JP2016119525A - Radio wave reception information transmitting/receiving device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio wave reception information transmitting/receiving device for making the distribution management of radio wave reception information easy.SOLUTION: A radio wave reception information transmitting/receiving device 10 comprises: a radio communication circuit 11 for performing radio communication; an IP communication circuit 12 for performing IP communication; a baseband signal input/output circuit 13; a positional information acquisition circuit 14 for acquiring positional information; a data generation circuit 15 for adding a file name representing the positional information and an IP address to radio wave reception information; an internal storage 16 for storing the radio wave reception information; a data exchange circuit 17 for exchanging the radio wave reception information and metadata with another radio wave reception information transmitting/receiving device; and reception quality display means 18 for displaying reception quality indicated by the radio wave reception information at a point indicated by the positional information on a map.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a radio wave reception information transmitting / receiving apparatus that transmits and receives radio wave reception information.

  When a broadcaster adds a radio link between a news gathering site and a performance hall, a broadcaster often selects an installation location of an FPU (Field Pick-up Unit) with reference to past radio wave reception information (transmission results). Therefore, conventionally, a technique for acquiring FPU radio wave reception information has been proposed. In this prior art, radio wave reception information is manually stored at the stage where a radio line is established, and the stored radio wave reception information is read out as necessary. However, this conventional technique is unsuitable for managing radio wave reception information because of the large amount of work.

  In addition, the FPU is a device that is premised on movement, and is expected to be used at any point in the country. Furthermore, considering transmission from a helicopter equipped with an FPU, the radio wave reception information is preferably managed as three-dimensional data obtained by adding altitude to latitude and longitude. In this case, if each FPU accumulates radio wave reception information at every point in the country, the data amount of the radio wave reception information becomes enormous, causing problems such as an increase in communication traffic and load concentration on the database. Therefore, there is a demand for a method of hierarchically managing the radio wave reception information in units such as prefectures and base stations.

  Conventionally, technologies that handle position information such as latitude and longitude have been proposed, and it will be examined whether these conventional technologies can be applied to the dispersion management of radio wave reception information. For example, the invention described in Patent Document 1 uses an index file in which point names, keywords, and latitude / longitude are written, converts the point names searched for keywords into latitude / longitudes, and displays them on a map. is there. In addition, the inventions described in Patent Documents 2 to 5 are such that, in the map information software, latitude and longitude are described as metadata in the file name as they are, and the file is managed by latitude and longitude. Furthermore, the invention described in Patent Document 6 is a database in which latitude / longitude and mobile phone base station information are stored as metadata in a mobile phone network, and a base station to be connected is inferred from current position information.

JP 7-37073 A JP 2002-72868 A JP 2002-199319 A JP 2009-60477 A JP 2010-133913 A JP2013-34103A

  However, the inventions described in Patent Documents 1 to 6 use latitude / longitude as metadata, but there is not enough metadata information to stratify radio wave reception information in units such as prefectures and base stations. It is difficult to apply to distributed management of radio wave reception information.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a radio wave reception information transmitting / receiving apparatus that facilitates dispersion management of radio wave reception information.

  In view of the above-described problems, a radio wave reception information transmitting / receiving apparatus according to the present invention is a radio wave reception information transmitting / receiving apparatus that is arranged hierarchically in a network and that transmits / receives radio wave reception information via the network. An information input unit, a radio wave reception information input unit, a radio wave reception information search unit, and a radio wave reception information transmission / reception unit are provided.

According to such a configuration, in the radio wave reception information transmitting / receiving apparatus, position information representing the latitude, longitude, and altitude of the radio wave reception information transmitting / receiving apparatus is input by the position information input unit.
The radio wave reception information transmitting / receiving device receives the radio wave reception information by the radio wave reception information input unit, adds the identification information and the position information to the radio wave reception information as metadata, and stores the radio wave reception information with the added metadata. Write to.

Since this metadata includes altitude in addition to latitude and longitude, radio wave reception information can be managed as three-dimensional data. Furthermore, since the metadata also includes identification information such as an IP address, the dependency relationship between the radio wave reception information transmitting / receiving devices storing the radio wave reception information can be easily grasped in the network. Therefore, there is no shortage of metadata information when hierarchizing radio wave reception information.
The identification information is information uniquely assigned to each radio wave reception information transmitting / receiving device in association with the network hierarchy.

In the radio wave reception information transmitting / receiving device, at least one of identification information or position information is set as a search condition by the radio wave reception information search means, and the set search condition is referred to by referring to the metadata of the radio wave reception information stored in the storage means. Search for radio wave reception information that satisfies.
As described above, the radio wave reception information transmitting / receiving apparatus can set identification information such as an IP address and altitude as a search condition in addition to latitude and longitude, and thus can quickly search for radio wave reception information in a desired area.

