JP2017175274A - Command control device, mobile station device and command control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable an emergency vehicle which works at a disaster site and the like to set an appropriate task radio wave even when a frequency is not manually adjusted.SOLUTION: A command control device which automatically determines a task radio wave to be used in a mobile station device to provide an instruction to the mobile station device, includes: a first processing unit which sets beforehand the task radio wave to be used for an emergency among a plurality of task radio waves, according to a plurality of types of information related to the emergency; and a radio control unit which instructs the mobile station device in which the emergency occurs to set a task radio wave for use to the task radio wave which is set before.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a command control device, a mobile station device, and a command control system, and more particularly to a command control device, a mobile station device, and a command control system that determine a commercial radio wave to be used at a disaster site or the like.

  In order to carry out disaster activities smoothly in each local fire department, the development of a fire fighting radio communication system is being promoted. Under such circumstances, the analog wireless communication system used in the 150 MHz band for the purpose of effective use of the frequency band, improvement of communication confidentiality (privacy protection), and utilization of data communication is changed to the 260 MHz band digital system. The transition is made. (Analog radio must be converted to digital radio by May 31, 2016).

  With the digitalization of fire fighting radio, the convenience has been improved as described above. However, communication is disabled due to radio wave interference, and the transmission distance is about half (short wave), so it can be used by reducing the transmission area. There are also problems when compared with analog methods, such as an increase in frequency. There is a demand for a method of effectively using digital radio as a means of communication between the command control center and emergency vehicles (fire brigade, ambulance crew, etc.) during disaster activities while solving such problems.

  Compared with analog radio waves, SCPC digital radio waves can be used more sophisticatedly due to improved data confidentiality and communication confidentiality. The SCPC system is a transmission system that allocates one carrier wave per audio channel, and is a type of frequency division multiple access (FDMA). In addition, from the viewpoint of BCP (Business Continuity planning), organizations such as firefighting and police should use a private network as a means of communication in situations where the public network is not available. Is indispensable. It is necessary to effectively use it as a means of communication between the command control center and other emergency vehicles during disaster activities.

  With SCPC digital radio waves, if the same radio wave (frequency band) is used from multiple radio base station devices, communication may be disabled due to radio wave interference. In addition, there is a usage restriction that prevents others from communicating until the radio wave being used for communication is in an empty line state. For this reason, it is indispensable for commercial radio waves to wait for an empty line or to be switched (operated).

  If the same commercial radio wave is used in each disaster at the time of disaster congestion, information may be confused and crosstalk may occur at the disaster site. In order to prevent crosstalk, it is necessary to divide commercial radio waves used for each disaster.

  On the emergency vehicle side (mobile station device), the installation of radio wave receiving antennas is limited due to issues such as securing power supply and procurement costs. For this reason, the number of received waves is limited, and when the area of activity consists of a plurality of radio wave areas, it is necessary to manually change the radio waves for use.

  In Patent Document 1, for the purpose of providing a telephone device that can be used universally in various regions (countries), a mobile phone performs a pilot channel search and receives identification information of a used region or a telecommunications carrier. It is described that the means is automatically discriminated, and the control means controls the oscillation means so as to output the necessary frequency signal, and changes the setting of the processing necessary for transmission / reception. It is also described to do.

  Further, Patent Document 2 describes that in a SCPC (Single Channel Per Carrier) wireless communication system, a control station instructs channel switching in order to switch a working line without interruption and bidirectionally. Specifically, when it is necessary to set the high-speed line to the low-speed line side frequency band, prior to the setting, the working low-speed line that is currently set within the frequency band for which the high-speed line is scheduled to be set The frequency is switched to another low-speed line without interruption.

Japanese Patent Laid-Open No. 11-32111 JP-A-5-7174

  In both Patent Documents 1 and 2, only the single element of frequency is the object of change. However, depending on the type of event such as disaster or emergency, the radio wave used depends on the characteristics of the region, such as height difference, base station installation status, possibility of interference, etc. May be different candidates. In other words, an appropriate radio wave may not be selected with only a single element.

  SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, and to provide a command control device and a mobile station that can appropriately set a commercial radio wave of a mobile station device used at a disaster site or the like without manually adjusting it. It is to provide a device and a command control system.

  The present invention is a command control device that automatically determines a business radio wave to be used by a mobile station device and instructs the mobile station device, and from a plurality of types of information related to an emergency, a plurality of business radio waves Of these, a first processing unit that presets a business radio wave to be used for the emergency, the business radio wave to be used is set for the mobile station device when the emergency occurs. A command control apparatus comprising a radio control unit that instructs to set a commercial radio wave.

  Further, the present invention is a mobile station device that communicates with a command control device, comprising a control wave transmission / reception unit, a second processing unit, a second storage unit, a voice call unit, a data display unit, A mobile station apparatus that receives an instruction from a radio control unit and communicates with the command control apparatus using a commercial radio wave used in the set emergency.

Furthermore, the present invention is a command control system comprising a mobile station device and a command control device that automatically determines a business radio wave used by the mobile station device and instructs the mobile station device,
The command control device is a first processing unit that presets a business radio wave to be used in the emergency out of a plurality of business radio waves from a plurality of types of information related to the emergency, the emergency has occurred A command control system comprising: a radio control unit that instructs the mobile station apparatus to set the business radio wave to be used to the set business radio wave.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to set appropriately even if it does not match | combine the radio wave for business of the mobile station apparatus used at a disaster field etc. manually.

It is a figure which shows the whole outline | summary of embodiment of this invention. It is a figure which shows the function of the command control center of embodiment of this invention. It is a figure which shows the function of the emergency vehicle (mobile station apparatus) of embodiment of this invention. It is a figure which shows the radio wave automatic determination concept of the command console and processing part of embodiment of this invention. It is a figure for demonstrating the 2nd Embodiment of this invention.

(First embodiment)
A first embodiment of the present invention will be described with reference to FIGS.
(Description of configuration)
FIG. 1 is a diagram showing an overall outline of an embodiment of the present invention.

  Within the jurisdiction where the coverage areas of the radio base station apparatus (business A wave) 40 and (business C wave) 42 and the radio base station apparatus (business B wave) 41 and (business D wave) partially overlap In some cases, the place where the use of the commercial A wave is optimal is the disaster site (indicated as “disaster” in FIG. 1). The radio base station (business A wave) 40 and (business C wave) 42 are installed on the hill 400. The disaster in Fig. 1 is a fire near a hill. A radio base station (business A wave) 40 and a radio base station (business B wave) 41 are radio waves used in a disaster (other than emergency). A radio base station (commercial C wave) 42 and a radio base station (commercial D wave) 43 are radio waves used during emergency. In FIG. 1, the solid line is the radio base station device (control wave) area, the broken line is the radio base station device (business A, C wave) area, and the two-dot chain line is the radio base station device (business B, D wave) area. It is.

  The command console 101 in the command control center 10 automatically determines the radio wave for business (A wave for business use) that is most suitable for use at the disaster site as the commander inputs and confirms the disaster information. Automatic switching control of radio waves for business use is possible for the emergency vehicle A (mobile station device) 20 and the emergency vehicle B (mobile station device) 21.

  When switching control is transmitted from the command control center 10 to the mobile station apparatus in the emergency vehicle A20 and the emergency vehicle B21, the radio control is performed by the radio control unit 104, and the remote control by the public line 04 is performed by the public line control unit 111. Is used.

Remote control by radio waves is performed using the SCPC digital radio wave (control wave) 01 from the radio control unit 104 via the radio base station device (control wave) 30 to the emergency vehicle A20 and the emergency vehicle B21. This is done by transmitting a switching control request to the business A wave to the mobile station device. The mobile station apparatus that has received the switching control request using the control wave 01 is automatically switched to transmit and receive using the business A wave.
In addition, remote control on the public line 04 is transmitted from the public line control unit 111 via the public line network 50 to the mobile station device 20 of the emergency vehicle A05 and the emergency vehicle B06, and a control request for switching to the commercial A wave is transmitted. To do. The mobile station apparatus 20 that has received the switching control request via the public line 04 is automatically switched to transmit and receive using the business A wave. If the SCPC method cannot be used due to damage to the radio base station apparatus (control wave) 30, disaster resistance is improved by using a public line.
Thereafter, the mobile station devices of the emergency vehicle A20 and the emergency vehicle B21 communicate with the command control center 10 by voice communication or non-voice (data) communication via the radio base station device (business A wave) 40 using business A waves. Can be performed.

