a plurality of processes to one CPU core according to the present invention, it is possible to prevent an excessive increase in signal processing resources to be provided in the radio signal processing apparatus. Operation becomes possible.

It is a block diagram which shows the structure of the radio | wireless communications system by embodiment of this invention. It is a conceptual diagram which shows an example of the wireless processing software management database 1-8-1 by this embodiment. It is a conceptual diagram which shows an example of the radio | wireless signal processing apparatus management database 1-8-2 by this embodiment. It is a flowchart for demonstrating the signal processing resource allocation method (radio signal processing allocation method) by this embodiment. It is a conceptual diagram which shows the example of operation timing of the signal processing resource allocation method (radio signal processing allocation method) by this embodiment. It is a block diagram which shows the structure of the radio | wireless communications system by a prior art.

  An embodiment of a wireless communication system according to claim 1 of the present invention will be described with reference to FIG. In the present invention, the wireless system management device is a wireless processing software management database for managing wireless processing software and a wireless signal processing device for managing the allocation status of signal processing resources possessed by a large number of wireless signal processing devices arranged on the network. A management database; software storage means for storing the registered wireless processing software; and processing time measuring means for measuring a signal processing time required by the wireless processing software when newly registering the wireless processing software.

  In order to realize a plurality of radio systems accommodated in the access point, radio signal processing such as modulation / demodulation is performed in the signal processing means in the access point and in the signal processing means of the radio signal processing apparatus via the network. The signal processing allocation method of the present invention determines where the radio signal processing related to the access point is executed by the signal processing means arranged.

  When a plurality of radio signal processing devices satisfy the allocation condition, it is possible to further reduce the processing delay by selecting the closest one from the base station. Further, by selecting the hardware load amount that is the smallest, it is possible to distribute the load of the entire system.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a wireless communication system according to an embodiment of the present invention. The home 1-20 is a wireless terminal (tag) 1 that performs specific low-power wireless communication as an example of an access point 1-3 connected to the network 100 and a wireless communication terminal that can wirelessly communicate with the access point 1-3. -4, a wireless terminal (sensor) 1-5, and a wireless terminal (wireless LAN) 1-6. The wireless terminal (tag) 1-4, the wireless terminal (sensor) 1-5, and the wireless terminal (wireless LAN) 1-6 perform wireless communication with the access point 1-3 using different wireless systems.

  The access point 1-3 includes a radio transmission / reception unit 1-3-1, an analog signal processing unit 1-3-2, an AD (analog-digital) signal conversion unit 1-3-3, a signal processing unit 1-3-4, Software rewriting means 1-3-5, communication processing means 1-3-6, and memory means 1-3-7 are provided.

  The wireless transmission / reception means 1-3-1 has a specific low-power wireless base station function for wireless tags / sensors, etc., and a wireless terminal (tag) 1-4, wireless terminal (sensor) 1-5 included in the home 1-20. And an analog wireless signal transmitted from the wireless terminal (wireless LAN) 1-6, and outputs it to the analog signal processing means 1-3-2.

  The analog signal processing unit 1-3-2 performs analog processing of the reception signal input from the wireless transmission / reception unit 1-3-1. The AD signal converting means 1-3-3 digitally converts the received analog signal received signal, outputs the digitally converted digital signal string to the memory means 1-3-7, and also processes the signal processing means 1-3. The digital signal sequence input from 4 is converted into an analog signal.

  The memory unit 1-3-7 temporarily stores the digital signal string input from the AD signal conversion unit 1-3-3. The stored digital signal sequence is read out by the communication processing unit 1-3-6. The signal processing unit 1-3-4 performs signal processing of the digital signal sequence input from the AD signal conversion unit 1-3-3 in accordance with the wireless system of the wireless processing software being executed.

  Based on the signal processing identification information received from the wireless signal processing device 1-1, the software rewriting unit 1-3-5 downloads the wireless processing software from the wireless system management device 1-2 via the network 100, and performs signal processing. The wireless processing software for realizing the wireless system in the means 1-3-4 is rewritten to the downloaded wireless processing software, and the wireless system in the signal processing means 1-3-4 is changed. The communication processing unit 1-3-6 transmits and receives signals between the wireless signal processing device 1-1 and the wireless method management device 1-2 via the network 100.

  The radio system management device 1-8 includes a radio processing software management database 1-8-1, a radio signal processing device management database 1-8-2, software storage means 1-8-3, assignment control means 1-8-4, A processing time measuring unit 1-8-5 and a communication processing unit 1-8-6 are provided.

