JPWO2004064332A1 - Layout survey program, layout survey apparatus, layout survey method, and layout survey system - Google Patents

Abstract

One survey target (for example, information device 1003) among a plurality of survey targets (information devices 1001 to 1006) is self, and other survey targets (information devices 1001, 1002, 1004 to 1006) arranged around it. Self-centered placement information generation that generates self-centered placement information that represents the layout status based on the distance between the distance calculation unit (104) that calculates the distance between and the other using a radio wave, and other survey targets centered on itself Unit (105), a self-centered arrangement information collecting unit (106) that collects other self-centered arrangement information respectively generated on the other investigation side, and a self generated by the self-centered arrangement information generating unit (105) Spatial layout information generation that combines the central layout information and other collected self-centered layout information based on distance to generate spatial layout information that represents the layouts of multiple survey targets. And a unit (107).

Description

  The present invention relates to a layout survey program, a layout survey apparatus, a layout survey method, and a layout survey system for surveying the layout of a survey target (for example, information devices such as computers and peripheral devices) installed indoors and outdoors. In particular, the present invention relates to a layout survey program, a layout survey apparatus, a layout survey method, and a layout survey system for quickly and accurately surveying a layout.

Conventionally, various information devices such as PCs (Personal Computers), PDAs (Personal Digital Assistants), and peripheral devices (for example, printers, scanners, routers, etc.) are connected to the network, and information devices (users). Various kinds of information are transmitted / received (shared).
Furthermore, home appliances such as refrigerators and microwave ovens are also connected to the network, and these are called digital home appliances.
Here, a unique ID, name, and the like are assigned to each information device (called a node) connected to the network in order to identify each device on the network. For example, an information device connected to an IP (Internet Protocol) network such as the Internet or an intranet is assigned an IP address corresponding to an address in the IP network.
In addition, since IP addresses are described numerically and are difficult for humans to remember, in IP networks, host names (names) consisting of alphanumeric characters and symbols are assigned to information devices, and the correspondence between host names and IP addresses is maintained. Thus, DNS (Domain Name System) that enables cross-reference between a host name and an IP address is used.
In addition to the IP address, there is a MAC (Media Access Control) address as a hardware address set for identifying a host in the network.
In recent years, network connection using wireless communication instead of wired communication has become widespread, and wireless LAN (Local Area Network) using a part of the Ethernet (registered trademark) standard and wireless using 2.4 GHz band. A transmission system such as Bluetooth has been prepared.
These wireless LANs and Bluetooth are used as Internet connection means for portable information devices such as notebook PCs and PDAs. Wireless LAN is also used as a hot spot that provides a place where it can be connected to the Internet outdoors. This hot spot is installed in, for example, a station or a store.
Conventionally, as described above, the location of an information device on a network can be uniquely specified using an ID such as an IP address or a host name.
However, conventionally, it is not easy to specify where the information device is spatially indoors or outdoors (for example, on which desk in the room). Here, when the information device is connected to the network and used, the IP address / information device name correspondence table 10 showing the correspondence between the IP address and the information device name shown in FIG. 39, or FIG. The network configuration diagram 20 shown and the office layout diagram 30 shown in FIG. 41 are created.
These IP address / information device name correspondence table 10, network configuration diagram 20 and office layout diagram 30 are created manually for the purpose of network construction (construction) and management.
Generally, if the network configuration diagram 20 and the office layout diagram 30 are updated so as to match the current situation, it is considered that the layout (spatial arrangement) of information devices can be grasped.
Conventionally, however, it is not easy to accurately grasp the layout (spatial arrangement) of information equipment that matches the current situation for the following reasons.
Information devices such as notebook PCs and PDAs can be moved.
-Semi-fixed information devices such as desktop PCs and printers may also move.
-There are additions and deletions of information devices.
Further, when the layout of the information device is unknown, the following inconvenience occurs.
・ Even if the IP address is known, the installation location (existing location) of the corresponding information device is not known.
・ Conversely, I do not know the IP address of the information device in front of me.
# However, it can be understood by looking at the IP address settings.
-If you do not know the IP address or information device name, you cannot send information to the information device in front of you.
The present invention has been made in view of the above, and an object thereof is to provide a layout survey program, a layout survey apparatus, a layout survey method, and a layout survey system that can quickly and accurately survey a layout to be surveyed. .

In order to achieve the above object, the present invention provides a layout investigation program applied to a layout investigation system that investigates a plurality of investigation object layouts, wherein a computer is selected as one of the plurality of investigation objects. As self, distance calculation means for calculating a distance between the self and the other investigation objects arranged around by using radio waves, a layout situation based on a distance from the other investigation objects centered on the self Self-centered arrangement information generating means for generating self-centered arrangement information to be represented, collecting means for collecting other self-centered arrangement information generated on each of the other investigation target sides, self generated by the self-centered arrangement information generating means Based on the distance, the center arrangement information and the collected other self-center arrangement information are combined, and layout information representing the layouts of the plurality of survey targets is obtained. Layout information generating means for forming a layout study program for functioning as a.
According to the present invention, one of a plurality of survey targets is assumed to be self, and the distance between the self and other survey targets placed around is calculated using radio waves. By combining the self-centered placement information that represents the layout status based on the distance to the survey target and other self-centered placement information generated on the other survey target side based on the distance, the layout of multiple survey targets Since the layout information to be expressed is generated, the layout to be investigated can be investigated quickly and accurately.
Further, the present invention is a layout survey program applied to a layout survey system that surveys a plurality of survey target layouts, wherein a computer is defined as one of the plurality of survey targets as the self, Distance / direction calculating means for calculating the distance and direction between other investigation objects arranged around by using radio waves, and represents a layout situation based on the distance and direction from the other investigation objects centered on the self Self-centered arrangement information generating means for generating self-centered arrangement information, collection means for collecting other self-centered arrangement information respectively generated on the other investigation object side, and self-center generated by the self-centered arrangement information generating means The layout information and the collected other self-centered layout information are combined on the basis of the distance and the direction to represent the plurality of survey target layouts. A layout study program for causing the layout information generating means for generating out information as.
According to this invention, one of the plurality of survey targets is self, and the distance and direction between the self and other survey targets disposed around are calculated using radio waves. Combine the self-centered placement information that represents the layout status based on the distance and direction with the other survey targets and other self-centered placement information generated on the other survey target side based on the distance and direction, and Since the layout information representing the layout of the survey target is generated, the layout of the survey target can be surveyed quickly and accurately.
In addition, the present invention is a layout survey apparatus applied to a layout survey system that surveys a plurality of survey target layouts, wherein one survey target among the plurality of survey targets is set as a self and surroundings Distance calculation means for calculating the distance between the other surveyed objects using radio waves and self-centered arrangement information representing the layout status based on the distance between the other survey objects centered on the self Self-centered arrangement information generating means, collecting means for collecting other self-centered arrangement information generated on each of the other investigation target sides, self-centered arrangement information generated by the self-centered arrangement information generating means, and the collection Layout information generating means for combining the other self-centered arrangement information that has been determined based on the distance and generating layout information that represents the layouts of the plurality of survey targets. And it said that there were pictures.
Further, the present invention is a layout investigation method applied to a layout investigation system that investigates a plurality of investigation object layouts, wherein one investigation object among the plurality of investigation objects is set as the self, and is arranged around the self A distance calculating step of calculating a distance between the other surveyed objects using radio waves and generating self-centered arrangement information representing a layout situation based on a distance from the other surveyed objects centered on the self A self-centering arrangement information generation step, a collecting step of collecting other self-centering arrangement information generated on each of the other investigation target sides, a self-centering arrangement information generated in the self-centering arrangement information generation step, and the collection A layout information generating step of combining the other self-centered arrangement information that has been determined based on the distance and generating layout information that represents the plurality of layouts to be investigated. And wherein the Mukoto.
Further, the present invention is a layout survey system that surveys a plurality of survey target layouts, wherein a main layout survey device provided in one survey target among the plurality of survey targets, and other than the one survey target A secondary layout survey device provided for each of the other survey targets, wherein the main layout survey device sets the one survey target as the self and between the self and the other survey targets arranged in the vicinity. A distance calculation means for calculating the distance of the object using radio waves, a self-centered arrangement information generating means for generating self-centered arrangement information representing a layout situation based on a distance from the other investigation object centered on the self, Collecting means for collecting other self-centered arrangement information respectively generated by the sub-layout survey apparatus, and self-centered arrangement information generated by the self-centered arrangement information generating means The collected other and self-centered arrangement information combined on the basis of the distance, having the layout information generating means for generating layout information indicating a layout of the plurality of investigation, and wherein the.
According to this invention, one of the plurality of survey targets is assumed to be self, and the distance between the self and other survey targets placed around is calculated using radio waves, By combining the self-centered placement information that represents the layout status based on the distance to the survey target and other self-centered placement information generated on the other survey target side based on the distance, the layout of multiple survey targets Since the layout information to be expressed is generated, the layout to be investigated can be investigated quickly and accurately.