The radio wave reception information transmission / reception device transmits the radio wave reception information searched by the radio wave reception information search unit to another radio wave reception information transmission / reception device via the network by the radio wave reception information transmission / reception unit. The radio wave reception information received from is stored in the storage means.
That is, the radio wave reception information transmitting / receiving device can acquire the radio wave reception information from other radio wave reception information transmitting / receiving devices even when the radio wave reception information satisfying the search condition is not stored.

According to the present invention, the following excellent effects can be obtained.
The radio wave reception information transmitting / receiving apparatus according to the present invention uses identification information and altitude as metadata and search conditions, so that when the radio wave reception information is hierarchized, there is no shortage of metadata information, and radio wave reception information in a desired area. Can be searched. Furthermore, even when the radio wave reception information transmitting / receiving apparatus does not store the radio wave reception information satisfying the search condition, the radio wave reception information transmitting / receiving apparatus can acquire the radio wave reception information from other radio wave reception information transmitting / receiving apparatuses. Thereby, the radio wave reception information transmitting / receiving apparatus can facilitate the dispersion management of the radio wave reception information.

1 is a schematic configuration diagram of a radio wave reception information exchange system according to an embodiment of the present invention. It is a block diagram which shows the structure of the electromagnetic wave reception information transmission / reception apparatus which concerns on embodiment of this invention. It is explanatory drawing explaining the file name of radio wave reception information. It is explanatory drawing explaining the setting of search conditions. It is explanatory drawing explaining visualization of radio wave reception information. It is a flowchart of the radio wave reception information storage process by the radio wave reception information transmission / reception apparatus of FIG. It is a flowchart of the data search process by the electromagnetic wave reception information transmission / reception apparatus of FIG. It is a flowchart of the data exchange process by the electromagnetic wave reception information transmission / reception apparatus of FIG.

[Outline of radio wave reception information exchange system]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
With reference to FIG. 1, an outline of a radio wave reception information exchange system 1 according to an embodiment of the present invention will be described.

  As shown in FIG. 1, the radio wave reception information exchanging system 1 is such that a radio wave reception information transmitting / receiving device (TRX) 10 transmits / receives (exchanges) radio wave reception information and includes a plurality of radio wave reception information transmitting / receiving devices 10 having the same configuration.

  The radio wave reception information is information indicating reception quality in transmission between FPU and TRX. In addition, as radio wave reception information, it is also possible to use information representing reception quality in broadcast waves such as AM (Amplitude Modulation) broadcast, FM (Frequency Modulation) broadcast, terrestrial digital broadcast, satellite digital broadcast and the like. For example, the radio wave reception information includes one or more of BER (Bit Error Rate), MER (Modulation Error Ratio), reception level, and CN (Carrier to Noise) ratio.

  In the radio wave reception information exchange system 1, base stations 93 and the like are arranged in a hierarchy. For example, in the radio wave reception information exchange system 1, the headquarter 90 is the highest layer (first layer), the local base station 91 is the second layer, and the regional broadcasting station 92 is the third layer. Furthermore, in the radio wave reception information exchange system 1, the base station 93 and the interview site (the helicopter 94 and the broadcast relay car 95) are the fourth layer.

  In the radio wave reception information exchange system 1, the headquarter 90 and the local base station 91 and the local base station 91 and the local broadcasting station 92 are connected by a wired network (illustrated by a broken line). Furthermore, in the radio wave reception information exchange system 1, the regional broadcast station 92 and the base station 93 and the base station 93 and the interview site are connected by a wireless network (illustrated by a solid line).

In the radio wave reception information exchange system 1, the radio wave reception information transmission / reception device 10 _A is mounted on the broadcast relay vehicle 95. Further, the radio wave reception information transmitting / receiving devices 10 _B to 10 _D are arranged in the same base station 93. The radio wave reception information transmitting and receiving apparatus 10 _E is mounted on the helicopter 94. Further, the radio wave reception information transmitting / receiving apparatus 10 _F is disposed in the regional broadcasting station 92.
It is assumed that the radio wave reception information transmitting / receiving device 10 (not shown) is also disposed in the headquarter 90 and the local base station 91.

  Further, in the radio wave reception information exchange system 1, identification information (for example, IP address) is assigned in correspondence with the hierarchy. Specifically, in the radio wave reception information exchange system 1, the IP addresses correspond to the first to fourth layers in order from the left. Therefore, in the radio wave reception information exchange system 1, the dependency relationship in the radio wave reception information exchange system 1 can be confirmed by referring to the IP address.