  The wireless processing software management database 1-8-1 manages conditions required when executing wireless processing software corresponding to a plurality of moneyless systems. The radio signal processing device management database 1-8-2 manages the allocation status of signal processing resources of the radio signal processing device 1-7 arranged on the network 100. The software storage unit 1-8-3 stores wireless processing software corresponding to each wireless system for realizing a plurality of wireless systems.

  The allocation control means 1-8-4 determines the hardware implemented by the access point 1-3 and the radio signal processing device 1-7, the minimum required response time in the radio system to be processed, and the load amount of the hardware. Based on this, it is determined whether to assign to the access point 1-3 or the radio signal processing device 1-7. The processing time measuring means 1-8-5 measures the signal processing time required by the wireless processing software when newly registering the wireless processing software. The communication processing unit 1-8-6 transmits the corresponding wireless processing software to the access point 1-3 as a response signal corresponding to the program request signal received from the access point 1-3.

  The wireless signal processing device 1-7 includes a communication processing unit 1-7-1, a signal processing unit 1-7-2, and a software rewriting unit 1-7-3. In order to realize a plurality of radio systems used in each of the plurality of radio terminals 1-4, 1-5, 1-6 accommodated in the access point 1-3, signal processing means in the access point 1-3 1-3-4 or signal processing means 1-7-2 of the radio signal processing apparatus 1-7 via the network 100 performs radio signal processing such as modulation and demodulation. In the signal processing allocation method according to the present embodiment, it is determined which radio signal processing related to the access point 1-3 is to be executed by the signal processing means 1-3-4 and 1-4-2.

  FIG. 2 is a diagram illustrating an example of data stored in the wireless processing software management database 1-8-1 according to the present embodiment. The wireless processing software management database 1-8-1 is associated with a wireless processing software ID corresponding to each wireless system. For each wireless processing software, an operable CPU (type) and a minimum response time can be obtained. The processing time and the minimum response time specification are stored.

  Note that the processing time with the shortest response time is the processing time in a sequence that requires the shortest response time when there is a time rule to be observed in the wireless system, and the processing with the shortest response time is performed by the corresponding CPU. This is the processing time required for Further, the minimum response time specification is the shortest value in the response period specified in the corresponding wireless system. For example, in IEEE 802.11a, a response period until an ACK signal is transmitted after a data signal is defined as 16 μsec, and this period is the shortest response period.

  FIG. 3 is a diagram illustrating an example of data stored in the wireless signal processing device management database 1-8-2 according to the present embodiment. In the wireless signal processing device management database 1-8-2, for the wireless signal processing device 1-7 and the access point (AP) 1-3, wireless signal processing device ID-CPU number- # core number, The CPU type of the signal processing means, details of the software being allocated for each CPU core (usage status: access point ID and radio processing software ID if not allocated / allocated), and remaining signal processing resource information are stored. That is, in the present embodiment, signal processing is performed by either the wireless signal processing device 1-7 or the access point 1-3.

  FIG. 4 is a flowchart for explaining the signal processing resource allocation method (radio signal processing allocation method) according to this embodiment. The flowchart is started to be executed with a wireless method name (or SW-ID: method name-xx01) as an argument when a new wireless service start request from the access point 1-3 or setting in the wireless method management apparatus 1-8 is performed. .

  The allocation control means 1-8-4 of the radio system management apparatus 1-8 receives a start request signal for a new radio service (that is, a newly supported radio system) from the access point 1-3 via the network 100, Based on the setting in the wireless system management device 1-8, when allocating signal processing of the n-th system (n is a natural number), it is determined whether or not the wireless system (software: SW) has been registered ( Step S1). If not registered (NO in step S1), the requester is notified of the allocation failure (step S2), and the process ends.

  On the other hand, if registered (YES in step S1), a wireless signal processing device having a CPU capable of operating the wireless system (software) is extracted (step S3). That is, by referring to the wireless method information in the wireless processing software management database 1-8-1, the corresponding wireless processing software is determined, and a list of signal processing devices (FIG. 2) that can execute the wireless processing software is displayed on the above signal. Extracted from the processing device management database 1-8-2. Here, the signal processing device capable of executing the wireless processing software is a signal processing device including a CPU capable of supporting the wireless processing software and capable of completing the signal processing without exceeding the minimum response time specification. It is.

  If there are a plurality of pieces of wireless processing software that implements the wireless system, allocation candidates are searched for in the same procedure. Here, when the signal processing devices having available CPUs are listed in the order from the shortest distance between the access point and the signal processing device and stored in the signal processing device management database 1-8-2, the delay time is minimized. It is convenient from the viewpoint of conversion In addition, by searching for available CPU cores in the signal processing device in order from the top of the list, the signal processing device at the closest distance can be detected.

