JP2015177527A - wireless display system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless display system capable of reducing power consumption of a display terminal.SOLUTION: A wireless display system 10 comprises a display terminal 12, a server 16, and a plurality of wireless repeaters 14. A wireless repeater 14 is installed in an area in which the display terminal 12 is used, and relays communication between the display terminal 12 and the server 16. The wireless repeater 14 transmits candidate information to the display terminal 12, where the candidate information relates to a candidate to be a wireless repeater 14 of a communication target of the display terminal 12. The display terminal 12 selects a wireless repeater 14 of the communication target of the display terminal 12, on the basis of a situation of communication with the wireless repeater 14 and the candidate information. The number of candidates are smaller than the number of the plurality of wireless repeaters 14.

Description

  The present invention relates to a wireless display system.

  Conventionally, as disclosed in Patent Document 1 (Japanese Unexamined Patent Application Publication No. 2009-163686), wireless display systems have been used in stores such as supermarkets and convenience stores. The wireless display system mainly includes a display terminal that is an electronic device that displays information related to a product sold in a store, and a device that distributes product information that is centrally managed by a server in the store to the display terminal. And an access point. Store employees manage products using a display terminal. The access point is installed at a position where wireless communication with the display terminal can be performed. The display terminal belongs to any one of a plurality of access points installed in the store, and receives radio waves from the access point to which the display terminal belongs. In such a wireless display system, when the product information managed by the server is updated, the server can transmit the updated product information to all the display terminals simultaneously via the access point. Therefore, the store employee does not need to manually update the product information stored in his / her display terminal, and the efficiency of product management can be improved.

  In such a wireless display system, the display terminal has a function of performing a handoff operation for switching an access point to which the display terminal belongs. The handoff operation is performed when the strength of the radio wave received from the access point to which the display terminal currently belongs becomes a predetermined value or less due to the change of the position of the display terminal. In the handoff operation, the display terminal normally searches all channels (frequencies) that can be used in the wireless display system in order, identifies an access point that can receive the radio wave with the highest intensity, and starts from the access point. Start receiving radio waves. Even if the store employee carries the display terminal and moves within the store by the handoff operation, the display terminal is in a state where it can wirelessly communicate with one of the access points. Use to check the latest product information.

  However, in the above handoff operation, the display terminal needs to search all channels available in the wireless display system in order, so that the power consumed by the display terminal by the handoff operation is large. Therefore, the battery life of a display terminal carried by an employee who has many opportunities to move in the store tends to be shortened.

  In recent years, the above-described wireless display system is also being used in product manufacturing factories. In such a factory, a display terminal is attached to a product conveyed by a belt conveyor, and information regarding the manufacturing process of the product is distributed from the server to the display terminal via an access point. Since the factory worker can work while referring to the information displayed on the display terminal, the work efficiency of the worker can be improved. However, it is necessary to install a large number of access points in the factory so that display terminals transported in the factory can receive information throughout the factory. As a result, the number of times that the display terminal performs the handoff operation increases. Therefore, there is a need for a technique for suppressing the amount of power consumed by the display terminal by handoff operation.

  An object of the present invention is to provide a wireless display system that can reduce power consumption of a display terminal.

  A wireless display system according to the present invention includes a display terminal, a server, and a plurality of wireless repeaters. The server can wirelessly communicate with the display terminal. The wireless repeater is installed in an area where the display terminal is used, and relays communication between the display terminal and the server. The wireless repeater transmits the candidate information to the display terminal. The candidate information relates to a candidate for a wireless repeater that is a communication target of the display terminal. The display terminal selects the wireless repeater that is the communication target of the display terminal based on the communication status with the wireless repeater and the candidate information. The number of candidates is smaller than the number of wireless repeaters.