For example, an IP address “10.XYZ” is assigned to the radio wave reception information transmitting / receiving apparatus 10 (not shown) of the head office 90. Note that “X”, “Y”, and “Z” indicate arbitrary values that satisfy the IPv4 rule.
Further, for example, an IP address “10.2.YZ” is assigned to the radio wave reception information transmitting / receiving device 10 (not shown) of the local base station 91. From this IP address, it can be seen that the local base station 91 belongs to the headquarters 90.
Further, for example, an IP address “10.2.4.Z” is assigned to the radio wave reception information transmitting / receiving apparatus 10 (not shown) of the regional broadcasting station 92. From this IP address, it can be seen that the regional broadcasting station 92 belongs to the local base station 91.

For example, the radio wave reception information transmitting / receiving apparatus 10 (10 _B to 10 _D ) of the base station 93 is assigned IP addresses “102.4.4.11” to “102.4.4.13”.
Also, for example, IP addresses “102.4.14” and “102.4.15” are assigned to the radio wave reception information transmitting / receiving apparatus 10 (10 _E , 10 _F ) at the interview site. From these IP addresses, it can be seen that the base station 93 and the interview site belong to the regional broadcasting station 92.
The IP address assignment itself may be performed manually or by DHCP (Dynamic Host Configuration Protocol).

[Configuration of radio wave reception information transmitter / receiver]
The configuration of the radio wave reception information transmitting / receiving apparatus 10 will be described with reference to FIG. 2 (see FIG. 1 as appropriate).
As shown in FIG. 2, the radio wave reception information transmitting / receiving device 10 transmits and receives radio wave reception information, and includes a radio communication circuit (wireless communication means) 11, an IP communication circuit 12, a baseband signal input / output circuit 13, A position information acquisition circuit (position information input means) 14, a data generation circuit (radio wave reception information input means) 15, an internal storage (storage means) 16, a data exchange circuit 17, and a reception quality display means 18 are provided.

  The wireless communication circuit 11 performs wireless communication via a microwave band bidirectional wireless communication line. For example, the radio communication circuit 11 emits radio waves to other radio wave reception information transmitting / receiving devices 10, adjusts the direction of the antenna, and transmits / receives radio signals.

Further, the wireless communication circuit 11 measures radio wave reception information of the bidirectional radio communication line and outputs the measured radio wave reception information to the data generation circuit 15. Further, the wireless communication circuit 11 may transmit the measured radio wave reception information to another radio wave reception information transmitting / receiving apparatus 10 that is a communication partner via a bidirectional wireless communication line or a wired network.
Since the wireless communication circuit 11 has a general configuration, detailed description thereof is omitted.

  The IP communication circuit 12 performs transmission / reception at the IP layer via a bidirectional wireless communication line. The IP communication circuit 12 may transmit the IP address of its own device to another radio wave reception information transmitting / receiving device 10 that is a communication partner via a bidirectional wireless communication line or a wired network.

In the present embodiment, three radio wave reception information transmitting / receiving devices 10 _B to 10 _D are arranged in the same base station 93 (see FIG. 1). Therefore, the radio wave reception information transmitting / receiving devices 10 _B and 10 _D and the radio wave reception information transmitting and receiving devices 10 _B and 10 _C may be connected by a wired network. In this case, the IP communication circuit 12 may perform IP communication via a wired network.
Since the IP communication circuit 12 has a general configuration, detailed description thereof is omitted.

  The baseband signal input / output circuit 13 inputs and outputs baseband signals. Here, the baseband signal input / output circuit 13 transmits a baseband signal input from the outside (for example, a shooting camera at the interview site) in real time via a bidirectional wireless communication line or a wired network.

The baseband signal input / output circuit 13 receives a baseband signal in real time via a bidirectional wireless communication line or a wired network, and externally receives the received baseband signal (for example, a material management device in a performance room). Output.
Since the baseband signal input / output circuit 13 has a general configuration, detailed description thereof is omitted.

  The position information acquisition circuit 14 acquires position information from the position information measurement device 20 and outputs the acquired position information to the data generation circuit 15. Further, the position information acquisition circuit 14 acquires the position information of the other radio wave reception information transmitting / receiving device 10 to be a communication partner multiplexed on the output signal of the wireless communication circuit 11, and sends the acquired position information to the data generation circuit 15. It may be output.

  This position information is information representing the latitude, longitude, and altitude of the radio wave reception information transmitting / receiving device 10. For example, the position information is measured by a position information measuring device 20 such as a GPS (Global Positioning System) receiver.

  The data generation circuit 15 receives radio wave reception information (data) from the wireless communication circuit 11 and adds metadata to the input radio wave reception information. Then, the data generation circuit 15 writes the radio wave reception information with the metadata added to the internal storage 16.