  FIG. 2 is a diagram showing each functional part of the command control center 10 according to the embodiment of the present invention shown in FIG. The command control center 10 includes a command console 101, a processing unit 102, a storage unit 103, a radio control unit 104, a control wave transmission unit 105, a control wave reception unit 106, and a business A wave transmission unit 107. A business A wave receiving unit 108, a business B wave transmitting unit 109, a business B wave receiving unit 110, and a public line control unit 111.

  Here, the command console 101 is a function unit that a user such as a commander inputs and confirms disaster information corresponding to an emergency call from 119 or 110, and controls the disaster.

  In addition, the processing unit 102 acquires information such as disaster information and radio wave operation plan determined by the command console 101 from the storage unit 103, and automatically determines the optimum commercial radio wave at the disaster site based on each element. It is a functional part to do.

  The storage unit 103 is a functional unit that stores various data such as vehicle use radio wave information and radio wave operation plan information including disaster information determined by the command console 101.

The radio control unit 104 is a functional unit that controls various radio waves when performing a control request and voice / non-voice communication (data communication) for a mobile station device mounted on an emergency vehicle.
The control wave transmitting unit 105 and the control wave receiving unit 106 are functional units that transmit and receive a radio wave switching control request and response to the mobile station device via the radio base station device (control wave) 30. It is. At this time, an SCPC digital radio wave (control wave) 01 is used.

  The business A-wave transmission unit 107 and the business A-wave reception unit 108 perform voice communication / non-voice communication (data communication) with the mobile station device via the radio base station device (business A wave) 40. , A functional unit for transmitting and receiving. At that time, an SCPC digital radio wave (commercial A wave) 02 is used.

  The business B wave transmission unit 109 and the business B wave reception unit 110 perform voice communication / non-voice communication (data communication) with the mobile station device via the radio base station device (business B wave) 41. , A functional unit for transmitting and receiving. At that time, an SCPC digital radio wave (commercial B wave) 03 is used.

  The public line control unit 111 is a functional unit that transmits and receives a radio wave switching control request and non-voice communication (data communication) to the mobile station device via the public line network 50. At that time, the public line 04 is used.

  In addition, the direction of the arrow in FIG. 2 shows an example, and does not limit the direction of the signal between blocks. The same applies to FIG.

  FIG. 3 is a diagram showing functional units of the emergency vehicles (mobile station devices) 20 and 21 according to the embodiment of the present invention shown in FIG. The emergency vehicles (mobile station devices) 20 and 21 include a control wave transmission unit 201, a control wave reception unit 202, a business wave transmission unit 203, a business reception unit 204, a public line transmission unit 205, A public line receiving unit 206, a voice call unit 207, a data display unit 208, a processing unit 209, and a storage unit 210 are provided. The emergency vehicles (mobile station devices) 20 and 21 have antennas for control waves, business waves, and public lines.

  Here, the control wave transmission unit 201 and the control wave reception unit 202 send a radio wave switching control request and response from the command control center to the emergency vehicle (control wave) 30 via the emergency vehicle (control wave). This is a functional unit that transmits / receives data to / from mobile station devices 20 and 21. At this time, an SCPC digital radio wave (control wave) 01 is used.

  In addition, the business wave transmission unit 203 and the business wave reception unit 204 are configured to perform voice communication / non-voice communication (data communication) between the command control center 10 and the emergency vehicles (mobile station devices) 20, 21. This is a functional unit that transmits and receives via a device (business A wave) 40 or a radio base station device (business B wave) 41. At that time, based on the set radio wave information stored in the storage unit 210, the SCPC digital radio wave (business A wave) 02 or the SCPC digital radio wave (business B wave) 03 is used.