  In this wireless display system, the display terminal performs wireless communication with one of a plurality of wireless repeaters. When the position of the display terminal is changed and the strength of the radio wave received from the wireless repeater that is the communication target of the display terminal is reduced, the display terminal performs a handoff operation for switching the wireless repeater that is the communication target. In the handoff operation, the display terminal does not select the wireless relay device to be communicated from all the wireless relay devices of the wireless display system, but selects from some of the wireless relay devices. In the handoff operation, the display terminal needs to sequentially search channels (frequencies) used by all the wireless repeaters that are candidates for communication. For this reason, the display terminal can reduce the amount of power consumed in the handoff operation by selecting the wireless relay device to be communicated from some of the wireless relay devices and suppressing the number of communication target candidates. Therefore, this wireless display system can reduce the power consumption of the display terminal.

  In the wireless display system according to the present invention, it is preferable that the wireless repeater transmits candidate information with candidates for wireless repeaters installed around the wireless repeater to the display terminal.

  In this wireless display system, when performing a handoff operation, a display terminal obtains information on wireless repeaters installed around the wireless repeater from the wireless repeater that is the communication target of the display terminal as candidates for communication targets. Receive as information about. Therefore, this wireless display system can select a wireless repeater having a high intensity of radio waves received by the display terminal as a candidate for a communication target of the display terminal.

  Further, in the wireless display system according to the present invention, the wireless repeater recognizes the wireless repeater installed around itself by communicating with another wireless repeater, and the wireless repeater installed around the wireless repeater. It is preferable to generate candidate information with the repeater as a candidate and transmit it to the display terminal.

  In this wireless display system, when performing a handoff operation, a display terminal obtains information on wireless repeaters installed around the wireless repeater from the wireless repeater that is the communication target of the display terminal as candidates for communication targets. Receive as information about. Therefore, this wireless display system can select a wireless repeater having a high intensity of radio waves received by the display terminal as a candidate for a communication target of the display terminal.

  In the wireless display system according to the present invention, it is preferable that the server generates candidate information and transmits the candidate information to the wireless repeater.

  In the wireless display system according to the present invention, it is preferable that the server generates candidate information based on information related to the history of the wireless relay selected by the display terminal as a communication target.

  In this wireless display system, each time a display terminal performs a handoff operation, the server records the wireless repeater selected by the display terminal as a communication target as history information. When the display terminal performs a handoff operation, the server selects a radio repeater to be the next communication target by the display terminal based on the history information. Therefore, this wireless display system can select an appropriate wireless repeater as a candidate for a communication target of the display terminal.

  In the wireless display system according to the present invention, it is preferable that the server generates candidate information based on information related to the wireless repeater input to the server.

  In this wireless display system, when the display terminal performs a handoff operation, the server selects a wireless repeater to be the next communication target by the display terminal based on information input to the server. Therefore, this wireless display system can select an appropriate wireless repeater as a candidate for a communication target of the display terminal.

  In the wireless display system according to the present invention, the display terminal selects the wireless repeater that is the communication target of the display terminal based on the candidate information when the strength of the radio wave received from the wireless repeater has decreased to a predetermined value. It is preferable.

  This wireless display system can suppress a state in which the intensity of the radio wave received by the display terminal from the wireless repeater is reduced, and can stably maintain the communication state between the display terminal and the wireless repeater.

  The wireless display system according to the present invention can reduce the power consumption of the display terminal.

It is a conceptual diagram showing the structure of the radio | wireless display system which concerns on embodiment of this invention. It is a block block diagram of a display terminal. It is a block block diagram of a radio repeater. It is a figure which shows an example of planar arrangement | positioning of a radio repeater. It is an example of the candidate information which a candidate information generation part produces | generates. It is a block block diagram of a server. It is a flowchart of a handoff operation. It is an example of the affiliation history which a server records concerning modification A.

  A wireless display system according to an embodiment of the present invention will be described with reference to the drawings. The embodiment described below is one specific example of the present invention, and does not limit the technical scope of the present invention.

(1) Configuration of Wireless Display System FIG. 1 is a conceptual diagram showing a configuration of a wireless display system 10 according to the present embodiment. The wireless display system 10 mainly includes a display terminal 12, a plurality of wireless repeaters 14, and a server 16. The wireless display system 10 is a network system constructed in a product manufacturing factory. In a work area 90 in the factory where the wireless display system 10 is constructed, a belt conveyor 92 for conveying an article 91 that is a work target is installed. A worker in the work area 90 performs work on the article 91 conveyed by the belt conveyor 92. In the process of being conveyed by the belt conveyor 92, the article 91 is subjected to a predetermined operation by a worker according to a predetermined procedure, and finally becomes a product.