Next, with respect to the list of signal processing devices described in the extraction result, it is determined whether processing (CPU core) can be assigned to the signal processing device based on the remaining signal processing resources. That is, for the remaining available signal processing resource information, the wireless processing software processing time information C _i, and the shortest response time defined information T _i, received from the wireless processing software management database 1-8-1, load If U _n satisfies the condition of the following expression (1), it is determined that allocation is possible.

  In the illustrated flowchart, first, variables L (a plurality of extracted signal processing devices) and M (available CPU cores) are set to 1 (step S4). Next, it is determined whether or not the Mth CPU core of the extracted Lth signal processing device can be assigned (step S5). If assignment is impossible (NO in step S5), it is determined whether or not all CPU cores in the signal processing device have been inspected (step S6). If not inspected (NO in step S6). Then, the variable M is incremented (step S7), and the process returns to step S5 to determine whether the CPU core can be changed and reassigned.

  On the other hand, if all the CPU cores in the signal processing device have been inspected (YES in step S6), it is determined whether or not all the signal processing devices have been inspected (step S8). (NO in S8), the variable L is incremented (step S9), the process returns to step S5, and it is determined whether the signal processor can be changed and reassigned.

  If no signal processing device or any CPU core can be assigned to the list of signal processing devices described in the extraction result (YES in step S8), the processing ends.

For example, when the list of signal processing devices that can execute the wireless processing software is extracted from the wireless signal processing device management database 1-8-2, the distance between the access point and the signal processing device is listed in ascending order. The available signal processing resources (U _n ) are determined in order. Thereby, efficient allocation is possible from the viewpoint of reducing the signal processing time. Incidentally, with respect to all possible signal processing apparatus radio processing software calculates the U _n, by selecting the signal processor as the smallest Un, it is possible to load balancing.

  On the other hand, if the Mth CPU core of the extracted Lth signal processing device can be assigned (YES in step S5), the wireless processing software is assigned (step S10). That is, the wireless processing software is loaded on the determined signal processing device, the routing control of the signal between the access point 1-3 serving as the communication partner and the assigned signal processing device is performed, and the wireless signal processing device management database 1 The allocation information to -8-2 and the remaining signal processing resource information are updated as the following equation (2). Next, the request source is notified of successful allocation (step S11), and the process is terminated.

  In addition, since the wireless communication cannot be maintained unless the minimum response time specified by the processing of the wireless processing software is satisfied, accurate signal processing time is required for signal processing allocation.

  The processing time measuring means 1-8-5 includes an emulator for operating the wireless processing software to be measured, and measures the processing time for the required number of processing steps with respect to each signal processing time, so that the shortest response time is obtained. Is recorded in the wireless processing software management database 1-8-1 shown in FIG. The time measurement need not be performed every time allocation is performed, but is performed when wireless processing software is registered, and the result is stored in the wireless processing software management database, thereby enabling real-time allocation. ing.

  The processing time measuring means 1-8-5 is provided with a disassemble means for counting the number of processing steps (dynamic step number) D [step] at the assembler level in order to analyze from the dynamic step number. The required processing time C is calculated by the following equation (3) from the performance (= average number of clocks required to execute one step of the same type of signal processing) E [clk / step] and the signal processing performance P [clk / sec] of the CPU. .

  FIGS. 5A and 5B are conceptual diagrams illustrating an example of operation timing of the signal processing resource allocation method (radio signal processing allocation method) according to the present embodiment. It shows the passage of time when a sequence requiring a response with the shortest response time occurs simultaneously in the three radio systems A, B, and C. The scheduling of each signal processing may be any method as long as all the deadlines of the wireless systems A, B, and C can be satisfied. In FIG. 5A, for example, processing is performed from a system with a strict minimum response time rule. Shows about the case. Even if a new signal processing request comes later, processing is performed from a method with a strict minimum response time. As shown in FIG. 5, since the processing can be completed with a margin, it can be seen that the allocation method according to the present embodiment operates well.

  According to the above-described embodiment, signal processing resources can be allocated so that the time regulation required by the wireless system can be observed. In addition, since it is possible to assign a plurality of processes to one CPU core according to the present invention, it is possible to prevent an excessive increase in signal processing resources to be provided in the radio signal processing apparatus. Operation becomes possible.