  The public line transmission unit 205 and the public line reception unit 206 are functional units that transmit and receive a radio wave switching control request and non-voice communication (data communication) from the command control center via the public line network 50. . At that time, the public line 04 is used.

  The voice call unit 207 is a functional unit that allows emergency vehicle members to make a voice call.

  In addition, the data display unit 208 is a functional unit that displays the set radio wave information stored in the storage unit 210 and the reception information of non-voice communication (data communication).

  Further, the processing unit 209 is a functional unit that switches the radio wave used based on the switching control request received from the command control center 10.

The storage unit 210 is a functional unit that stores various data such as set commercial radio wave information and non-voice communication (data communication) reception information.
(Description of operation)
FIG. 4 is a diagram showing a radio wave automatic determination concept flow of the command console 101 and the processing unit 102 in the command control center 10 according to the embodiment of the present invention shown in FIG.

  As shown in FIG. 4, the radio wave automatic decision concept flow 60 includes disaster information 601, radio wave decision element 602, radio wave operation plan / decision process 603, radio wave used 604, and business use of each emergency vehicle. A radio wave 605.

  The disaster information 601 corresponds to the disaster information determined by the command console 101. The contents of the disaster information 601 are the reception date and time when the commander of the commanding government system center 10 receives the disaster information, the disaster occurrence area where the disaster occurred, and the type of disaster. The type of disaster refers to the type of incident that occurred. Examples of large categories include fire, first aid, rescue, vigilance, and others, but they are actually further classified. The commander inputs from the contents of the report up to this classification. For example, if it is a fire, fire (general building fire), fire (mid-rise building fire), etc. In the case of emergency, more specific classifications are made even in the same fire, such as emergency (emergency illness) and emergency (traffic accident). This is the primary information input by the commander. The disaster type is registered by dividing the input primary information into types and categories such as fire and general building fire.

  The radio wave determination element 602 is an element to which the confirmed disaster information 601 corresponds. The radio wave determination element 602 is automatically converted from the disaster information in the processing unit 102 of the command center. The reception date and time of the disaster information 601 corresponds to the time zone of the radio wave determination element 602, the disaster occurrence area corresponds to the region / direction, and the disaster type corresponds to the disaster type. For example, “time zone” is divided into 24 hours every few hours, and the actual reception date / time is assigned to which one.

  As an example, when the reception date and time is fixed as “13:00”, the processing unit 102 converts it into “daytime zone”, and when it is 21:00, it converts it into “nighttime zone”. The daytime zone is set in the processing unit 102 in advance so that the daytime zone is 6:00 to 18:00 and the nighttime zone is 18:00 to 6:00 so that conversion is possible.

  Further, the radio wave operation plan / determination process 603 is a process for determining an optimum commercial radio wave at the disaster site using each element of the radio wave determination element 602 and a pre-registered use radio wave plan. .

The used radio wave 604 is information on the optimum commercial radio wave determined as a result of the radio wave operation plan / determination process 603.
The business radio wave 605 for each emergency vehicle is information for switching the business radio wave used by each emergency vehicle being dispatched to the disaster to the optimum business radio wave.

  When the radio wave is automatically determined, an optimum radio wave can be selected by determining the radio wave from a plurality of radio wave determining elements.

  In FIG. 4, as an example of automatic radio wave determination from a plurality of elements, the reception date / time of disaster information 601, the disaster occurrence area, and the disaster type correspond to the time zone, area / direction, and disaster type of the radio wave determination element 602. To do. Of these, as a result of the radio wave operation plan / determination process 603 using the elements of time zone, region / area, and disaster type, the business A wave is determined as the optimum business radio wave. Based on the decision information, the business radio wave information 605 of the emergency vehicle dispatched to the disaster is switched to the business A wave.

  Further, as an example of automatic radio wave determination from a plurality of elements, as a result of using each element of the time zone and the disaster type among the radio wave determination elements 602, the business radio wave with the optimum business A wave is used. The case that has been decided as a wave is given.