FIG. 1 is a block diagram showing the configuration of the first embodiment according to the present invention, and FIG. 2 is an office layout diagram showing the arrangement of information devices 100 _{1 to} 100 ₆ shown in FIG. 3 is a diagram showing information device attribute information 121 stored in the information device attribute information storage unit 120 shown in FIG. 1, and FIG. 4 is a matching target information storage unit 130 shown in FIG. FIG. 5 is a diagram showing the information device combination table 104a generated by the distance calculation unit 104 shown in FIG. 1, and FIG. 6 is a diagram showing the matching target information 131 stored in FIG. FIG. 7 is a diagram showing the self-centering arrangement information 141 ₃ generated by the self-centering arrangement information generating unit 105 shown in FIG. 1, and FIG. 7 is a diagram showing the diagrammatic self-centering arrangement information 141 ₃ . Fig. 8 shows the self-relationship shown in Fig. 1. Is a diagram showing a self-centered arrangement information ₁₄₁ 1 to 141 ₆ that is stored in the placement information storage portion 140, FIG. 9 is an illustrates an schematized self-centered arrangement information ₁₄₁ 1, 141 ₃ and 141 ₂ FIG. 10 is a diagram for explaining the combination of the self-centered arrangement information 141 ₁ and the self-centered arrangement information 141 ₃ shown in FIG. 9, and FIG. 11 is the spatial arrangement information shown in FIG. 151 and is a view for explaining the binding of self-centered arrangement information 141 _2, FIG. 12 is a diagram illustrating a final form of the spatial location information 151 shown in Figure No. 41 (a), FIG. 13 FIG. 14 is a diagram showing the spatial arrangement information 152 stored in the spatial arrangement information storage unit 150 shown in FIG. 1, and FIG. 14 is stored in the spatial arrangement information storage unit 150 shown in FIG. FIG. 15 is a diagram showing spatial arrangement information 153 These are figures which show the matching information 161 stored in the matching information storage part 160 shown in FIG. 1, FIG. 16 is a flowchart explaining the operation | movement of Embodiment 1, FIG. FIG. 18 is a flowchart for explaining the distance calculation processing shown in FIG. 16, FIG. 18 is a flowchart for explaining the spatial arrangement information generation processing shown in FIG. 16, and FIG. 33 is a flowchart for explaining the matching process shown in FIG. 33. FIG. 20 is a block diagram showing the configuration of the second embodiment according to the present invention. FIG. 21 is the information device 400 shown in FIG. _{1-400 6} is a office layout diagram showing the arrangement of FIG. 22 is a view showing a self-centered arrangement information 411 ₃ generated by self-centered arrangement information generation unit 402 shown in FIG. 20 Ri, FIG. 23 is a diagram showing a self-centered arrangement information 411 ₃ that is schematized, FIG. 24, a self-centered arrangement information 411 stored in the self-centered placement information storage unit 410 shown in FIG. 20 _{1 to} 411 ₁₆ , FIG. 25 is a diagram showing self-centered arrangement information 411 ₁₅ collected from the information device 400 ₅ shown in FIG. 20, and FIG. 26 is a diagrammatic representation. is a diagram showing a self-centered arrangement information 411 _5, FIG. 27 is a diagram for explaining a self-centered arrangement information 411 ₃ shown in Figure 23 the bond between the self-centering information 411 ₅ shown in FIG. 26 There, FIG. 28 is a diagram illustrating the binding of spatial location information 421 and the self-centering information 411 ₂ shown in FIG. 27, the spatial FIG. 29, which are shown in 28 (a) FIG. 30 shows the final form of the arrangement information 421. FIG. 31 is a diagram showing the spatial arrangement information 422 stored in the spatial arrangement information storage unit 420 shown in FIG. 20, and FIG. 31 is stored in the spatial arrangement information storage unit 420 shown in FIG. FIG. 32 is a diagram showing the spatial arrangement information 423, FIG. 32 is a diagram showing the matching information 431 stored in the matching information storage unit 430 shown in FIG. 20, and FIG. 33 is the second embodiment. 34 is a flowchart for explaining the distance calculation process shown in FIG. 33, and FIG. 35 is a flowchart for explaining the direction calculation process shown in FIG. 33. FIG. 36 is a flowchart for explaining the spatial arrangement information generation processing shown in FIG. 33, and FIG. 37 is a block diagram showing the configuration of the first modification of the first and second embodiments according to the present invention. In FIG. 38 is a diagram for explaining a second modification of the first and second embodiments. FIG. 39 is a diagram showing a conventional IP address / information device name correspondence table 10, and FIG. FIG. 41 is a diagram showing a conventional network configuration diagram 20, and FIG. 41 is a diagram showing a conventional office layout diagram 30.

  Embodiments 1 and 2 according to the present invention will be described below in detail with reference to the drawings.
(Embodiment 1)
  FIG. 1 is a block diagram showing the configuration of the first embodiment according to the present invention.
  In the same figure, the electric field received electric field strength indicates the distance between the survey targets (in FIG.₁~ 100₆Based on the result of calculating the distance between each other (information device 100)₁~ 100₆) Shows a layout investigation system for examining the layout (spatial arrangement).
  In FIG.₁~ 100₆Are a desktop PC, a notebook PC, a printer, and the like, and are interconnected via a wireless / wired network 200. The wireless / wired network 200 is a network such as a wireless LAN or a wired cable LAN.
  In addition, the information device 100₁~ 100₆Are arranged on the office floor 300 shown in FIG. 2 and are subject to layout investigation. The office floor 300 has an entrance 301 and a desk 302.₁~ 302₆, Chair 303₁~ 303₅, Window 304₁~ 304₃Is provided.
  Information device 100₁Is a desktop PC (see FIG. 3) and a desk 302₁Is installed. This information device 100₁Is assigned an information device name of “PC-1”. Information device 100₂Is a notebook PC and desk 302₃Is installed. This information device 100₂Is assigned an information device name of “PC-2”.
  Information device 100₃Is a notebook PC and desk 302₄Is installed. This information device 100₃Is attached with an information device name of “PC-3”. Information device 100₄Is a desktop PC and desk 302₅Is installed. This information device 100₄Is assigned the information device name “PC-4”.
  Information device 100₅Is a desktop PC and desk 302₆Is installed. This information device 100₅Is attached with an information device name of “PC-5”. Information device 100₆Is a printer and the desk 302₄It is installed on the nearby floor. This information device 100₆Is attached with an information device name “printer-1”.
  Returning to FIG. 1, the information device 100₃In addition to the means for realizing the PC function, the layout investigation device 100A₃Is provided. This layout investigation device 100A₃Is the information device 100₁~ 100₆It has a function to investigate the layout. Here, the other information device 100₁, 100₂, 100₄, 100₅And 100₆Layout survey device 100A₃The same layout investigation device (not shown) is provided.
  In addition, the information device 100₁~ 100₆In FIG. 2, the master-slave relationship is adopted between the layout survey apparatuses. For example, the information device 100₃Layout survey device 100A₃The layout survey device (not shown) provided in other information devices is the subordinate.
  Information device 100₃Layout survey device 100A₃The wireless communication unit 101 includes, for example, a wireless LAN interface, and the information device 100 via the wireless / wired network 200 (in this case, the wireless network).₁~ 100₆Control wireless communication with the.
  Here, examples of the wireless communication method applicable to the wireless communication unit 101 include the following. Here, it is assumed that the wireless communication unit 101 uses a wireless LAN system.
  Wireless LAN system: A wireless communication system that is part of the Ethernet standard and is based on a standard (for example, IEEE 802.11b) established by the IEEE (American Institute of Electrical and Electronics Engineers).
  Bluetooth: A short-range wireless communication method developed as an interface for exchanging data in PCs, peripheral devices, home appliances, mobile phones and the like, using a 2.4 GHz band. Mainly used in offices.
  HomeRF: A short-range wireless communication method that is used in homes that connect PCs, home appliances, mobile phones, etc., and uses the 2.4 GHz band.
  ・ Other wireless communication systems.
  Note that the above-described wireless communication method is assumed to be used at a short distance, and the wireless effective range is limited (for example, Bluetooth has an obstacle if the distance between information devices is within 10 m). Can also be used).
  The wired communication unit 102 includes, for example, a wired cable LAN interface, and the information device 100 via the wireless / wired network 200 (in this case, a wired network).₁~ 100₆Controls wired communication with the.
  The input unit 103 is a keyboard, a mouse, a drive device that reads information from a recording medium, and the like, and inputs various information such as information device attribute information 121 (see FIG. 3) and matching target information 131 (see FIG. 4). Used when
  The information device attribute information 121 shown in FIG. 3 is stored in the information device attribute information storage unit 120 (see FIG. 1), and is the information device 100 that is the subject of the layout investigation.₁~ 100₆The information includes the fields “information device name”, “IP address”, “type”, “mobility”, “wireless communication unit”, and “asset number”.
  The “information device name” is the information device 100₁~ 100₆Is the information device name mentioned above. PC-1, PC-2, PC-3,...₁Information equipment 100₂Information equipment 100₃, ..., information device 100₆It corresponds to.
  The “IP address” is the information device 100₁~ 100₆It is an address on the wireless / wired network 200 assigned to each. “Type” is the information device 100₁~ 100₆(Desktop PC, Notebook PC, or Printer). Mobility is related to the information device 100.₁~ 100₆Represents the degree of movement from the installation location to another location (fixed, almost fixed, frequently moved).
  The “wireless communication unit” is the information device 100₁~ 100₆Wireless communication unit (information device 100) of the layout investigation device provided in each₃Represents a wireless interface (wireless LAN, Bluetooth, etc.) used in the wireless communication unit 101). The “asset number” is the information device 100₁~ 100₆It is a number in asset management given to each of the above.
  Note that the information device attribute information 121 does not depend on the input using the input unit 103, but is connected to another information device 100 via the wireless / wired network 200.₁, 100₂, 100₄, 100₅And 100₆May be obtained from
  The matching target information 131 shown in FIG. 4 is information to be matched with spatial arrangement information 152 (see FIG. 14) or spatial arrangement information 153 (see FIG. 15) described later, and is shown in FIG. Information device 100₁~ 100₆Other elements (office floor 300, entrance 301, desk 302₁~ 302₆, Chair 303₁~ 303₅, Window 304₁~ 304₃) Of the layout diagram corresponding to ().
  This matching target information 131 is stored in the matching target information storage unit 130 shown in FIG. Here, in addition to the matching target information 131, the following various types of information as matching target information are also stored in the matching target information storage unit 130.
  ・ Design drawings of buildings and rooms where information devices are installed
  ・ Network diagram of information equipment
  -Asset management information database for information devices
  Here, the information device 100 shown in FIG.₃Layout survey device 100A₃Is the self (information device 100) shown in FIG.₃) Around the other information devices (see FIG. 7) based on the distance between the information devices.
  Other information equipment 100₁, 100₂, 100₄~ 100₆Each of these layout investigation devices (not shown) has a function of examining the layout of other device information centered on itself based on the distance between the information devices.
  In addition, the information device 100₃Layout survey device 100A₃Is the information device 100₃Survey results and other information devices 100₁, 100₂, 100₄~ 100₆It also has a function to integrate the results of each survey.