  A display terminal 12 is attached to an article 91 conveyed by the belt conveyor 92 in the work area 90. The server 16 transmits information regarding the work to be performed by the worker to the article 91 to the display terminal 12 attached to the article 91 via the wireless repeater 14. The worker can work on the article 91 to which the display terminal 12 is attached while referring to information on the work displayed on the display terminal 12. Therefore, the wireless display system 10 can improve the work efficiency of the worker. Next, each component of the wireless display system 10 will be described.

(1-1) Display Terminal The display terminal 12 is a wireless communication terminal attached to the article 91 conveyed by the belt conveyor 92. The display terminal 12 is driven by the power of the built-in battery. FIG. 2 is a block configuration diagram of the display terminal 12. The display terminal 12 mainly includes a control unit 21, a storage unit 22, a display unit 23, a wireless communication unit 24, and an input unit 25. The control unit 21 is an arithmetic processing device such as a CPU. The control unit 21 controls the storage unit 22, the display unit 23, the wireless communication unit 24, and the input unit 25. The storage unit 22 is a storage device that is rewritable and includes a small nonvolatile memory. The storage unit 22 stores a program executed by the control unit 21 and data necessary for executing the program. The display unit 23 is a low power consumption display such as electronic paper. Since the electronic paper does not consume power for maintaining the display, if the display is not changed frequently, the electronic paper can be used without replacing the battery for a long time. The display unit 23 may be a touch panel display. The wireless communication unit 24 is a network interface device having a function of performing wireless communication with the wireless repeater 14. The input unit 25 is a physical interface used for operating the display terminal 12. The input unit 25 is a button provided in the vicinity of the display unit 23, for example. Note that the display terminal 12 may not have the input unit 25.

  The display terminal 12 selects any one of the plurality of wireless repeaters 14 as a communication target. The display terminal 12 performs radio communication using a radio wave system via the radio relay unit 14 selected as a communication target and the radio communication unit 24. The display terminal 12 wirelessly receives a later-described beacon, work information, and the like from the wireless repeater 14. The work information is, for example, information related to detailed procedures of work to be performed on the article 91 by the worker. The display terminal 12 displays the wirelessly received work information on the display unit 23. The worker performs an operation on the article 91 conveyed by the belt conveyor 92 while referring to the operation information displayed on the display unit 23. Further, as will be described later, the display terminal 12 has a function of a handoff operation for switching the wireless repeater 14 that is the communication target of the display terminal 12.

(1-2) Wireless repeater The wireless repeater 14 is a wireless base station that relays communication between the display terminal 12 and the server 16. The wireless repeater 14 is used as an access point of the display terminal 12 in the work area 90 and is installed near the ceiling of the work area 90 or the like. The wireless repeater 14 functions as a master unit of the display terminal 12 and distributes arbitrary information to the display terminal 12 by wirelessly transmitting a signal to the display terminal 12. The wireless repeater 14 is connected to the server 16 by wire.

  FIG. 3 is a block configuration diagram of the wireless repeater 14. The wireless repeater 14 mainly includes a control unit 31, a storage unit 32, a first communication unit 33, a second communication unit 34, and a notification unit 35. The control unit 31 is an arithmetic processing device such as a CPU. The control unit 31 controls the storage unit 32, the first communication unit 33, the second communication unit 34, and the notification unit 35. The storage unit 32 is a storage device that is rewritable and includes a small nonvolatile memory. The storage unit 32 stores a program executed by the control unit 31, data necessary for executing the program, and the like. The first communication unit 33 is a network interface device that mediates wireless communication with the wireless communication unit 24 of the display terminal 12. The first communication unit 33 is a network interface device that mediates wireless communication with the first communication unit 33 of another wireless repeater 14. The second communication unit 34 is a network interface device that mediates wired communication with the server 16. The notification unit 35 is, for example, an LED for notifying the communication status between the display terminal 12 and the server 16 and the abnormality of the wireless repeater 14.