Hereinafter, it will be described how to specify a radio wave to be used from each element and a combination of each element.
“Time zone”: Operates to divide radio wave candidates used by emergency vehicles between daytime and nighttime. When it is not necessary to divide in operation, the same radio wave in the daytime zone and the nighttime zone is a candidate for the radio wave to be used. Moreover, when performing the operation | movement which divides | segments a radio wave, it is not restricted to the division of daytime and nighttime. For example, because some radio waves cannot be used in a certain nighttime zone due to a temporary stop due to maintenance or the like, there are cases where radio wave candidates are divided between a pause time zone and other time zones.
“Region / Direction”: Radio wave candidates are divided according to the characteristics of each region. For example, candidates are divided for reasons such as differences in land height and the possibility of interference due to the installation of base stations.
"Type of disaster" ... Business waves used in advance are divided according to the type of disaster. For example, if it is a disaster other than emergency, use one of business waves A, B, C (sometimes called activity wave A, disaster wave A, etc.). (Ambulance A, etc. should be prepared as a radio wave that is basically used by ambulances. Since ambulances may be dispatched even in the event of a fire, both disaster and ambulance settings are required.) use.

  For example, assuming that there are five business waves A to F, A, B, C, D are for disasters other than emergency, and E, F are for emergency, and “disaster types” and “region / direction” It is considered that radio wave candidates are divided by two elements. If the type of disaster is fire, candidates are narrowed down to A to D, and emergency E and F are excluded from the candidates. Furthermore, if the characteristics of the region, for example, the disaster site is high, and the radio waves used by the base station in the high altitude region are business waves A and C, the processing unit 102 selects either A or C. The emergency vehicle is set and used by using the SCPC digital radio wave (control wave) 01.

  In addition to this, when a time zone element is added, if the corresponding time zone candidate is C, C is set. In this case, a radio wave is set using all three elements of “disaster type”, “region”, and “time zone”. The disaster information such as the area of the disaster site, the type of disaster, the disaster occurrence time zone, etc. is used as a business radio wave determining element, and each element and the radio wave operation plan are registered in the storage unit 103. From the command control center 10, optimal radio wave switching control for business is performed by remote control on the emergency vehicles 20 and 21 in the disaster activity. Therefore, there is no need to manually adjust the frequency appropriately on the emergency vehicle side, and the optimum business radio wave can be used, and smooth voice communication and non-voice communication (data communication) are possible.

In the area covered by one command control center, multiple disasters may occur simultaneously, such as fires and traffic accidents, and there may be multiple disaster types. In that case, it is basically treated as a separate disaster. In the case of a fire and a traffic accident, there are two cases, a fire case and a traffic accident case, which are managed separately and set so that commercial radio waves do not overlap. However, when the disaster occurrence site is the same, it may be combined into one case, for example, a fire.
(Explanation of effect)
According to the present embodiment, it is not necessary to manually adjust the frequency of the mobile station device used for the emergency vehicle group that is active at each disaster site, and it is possible to use it without being aware of the optimum commercial radio wave. In addition, even when disasters are congested, it is possible to use commercial radio waves for each disaster site.

  In addition, it is possible to eliminate the received wave deviation between emergency vehicles in operation. Receiving wave deviation of each vehicle is a place where multiple vehicles should use the same A wave for business use. One vehicle may be set to A wave and another vehicle may be set to B wave. It means that it can be automatically aligned with the A wave. Even if a business-use A wave should be used at a disaster site, the wave set on the vehicle side is not necessarily a business-use A wave. For example, there is a case where the business A wave travels to the optimal disaster site from the state where the business B wave is used in an optimal area. In this case, the B wave remains set unless the setting is changed manually on the vehicle side. Therefore, remote control is performed on the emergency vehicle being dispatched from the command control center, so that the setting of each vehicle is aligned with one wave.

  Furthermore, by controlling the radio waves used for each disaster, it is possible to avoid a communication disabled state due to crosstalk or radio wave interference.

  In addition, as a method of controlling the switching of radio waves for business use to emergency vehicles, it is possible to provide multiple routes that use radio waves for control or routes that use the public network. It is possible to avoid a situation where control becomes impossible.