  Based on the information device attribute information 121 (see FIG. 3), the distance calculation unit 104 is self (in this case, the information device 100).₃) And other information devices 100₁, 100₂, 100₄~ 100₆Are calculated from the received electric field strength of the radio wave.
  Specifically, the distance calculation unit 104 determines the self (in this case, PC-3 (information device 100₃)) And other PC-1, PC-2, PC-4, PC-5 and printer-1 (information device 100)₁, 100₂, 100₄, 100₅And 100₆) Is generated as the information device combination table 104a shown in FIG.
  In the information device combination table 104a, the transmission side information device is an information device that transmits radio waves (for example, distance calculation information) to the reception side information device, and is PC-1 (information device 100).₁), PC-2 (information device 100)₂), PC-4 (information device 100)₄), PC-5 (information device 100)₅) And printer-1 (information device 100)₆).
  The reception-side information device is an information device that receives radio waves from the transmission-side information device, and is PC-3 (information device 100₃).
  The distance calculation unit 104 measures the received electric field strength for each combination of the information device combination table 104a when communication is established between the wireless communication units, and based on the received electric field strength, the distance between the information devices is measured. Calculate the distance.
  In the following cases, since the distance between information devices cannot be calculated, a distance calculation impossibility flag (see FIG. 6) described later is set.
  ・ When two information devices are located more than the radio coverage
  ・ When there is an obstacle that blocks radio waves between the two information devices and the radio waves do not reach
  ・ If the wireless communication units of the two information devices are different, you cannot communicate.
For example, when one is a wireless LAN based on Ethernet and the other is Bluetooth.
  Returning to FIG. 1, the self-centered arrangement information generation unit 105 determines the information device 100 shown in FIG. 2 from the distance calculation result of the distance calculation unit 104.₃Self-centered arrangement information 141 representing an arrangement relationship with other information devices when (PC-3) is self-centered₃(See FIG. 6).
  Self-centered arrangement information 141 shown in FIG.₃Is information representing the positional relationship between the PC-3 (self-centered) and other information devices in terms of distance. In the example of the figure, the distance between PC-3 (self center) and PC-1 is 3 m. However, the direction of PC-1 as seen from PC-3 is unknown. Further, the distance between PC-3 (self center) and PC-4 cannot be calculated (distance calculation disabled flag is set).
  FIG. 7 shows the self-centered arrangement information 141.₃Is a schematic representation. In the figure, concentric circles are drawn with a radius of 1 m from the self center (PC-3). The radius of the concentric circles corresponds to the distance shown in FIG. In FIG. 9B, the self-centered arrangement information 141 shown in FIG.₃Is simple (possible circle 3₃, Possible circle 3₂Only display).
  In FIG. 7, PC-1 (see FIG. 6) is an existing circle 3 having a radius of 3 m (distance 3 m: see FIG. 6) centered on PC-3.₃Exists on. PC-2 (see FIG. 6) is a circle 3 having a radius of 2 m (distance 2 m: see FIG. 6) centered on PC-3.₂Exists on.
  PC-5 (see FIG. 6) is an existing circle 3 having a radius of 4 m (distance 4 m: see FIG. 6) centered on PC-3.₄Exists on. The printer-1 (see FIG. 6) is a circle 3 having a radius of 3 m (distance 3 m: see FIG. 6) centered on PC-3.₃Exists on.
  In addition, the information device 100₃Self-centered arrangement information 141 generated by the self-centered arrangement information generating unit 105 of (PC-3)₃Is stored in the self-centered arrangement information storage unit 140 (see FIG. 1), as shown in FIG.
  Here, the information device 100 shown in FIG.₁(PC-1), information device 100₂(PC-2), information device 100₄(PC-4), information device 100₅(PC-5) and information device 100₆Also in each layout investigation device (not shown) of (Printer-1), self-centered arrangement information 141 having each information device as a self-center.₁141₂141₄141₅And 141₆(See FIG. 8) is generated.
  For example, the information device 100₁In the layout investigation device (not shown) of (PC-1), as shown in FIG. 9 (a), self-centered arrangement information 141 centered on PC-1₁Is generated.
  This self-centered arrangement information 141₁PC-2 (information device 100)₂) Is a possible circle 1 having a radius of 2 m (distance 2 m: see FIG. 2) centered on PC-1.₂Exists on. PC-3 (information equipment 100₃) Is a possible circle 1 having a radius of 3 m (distance 3 m: see FIG. 2) centered on PC-1.₃Exists on.
  In addition, the information device 100₂In the layout investigation device (not shown) of (PC-2), as shown in FIG. 9 (c), self-centered arrangement information 141 centered on PC-2.₂Is generated.
  This self-centered arrangement information 141₂PC-1 (information device 100)₁) Is a possible circle 2 having a radius of 2 m (distance 2 m: see FIG. 2) centered on PC-2₂Exists on. This possible circle 2₂On the top is PC-3 (information equipment 100₃) Is also present.
  Returning to FIG. 1, the self-centered arrangement information collecting unit 106 is connected to the information device 100 via the wired communication unit 102 (or the wireless communication unit 101) and the wireless / wired network 200.₁(PC-1), information device 100₂(PC-2), information device 100₄(PC-4), information device 100₅(PC-5) and information device 100₆The self-centered arrangement information 141 shown in FIG.₁141₂141₄141₅And 141₆Are stored in the self-centered arrangement information storage unit 140 (see FIG. 1). In the first embodiment, each self center arrangement information may be stored in the self center arrangement information storage unit 140 in association with the generated time.
  As shown in FIG. 10 and FIG. 11 (a), the spatial arrangement information generation unit 107 is self-centering arrangement information 141 stored in the self-centering arrangement information storage unit 140.₁~ 141₆Are sequentially combined to generate the spatial arrangement information 151 shown in FIG. The spatial arrangement information 151 is information representing the spatial arrangement (layout) of each information device to be investigated, and the layout investigation apparatus 100A.₃This is the result of the survey.
  In addition, the spatial arrangement information generation unit 107 obtains, from the spatial arrangement information 151, spatial arrangement information 152 (see FIG. 13) expressed by distance and direction, or spatial arrangement information 153 (14th expression) expressed by coordinates. The spatial arrangement information 152 or the spatial arrangement information 153 is stored in the spatial arrangement information storage unit 150 (see FIG. 1).
  The correction unit 108 has a function of correcting the spatial arrangement information 152 (or the spatial arrangement information 153) stored in the spatial arrangement information storage unit 150. Specifically, the correction unit 108 performs the following manual correction and automatic correction.
(A) Manual correction
      ・ Instruct and re-calculate the entire spatial layout information
      ・ Manually correct a part of spatial arrangement information
(B) Automatic correction
    This automatic correction is executed when the arrangement of information devices changes, that is, when the distance or direction between information devices changes.
  The matching unit 109 includes matching target information stored in the matching target information storage unit 130 (for example, matching target information 131: see FIG. 4) and the like, and spatial arrangement information stored in the spatial arrangement information storage unit 150 ( For example, the spatial arrangement information 152 (see FIG. 13) is matched to generate the matching information 161 shown in FIG. 15, and this is stored in the matching information storage unit 160 (see FIG. 1).
  The output unit 110 includes spatial arrangement information 151 (see FIG. 12), spatial arrangement information 152 (see FIG. 13), spatial arrangement information 153 (see FIG. 14), and matching information 161 (see FIG. 15). ) Etc. are output.
  Next, the operation of the first embodiment will be described with reference to the flowcharts shown in FIGS. In the following, the information device 100 shown in FIG.₁~ 100₆A case of investigating the layout (spatial arrangement) will be described.
  In step SA1 shown in FIG. 16, the information device 100 shown in FIG.₃(PC-3) and other information equipment 100₁, 100₂, 100₄~ 100₆A distance calculation process for calculating each distance between the two is executed.
  Specifically, in step SB1 shown in FIG. 17, the distance calculation unit 104 refers to the information device attribute information storage unit 120 and starts from the information device attribute information 121 (see FIG. 3) to FIG. Information device combination table 104a is generated.
  In step SB2, the distance calculation unit 104 selects one combination from the information device combination table 104a. In this case, a combination of “1” as the combination number, “PC-3” as the reception side information device, and “PC-1” as the transmission side information device is selected.
  In step SB3, the distance calculation unit 104 transmits the information device on the opposite side, that is, the PC-1 (information device 100 as the transmission side information device) via the wireless communication unit 101 and the wireless / wired network 200.₁) To send communication confirmation information.
  The communication confirmation information is PC-1 (information device 100).₁) Layout survey device (not shown). As a result, PC-1 (information device 100₁) Layout survey apparatus sends response information to PC-3 (information device 100) via the wireless / wired network 200.₃). This response information is received by the wireless communication unit 101.
  In step SB4, the distance calculation unit 104 determines whether or not the response information has been received, that is, whether or not communication is possible between information devices (in this case, between PC-3 and PC-1). In this case, the determination result is “Yes”.
  When the determination result in step SB4 is “No”, in step SB12, the self-centered arrangement information generation unit 105 displays the self-centered arrangement information 141 shown in FIG.₃“Distance calculation impossibility flag” is set in “Distance (in this case, corresponding to PC-4)”.
  In step SB5, the distance calculation unit 104, via the wireless communication unit 101 and the wireless / wired network 200, PC-1 (information device 100 as an information device on the opposite side, that is, a transmission side information device).₁) To send transmission request information for requesting transmission of distance calculation information.
  The transmission request information is PC-1 (information device 100).₁) Layout survey device (not shown). As a result, PC-1 (information device 100₁) Layout survey apparatus transmits the distance calculation information to the PC-3 (information device 100) via the wireless / wired network 200.₃).
  In step SB6, the distance calculation unit 104 determines whether the wireless communication unit 101 has received the distance calculation information. In this case, the determination result is “No” and the determination is repeated.