  The data generation circuit 15 may acquire radio wave reception information (for example, radio wave reception information of digital terrestrial broadcasting) other than the bidirectional wireless communication line, and add metadata to the acquired radio wave reception information. Here, the radio wave reception information other than the bidirectional wireless communication line is measured by the radio wave reception information measuring device 30.

<File name of radio wave reception information>
The file name of the radio wave reception information will be described with reference to FIG. 3 (see FIGS. 1 and 2 as appropriate).
In the present embodiment, it is assumed that the metadata is a file name of radio wave reception information. Further, it is assumed that the radio wave reception information is measured between the radio wave reception information transmitting / receiving devices 10 _C and 10 _E.
In the case of describing each unit included in the radio wave receiving information transmitting and receiving apparatus 10 _A to 10 _E individually denoted by subscript A~E the sign of each unit.

  The data generation circuit 15 describes the IP address and position information of FIG. 3A as metadata in the file name of the radio wave reception information as shown in FIG. 3B. This file name is formed by concatenating a character string A representing an IP address, a character string B representing latitude and longitude, and a character string C representing altitude with a delimiter ‘¥’ interposed therebetween.

The character string A is an IP address set in the radio wave reception information transmitting / receiving apparatus 10 on the broadcasting station side (that is, the upper layer side). For example, the character string A becomes the IP address “102.4.4.12” of the radio wave reception information transmitting / receiving apparatus 10 _C of the base station 93.

Therefore, when the radio wave receiving information transmitting and receiving apparatus 10 _E acquires the radio wave receiving information, data generator 15 _E describes the IP address of the radio wave receiving information transmitting and receiving apparatus 10 _C as a communication partner as a string A.
Incidentally, when the radio wave receiving information transmitting and receiving apparatus 10 _C has acquired the radio wave receiving information, data generator 15 _C describes the IP address of the device as a string A.

The character string B and the character string C of the file name become position information of the radio wave reception information transmitting / receiving device 10 that acquired the radio wave reception information. For example, a latitude of the radio wave receiving information transmitting and receiving apparatus 10 _E is "133.aa.bb" longitude of the radio wave receiving information transmitting and receiving apparatus 10 _E is "39.cc.dd". Radio wave receiving information transmitting and receiving apparatus 10 _E, because they are mounted on a helicopter, it is altitude "1000m".

Therefore, when the radio wave reception information transmitting / receiving apparatus _10E acquires the radio wave reception information, the data generation circuit _15E describes the position information as a character string B and a character string C. At this time, the data generating circuit 15 _E, by describing a string B in the order of degrees, minutes, seconds latitude and longitude alternately, partial matching is possible.

'Aa' and 'bb' are arbitrary numerical values corresponding to the minute unit and second unit of latitude, and 'cc' and 'dd' are arbitrary numerical values corresponding to the minute unit and second unit of longitude. is there.
Further, when the radio wave reception information transmitting / receiving apparatus 10 is arranged on the ground, the character string C may describe the altitude on the ground or may not describe the altitude.

Returning to FIG. 2, the description of the configuration of the radio wave reception information transmitting / receiving apparatus 10 will be continued.
The internal storage 16 is a storage device such as a memory or a hard disk that stores radio wave reception information in which a file name is described by the data generation circuit 15.
Note that the radio wave reception information transmitting / receiving apparatus 10 may store the radio wave reception information in an external storage 40 such as a file server, similarly to the internal storage 16.

The data exchange circuit 17 exchanges radio wave reception information with another radio wave reception information transmitting / receiving device 10, and includes a data search unit (radio wave reception information search unit) 171, a data transmission / reception unit (radio wave reception information transmission / reception unit) 173, and Is provided.
In addition, when exchanging radio wave reception information, the data exchange circuit 17 may construct an overlay network by using P2P (Unstructured P2P) technology that does not have a specific network structure.

  The data search means 171 refers to the file name of the radio wave reception information stored in the internal storage 16 and searches for radio wave reception information that satisfies the set search conditions. Here, in the data search means 171, at least one of IP address or position information is set as a search condition.

  The data search means 171 is preset with 3D display availability information. This 3D display availability information is information indicating whether or not the searched radio wave reception information is displayed as 3D data, and is manually set by the operator.

  The data transmission / reception unit 173 transmits the radio wave reception information searched by the data search unit 171 to another radio wave reception information transmission / reception device 10 via the network. Further, when receiving the radio wave reception information from another radio wave reception information transmitting / receiving device 10, the data transmission / reception means 173 writes the received radio wave reception information in the internal storage 16.