  FIG. 4 is a diagram illustrating an example of a planar arrangement of the wireless repeaters 14 in the work area 90. FIG. 4 shows six radio repeaters 14a to 14f and six distribution areas 15a to 15f. The distribution areas 15a to 15f are ranges in which the display terminal 12 can satisfactorily receive signals transmitted from the wireless repeaters 14a to 14f, respectively. Specifically, the distribution area 15a is a range in which the display terminal 12 can receive a radio wave having an intensity of a predetermined value or more from the wireless repeater 14a located at the center of the distribution area 15a. Even if the display terminal 12 is located outside the distribution areas 15a to 15f, if the display terminal 12 is located near the boundaries of the distribution areas 15a to 15f, the display terminals 12 and 14a to 14f respectively. Wireless communication is possible. Hereinafter, it is assumed that the display terminal 12 transported in the work area 90 is always located in one of the six distribution areas 15a to 15f.

  As shown in FIG. 4, two adjacent delivery areas 15a to 15f partially overlap each other. For example, the distribution area 15a and the distribution area 15b partially overlap each other, and the distribution area 15a and the distribution area 15c partially overlap each other. However, the two distribution areas 15a to 15f that are not adjacent to each other do not overlap each other. For example, the distribution area 15a and the distribution area 15d do not overlap each other.

  In FIG. 4, different values are set for the channels (frequencies) used by the six wireless repeaters 14 a to 14 f for wireless communication with the display terminal 12. The reason is that, when a plurality of wireless repeaters 14a to 14f use the same channel, radio wave interference is caused and communication abnormality may occur between the display terminal 12 and the wireless repeaters 14a to 14f. . Hereinafter, as shown in FIG. 4, it is assumed that the radio repeaters 14a to 14f use channels C1 to C6, respectively. For example, the wireless repeater 14a performs wireless communication with the display terminal 12 using radio waves having the frequency of the channel C1. The distribution areas 15a to 15f are ranges in which the display terminal 12 can satisfactorily receive the signals of the channels C1 to C6, respectively.

  As illustrated in FIG. 3, the storage unit 32 of the wireless repeater 14 stores a candidate information generation unit 32a and a beacon transmission unit 32b. The candidate information generation unit 32a is a program that generates candidate information. The candidate information is a list of channels used by all the wireless repeaters 14 installed around a certain wireless repeater 14.

  As an example, generation of candidate information by the wireless repeater 14a illustrated in FIG. 4 will be described. The wireless repeater 14a periodically performs wireless communication with the other wireless repeaters 14b to 14f, and measures the intensity of the radio wave received from each of the other wireless repeaters 14b to 14f. Then, the wireless repeater 14a determines that the wireless repeaters 14b to 14f whose received radio wave intensity is equal to or greater than a predetermined value are adjacent wireless repeaters having the distribution areas 15b to 15f adjacent to the distribution area 15a. . For example, in FIG. 4, the adjacent radio repeaters of the radio repeater 14a are the radio repeaters 14b and 14c. And the radio repeater 14a produces | generates the information regarding the channels C2 and C3 which the radio repeaters 14b and 14c which are its own adjacent radio repeaters use as candidate information. Thus, each wireless repeater 14a-14f produces | generates the information regarding the channels C1-C6 which the wireless repeaters 14a-14f installed in the circumference | surroundings use as candidate information. Each of the wireless repeaters 14a to 14f stores the generated candidate information in the storage unit 32.

  FIG. 5 is an example of candidate information generated by each of the radio repeaters 14a to 14f shown in FIG. In the table shown in FIG. 5, the left column stores the reference numerals of the radio repeaters 14 a to 14 f shown in FIG. 4, and the right column stores candidates generated by the radio repeaters 14 a to 14 f. Information, that is, a list of channels used by adjacent radio repeaters of the radio repeaters 14a to 14f is stored. The candidate information shown in FIG. 5 becomes a candidate for a new communication target when the display terminal 12 located in each of the distribution areas 15a to 15f switches the wireless repeaters 14a to 14f that are communication targets of the display terminal 12. It is a list of channels C1 to C6 used by the wireless repeaters 14a to 14f. As shown in FIG. 5, the number of channels included in the candidate information generated by each of the radio repeaters 14a to 14f is smaller than the number of all the channels C1 to C6.