  In the above-described embodiment, the control radio wave is used to switch the business radio wave to the emergency vehicle. However, when the radio base station (control wave) 30 encounters a disaster and cannot be used, the command control center 10 may instruct the public line control unit 111 to use the public line network. Thus, if control is possible with a plurality of routes, it is possible to avoid a situation in which switching control is impossible due to a disaster occurrence situation, a field activity situation, or the like.

Although the disaster response has been described in the present embodiment, the present invention is not limited to disasters, but can be applied to other emergency situations such as emergency and rescue.
(Second Embodiment)
FIG. 5 is a view for explaining a command control apparatus according to the second embodiment of the present invention.

The command control device 15 automatically determines the business radio wave used by the mobile station device 25 and instructs the mobile station device 25. The command control device 15 includes a first processing unit 1020 and a wireless control unit 1040. The first processing unit 1020 previously sets business radio waves to be used for emergency situations among a plurality of business radio waves from a plurality of types of information related to emergency situations. When an emergency situation occurs, the first processing unit 1020 instructs the mobile station device 25 via the radio control unit 1040 to use a preset business radio wave. In this way, the mobile station device 25 does not need to manually adjust the frequency, and can use an appropriate commercial radio wave.
(Other embodiments)
Assuming that “region / area” described in the above embodiment is α type, “disaster type” is β type, and “time zone” is γ type, it becomes α, β, γ types in simple calculation, and a considerable number May be. However, since the frequency allocated to the business wave is limited, the wave to be selected may be the same even if the combination is different.

  Moreover, when the disaster situation changes, the command control center 10 may change the business wave to be used. For example, when a fire has spread, it may be changed from a business wave of a base station in a fire spread area to a business wave of a base station in a region where the fire is not spread. The commander receives a notification from the emergency vehicle at the site and recognizes that the situation of the disaster has changed, and designates it on the command console 101 to rearrange the radio waves of the emergency vehicle.

  In addition, when the scale of a disaster increases, emergency emergency vehicles may be dispatched from other areas that are not affected by the disaster. In that case, the command control center 10 can handle the vehicle in the same manner as the vehicle in its own area if it is set in advance so that the support vehicle can receive the emergency vehicle and the radio wave in its own region. This is effective when it is known in advance whether or not there is a possibility of supporting other districts by a support agreement.

If an emergency receiving antenna cannot be installed on the emergency vehicle side for control radio waves, control the standby radio wave of the business radio wave reception antenna installed on the emergency vehicle side during normal times or at the end of a disaster. It is also possible to share the receiving antenna by matching with the radio wave for use.
The relationship between the business radio wave and the control radio wave is as follows. When a total of four commercial radio waves are used at a certain firefighting headquarters, the switching control by remote operation according to the present invention is distinguished according to the main operational use so as not to compete with voice communication and data communication. Of the radio waves P, Q, R, and S for business use, the radio waves mainly used for voice communication and data communication are P, Q, and R (referred to as business radio waves) for switching control. A radio wave whose main use is the control request is S (referred to as a control radio wave). By separating antennas that transmit and receive radio waves P, Q, and R (professional radio waves) and antennas that transmit and receive radio waves S (control radio waves), radio waves with different applications can be used without competing Yes. Therefore, separate antennas are prepared and installed.

  As mentioned above, in order to avoid competing radio waves with different operational uses, it is mentioned that antennas are prepared and installed separately, but the emergency vehicle side also has a radio wave receiving antenna due to problems such as securing power supply and procurement costs. The number of installations is limited and may not be prepared and installed separately. In this case, it is possible to allow a part of competition of radio waves having different operational uses. That is, the same receiving antenna can be used for multiple purposes.

The relationship between the commercial radio wave and the control radio wave has been described above. However, when part of the competition between radio waves with different operational uses is allowed, the commercial radio waves P, Q, R, and S are used for voice communication and data. While using as a communication application, a control request application is also added to S (the radio wave S is both a business radio wave and a control radio wave). However, in this case, if the same reception antenna is used, if the radio wave S is used as a commercial radio wave, the control radio wave cannot be used until the use is completed. (Since a single antenna cannot receive a plurality of radio waves at the same time, waiting may occur.)
When the same receiving antenna is used for multiple purposes such as business radio waves and control radio waves, radio waves that are used for multiple purposes as a standby wave during normal times or at the end of a disaster (that is, when there is no activity) (Radio wave S in the above example) is set.