<Searching and sharing radio wave reception information: First example>
With reference to FIG. 4, the first to third examples of searching and sharing of radio wave reception information will be described (see FIG. 2 as appropriate).
The first example, the operator of the radio wave receiving information transmitting and receiving apparatus 10 _F is an example of directly inputting retrieval conditions to the radio wave receiving information transmitting and receiving apparatus 10 _F.

  Specifically, the operator operates input means such as a mouse and a keyboard (not shown) and inputs (sets) a file name of radio wave reception information as a search condition. Here, as shown in FIG. 4A, the IP address “10.3.10.11”, the latitude “138.aa.bb”, the longitude “38.cc.dd”, and the altitude “600 m to 1500 m”. Is set as a search condition.

  First, the data search means 171 converts the set search condition into the same format as the file name of the radio wave reception information. As shown in FIG. 4B, the search condition includes a character string A ′ representing an IP address, a character string B ′ representing latitude and longitude, and a character string C ′ representing altitude connected with a delimiter character “¥” interposed therebetween. Is. The character string B ′ describes latitude and longitude alternately in the order of degrees, minutes and seconds. The character string C ′ indicates that the search is performed within an altitude range of 600 m to 1500 m.

  Next, the data search means 171 refers to the radio wave reception information metadata stored in the internal storage 16 and searches for radio wave reception information having a file name that satisfies the search condition. Thereafter, the data search means 171 reads all the searched radio wave reception information from the internal storage 16 and outputs it to the reception quality display means 18. Furthermore, the data search means 171 may display the contents of the searched radio wave reception information on a display (not shown) as a search result.

Here, when the operator wants to search for the radio wave reception information of a narrow spot, it is only necessary to input all the longitude and the second of the latitude.
On the other hand, the operator does not need to input minutes and seconds when searching for radio wave reception information at a wide point. In this case, the data search unit 171 can search for radio wave reception information measured in a certain area by performing a partial match search between the character string B of the file name (FIG. 3) and the character string B ′ of the search condition. .

Note that the data search means 171 can perform a partial match search of the file name character string A (FIG. 3) and the search condition character string A ′ for the IP address as well as the longitude and latitude.
In addition, when the altitude is designated as a range as shown in FIG. 4B, the data search unit 171 can perform a range search on the character string C (FIG. 3) of the file name with the search condition character string C ′.

<Searching and sharing radio wave reception information: second example>
The second example has been searching for radio wave reception information of the radio wave receiving information transmitting and receiving apparatus 10 _F in the described method in the first example, an example in which not found satisfying the search condition wave reception information.

In this case, data retrieval means 171 _F of the radio wave receiving information transmitting and receiving apparatus 10 _F, since the radio wave receiving information transmitting and receiving apparatus 10 _D inquires whether or not the stored radio wave reception information, radio wave receiving a QUERY message information transmitting and receiving apparatus 10 _D Send to. At this time, the data search means 171 _F transmits the set search condition to the radio wave reception information transmitting / receiving apparatus 10 _D together with the QUERY message.

The data transmission / reception means 173 _D of the radio wave reception information transmitting / receiving device 10 _D receives the QUERY message and the search condition from the radio wave reception information transmitting / receiving device 10 _F. In response to this QUERY message, the data transmission / reception means 173 _D outputs a search condition to the data search means 171 _D to instruct a search for radio wave reception information. Then, as in the first example, the data search unit 171 _D searches for radio wave reception information in the internal storage 16 _{D using} the search condition input from the data transmission / reception unit 173 _D. Then, the data search means 171 _D outputs the file names of all searched radio wave reception information to the data transmission / reception means 173 _D. Thereafter, data communication means 173 _D, all the radio waves received information data retrieval means 171 file name input from the _D is read from internal storage 16 _D, and outputs the radio wave receiving information transmitting and receiving apparatus 10 _F.

Data communication means 173 _F of the radio wave receiving information transmitting and receiving apparatus 10 _F is a radio wave receiving information received from the radio wave receiving information transmitting and receiving apparatus 10 _D, written in the internal storage 16 _F.
In this way, the radio wave receiving information transmitting and receiving apparatus 10 _F can acquire radio wave receiving information that is not stored in the own device from the radio wave receiving information transmitting and receiving apparatus 10 _D.

<Searching and sharing radio wave reception information: third example>
The third example, similarly to the second example, an example in which not found radio wave reception information radio wave reception information transmitting and receiving apparatus 10 _F. However, in the third example, the radio wave receiving information transmitting and receiving apparatus 10 _D is a point to find all the radio wave receiving information transmitting and receiving apparatus following wave reception information 10 _F belongs hierarchy as the source of the QUERY message is different from the second example.