  PC-1 (information device 100)₁) Is received by the wireless communication unit 101, the distance calculation unit 104 sets “Yes” as a result of the determination made at step SB6. In step SB7, the distance calculation unit 104 measures the received electric field strength of the distance calculation information. In step SB8, the distance calculation unit 104 calculates the distance between the information devices (in this case, PC-3 and PC-1) based on the received electric field strength, for example, 3 m (from a known calculation formula). (See FIG. 2).
  In step SB9, the self-centered arrangement information generation unit 105 performs self-centered arrangement information 141 shown in FIG.₃Is set to “3 m” calculated in step SB8.
  In step SB10, the distance calculation unit 104 determines whether or not the above-described processing has been completed for all combinations in the information device combination table 104a illustrated in FIG. 5. In this case, the determination result is “No”. To do.
  In step SB2, the distance calculation unit 104 selects a combination of “2” for the combination number, “PC-3” for the reception side information device, and “PC-2” for the transmission side information device from the information device combination table 104a. . Thereafter, through step SB3 to step SB8, and in step SB9, the self-centered arrangement information generating unit 105 performs the self-centered arrangement information 141 shown in FIG.₃To “distance” (in this case, corresponding to PC-2), “2 m” calculated in step SB8 is set.
  In step SB10, the distance calculation unit 104 sets “No” as the determination result. In step SB2, the distance calculation unit 104 selects a combination of “3” for the combination number, “PC-3” for the reception side information device, and “PC-4” for the transmission side information device from the information device combination table 104a. .
  In step SB3, the distance calculation unit 104 transmits the information device on the opposite side, that is, the PC-4 (information device 100 as the transmission side information device) via the wireless communication unit 101 and the wireless / wired network 200.₄) To send communication confirmation information.
  Here, when there is an environment where wireless communication is not possible between PC-3 and PC-4, the communication confirmation information is PC-4 (information device 100).₄) Layout survey device (not shown). Therefore, in this case, PC-4 (information device 100₄No response information is transmitted from the layout survey device.
  In step SB4, the distance calculation unit 104 does not receive the response information from the PC-4, that is, cannot communicate between the information devices (in this case, between PC-3 and PC-4). Is “No”.
  In step SB12, the self-centered arrangement information generation unit 105 performs self-centered arrangement information 141 shown in FIG.₃“Distance calculation impossibility flag” is set in “Distance” (corresponding to PC-4 in this case).
  In step SB10, the distance calculation unit 104 sets “No” as the determination result. Thereafter, Steps SB2 to SB10 are repeated for the combinations of the combination numbers “5” and “6” from the information device combination table 104a shown in FIG.
  When the determination result in step SB10 is “Yes”, in step SB11, the self-centered arrangement information generation unit 105 stores the self-centered arrangement information 141 shown in FIG.₃Is stored. Thereby, the distance calculation process ends.
  In addition, other PC-1 (information equipment 100₁), PC-2 (information device 100)₂), PC-4 (information device 100)₄), PC-5 (information device 100)₅) And printer-1 (information device 100)₆), The above-described distance calculation processing is executed by the layout investigation device, and the self-centered arrangement information 141 with each as a self-center.₁141₂141₄141₅And 141₆(See FIG. 8) is generated and stored.
  In step SA2 shown in FIG. 16, the information device 100 shown in FIG.₁~ 100₆To generate spatial arrangement information (spatial arrangement information 151: see FIG. 12, spatial arrangement information 152: see FIG. 13, spatial arrangement information 153: see FIG. 14) representing the spatial arrangement (layout) of Spatial arrangement information generation processing is executed.
  Specifically, in step SC1 shown in FIG. 18, the self-centered arrangement information collection unit 106 refers to the information device attribute information 121 shown in FIG.₃), That is, PC-1 (information device 100)₁), PC-2 (information device 100)₂), PC-4 (information device 100)₄), PC-5 (information device 100)₅) And printer-1 (information device 100)₆) To the self-centered arrangement information 141 via the wireless / wired network 200.₁141₂141₄141₅And 141₆(See FIG. 8).
  In step SC2, the self-centered arrangement information collecting unit 106 collects the collected self-centered arrangement information 141.₁141₂141₄141₅And 141₆Is stored in the self-centered arrangement information storage unit 140.
  In step SC <b> 3, the spatial arrangement information generation unit 107 refers to the information device attribute information storage unit 120 as one information device (referred to as information device a) from among a plurality of information devices, for example, PC-1 ( Information device 100₁) Is selected. Here, as a selection criterion for the information device a, for example, an information device (self-centered arrangement information) that can calculate a distance from the most other information devices can be cited.
  In step SC4, the spatial arrangement information generating unit 107 acquires the self-centered arrangement information (referred to as self-centered arrangement information A) collected from the information device a from the self-centered arrangement information storage unit 140.
  In this case, the spatial arrangement information generating unit 107 receives the PC-1 (information device 100) from the self-centered arrangement information storage unit 140.₁) Collected self-centered arrangement information 141 shown in FIG. 9 (a).₁To get.
  In step SC5, the spatial arrangement information generation unit 107 selects one information device (referred to as information device b) based on the acquired self-centered arrangement information A.
  In this case, the spatial arrangement information generation unit 107 uses the self-centered arrangement information 141 shown in FIG.₁Possible circle 1 in₃PC-3 (information equipment 100)₃) Is selected.
  In step SC6, the spatial arrangement information generating unit 107 acquires the self-centered arrangement information (referred to as self-centered arrangement information B) collected from the information device b from the self-centered arrangement information storage unit 140.
  In this case, the spatial arrangement information generation unit 107 receives the PC-3 (information device 100) from the self-centered arrangement information storage unit 140.₃) Collected from the self-centered arrangement information 141 shown in FIG. 9B.₃To get.
  In step SC7, the spatial arrangement information generation unit 107 combines the self-center arrangement information A acquired in step SC4 and the self-center arrangement information B acquired in step SC6, and generates spatial arrangement information.
  Specifically, the spatial arrangement information generation unit 107, as shown in FIG.₁(See FIG. 9A) and self-centered arrangement information 141₃(See FIG. 9B) to generate spatial arrangement information 151.
  In this case, the spatial arrangement information generation unit 107 performs self-centered arrangement information 141.₁PC-1 (self-centered) is self-centered arrangement information 141₃Possible existence circle 3₃It is located above and self-centered arrangement information 141₃PC-3 (self-centered) is self-centered arrangement information 141₁Possible existence circle 1₃Self-centered arrangement information 141 so as to be located above₁And self-centered arrangement information 141₃And combine.
  Self-centered arrangement information 141₁Possible existence circle 1₂And self-centered arrangement information 141₃Possible existence circle 3₂Two intersections S with₁And S₂PC-2 (information equipment 100₂) Placement position candidates. In addition, the arrangement position candidates are on the intersection or on a possible circle.
  Returning to FIG. 18, in step SC8, the spatial arrangement information generation unit 107 updates the spatial arrangement information (the first time the spatial arrangement information 151 shown in FIG. In the spatial arrangement information 151), it is determined whether there is an information device in which the self-centered arrangement information is not integrated.
  In the example shown in the figure, the possible circle 1₂And possible circle 3₂PC-2 corresponding to, possible circle 3₃Is the information device. Actually, the self-centered arrangement information 141₃In addition, as shown in FIG. 7, the existence possible circle 3 corresponding to PC-5₄Is also included. Accordingly, the uncoupled information devices are PC-2, printer-1, and PC-5.
  In this case, the spatial arrangement information generation unit 107 sets “Yes” as a result of the determination made at step SC8. In step SC9, the spatial arrangement information generation unit 107 selects one information device (referred to as information device c) from unconnected information devices (PC-2, printer-1, PC-5, etc.).
  In this case, the spatial arrangement information generation unit 107 uses the PC-2 (information device 100) as the information device c.₂) Is selected.
  In step SC10, the spatial arrangement information generation unit 107 acquires the self-centered arrangement information (referred to as self-centered arrangement information C) collected from the information device c from the self-centered arrangement information storage unit 140.
  In this case, the spatial arrangement information generation unit 107 receives the PC-2 (information device 100) from the self-centered arrangement information storage unit 140.₂) Collected from FIG. 11 (b) and FIG. 9 (c), the self-centered arrangement information 141 shown in FIG.₂To get.
  In step SC11, the spatial arrangement information generation unit 107 combines the self-centered arrangement information C acquired in step SC10 with the spatial arrangement information.
  Specifically, as shown in FIG. 11A, the spatial arrangement information generation unit 107 adds the latest spatial arrangement information 151 (in this case, FIG. 10) to the self acquired in step SC10. The spatial arrangement information 151 is updated by combining with the central arrangement information C (see FIG. 11A).
  In this case, the spatial arrangement information generation unit 107 performs self-centered arrangement information 141.₂PC-2 (self-center) is located at the intersection S2, for example, and the self-center arrangement information 141₁PC-1 (self-centered) and self-centered arrangement information 141₃PC-3 (self-centered) is self-centered arrangement information 141₂Possible existence circle 2₂The self-centered arrangement information 141 is included in the spatial arrangement information 151 (see FIG. 10) so as to be positioned above.₂And the spatial arrangement information 151 is updated (see FIG. 11 (a)).
  Here, when combining, when there are two intersections that are candidates for the arrangement position, either one (in the above case, the intersection S₂), The self-centered information device of the self-centered placement information is placed, and if the placement position candidate is on a possible circle, the information device is placed at any position on the possible circle .
  Returning to FIG. 18, in step SC8, the spatial arrangement information generating unit 107 determines whether there is an information device in which the self-centered arrangement information is not integrated in the spatial arrangement information 151 shown in FIG. In this case, since the PC-5, the printer-1, and the like are not coupled, the determination result is “Yes”.
  Thereafter, steps SC9 to SC11 are repeated until the determination result in step SC8 becomes “No”. For example, the self-centered arrangement information 141 shown in FIG.₅After combining (corresponding to PC-5) and updating the spatial arrangement information 151, the self-center arrangement information 141 is updated.₆(Corresponding to printer-1) is combined and the spatial arrangement information 151 is updated, and the final form of spatial arrangement information 151 shown in FIG. 12 is generated. In this spatial arrangement information 151, the spatial arrangement (layout) of the information device to be investigated is graphically represented.