  Candidate information is generated and used for the following reason. In FIG. 4, it is assumed that the display terminal 12 is located in the distribution area 15a of the wireless repeater 14a. At this time, the display terminal 12 is communicating with the wireless repeater 14a. However, the display terminal 12 is attached to the article 91 conveyed by the belt conveyor 92. Therefore, when the time elapses, the display terminal 12 is transported to the outside of the distribution area 15a, and finally enters a state where it cannot communicate with the wireless repeater 14a. As described above, the display terminal 12 is always located in one of the distribution areas 15a to 15f. Therefore, when the display terminal 12 is transported outside the distribution area 15a, the display terminal 12 selects a new communication target from the wireless repeaters 14b to 14f other than the wireless repeater 14a, and stops wireless communication with the wireless repeater 14a. Then, wireless communication with the selected wireless repeaters 14b to 14f is started. As described above, new candidates for communication are the wireless repeaters 14b and 14c that are adjacent wireless repeaters of the wireless repeater 14a. Therefore, the candidate information generation unit 32a stored in the storage unit 32 of the wireless repeater 14a uses, as candidate information, information on the channels C2 and C3 used by the wireless repeaters 14b and 14c that are new candidates for communication. Generate in advance. The candidate information generation unit 32a generates, for example, the frequencies represented by the channels C2 and C3 as candidate information.

  As another specific example, it is assumed that the display terminal 12 is located in the distribution area 15c of the wireless repeater 14c. In this case, the candidates for new communication targets of the display terminal 12 are the radio repeaters 14a, 14b, 14d, and 14e that are adjacent radio repeaters of the radio repeater 14c. Therefore, the candidate information generating unit 32a stored in the storage unit 32 of the wireless repeater 14c uses channels C1, C2, C4 used by the wireless repeaters 14a, 14b, 14d, and 14e, which are new candidates for communication. Information regarding C5 is generated in advance as candidate information.

  The beacon transmission unit 32b is a program that transmits a beacon including candidate information generated by the candidate information generation unit 32a to the display terminal 12. The beacon is a signal that is wirelessly transmitted from the wireless repeater 14 to the display terminal 12 and includes information regarding a channel used by the wireless repeater 14. The wireless repeater 14 transmits a beacon at a preset period to the display terminal 12 in the distribution area of the wireless repeater 14 using the beacon transmission unit 32b. Note that the timings at which the plurality of wireless repeaters 14 send out beacons need not be synchronized with each other. The display terminal 12 receives a beacon periodically transmitted from the wireless repeater 14.

  The case where the display terminal 12 is conveyed from the distribution area 15a to the distribution area 15b will be specifically described with reference to FIG. The candidate information generation unit 32a stored in the storage unit 32 of the wireless repeater 14a having the distribution area 15a generates candidate information in advance. The beacon transmission unit 32b stored in the storage unit 32 of the wireless repeater 14a periodically transmits a beacon including the candidate information to the display terminal 12 in the distribution area 15a. In this case, the candidate information is information regarding the channels C2 and C3 used by the wireless repeaters 14b and 14c that are candidates for new communication targets for the display terminal 12 existing in the distribution area 15a. While the display terminal 12 exists in the distribution area 15a, the display terminal 12 periodically receives a beacon including the candidate information from the wireless repeater 14a. When the display terminal 12 is transported from the distribution area 15a to the distribution area 15b and the intensity of the beacon received by the display terminal 12 from the wireless repeater 14a becomes a predetermined value or less, the display terminal 12 receives from the wireless repeater 14a. A new communication target is selected based on the candidate information included in the beacon. In this case, the display terminal 12 searches for the channels C2 and C3 included in the candidate information, and selects the radio repeater 14b that uses the channel C2 with higher received radio wave intensity. Then, the display terminal 12 switches its communication target from the wireless repeater 14a to the wireless repeater 14b.