Specifically, the data search means 171 _F of the radio wave reception information transmitting / receiving apparatus 10 _F transmits the preset hierarchy type and the IP address of the own apparatus to the radio wave reception information transmitting / receiving apparatus 10 _D together with the QUERY message. This hierarchy type is information representing a hierarchy in which the radio wave reception information transmitting / receiving apparatus _10F is arranged. That is, unlike the second example, the data search unit 171 _F does not transmit the search condition to the radio wave reception information transmitting / receiving device 10 _D.

The data transmission / reception means 173 _D of the radio wave reception information transmitting / receiving apparatus 10 _D receives the QUERY message, the hierarchy type, and the IP address from the radio wave reception information transmitting / receiving apparatus 10 _F. In response to this QUERY message, the data transmission / reception means 173 _D instructs the data search means 171 _D to search for the radio wave reception information.

Then, the data search means 171 _D of the radio wave reception information transmitting / receiving apparatus 10 _D sets search conditions so as to search all radio wave reception information below the hierarchy to which the radio wave reception information transmitting / receiving apparatus 10 _F belongs. Then, the data search means 171 _D sets a search condition from the layer type and IP address of the received radio wave reception information transmitting / receiving apparatus 10 _F.

For example, it is assumed that the IP address of the radio wave reception information transmitting / receiving apparatus 10 _F is “102.4.15”.
When the hierarchy type is the first hierarchy (headquarters), the data search means 171 _D sets a search condition of “10” and performs a partial match search.
When the hierarchy type is the second hierarchy (local base station), the data search means 171 _D sets a search condition of “10.2” and performs a partial match search.
When the hierarchy type is the third hierarchy (regional broadcasting station), the data search means 171 _D sets a search condition of “10.2.4” and performs a partial match search.
When the hierarchy type is the fourth hierarchy (base station or news gathering site), the data search means 171 _D sets a search condition of “10.2.4.15” and performs a search.
Since the radio wave reception information transmitting / receiving apparatus 10 _F that has transmitted the QUERY message is a regional broadcasting station, the search condition is set to “10.2.4”. Since the subsequent procedure is the same as that of the second example, description thereof is omitted.

Returning to FIG. 2, the description of the configuration of the radio wave reception information transmitting / receiving apparatus 10 will be continued.
Based on the radio wave reception information input from the data search unit 171, the reception quality display unit 18 displays the reception quality indicated by the radio wave reception information on the map in association with the point indicated by the position information of the radio wave reception information. To do.

  As shown in FIG. 3B, the file name of the radio wave reception information includes a character string B in which latitude and longitude are described alternately in the order of degrees, minutes and seconds. Therefore, the reception quality display means 18 converts the character string B into a general notation format of latitude and longitude, that is, a format in which latitude / minute / second and longitude / minute / second are described in order.

Next, the reception quality display means 18 displays the point represented by the latitude and longitude converted into a general notation format on the map as a marker α as shown in FIG. In this example, since the radio wave reception information at two reception points is input, the markers α ₁ and α ₂ are displayed on the map.

At this time, the reception quality display means 18 displays the selected transmission point marker β ₁ and reception point marker α _{1 in association} with the selected transmission point marker β ₂ and reception point marker α _2. Also good. For example, consider a case where radio wave reception information is measured between radio wave reception information transmitting / receiving devices 10 _C and 10 _E (FIG. 1). In this case, the transmission point represents a point of the radio wave reception information transmitting and receiving apparatus 10 _E of the helicopter 94 side (lower level side). The reception point represents a point of the radio wave reception information transmitting and receiving apparatus 10 _C of the base station 93 side (hierarchy side of the upper). Further, the reception quality display means 18 may perform three-dimensional display in which the reception quality at each point of the reception point markers α ₁ and α ₂ is classified by a threshold and color-coded in a mesh shape (not shown).

When the markers β ₁ and β ₂ of the transmission points on the map are clicked, the reception quality display means 18 receives the point radio wave reception information (when transmitted from the markers β ₁ and β ₂ as shown in FIG. 5B) ( For example, BER and MER) are displayed together with the IP address and position information.

[Operation of radio wave reception information transmitting / receiving apparatus: radio wave reception information storage process: first example]
With reference to FIG. 6, a first example and a second example of radio wave reception information storage processing by the radio wave reception information transmitting / receiving apparatus 10 will be described (see FIG. 2 as appropriate).
This first example is an example in which the radio wave reception information transmitting / receiving device 10 _C installed in the base station 93 generates radio wave reception information when communicating with the radio wave reception information transmitting / receiving device 10 _E mounted on the helicopter 94.