1-7 Radio Signal Processing Device 1-7-1 Communication Processing Unit 1-7-2 Signal Processing Unit 1-8 Radio System Management Device 1-8-1 Radio Processing Software Management Database 1-8-2 Radio Signal Processing Device Management Database 1-8-3 Software storage means 1-8-4 Allocation control means 1-8-5 Processing measurement means 1-3 Access point 1-3-1 Wireless signal transmission / reception means 1-3-2 Analog signal processing means 1- 3-3 AD signal conversion means 1-3-4 Signal processing means 1-3-5 Software rewriting means 1-3-6 Communication processing means 1-3-7 Memory means 1-4 Wireless terminal (tag)
1-5 Wireless terminal (sensor)
1-6 Wireless terminal (wireless LAN)

Claims (8)

A wireless communication system including a wireless system management device, a plurality of wireless signal processing devices, and a base station device that accommodates a wireless terminal device connected to each other,
The base station device
Communication processing means for notifying the wireless method management device of the wireless method used by the wireless terminal device;
Relay means for relaying signals between the plurality of wireless signal processing devices and the wireless terminal device;
With
The wireless signal processing device includes:
Radio processing based on stored radio processing software, radio signal processing of signals relayed from the base station apparatus, signal processing means for responding to the processing results,
Software rewriting means for receiving wireless processing software corresponding to a wireless system used in the wireless terminal apparatus from the wireless system management apparatus, and storing the received wireless processing software in the signal processing means;
With
The wireless method management device
Software storage means for storing wireless processing software corresponding to each of a plurality of wireless systems used in the wireless terminal device;
Managing conditions required when executing wireless processing software corresponding to each of a plurality of wireless systems used in the wireless terminal device and the allocation status of signal processing resources possessed by the plurality of wireless signal processing devices Management means;
When the radio system used by the radio terminal apparatus is notified from the base station apparatus, the radio processing software corresponding to the radio system is executed from the plurality of radio signal processing apparatuses with reference to the management unit Selection of extracting a possible radio signal processing device, calculating a load amount when the radio processing software is executed in the extracted radio signal processing device, and selecting a radio signal processing device having the load amount equal to or less than a threshold value Means,
A wireless communication system comprising: communication processing means for transmitting the wireless processing software corresponding to the wireless method notified from the base station apparatus to the wireless signal processing apparatus selected by the selecting means. The radio communication system according to claim 1, wherein the selection unit selects a radio signal processing device having a short distance from the base station device as the radio signal processing device to be selected. The wireless communication system according to claim 1, wherein the selection unit selects a wireless signal processing device having the smallest load amount as the wireless signal processing device to be selected. . The selection means, based on the processing time in a sequence that requires the shortest response time when there is a time rule to be observed in the wireless method and the shortest response time rule specified in the wireless method, The wireless communication system according to any one of claims 1 to 3, wherein a load amount when the wireless processing software is executed on the wireless signal processing device is calculated. The wireless management device emulates the target wireless processing software, and measures the processing time for the required number of processing steps between each signal processing time, thereby reducing the processing time at the shortest response time. The wireless communication system according to claim 4, further comprising processing time measurement means for acquiring. A radio signal processing allocation method for a radio communication system comprising a radio system management device, a plurality of radio signal processing devices, and a base station device that accommodates radio terminal devices connected to each other,
The base station device is
Notifying the wireless method management device of the wireless method used by the wireless terminal device;
The wireless method management device comprising software storage means for storing wireless processing software corresponding to each of a plurality of wireless methods used in the wireless terminal device,
When the radio system used by the radio terminal apparatus is notified from the base station apparatus, conditions required when executing radio processing software corresponding to each of a plurality of radio systems used in the radio terminal apparatus; A wireless signal processing device capable of executing wireless processing software corresponding to the wireless method from among the plurality of wireless signal processing devices with reference to a signal processing resource allocation status of the plurality of wireless signal processing devices. Extracting, calculating a load amount when the wireless processing software is executed in the extracted wireless signal processing device, and selecting a wireless signal processing device having the load amount equal to or less than a threshold; and
Transmitting the wireless processing software corresponding to the wireless method notified from the base station device to the selected wireless signal processing device;
The wireless signal processing device is
Receiving wireless processing software corresponding to a wireless method used in the wireless terminal device from the wireless method management device, and storing the received wireless processing software;
The base station device is
Relaying signals between the plurality of wireless signal processing devices and the wireless terminal device;
The wireless signal processing device is
Performing wireless signal processing of a signal relayed from the base station device by a wireless method based on the stored wireless processing software, and responding with a processing result;
A radio signal processing assignment method comprising:   7. The radio signal processing allocation method according to claim 6, wherein the selection step selects a radio signal processing device having a short distance from the base station device as the radio signal processing device to be selected.   8. The radio signal processing according to claim 6, wherein the selecting step selects a radio signal processing device having the smallest load amount as the radio signal processing device to be selected. 9. Assignment method.

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