  In this way, the display terminal 12 performs a handoff operation for switching its communication target based on the candidate information included in the beacons received from the wireless repeaters 14a to 14f. Thereby, the display terminal 12 can always communicate stably with any one of the wireless repeaters 14a to 14f.

(1-3) Server The server 16 is a computer installed in a management room or the like in the factory. The server 16 is mainly used by an administrator of the wireless display system 10. The server 16 is connected to the wireless repeater 14 by wire. The server 16 can wirelessly communicate with the display terminal 12 via the wireless repeater 14.

  FIG. 6 is a block configuration diagram of the server 16. The server 16 mainly includes a control unit 41, a storage unit 42, an input unit 43, an output unit 44, and a communication unit 45. The control unit 41 is an arithmetic processing device such as a CPU. The control unit 41 controls the storage unit 42, the input unit 43, the output unit 44, and the communication unit 45. The storage unit 42 is a storage device such as an HDD (hard disk drive) and an SSD (solid state drive). The storage unit 42 stores a program executed by the control unit 41, data necessary for executing the program, an OS (operating system) used by the server 16, and the like. The control unit 41 reads and executes a program stored in the storage unit 42 to realize various functions of the server 16. The input unit 43 is an input device such as a keyboard and a mouse. The output unit 44 is an output device such as a display and a printer. The communication unit 45 is a network interface device that mediates wired communication with the wireless repeater 14.

(2) Operation of Wireless Display System A specific operation of the wireless display system 10 according to the present embodiment will be described with reference to FIG. FIG. 7 is a flowchart of a handoff operation in which the display terminal 12 attached to the article 91 conveyed by the belt conveyor 92 in the work area 90 switches the wireless repeater 14 to be communicated. It is assumed that the display terminal 12 is conveyed in the order of the distribution area 15a, the distribution area 15c, and the distribution area 15e, as indicated by the white arrows in FIG. That is, the display terminal 12 is located in the distribution area 15a before being conveyed, and communicates with the wireless repeater 14a having the distribution area 15a.

  First, each of the wireless repeaters 14a to 14f generates candidate information (step S1). For example, the wireless repeater 14a periodically performs wireless communication with the other wireless repeaters 14b to 14f, and has wireless distribution areas 15b and 15c adjacent to its own distribution area 15a based on the intensity of the received radio waves. The repeaters 14b and 14c are specified. Thus, the wireless repeater 14a periodically updates information regarding the wireless repeaters 14b to 14f installed around the wireless repeater 14a. Then, the wireless repeater 14a acquires information on the channels C2 and C3 used by the wireless repeaters 14b and 14c from the radio waves received from the wireless repeaters 14b and 14c installed around the wireless repeater 14a. Then, the wireless repeater 14a generates candidate information based on the acquired information regarding the channels C2 and C3. The candidate information generated by the wireless repeater 14a is information regarding the channels C2 and C3 used by the wireless repeaters 14b and 14c that are candidates for new communication targets for the display terminal 12 located in the distribution area 15a. Other wireless repeaters 14b to 14f also generate candidate information by the same method. Note that generation of candidate information by each of the wireless repeaters 14a to 14f is performed in advance before the handoff operation of the display terminal 12.

  Next, the wireless repeater 14a generates a beacon based on the generated candidate information and periodically transmits it to the display terminal 12 located in the distribution area 15a (step S2). The beacon transmitted from the wireless repeater 14a to the display terminal 12 is a signal including candidate information regarding the channels C2 and C3 used by the wireless repeaters 14b and 14c that are candidates for a new communication target of the display terminal 12. The other radio repeaters 14b to 14f also generate beacons based on the candidate information generated by themselves and periodically send out the beacons.