  In step SC8, the spatial arrangement information generation unit 107 sets the determination result to “No”. In step SC12, the spatial arrangement information generating unit 107 generates the storage spatial arrangement information 152 shown in FIG. 13 from the spatial arrangement information 151 shown in FIG.
  The spatial arrangement information 152 is information that represents the distance and direction between information devices in a matrix. For example, between PC-1 and PC-2, as shown in FIG. 12, the distance is 2 m and the direction is 180 degrees (with the perpendicular of PC-1 being 0 degrees as a reference of 180 degrees clockwise). Meaning that PC-2 is located in the direction).
  In the first embodiment, the spatial arrangement information generating unit 107 may generate the storage spatial arrangement information 153 shown in FIG. 14 from the spatial arrangement information 151 shown in FIG. Good. The spatial arrangement information 153 is information representing the position of each information device in coordinates in a two-dimensional coordinate system having the PC-3 shown in FIG. 12 as the origin (0, 0).
  Returning to FIG. 18, in step SC13, the spatial arrangement information generating unit 107 uses the spatial arrangement information 152 (see FIG. 13) or the spatial arrangement information 153 (see FIG. 14) generated in step SC12. The information is stored in the central arrangement information storage unit 140, and the spatial arrangement information generation process is terminated.
  Returning to FIG. 16, in step SA3, it is determined whether or not to execute the matching process. When the determination result in step SA3 is “No”, in step SA5, the output unit 110 sends the spatial arrangement information 152 (see FIG. 13) or the spatial arrangement information 153 (14th) from the spatial arrangement information storage unit 150. After obtaining (see figure), output.
  On the other hand, if the determination result in step SA3 is “Yes”, in step SA4, matching processing for matching the matching target information with the spatial arrangement information is executed.
  Specifically, in step SD1 shown in FIG. 19, the matching unit 109 receives the spatial arrangement information 152 shown in FIG. 13 (the spatial arrangement shown in FIG. 14) from the spatial arrangement information storage unit 150. Information 153 is also acceptable).
  In step SD2, the user designates, for example, matching target information 131 (see FIG. 4) and information device attribute information 121 (see FIG. 3) as matching target information from the input unit 103. In step SD3, the matching unit 109 obtains the matching target information 131 and the information device attribute information 121 specified in step SD2 from various storage units (in this case, the matching target information storage unit 130 and the information device attribute information storage unit 120). get.
  In step SD4, the matching unit 109 performs the spatial arrangement information 152 (see FIG. 13) acquired in step SD1, the matching target information 131 (see FIG. 4) and the information device attribute information 121 acquired in step SD3. (Refer to FIG. 3) and matching information 161 shown in FIG. 15 is generated.
  In the matching information 161, corresponding information device attribute information (IP address, type, property number) is associated with each information device (PC-1, PC-2, etc.).
  In step SD5, the matching unit 109 stores the matching information 161 (see FIG. 15) in the matching information storage unit 160, and ends the matching process. Returning to FIG. 16, in step SA5, the output unit 110 obtains the matching information 161 (see FIG. 15) from the matching information storage unit 160 and outputs it.
  As described above, according to the first embodiment, a plurality of investigation targets (information devices 100₁To 100₆) One of the survey targets (information device 100)₃) As a self, and the distance between the self and other investigation objects arranged around is calculated using radio waves, and as shown in FIGS. 10 and 11 (a), the self is the center. Self-centered arrangement information 141 representing the layout status based on the distance to other survey targets₃(Refer to FIG. 6 and FIG. 7) and other self-centered arrangement information 141 respectively generated on the other investigation object side₁141₂141₄~ 141₆Are combined based on the distance, and the spatial arrangement information 151 and the like (see FIG. 12) representing the layouts of a plurality of survey targets are generated, so that the layout of the survey targets can be surveyed quickly and accurately. it can.
  Further, according to the first embodiment, as shown in FIG. 15, the matching unit 406 displays related information (information device attribute information, matching target information, etc.) related to a plurality of investigation targets and spatial arrangement information. Since matching is performed, the association between the related information and the survey target can be clarified, and the convenience for the user can be improved.
  Further, according to the first embodiment, since the spatial arrangement information is corrected by the correction unit 108, it is possible to finely adjust the spatial arrangement information with respect to the actual layout.
(Embodiment 2)
  In the first embodiment, the configuration in which the spatial arrangement information is generated based on the distance to be investigated has been described. However, the spatial arrangement information may be generated based on both the distance and the direction. Hereinafter, this configuration example will be described as a second embodiment.
  FIG. 20 is a block diagram showing the configuration of the second embodiment according to the present invention. The figure shows the area between the objects of investigation based on the received electric field strength of the radio wave (in FIG.₁~ 400₆Based on the result of calculating the distance and the direction of each other (information device 400).₁~ 400₆) Shows a layout investigation system for examining the layout (spatial arrangement).
  Here, in FIG. 20, parts corresponding to those in FIG. 1 are given the same reference numerals. In the figure, the information device 100 shown in FIG.₁~ 100₆Layout survey device 100A₃Instead of the information device 400₁~ 400₆Layout survey device 400A₃Is provided.
  Information device 400₁~ 400₆Are a desktop PC, a notebook PC, a printer, and the like, and are interconnected via a wireless / wired network 200.
  In addition, the information device 400₁~ 400₆Are arranged on the office floor 300 shown in FIG. 21 and are subject to layout investigation. In FIG. 21, parts corresponding to those in FIG. 2 are assigned the same reference numerals.
  Information device 400₁Is a desktop PC (see FIG. 3) and a desk 302₁Is installed. This information device 400₁Is assigned an information device name of “PC-1”. Information device 400₂Is a notebook PC and desk 302₃Is installed. This information device 400₂Is assigned an information device name of “PC-2”.
  Information device 400₃Is a notebook PC and desk 302₄Is installed. This information device 400₃Is attached with an information device name of “PC-3”. Information device 400₄Is a desktop PC and desk 302₅Is installed. This information device 400₄Is assigned the information device name “PC-4”.
  Information device 400₅Is a desktop PC and desk 302₆Is installed. This information device 400₅Is attached with an information device name of “PC-5”. Information device 400₆Is a printer and the desk 302₄It is installed on the nearby floor. This information device 400₆Is attached with an information device name “printer-1”.
  In the second embodiment, the “information device name” of the information device attribute information 121 shown in FIG.₁~ 400₆It corresponds to.
  Returning to FIG. 20, the information device 400₃In addition to the means for realizing the PC function, the layout investigation device 400A₃Is provided. This layout investigation device 400A₃The information device 400₁~ 400₆It has a function to investigate the layout. Here, the other information device 400₁, 400₂, 400₄, 400₅And 400₆Layout survey device 400A₃The same layout investigation device (not shown) is provided.
  In addition, the information device 400₁~ 400₆In the same manner as in the first embodiment, the master-slave relationship is adopted between the layout survey apparatuses. For example, the information device 400₃Layout survey device 400A₃The layout survey device (not shown) provided in other information devices is the subordinate.
  Information device 400₃Layout survey device 400A₃In FIG. 2, the same reference numerals are given to the portions corresponding to the respective portions in FIG. This layout investigation device 400A₃, A direction calculation unit 401 is newly provided.
  Also, this layout investigation device 400A₃In FIG. 1, the self-centered arrangement information generation unit 105, the self-centered arrangement information collection unit 106, the spatial arrangement information generation unit 107, the correction unit 108, the matching unit 109, the output unit 110, and the self-centered arrangement information storage shown in FIG. In place of the unit 140, the spatial arrangement information storage unit 150, and the matching information storage unit 160, a self-centered arrangement information generation unit 402, a self-centered arrangement information collection unit 403, a spatial arrangement information generation unit 404, a correction unit 405, a matching unit 406, an output unit 407, a self-centered arrangement information storage unit 410, a spatial arrangement information storage unit 420, and a matching information storage unit 430 are provided.
  The direction calculation unit 401 shown in FIG. 20 is self (in this case, the information device 400 based on the information device attribute information 121 (see FIG. 3)).₃) And other information equipment 400₁, 400₂, 400₄~ 400₆Are calculated from the received electric field strength of the radio wave. Specifically, the direction calculation unit 401 sets the maximum direction of the received electric field strength as the direction of another information device viewed from itself.
  In the following cases, since the direction between the information devices cannot be calculated, a direction calculation impossibility flag (see FIG. 25) described later is set.
  ・ When two information devices are located more than the radio coverage
  ・ When there is an obstacle that blocks radio waves between the two information devices and the radio waves do not reach
  ・ If the wireless communication units of the two information devices are different, you cannot communicate.
For example, when one is a wireless LAN based on Ethernet and the other is Bluetooth.
  The self-centered arrangement information generation unit 402 determines the information device 400 shown in FIG. 22 from the distance calculation result of the distance calculation unit 104 and the direction calculation result of the direction calculation unit 401.₃Self-centered arrangement information 411 representing the arrangement relationship with other information devices when (PC-3) is self-centered.₃(See FIG. 23).
  Self-centered arrangement information 411 shown in FIG.₃Is information representing the arrangement relationship between the PC-3 (self-centered) and other information devices in terms of distance and direction. In the example of the figure, the distance between PC-3 (self center) and PC-1 is 3 m, and the direction of PC-1 viewed from PC-3 is 0 degree (reference).
  Further, the distance between PC-3 (self center) and PC-2 is 2 m, and the direction of PC-2 viewed from PC-3 is 315 degrees. The distance between PC-3 (self center) and PC-4 cannot be calculated (distance calculation disabled flag is set), and the direction of PC-4 viewed from PC-3 cannot be calculated (direction calculation disabled flag is set) ).
  Further, the distance between PC-3 (self center) and PC-5 is 4 m, and the direction of PC-5 viewed from PC-3 is 135 degrees. The distance between PC-3 (self-centered) and printer-1 is 3 m, and the direction of printer-1 viewed from PC-3 is 225 degrees.