  If the point that the disaster resistance is lowered is allowed, it is possible to use only the private network without using the public network. Even in such a case, the present invention can be used.

  In the above embodiment, the program display device of each embodiment of the present invention described above may be realized by a dedicated device, but can also be realized by a computer (information processing device). In this case, the computer reads out a software program stored in a memory (not shown) to a CPU (Central_Processing_Unit, not shown), and executes the read software program on the CPU to set a commercial radio wave. Can be done. Furthermore, a computer-readable storage medium storing such a software program can also be understood as constituting the present invention.

A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.
(Appendix 1)
A command control device that automatically determines a business radio wave to be used by a mobile station device and instructs the mobile station device, and from a plurality of types of information on an emergency, the emergency situation among a plurality of business radio waves A first processing unit that preliminarily sets a commercial radio wave to be used for the mobile station device when the emergency situation occurs, the business radio wave to be used for the business radio wave that has been set A command control device comprising a radio control unit that instructs to set a radio wave.
(Appendix 2)
The command control device according to appendix 1, wherein the information on the emergency is information on an occurrence area, an emergency type, and a time zone.
(Appendix 3)
The command control device includes a command console, the first processing unit, a first storage unit, and a radio control unit, wherein the first storage unit stores information on the set commercial radio wave, and In accordance with an instruction from the instruction console, the first processing unit instructs the mobile station device via a private network to communicate with the radio control unit using the set commercial radio wave used in the emergency situation. The command control apparatus according to 1 or 2.
(Appendix 4)
The command control according to any one of appendices 1 to 3, wherein when the business radio wave set in the mobile station apparatus is different from the preset business radio wave, the mobile radio apparatus switches to the preset business radio wave. apparatus.
(Appendix 5)
A public line control unit, wherein the first processing unit is configured to communicate with the public line control unit via the set commercial radio wave used in the emergency when the private network cannot communicate. The command control device according to any one of appendices 1 to 4, which instructs the mobile station device via a network.
(Appendix 6)
The command control device according to any one of appendices 1 to 5, wherein the commercial radio wave is an SCPC digital radio wave.
(Appendix 7)
The command control device according to any one of appendices 1 to 6, wherein the mobile station device is mounted on an emergency vehicle.
(Appendix 8)
The command control device according to any one of appendices 1 to 7, wherein one of the plurality of business radio waves is used for control and the rest is used for business.
(Appendix 9)
The command control device according to appendix 8, wherein radio waves used for control are also used for business purposes.
(Appendix 10)
A mobile station apparatus that communicates with the command control apparatus according to any one of appendices 1 to 4, wherein the control wave transmitting / receiving unit, the second processing unit, the second storage unit, the voice call unit, A mobile station device comprising a data display unit, which receives an instruction from the radio control unit and communicates with the command control device using the set commercial radio wave used in the emergency situation.
(Appendix 11)
The mobile station apparatus according to appendix 10, further comprising a public line transmission / reception unit, wherein when the private network cannot communicate, receives an instruction from the public line control unit and communicates with the command control center via the public line .
(Appendix 12)
A command control system comprising a mobile station device, and a command control device that automatically determines a commercial radio wave used by the mobile station device and instructs the mobile station device,
The command control device is a first processing unit that presets a business radio wave to be used in the emergency out of a plurality of business radio waves from a plurality of types of information related to the emergency, the emergency has occurred A command control system comprising: a radio control unit that instructs the mobile station device to set the business radio wave to be used to the set business radio wave.
(Appendix 13)
An automatic radio wave determination method for automatically determining a commercial radio wave used by a mobile station apparatus, wherein a commercial radio wave to be used is set in advance from a plurality of business radio waves based on information on an emergency situation. An automatic radio wave determination method comprising: instructing the mobile station device to change the business radio wave to the set business radio wave when the emergency situation occurs.
(Appendix 14)
A radio wave automatic determination program for automatically determining a commercial radio wave to be used by a mobile station apparatus, and a process for presetting a commercial radio wave to be used from a plurality of commercial radio waves from information on an emergency situation; A radio wave that causes a computer to execute a process of instructing the mobile station apparatus to change the radio wave for business use to the set commercial radio wave when the emergency situation occurs Automatic decision program.