  Next, the display terminal 12 transported from the distribution area 15a to the distribution area 15c has a radio wave (beacon) intensity periodically received from the wireless repeater 14a that is the current communication target equal to or higher than a predetermined value. It is determined whether or not there is (step S3). When the display terminal 12 determines that the intensity of the radio wave is equal to or greater than a predetermined value, the display terminal 12 determines that the display terminal 12 is still located in the distribution area 15a. In this case, the display terminal 12 performs the same determination again after a predetermined time has elapsed. On the other hand, if the display terminal 12 determines that the radio wave intensity is not equal to or greater than the predetermined value, the display terminal 12 determines that the display terminal 12 is located outside the distribution area 15a. At this time, the display terminal 12 is located in the distribution area 15c adjacent to the distribution area 15a. The display terminal 12 is gradually moved away from the wireless repeater 14a located at the center of the distribution area 15a by being conveyed from the distribution area 15a to the distribution area 15c. For this reason, the communication status between the display terminal 12 and the wireless repeater 14a gradually deteriorates, and finally the display terminal 12 cannot communicate with the wireless repeater 14a. Therefore, as will be described below, the display terminal 12 performs a handoff operation for switching its own communication target from the current wireless repeater 14a to the other wireless repeaters 14b to 14f.

  Next, the display terminal 12 located in the distribution area 15c searches all the channels C2 and C3 included in the candidate information based on the candidate information included in the beacon previously received from the wireless repeater 14a. Then, a new communication target of the display terminal 12 is selected from the wireless repeaters 14b and 14c (step S4). Specifically, the display terminal 12 measures the strength of the beacon periodically received from each of the wireless repeaters 14b and 14c that are new candidates for communication. Then, the display terminal 12 selects the wireless repeater 14c having the highest received beacon strength. Since the display terminal 12 shown in FIG. 4 is carried from the distribution area 15a to the distribution area 15c, the strength of the beacon received from the wireless repeater 14c using the channel C3 is from the wireless repeater 14b using the channel C2. It is higher than the strength of the received beacon. Therefore, the display terminal 12 transported from the distribution area 15a to the distribution area 15c can select the radio repeater 14c as a new communication target.

  Next, the display terminal 12 stops the wireless communication with the wireless relay device 14a that is the current communication target, and starts the wireless communication with the wireless relay device 14c selected as a new communication target (step S5).

  Next, the display terminal 12 authorizes the wireless repeater 14c selected as a new communication target as the wireless repeater 14 to which the display terminal 12 currently belongs. In addition, the display terminal 12 transmits a notification signal indicating that it belongs to the wireless repeater 14c to the wireless repeater 14c (step S6). The wireless repeater 14 c further transmits the belonging notification signal received from the display terminal 12 to the server 16. In this case, the affiliation notification signal includes the identification information of the display terminal 12 and the identification information of the wireless repeater 14c to which the display terminal 12 currently belongs. Note that the affiliation notification signal transmitted by the display terminal 12 needs to be performed so as not to overlap the beacon transmission timing by the wireless repeater 14c, for example, after the beacon is transmitted. When receiving the affiliation notification signal from the wireless repeater 14c, the server 16 stores the identification information of the display terminal 12 included in the affiliation notification signal and the identification information of the wireless repeater 14c in association with each other. Thus, the server 16 can store the display terminal 12 and the wireless repeater 14 to which the display terminal 12 currently belongs in association with each other.

  The above operation is similarly performed when the display terminal 12 is transported from the distribution area 15c to the distribution area 15e.

(3) Features of Wireless Display System In the wireless display system 10 according to the present embodiment, the display terminal 12 performs wireless communication with any one of the wireless repeaters 14 installed in the work area 90. The display terminal 12 is attached to the article 91 conveyed by the belt conveyor 92 and is moving in the work area 90. When the display terminal 12 moves and the intensity of the radio wave received from the wireless relay 14 that is the current communication target of the display terminal 12 becomes smaller than a predetermined value, the display terminal 12 displays the wireless relay 14 that is the communication target. Perform handoff operation to switch. In the handoff operation, the display terminal 12 selects one wireless repeater 14 to be a new communication target from all the wireless repeaters 14 of the wireless display system 10, but not from some of the wireless repeaters 14. To do. Some of the wireless repeaters 14 are wireless repeaters 14 installed around the wireless repeater 14 that is the current communication target of the display terminal 12.