Radio wave receiving information transmitting and receiving apparatus 10 _C is the data generation circuit 15 _C, to obtain the radio wave receiving information from the wireless communication circuit 11 _C or radio reception information measurement apparatus 30 _C. At this time, the radio wave receiving information transmitting and receiving apparatus 10 _C is the data generation circuit 15 _C, may also acquire radio wave information received from the wireless communication circuit 11 _E of the radio wave receiving information transmitting and receiving apparatus 10 _E (step S1).

Radio wave receiving information transmitting and receiving apparatus 10 _C is the data generation circuit 15 _C, to obtain the IP address of its own apparatus (hierarchical side upper) (step S2).
Radio wave receiving information transmitting and receiving apparatus 10 _C is the position information acquiring circuit 14 _C, to obtain the location information of the radio wave receiving information transmitting and receiving apparatus 10 _E (Step S3).

Radio wave receiving information transmitting and receiving apparatus 10 _C is the data generation circuit 15 _C, describing the file name of the radio wave received information in the metadata acquired in step S2, S3 (step S4).
Radio wave receiving information transmitting and receiving apparatus 10 _C is the data generation circuit 15 _C, the radio wave receiving information file name is described in the step S4, and stored in internal storage 16 _C (step S5).

[Operation of radio wave reception information transmitting / receiving apparatus: radio wave reception information storage process: second example]
The second example, the radio wave receiving information transmitting and receiving apparatus 10 _E mounted on the helicopter 94, an example of generating a radio wave reception information during communication with the radio wave receiving information transmitting and receiving apparatus 10 _C installed in the base station 93.

Radio wave receiving information transmitting and receiving apparatus 10 _E is the data generating circuit 15 _E, acquires the radio wave receiving information from the wireless communication circuit 11 _E or radio reception information measurement apparatus 30 _E. At this time, the radio wave receiving information transmitting and receiving apparatus 10 _E is the data generating circuit 15 _E, it may obtain the radio wave receiving information from the wireless communication circuit 11 _C of the radio wave receiving information transmitting and receiving apparatus 10 _C. (Step S1A).

Radio wave receiving information transmitting and receiving apparatus 10 _E is the data generating circuit 15 _E, to obtain the IP address of the radio wave receiving information transmitting and receiving apparatus 10 _C is a broadcast station (hierarchy side of the upper) (step S2A).
Radio wave receiving information transmitting and receiving apparatus 10 _E is the position information acquiring circuit 14 _E, it obtains the positional information from the positional information measurement device 20 _E (step S3A).

Radio wave receiving information transmitting and receiving apparatus 10 _E is the data generating circuit 15 _E, step S2A, describing the file name of the radio wave received information in the metadata acquired in S3A (step S4A).
Radio wave receiving information transmitting and receiving apparatus 10 _E is the data generating circuit 15 _E, the electric wave reception information file name is described in step S4A, stored in internal storage 16 _E (step S5A).

[Operation of radio wave reception information transmitter / receiver: data search processing]
With reference to FIG. 7, the data search process by the radio wave reception information transmitting / receiving apparatus 10 will be described (see FIG. 2 as appropriate).

The radio wave reception information transmitting / receiving apparatus 10 sets a search condition (IP address) by the data search means 171 (step S11).
The radio wave reception information transmitting / receiving apparatus 10 sets search conditions (latitude, longitude) by the data search means 171 (step S12).

The radio wave reception information transmitting / receiving apparatus 10 determines whether or not to perform the three-dimensional display based on the preset three-dimensional display availability information by the data search unit 171 (step S13).
When performing three-dimensional display (Yes in step S13), the radio wave reception information transmitting / receiving apparatus 10 sets a search condition (altitude) by the data search unit 171 (step S14).

When the three-dimensional display is not performed (No in step S13), or after the process of step S14, the radio wave reception information transmitting / receiving apparatus 10 converts the search condition into the same format as the file name by the data search unit 171 ( Step S15).
The radio wave reception information transmitting / receiving apparatus 10 searches the radio wave reception information using the search condition generated in step S15 by the data search means 171 (step S16).

[Operation of radio wave reception information transmitter / receiver: Data exchange processing]
The data exchange process by the radio wave reception information transmitting / receiving apparatus 10 will be described with reference to FIG. 8 (see FIG. 2 as appropriate).
Here, it is assumed that the radio wave reception information transmitting / receiving apparatus 10 receives a QUERY message from another radio wave reception information transmitting / receiving apparatus 10 and performs a search using the technique of the third example described above.

The radio wave reception information transmitting / receiving device 10 outputs a search condition to the data search unit 171 by the data transmission / reception unit 173, and instructs the search of the radio wave reception information.
The radio wave reception information transmission / reception device 10 acquires the layer type and the IP address of the radio wave reception information transmission / reception device 10 by the data search means 171 (step S21).