  FIG. 23 shows the self-centered arrangement information 411.₃Is a schematic representation. In the figure, concentric circles (existing circles 3) with a radius of 1 m from the self center (PC-3).₂3₃3₄Etc.) are drawn. The radius of the concentric circles corresponds to the distance shown in FIG. The direction shown in FIG. 22 is set clockwise with the perpendicular direction of PC-3 shown in FIG. 23 as 0 degree (reference).
  Specifically, the position P shown in FIG.₃₁PC-1 is associated with (distance 3 m, direction 0 degree). Position P₃₂PC-2 is associated with (distance 2 m, direction 315 degrees).
  In addition, position P₃₅PC-5 is associated with (distance 4 m, direction 135 degrees). Position P_3pPrinter-1 is associated with (distance 3 m, direction 225 degrees). Position P₃(Center position) is associated with PC-3.
  Information device 400₃Self-centered arrangement information 411 generated by the self-centered arrangement information generating unit 402 of (PC-3)₃Is stored in the self-centered arrangement information storage unit 410 (see FIG. 20), as shown in FIG.
  Here, the information device 400 shown in FIG.₁(PC-1), information device 400₂(PC-2), information device 400₄(PC-4), information device 400₅(PC-5) and information device 400₆Also in each layout investigation device (not shown) of (Printer-1), self-centered arrangement information 411 having each information device as a self-center.₁411₂411₄411₅And 411₆(See FIG. 24) is generated.
  For example, the information device 400₅In the layout survey device (not shown) of (PC-5), as shown in FIG. 25, self-centered arrangement information 411 centered on PC-5.₅Is generated.
  In the example of the figure, the distance between PC-5 (self center) and PC-1 cannot be calculated (distance calculation disabled flag is set), and the direction of PC-1 as viewed from PC-5 cannot be calculated ( Direction calculation impossibility flag is set). The distance between PC-5 (self center) and PC-2 cannot be calculated (distance calculation disabled flag is set), and the direction of PC-2 viewed from PC-5 cannot be calculated (direction calculation disabled flag is set) ).
  Further, the distance between PC-5 (self center) and PC-3 is 4 m, and the direction of PC-3 viewed from PC-5 is 0 degree (reference). The distance between PC-5 (self center) and PC-4 is 3 m, and the direction of PC-4 viewed from PC-5 is 90 degrees. The distance between the PC-5 (self-centered) and the printer-1 is 5 m, and the direction of the printer-1 viewed from the PC-5 is 315 degrees.
  FIG. 26 shows the self-centered arrangement information 411.₅Is a schematic representation. In the figure, concentric circles (existable circles 5) with a radius of 1 m from the self center (PC-5).₃5₄5₅Etc.) are drawn. The radius of the concentric circles corresponds to the distance shown in FIG. The direction shown in FIG. 26 is set clockwise with the perpendicular direction of PC-5 shown in FIG. 25 as 0 degree (reference).
  Specifically, the position P shown in FIG.₅₃PC-3 is associated with (distance 4 m, direction 0 degree). Position P₅₄PC-4 is associated with (distance 3 m, direction 90 degrees).
  In addition, position P_5pPrinter-1 is associated with (distance 5 m, direction 315 degrees). Position P₅(Center position) is associated with PC-5.
  In addition, the information device 400₂In the layout survey device (not shown) of (PC-2), as shown in FIG. 28 (b), self-centered arrangement information 411 centered on PC-2.₂Is generated.
  In the figure, the position P₂₁PC-1 is associated with (distance 2 m, direction 0 degree). Position P₂₃PC-3 is associated with (distance 2 m, direction 90 degrees). Position P_2pPrinter-1 is associated with (distance 3.6 m, direction 150 degrees). Position P₂(Center position) is associated with PC-2.
  Returning to FIG. 20, the self-centered arrangement information collecting unit 403 receives the information device 400 via the wired communication unit 102 (or the wireless communication unit 101) and the wireless / wired network 200.₁(PC-1), information device 400₂(PC-2), information device 400₄(PC-4), information device 400₅(PC-5) and information device 400₆The self-centered arrangement information 411 shown in FIG.₁411₂411₄411₅And 411₆Are collected and stored in the self-centered arrangement information storage unit 410 (see FIG. 20). In the second embodiment, each self center arrangement information may be stored in the self center arrangement information storage unit 410 in association with the generated time.
  As shown in FIG. 27 and FIG. 28 (a), the spatial arrangement information generating unit 404 is self-centering arrangement information 411 stored in the self-centering arrangement information storage unit 410.₁~ 411₆These are sequentially combined to generate the spatial arrangement information 421 shown in FIG. The spatial arrangement information 421 is information representing the spatial arrangement (layout) of each information device to be investigated, and the layout investigation device 400A.₃This is the result of the survey.
  Further, the spatial arrangement information generation unit 404 obtains the spatial arrangement information 422 (see FIG. 30) expressed by distance and direction from the spatial arrangement information 421, or the spatial arrangement information 423 (31st) expressed by coordinates. The spatial arrangement information 422 or the spatial arrangement information 423 is stored in the spatial arrangement information storage unit 420 (see FIG. 20).
  The correction unit 405 has a function of correcting the spatial arrangement information 422 (or the spatial arrangement information 423) stored in the spatial arrangement information storage unit 420 in the same manner as the correction unit 108 (see FIG. 1). Yes.
  The matching unit 406 includes matching target information (for example, matching target information 131: see FIG. 4) stored in the matching target information storage unit 130, and spatial arrangement information stored in the spatial arrangement information storage unit 420 (see FIG. 4). For example, the spatial arrangement information 422 (see FIG. 30) is matched to generate the matching information 431 shown in FIG. 32, which is stored in the matching information storage unit 430 (see FIG. 20).
  The output unit 407 includes spatial arrangement information 421 (see FIG. 29), spatial arrangement information 422 (see FIG. 30), spatial arrangement information 423 (see FIG. 31), and matching information 431 (see FIG. 32). ) Etc. are output.
  Next, the operation of the second embodiment will be described with reference to the flowcharts shown in FIGS. In the following, the information device 400 shown in FIG.₁~ 400₆A case of investigating the layout (spatial arrangement) will be described.
  In step SE1 shown in FIG. 33, the information device 400 shown in FIG.₃(PC-3) and other information equipment 400₁, 400₂, 400₄~ 400₆A distance calculation process for calculating each distance between the two is executed.
  Specifically, in step SF1 shown in FIG. 34, the distance calculation unit 104 refers to the information device attribute information storage unit 120 and starts from the information device attribute information 121 (see FIG. 3) to FIG. Information device combination table 104a is generated.
  In step SF2, the distance calculation unit 104 refers to the combination number “1”, the reception side information device “PC-3”, and the transmission side information device “PC-1” as one combination from the information device combination table 104a. Select a combination.
  In step SF3, the distance calculation unit 104 transmits the PC-1 (information device 400) as the transmission side information device via the wireless communication unit 101 and the wireless / wired network 200.₁) To send communication confirmation information.
  Communication confirmation information is PC-1 (information device 400).₁) Layout survey device (not shown), PC-1 (information device 400)₁) Layout survey apparatus sends response information to PC-3 (information device 400) via the wireless / wired network 200.₃). This response information is received by the wireless communication unit 101.
  In step SF4, the distance calculation unit 104 determines whether or not the response information has been received, that is, whether or not communication is possible between information devices (in this case, between PC-3 and PC-1). In this case, the determination result is “Yes”.
  When the determination result in step SF4 is “No”, in step SF11, the self-centered arrangement information generating unit 402 displays the self-centered arrangement information 411 shown in FIG.₃“Distance calculation impossibility flag” is set in “Distance” (corresponding to PC-4 in this case).
  In step SF5, the distance calculation unit 104 transmits the PC-1 (information device 400) as the transmission side information device via the wireless communication unit 101 and the wireless / wired network 200.₁) To send transmission request information for requesting transmission of distance calculation information.
  The transmission request information is PC-1 (information device 400).₁) Layout survey device (not shown). As a result, PC-1 (information device 400₁) Layout survey apparatus transmits the distance calculation information to the PC-3 (information device 400) via the wireless / wired network 200.₃).
  In step SF6, the distance calculation unit 104 determines whether the wireless communication unit 101 has received the distance calculation information. In this case, the determination result is “No” and the determination is repeated.
  And PC-1 (information equipment 400₁When the wireless communication unit 101 receives the distance calculation information from), the distance calculation unit 104 sets “Yes” as a result of the determination made at step SF6. In step SF7, the distance calculation unit 104 measures the received electric field strength of the distance calculation information. In step SF8, the distance calculation unit 104 calculates the distance between the information devices (in this case, PC-3 and PC-1) based on the received electric field strength, for example, 3 m (from a known calculation formula). (See FIG. 21).
  In step SF9, the distance calculation unit 104 determines the self-centered arrangement information 411 shown in FIG.₃To “distance” (in this case, corresponding to PC-1) is set to “3 m” calculated in step SF8.
  In step SF10, the distance calculation unit 104 determines whether or not the above-described processing has been completed for all combinations in the information device combination table 104a illustrated in FIG. 5. In this case, the determination result is “No”. To do.
  In step SF2, the distance calculation unit 104 selects a combination of “2” for the combination number, “PC-3” for the reception side information device, and “PC-2” for the transmission side information device from the information device combination table 104a. . Thereafter, after passing through steps SF3 to SF8, and in step SF9, the distance calculation unit 104 determines the self-centered arrangement information 411 shown in FIG.₃To “distance” (in this case, corresponding to PC-2), “2 m” calculated in step SF8 is set.
  In step SF10, the distance calculation unit 104 sets “No” as the determination result. Thereafter, steps SF2 to SF10 are repeated for the unprocessed combinations.
  When the determination result in step SF10 is “Yes”, the distance calculation unit 104 ends the distance calculation process.
  Returning to FIG. 33, in step SE2, the information device 400 shown in FIG.₃The direction calculation unit 401 of (PC-3) is another information device 400.₁, 400₂, 400₄~ 400₆A direction calculation process for calculating each direction between and is executed.
  Specifically, in step SG1 shown in FIG. 35, the direction calculation unit 401 acquires the information device combination table 104a (see FIG. 5) from the distance calculation unit 104.
