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JP-7856468-B2 - Server equipment and area identification system

JP7856468B2JP 7856468 B2JP7856468 B2JP 7856468B2JP-7856468-B2

Inventors

  • 五十嵐 雄哉
  • 山崎 元明

Assignees

  • 清水建設株式会社

Dates

Publication Date
20260511
Application Date
20220401

Claims (4)

  1. An acquisition unit that acquires installation information that can identify the location of an object installed at an event venue set up in real space, A virtual area generation unit generates a virtual area in virtual space that corresponds to the real area as an event venue formed by the installation of the object, based on the aforementioned installation information . A distribution information generation unit generates distribution information that associates operational information relating to the operation of the physical domain, which includes the size, location coordinates, floor, administrator, and information on events held in the physical domain, according to the installation information, with the virtual domain. A server device equipped with the following features.
  2. The acquisition unit acquires the identification information output from the object having the function of transmitting identification information as the installation information. The distribution information generation unit generates the distribution information corresponding to the changed physical area in response to the change in the installation position of the object. The server device according to claim 1.
  3. An object installed in real space, which has a display unit, A server device according to claim 1 or claim 2, comprising The server device is a region identification system that causes the display unit to display information about the physical region formed by the installation of the object.
  4. An object installed in real space, which has a movement mechanism, A server device according to claim 1 or claim 2, comprising The aforementioned object is a region identification system installed in the physical space via remote control.

Description

This invention relates to a server device and a region identification system. Temporary venues for events are sometimes set up by using partitions or other means to create designated areas. For example, hourly rental spaces and special venues created for events may be temporarily constructed. On the other hand, it is known that Augmented Reality (AR) technology is used to combine and display real-world images and videos with computer graphics (for example, Patent Document 1). Using such AR technology, it is possible to improve participant convenience by presenting information that reflects the location and appearance of the venue in a virtual space to participants' smartphones, etc. Japanese Patent Publication No. 2016-004493 This diagram illustrates the outline of the region identification system according to the embodiment.This is a side view of a guide pole-type object used in the area identification system according to the embodiment.This is a side view of another guide pole-type object used in the area identification system according to the embodiment.This is a side view of a mobile object used in the region identification system according to the embodiment.This is a block diagram showing the configuration of an identification signal transmitting unit provided on an object.This is a diagram illustrating a partition-type object.This is a diagram illustrating a partition-type object.This is a block diagram showing the configuration of the area setting server according to the embodiment.This diagram illustrates the first method by which the area configuration server configures a virtual area.This diagram illustrates the first method by which the area configuration server configures a virtual area.This diagram illustrates a second method by which the area configuration server configures the virtual area.This diagram illustrates a second method by which the area configuration server configures the virtual area.This diagram illustrates a second method by which the area configuration server configures the virtual area.This diagram illustrates a second method by which the area configuration server configures the virtual area.This diagram illustrates a third method by which the area configuration server configures a virtual area.This diagram illustrates a fourth method by which the area configuration server configures the virtual area.This diagram illustrates a fifth method by which the area configuration server configures the virtual area.This diagram illustrates a fifth method by which the area configuration server configures the virtual area.This diagram illustrates a sixth method by which the area configuration server configures a virtual area.This diagram illustrates a sixth method by which the area configuration server configures a virtual area.This diagram illustrates the correction method used when the area configuration server sets up a virtual area.This diagram illustrates another method (Method 1) for the area configuration server to configure the virtual area.This is a diagram illustrating the dial portion provided on the object.This is a diagram illustrating the dial portion provided on the object.This diagram illustrates another method (method 2) for the area configuration server to configure the virtual area.This diagram illustrates another method (method 2) for the area configuration server to configure the virtual area.This diagram illustrates another method (method 2) for the area configuration server to configure the virtual area.This diagram illustrates the correction method used when the area setting server configures a virtual area using the dial unit. The embodiments of the present invention will be described below with reference to the drawings. <Configuration of Domain Identification System 1> Figure 1 is a diagram illustrating the outline of an area identification system 1 according to an embodiment. The area identification system 1 includes, for example, an object 10, a positioning device 40, an area setting server 50, and digital signage 60 and 70. Object 10 is an object placed in real space. The location where object 10 is placed indicates the boundary of a region (real region) formed in real space. The region identification system 1 only needs to have at least one object 10, but may have multiple. By placing object 10 in real space in this way, it becomes possible for a person in real space to recognize a specific region, and object 10 enables the linking of real space and virtual space. Object 10 is a guide pole type, as shown in Figure 2A, which is a side view of object 10. Object 10 has a support column 102 suspended from a base 101. A cylindrical section 103 is provided at the top of the support column 102. A belt 12 is wound around and stored in the cylindrical section 103. A pull-out section 104 for pulling out the belt 12 is provided on the side of the cylindrical section 103. By connecting objects 10 with the belt 12, a partition can be formed to divide a space. Object 10 h