The radio wave reception information transmitting / receiving apparatus 10 performs a search by setting a search condition from the layer type and the IP address acquired in step S21 by the data search unit 171 (step S22).
The process in step S22 is the same as the data search process in FIG.

  The radio wave reception information transmitting / receiving device 10 reads out all the radio wave reception information of the file name searched in step S22 from the internal storage 16 by the data transmission / reception means 173, and outputs it to the other radio wave reception information transmitting / receiving device 10 (step S23). .

  As described above, since the radio wave reception information transmitting / receiving apparatus 10 according to the embodiment of the present invention can search radio wave reception information in local units such as Kanto and Kansai, prefectures, or base stations, distributed management of radio wave reception information. Can be made easier. Thereby, the radio wave reception information transmitting / receiving device 10 can reduce the data amount of the radio wave reception information stored in each radio wave reception information transmitting / receiving device 10 and reduce the number of radio wave reception information files to be searched.

  For example, the radio wave reception information transmission / reception device 10 of the Sapporo broadcast station stores only the radio wave reception information of the radio wave reception information transmission / reception device 10 belonging to a base station in Hokkaido. Therefore, since the radio wave reception information transmitting / receiving apparatus 10 can transmit / receive radio wave transmission / reception information only in Hokkaido, communication traffic to Tokyo (headquarters) and other prefectures can be reduced.

Furthermore, since the radio wave reception information transmitting / receiving apparatus 10 can visualize the measurement points of the radio wave reception information by plotting them on a map, the radio wave reception state in each region can be easily grasped.
As described above, the radio wave reception information transmitting / receiving device 10 handles a large amount of radio wave reception information such as AM broadcast, FM broadcast, terrestrial digital broadcast, and satellite digital broadcast in addition to microwave transmission and millimeter wave transmission represented by FPU. It is useful in.

  In the above-described embodiment, the metadata is the file name of the radio wave reception information, but the present invention is not limited to this. For example, the radio wave reception information transmitting / receiving apparatus 10 may add header information representing IP address or position information to the radio wave reception information as metadata.

10 Radio wave reception information transmitter / receiver 11 Wireless communication circuit (wireless communication means)
12 IP communication circuit 13 Baseband signal input / output circuit 14 Position information acquisition circuit (position information input means)
15 Data generation circuit (radio wave reception information input means)
16 Internal storage (storage means)
17 Data exchange circuit 18 Reception quality display means 171 Data search means (radio wave reception information search means)
173 Data transmission / reception means (radio wave reception information transmission / reception means)

Claims (4)

A radio wave reception information transmitting / receiving apparatus that is arranged hierarchically in a network and transmits / receives radio wave reception information via the network,
Position information input means for inputting position information indicating the latitude, longitude and altitude of the radio wave reception information transmitting / receiving device;
The radio wave reception information is input, and the identification information and the location information pre-assigned to each radio wave reception information transmitting / receiving device corresponding to the hierarchy of the network are added to the radio wave reception information as metadata, and the metadata Radio wave reception information input means for writing the added radio wave reception information to the storage means;
At least one of the identification information and the position information is set as a search condition, and the radio wave reception information and metadata satisfying the set search condition are searched with reference to the radio wave reception information metadata stored in the storage means. Radio wave reception information search means to perform,
Via the network, the radio wave reception information and metadata searched by the radio wave reception information search means are transmitted to the other radio wave reception information transmission / reception devices, and the radio wave reception information received from the other radio wave reception information transmission / reception devices. A radio wave reception information transmission / reception device, wherein the radio wave reception information transmission / reception unit writes in the storage unit.   Whether the radio wave reception information search means stores the radio wave reception information in the other radio wave reception information transmitting / receiving device when the radio wave reception information and metadata satisfying the search conditions are not stored in the storage means. The radio wave reception information transmitting / receiving apparatus according to claim 1, further comprising: The radio wave reception information transmission / reception means includes the inquiry from the other radio wave reception information transmission / reception device, a hierarchy type representing a hierarchy of the other radio wave reception information transmission / reception device, and identification information of the other radio wave reception information transmission / reception device. Is entered,
In response to the inquiry, the radio wave reception information searching means searches for radio wave reception information below the hierarchy to which the other radio wave reception information transmitting / receiving device belongs, based on the layer type and identification information of the other radio wave reception information transmitting / receiving device. The radio wave reception information transmitting / receiving apparatus according to claim 2, wherein a search condition to be set is set, and the radio wave reception information and metadata are searched with the set search condition.   Based on the radio wave reception information retrieved by the radio wave reception information retrieval unit, the reception quality indicated by the radio wave reception information is displayed on a map in association with the point indicated by the position information of the radio wave reception information. The radio wave reception information transmitting / receiving apparatus according to any one of claims 1 to 3, further comprising:

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