  In step SG2, the direction calculation unit 401 refers to the combination number “1”, the reception side information device “PC-3”, and the transmission side information device “PC-1” as one combination from the information device combination table 104a. Select a combination.
  In step SG3, the direction calculation unit 401 transmits the PC-1 (information device 400) as the transmission side information device via the wireless communication unit 101 and the wireless / wired network 200.₁) To send communication confirmation information.
  Communication confirmation information is PC-1 (information device 400).₁) Layout survey device (not shown), PC-1 (information device 400)₁) Layout survey apparatus sends response information to PC-3 (information device 400) via the wireless / wired network 200.₃). This response information is received by the wireless communication unit 101.
  In step SG4, the direction calculation unit 401 determines whether or not the response information has been received, that is, whether or not communication is possible between information devices (in this case, between PC-3 and PC-1). In this case, the determination result is “Yes”.
  If the determination result in step SG4 is “No”, in step SG12, the self-centered arrangement information generating unit 402 determines that the self-centered arrangement information 411 shown in FIG.₃Is set to “direction” (in this case, corresponding to PC-4).
  In step SG5, the direction calculation unit 401 transmits the PC-1 (information device 400) as the transmission side information device via the wireless communication unit 101 and the wireless / wired network 200.₁) To send transmission request information for requesting transmission of direction calculation information.
  The transmission request information is PC-1 (information device 400).₁) Layout survey device (not shown). As a result, PC-1 (information device 400₁) Of the layout investigation device PC-3 (information device 400) via the wireless / wired network 200 for direction calculation information.₃).
  In step SG6, the direction calculation unit 401 determines whether the wireless communication unit 101 has received the direction calculation information. In this case, the determination result is “No” and the determination is repeated.
  And PC-1 (information equipment 400₁When the wireless communication unit 101 receives the direction calculation information from), the direction calculation unit 401 sets “Yes” as a result of the determination made at step SG6. In step SG7, the direction calculation unit 401 measures the received electric field strength of the direction calculation information. In step SG8, the direction calculation unit 401 calculates the maximum direction of the received electric field strength as, for example, 0 degrees (see FIG. 22) as the direction of PC-1 viewed from PC-3.
  In step SG9, the self-centered arrangement information generating unit 402 performs self-centered arrangement information 411 shown in FIG.₃To “direction” (in this case, corresponding to PC-1), “0 degree” calculated in step SG8 is set.
  In step SG10, the direction calculation unit 401 determines whether or not the above-described processing has been completed for all combinations in the information device combination table 104a illustrated in FIG. 5. In this case, the determination result is “No”. To do.
  In step SG2, the direction calculation unit 401 selects a combination of “2” as the combination number, “PC-3” as the reception side information device, and “PC-2” as the transmission side information device from the information device combination table 104a. . Thereafter, through step SG3 to step SG8, in step SG9, the self-centered arrangement information generating unit 402 performs self-centered arrangement information 411 shown in FIG.₃To “direction” (in this case, corresponding to PC-2), “315 degrees” calculated in step SG8 is set.
  In step SG10, the direction calculation unit 401 sets the determination result to “No”. Thereafter, Step SG2 to Step SG10 are repeated for each unprocessed combination.
  When the determination result in step SG10 is “Yes”, in step SG11, the self-centered arrangement information generation unit 402 displays the self-centered arrangement information 411 shown in FIG.₃Is stored in the self-centered arrangement information storage unit 410. Thereby, the direction calculation process ends.
  In addition, other PC-1 (information equipment 400₁), PC-2 (information device 400)₂), PC-4 (information device 400)₄), PC-5 (information device 400)₅) And printer-1 (information device 400)₆), The above-described distance calculation process and direction calculation process are executed by the layout investigation device, and the self-centered arrangement information 411 having each as its own center.₁411₂411₄411₅And 411₆(See FIG. 24) is generated and stored.
  In step SE3 shown in FIG. 33, the information device 400 shown in FIG.₁~ 400₆To generate spatial arrangement information (spatial arrangement information 421: see FIG. 29, spatial arrangement information 422: see FIG. 30, spatial arrangement information 423: see FIG. 31) representing the spatial arrangement (layout) of Spatial arrangement information generation processing is executed.
  Specifically, in step SH1 shown in FIG. 36, the self-centered arrangement information collection unit 403 refers to the information device attribute information 121 shown in FIG.₃), That is, PC-1 (information device 400)₁), PC-2 (information device 400)₂), PC-4 (information device 400)₄), PC-5 (information device 400)₅) And printer-1 (information device 400)₆) To the self-centered arrangement information 411 via the wireless / wired network 200.₁411₂411₄411₅And 411₆(See FIG. 24).
  In step SH2, the self-centered arrangement information collection unit 403 collects the collected self-centered arrangement information 411.₁411₂411₄411₅And 411₆Is stored in the self-centered arrangement information storage unit 410.
  In step SH <b> 3, the spatial arrangement information generation unit 404 refers to the information device attribute information storage unit 120 as one information device from among a plurality of information devices, for example, PC-3 (information device 400₂) Is selected.
  In step SH4, the spatial arrangement information generating unit 404 performs the above PC-3 (information device 400).₃) Self-centered arrangement information 411 collected from₃(See FIG. 23) is acquired from the self-centered arrangement information storage unit 410.
  In step SH5, the spatial arrangement information generation unit 404 performs the self-center arrangement information 411.₃Is spatial arrangement information.
  Then, in step SH6, the spatial arrangement information generation unit 404 performs the spatial arrangement information (first time, self-centered arrangement information 411 as the spatial arrangement information shown in FIG. 23.₃From the second time on, it is determined whether or not there is an information device in which the self-centered arrangement information is not integrated in the spatial arrangement information 421) updated in step SH9. In this case, since there is an information device that is not integrated, the spatial arrangement information generation unit 404 sets the determination result to “Yes”.
  In the example shown in FIG. 23, PC-1, PC-2, PC-5, and printer-1 are uncoupled information devices.
  In step SH7, the spatial arrangement information generation unit 404 selects, for example, PC-5 as one information device from the unconnected information devices (PC-1, PC-2, printer-1 and PC-5). select.
  In step SH8, the spatial arrangement information generating unit 404 performs the above PC-5 (information device 400).₅25) and the self-centered arrangement information 411 shown in FIGS.₅Is acquired from the self-centered arrangement information storage unit 410.
  In step SH9, as shown in FIG. 27, the spatial arrangement information generating unit 404 updates the latest spatial arrangement information (self-centered arrangement information 411).₃(See FIG. 23)), the self-centered arrangement information 411 acquired in step SH8.₅And the spatial arrangement information 421 (see FIG. 27) is updated.
  In this case, the spatial arrangement information generation unit 404 self-centered arrangement information 411 so that the following positions overlap.₅, While rotating the self-centering arrangement information 411₃And self-centered arrangement information 411₅And combine.
  -Position P corresponding to PC-3₃And position P₅₃
  -Position P corresponding to PC-5₅And position P₃₅
  -Position P corresponding to printer-1_3pAnd position P_5p
  Returning to FIG. 36, in step SH6, the spatial arrangement information generation unit 404 determines whether there is an information device in which the self-centered arrangement information is not integrated in the spatial arrangement information 421 shown in FIG. In this case, the determination result is “Yes”.
  Thereafter, steps SH7 to SH9 are repeated until the determination result in step SH6 becomes “No”, the spatial arrangement information 421 is sequentially updated, and the final form of spatial arrangement information 421 shown in FIG. 29 is generated. Is done. In this spatial arrangement information 421, the spatial arrangement (layout) of the information device to be investigated is represented schematically.
  In step SH6, the spatial arrangement information generation unit 404 sets “No” as the determination result. In step SH10, the spatial arrangement information generating unit 404 generates the storage spatial arrangement information 422 shown in FIG. 30 from the spatial arrangement information 421 shown in FIG.
  The spatial arrangement information 422 is information that represents the distance and direction between information devices in a matrix. For example, between PC-1 and PC-2, as shown in FIG. 29, the distance is 2 m and the direction is 180 degrees (with the perpendicular of PC-1 being 0 degrees as a reference of 180 degrees clockwise). Meaning that PC-2 is located in the direction).
  In the second embodiment, the spatial arrangement information generation unit 404 may generate the storage spatial arrangement information 423 shown in FIG. 31 from the spatial arrangement information 421 shown in FIG. Good. This spatial arrangement information 423 is information that expresses the position of each information device in coordinates in a two-dimensional coordinate system having the PC-3 shown in FIG. 29 as the origin (0, 0).
  Returning to FIG. 36, in step SH11, the spatial arrangement information generating unit 404 uses the spatial arrangement information 422 (see FIG. 30) or the spatial arrangement information 423 (see FIG. 31) generated in step SH10. The information is stored in the central arrangement information storage unit 410 and the spatial arrangement information generation process is terminated.
  Returning to FIG. 33, in step SE4, it is determined whether or not to execute the matching process. When the determination result in step SE4 is “No”, in step SE6, the output unit 407 outputs the spatial arrangement information 422 (see FIG. 30) or the spatial arrangement information 423 (the thirty-first) from the spatial arrangement information storage unit 420. After obtaining (see figure), output.
  On the other hand, when the determination result in step SE4 is “Yes”, in step SE5, a matching process for matching the matching target information with the spatial arrangement information is executed.
  Specifically, in step SD1 shown in FIG. 19, the matching unit 406 receives the spatial arrangement information 422 shown in FIG. 30 (the spatial arrangement shown in FIG. 31) from the spatial arrangement information storage unit 420. Information 423 is also acceptable).
  In step SD2, the user designates, for example, matching target information 131 (see FIG. 4) and information device attribute information 121 (see FIG. 3) as matching target information from the input unit 103. In step SD3, the matching unit 406 receives the matching target information 131 and the information device attribute information 121 specified in step SD2 from various storage units (in this case, the matching target information storage unit 130 and the information device attribute information storage unit 120). get.
  In step SD4, the matching unit 406 acquires the spatial arrangement information 422 (see FIG. 30) acquired in step SD1, the matching target information 131 (see FIG. 4) and the information device attribute information 121 acquired in step SD3. (Refer to FIG. 3) and matching information 431 shown in FIG. 32 is generated.