  The present invention can be used in organizations that operate SCPC digital radio waves represented by fire fighting radios and police radios in private networks.

01 SCPC digital radio wave (control wave)
02 SCPC digital radio wave (A wave for business use)
03 SCPC digital radio wave (B wave for business use)
04 Public line 10 Command control center 15 Command control device 20 Emergency vehicle A (mobile station device)
25 Mobile station device 21 Emergency vehicle B (mobile station device)
30 Radio base station equipment (control wave)
40 Radio base station equipment (A wave for business use)
41 Wireless base station equipment (B wave for business use)
DESCRIPTION OF SYMBOLS 50 Public line network 60 Radio wave automatic decision concept flow 101 Command console 102 Processing part 103 Memory | storage part 104 Wireless control part 105 Control wave transmission part 106 Control wave reception part 107 Business A wave transmission part 108 Business A wave reception part 109 Business B Wave Transmitting Unit 110 Business B Wave Receiving Unit 111 Public Line Control Unit 201 Control Wave Transmitting Unit 202 Control Wave Receiving Unit 203 Business Wave Transmitting Unit 204 Business Wave Receiving Unit 205 Public Line Transmitting Unit 206 Public Line receiving unit 207 Voice communication unit 208 Data display unit 209 Processing unit 210 Storage unit 400 Height 601 Disaster information 602 Radio wave determination element 603 Radio wave operation plan / determination process 604 Radio wave used 605 Commercial radio wave 1020 for each emergency vehicle 1 processing unit 1040 wireless control unit

Claims (10)

  A command control device that automatically determines a business radio wave to be used by a mobile station device and instructs the mobile station device, and from a plurality of types of information on an emergency, the emergency situation among a plurality of business radio waves A first processing unit that preliminarily sets a commercial radio wave to be used for the mobile station device when the emergency situation occurs, the business radio wave to be used for the business radio wave that has been set A command control device comprising a radio control unit that instructs to set a radio wave.   The command control device according to claim 1, wherein the information on the emergency is information on an occurrence area, an emergency type, and a time zone.   The command control device includes a command console, the first processing unit, a first storage unit, and a radio control unit, wherein the first storage unit stores information on the set commercial radio wave, and The processing unit of 1 instructs the mobile station device via a private network to communicate with the radio control unit using the commercial radio wave used for the emergency situation, according to an instruction from the instruction console. Item 3. A command control device according to item 1 or 2.   4. The command according to claim 1, wherein when the business radio wave set in the mobile station apparatus is different from the preset business radio wave, the command radio wave is switched to the preset business radio wave. 5. Control device.   A public line control unit, wherein the first processing unit is configured to communicate with the public line control unit via the set commercial radio wave used in the emergency when the private network cannot communicate. The command control device according to claim 1, wherein the command control device instructs the mobile station device via a network.   The command control device according to any one of claims 1 to 5, wherein the commercial radio wave is an SCPC digital radio wave.   The command control device according to any one of claims 1 to 6, wherein the mobile station device is mounted on an emergency vehicle.   The command control device according to any one of claims 1 to 7, wherein one of the plurality of business radio waves is used for control and the rest is used for business.   A mobile station apparatus that communicates with the command control apparatus according to any one of claims 1 to 4, wherein the control wave transmitting / receiving unit, the second processing unit, the second storage unit, and the voice call unit A mobile station device comprising a data display unit and receiving an instruction from the radio control unit and communicating with the command control device using the set commercial radio wave used in the emergency situation. A command control system comprising a mobile station device, and a command control device that automatically determines a commercial radio wave used by the mobile station device and instructs the mobile station device,
The command control device is a first processing unit that presets a business radio wave to be used in the emergency out of a plurality of business radio waves from a plurality of types of information related to the emergency, the emergency has occurred A command control system comprising: a radio control unit that instructs the mobile station device to set the business radio wave to be used to the set business radio wave.

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