  In the matching information 431, corresponding information device attribute information (IP address, type, property number) is associated with each information device (PC-1, PC-2, etc.).
  In step SD5, the matching unit 406 stores the matching information 431 (see FIG. 32) in the matching information storage unit 430, and ends the matching process. Returning to FIG. 33, in step SE6, the output unit 407 obtains the matching information 431 (see FIG. 32) from the matching information storage unit 430 and outputs it.
  In the second embodiment, when geomagnetism can be measured with a magnet or the like, the direction between information devices may be described (for example, east and west, EW) using the measured direction.
  As described above, according to the second embodiment, a plurality of investigation targets (information device 400₁~ 400₆) One of the survey targets (information device 400)₃) As a self, and the distance and direction between the self and other investigation objects arranged around are calculated using radio waves, and as shown in FIGS. 27 and 28 (a), the self is centered. Self-centered arrangement information 411 representing the layout status based on the distance to other survey targets₃(Refer to FIG. 22 and FIG. 23) and other self-centered arrangement information 411 respectively generated on the other investigation object side₁411₂411₄~ 411₆Are combined based on distance and direction to generate spatial arrangement information 421 and the like (see FIG. 29) representing a plurality of layouts to be investigated, so that the layout to be investigated can be investigated quickly and accurately. be able to.
  Although the first and second embodiments according to the present invention have been described in detail with reference to the drawings, specific configuration examples are not limited to the first and second embodiments, and depart from the gist of the present invention. Even if there is a design change or the like within a range not to be included, it is included in the invention.
  For example, in the above-described embodiment, the layout survey apparatus 100A described above is used.₃, Other layout survey devices (not shown), layout survey device 400A₃Or, a program for realizing the layout investigation function of another layout investigation device (not shown) is recorded on the computer-readable recording medium 600 shown in FIG. 37, and the program recorded on the recording medium 600 is recorded. May be implemented by causing the computer 500 to read and execute the function.
  The computer 500 includes a CPU (Central Processing Unit) 510 that executes the program, an input device 520 such as a keyboard and a mouse, a ROM (Read Only Memory) 530 that stores various data, and a RAM (RAM that stores calculation parameters and the like. Random Access Memory) 540, a reading device 550 that reads a program from the recording medium 600, an output device 560 such as a display and a printer, and a bus 570 that connects each part of the device.
  The CPU 510 reads the program recorded on the recording medium 600 via the reading device 550 and then executes the program, thereby realizing the above-described layout investigation function. Examples of the recording medium 600 include an optical disk, a flexible disk, and a hard disk.
  In the first and second embodiments, the distance and direction may be calculated by the following timing based on the mobility of the information device attribute information 121 (see FIG. 3).
  The distance and direction between information devices that have no mobility (fixed) are calculated, for example, once a month.
  The distance and direction between information devices whose mobility is low (almost fixed) are calculated once a week, for example.
  The distance and direction between information devices with high mobility (moving frequently) are calculated, for example, once an hour.
  In Embodiments 1 and 2, when information devices to be investigated are installed in the spaces 700 and 800 shown in FIG. 38, information device attribute information is created for each space, and each information device Using the attribute information, the layout survey may be performed independently for each space.
  Also, in the first and second embodiments, in the process of generating spatial arrangement information, when a plurality of self-centered arrangement information is combined and a deviation occurs in the position of the same information device, the center of gravity of each position is taken. Alternatively, the distance and direction may be recalculated.
  Further, in the first and second embodiments, when it is impossible to calculate the distance and direction using radio waves, the distance and direction may be calculated by a mathematical method using the other calculated distance and direction. Good.
  In the first and second embodiments, the information device has been described as an example of the survey target. However, the present invention is not limited to this, and if a layout survey device (including built-in or external) can be provided, a fixture or the like can be used. Everything is subject to investigation.
  In the first and second embodiments, the spatial arrangement information generation unit 404 calculates a difference between the previously generated spatial arrangement information (layout information) and the currently generated spatial arrangement information (layout information). The configuration may be such that the moved survey object is checked. In this case, it is possible to accurately grasp the movement status of the investigation target.
  As described above, according to the present invention, one of the plurality of survey targets is self, and the distance between the self and other survey targets disposed around is calculated using radio waves, A combination of self-centered placement information, which represents the layout status based on the distance from other survey targets centered on itself, and other self-centered placement information generated on the other survey target side based on the distance, Since the layout information representing the layout of the survey target is generated, there is an effect that the layout of the survey target can be surveyed quickly and accurately.
  In addition, according to the present invention, one of the plurality of survey targets is set as self, and the distance and direction between the self and other survey targets arranged around are calculated using radio waves. Based on the distance and direction, the self-centered placement information that indicates the layout status based on the distance and direction from the other survey target in the center and the other self-centered placement information generated on the other survey target side are combined. Since the layout information representing the layouts of a plurality of survey targets is generated, the layout of the survey target can be surveyed quickly and accurately.
  In addition, according to the present invention, since the related information related to a plurality of survey targets and the layout information are matched, the association between the related information and the survey targets can be clarified, and the convenience of the user The effect that can be improved.
  Further, according to the present invention, since the related information is information on an environment in which a plurality of survey targets are installed, the correspondence between the environment and the survey targets can be clarified, and user convenience is improved. There is an effect that can be made.
  Further, according to the present invention, since the related information is attribute information of a plurality of survey targets, the association between the attribute information and the survey targets can be clarified, and user convenience can be improved. There is an effect.
  Further, according to the present invention, since the layout information is corrected, there is an effect that the layout information can be finely adjusted with respect to the actual layout.
  Further, according to the present invention, the difference between the layout information generated last time and the layout information generated this time is taken to check the moved investigation object, so that the movement state of the investigation object is accurately grasped. There is an effect that can be.

  As described above, the layout investigation program, the layout investigation apparatus, the layout investigation method, and the layout investigation system according to the present invention are applicable to the layout investigation of information devices such as desktop PCs, notebook PCs, and printers provided in the office. Useful.

Claims (10)

A layout survey program applied to a layout survey system that surveys layouts of a plurality of survey targets,
Computer
A distance calculation means for calculating, using radio waves, a distance between the self and another investigation object arranged around the self as one investigation object among the plurality of investigation objects;
Self-centered arrangement information generating means for generating self-centered arrangement information representing a layout situation based on a distance from the other investigation object centered on the self;
Collecting means for collecting other self-centered arrangement information respectively generated on the other investigation target side,
A layout for combining the self-centered arrangement information generated by the self-centered arrangement information generating unit and the collected other self-centered arrangement information based on a distance, and generating layout information representing the plurality of survey target layouts Information generation means,
Layout survey program to function as. A layout survey program applied to a layout survey system that surveys layouts of a plurality of survey targets,
Computer
A distance direction calculation means for calculating a distance and a direction between the self and another investigation object arranged around the self using one of the plurality of investigation objects as a self,
Self-centered arrangement information generating means for generating self-centered arrangement information representing a layout situation based on a distance and direction from the other investigation object centered on the self;
Collecting means for collecting other self-centered arrangement information respectively generated on the other investigation target side,
The self-center placement information generated by the self-center placement information generation means and the collected other self-center placement information are combined based on the distance and direction to generate layout information representing the layouts of the plurality of survey targets. Layout information generating means for
Layout survey program to function as. The scope of claim 1 or 2 for causing the computer to function as related information input means for inputting related information related to the plurality of investigation objects, and matching means for matching the related information with the layout information. Layout survey program described in the section. The layout investigation program according to claim 3, wherein the related information is information on an environment in which the plurality of investigation targets are installed. The layout investigation program according to claim 3, wherein the related information is attribute information of the plurality of investigation targets. The layout investigation program according to claim 1 or 2 for causing the computer to function as a correction means for correcting the layout information. The layout information generation means takes a difference between the layout information generated last time and the layout information generated this time, and checks the survey object that has been moved. The layout survey program described. A layout survey device applied to a layout survey system that surveys a plurality of layouts to be surveyed,
A distance calculation means for calculating a distance between the self and another investigation object arranged around the self as one investigation object among the plurality of investigation objects;
Self-centered arrangement information generating means for generating self-centered arrangement information representing a layout situation based on a distance from the other investigation object centered on the self;
Collecting means for collecting other self-centered arrangement information respectively generated on the other investigation target side;
A layout for combining the self-centered arrangement information generated by the self-centered arrangement information generating unit and the collected other self-centered arrangement information based on a distance, and generating layout information representing the plurality of survey target layouts Information generating means;
A layout investigation device characterized by comprising: A layout survey method applied to a layout survey system that surveys layouts of a plurality of survey targets,
A distance calculation step of calculating, using radio waves, a distance between the self and another investigation object arranged around the one investigation object among the plurality of investigation objects;
A self-centered arrangement information generating step for generating self-centered arrangement information representing a layout situation based on a distance from the other investigation object centered on the self;
A collecting step of collecting other self-centered arrangement information respectively generated on the other investigation target side;
A layout that combines the self-centered arrangement information generated in the self-centered arrangement information generation step and the collected other self-centered arrangement information based on a distance, and generates layout information representing the layouts of the plurality of investigation targets. Information generation process;
A layout investigation method characterized by including: A layout survey system that investigates a plurality of survey target layouts, a main layout survey device provided in one of the plurality of survey targets,
A secondary layout survey device provided for each of the other survey targets other than the one survey target,
The main layout survey device includes:
A distance calculation means for calculating a distance between the self and another investigation object arranged around the self as one investigation object using radio waves;
Self-centered arrangement information generating means for generating self-centered arrangement information representing a layout situation based on a distance from the other investigation object centered on the self;
Collecting means for collecting other self-centered arrangement information respectively generated by the plurality of slave layout survey devices,
A layout for combining the self-centered arrangement information generated by the self-centered arrangement information generating unit and the collected other self-centered arrangement information based on a distance, and generating layout information representing the plurality of survey target layouts Having information generating means,
Layout survey system characterized by

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