  Specifically, the display terminal 12 obtains new information about the channel used by the wireless repeater 14 installed around the wireless repeater 14 from the wireless repeater 14 that is the current communication target. Received as information about candidates for communication. The number of wireless repeaters 14 that are candidates for new communication is smaller than the number of all wireless repeaters 14. In the handoff operation of the display terminal 12, the display terminal 12 needs to sequentially search for the channel used by each of the wireless repeaters 14 that are candidates for new communication. Therefore, the display terminal 12 can suppress the number of channels to be searched by selecting a new communication target from a smaller number of candidates than the number of all the wireless repeaters 14. When the display terminal 12 searches for a channel, the display terminal 12 sequentially switches the channel to be searched and receives the radio wave transmitted by each wireless repeater 14. Therefore, by suppressing the number of channels to be searched, the amount of power consumed by the display terminal 12 due to the handoff operation is reduced. Therefore, the wireless display system 10 can reduce the power consumption of the display terminal 12.

  In addition, the display terminal 12 that performs the handoff operation selects the wireless repeater 14 installed around the wireless repeater 14 with which it is currently communicating as a new candidate for communication. Therefore, when the display terminal 12 moves outside the distribution area of the wireless repeater 14 that is the current communication target, the display terminal 12 newly adds a wireless repeater 14 having a distribution area that is likely to exist. It can be selected as a candidate for a proper communication target. Accordingly, the wireless display system 10 can efficiently select a new communication target candidate for the display terminal 12 in the handoff operation of the display terminal 12.

  Further, the display terminal 12 that performs the handoff operation selects the wireless repeater 14 having the highest intensity of radio waves received by the display terminal 12 as a new communication target from the wireless repeaters 14 that are candidates for the new communication target. Thereby, even if the display terminal 12 moves in the work area 90, the display terminal 12 can always communicate with the wireless repeater 14 having the highest intensity of radio waves that it can receive. Therefore, the wireless display system 10 suppresses the occurrence of a state in which the intensity of the radio wave received by the display terminal 12 from the wireless relay 14 is low, and stabilizes the communication state between the display terminal 12 and the wireless relay 14. Can be maintained.

(4) Modifications Although the embodiment of the present invention has been described above, the specific configuration of the present invention can be changed without departing from the gist of the present invention. Next, modifications applicable to the present embodiment will be described.

(4-1) Modification A
In the wireless display system 10 according to the present embodiment, when the display terminal 12 performs a handoff operation, the wireless relay device 14 that is the current communication target of the display terminal 12 executes the candidate information generation unit 32a to execute candidate information Is generated. The candidate information generated by the wireless repeater 14 is information regarding a channel used by the wireless repeater 14 installed around the candidate information. The wireless repeater 14 transmits the generated candidate information to the display terminal 12. The display terminal 12 performs a handoff operation based on the candidate information received from the wireless repeater 14.

  However, instead of the wireless repeater 14 generating candidate information, the server 16 may generate candidate information and transmit it to the wireless repeater 14. In this case, the wireless repeater 14 periodically transmits a beacon including candidate information received from the server 16, and the display terminal 12 acquires candidate information from the beacon received from the wireless repeater 14.

  In this modification, the server 16 may record the affiliation history of the display terminal 12 and generate candidate information based on the affiliation history. The affiliation history is recorded for each display terminal 12 and is a history of the wireless repeater 14 that the display terminal 12 has set as a communication target. FIG. 8 is an example of the affiliation history recorded by the server 16 for the display terminal 12 that is the communication target of the wireless repeaters 14a to 14f shown in FIG. In the table shown in FIG. 8, the left column stores the reference codes of the wireless repeaters 14a to 14f that the display terminal 12 is the object of communication, and the right column stores the handoff operation of the display terminal 12. Stores the handoff time, which is the time when the operation is performed. In FIG. 8, the display terminal 12 first communicates with the wireless repeater 14a, then communicates with the wireless repeater 14c, and then communicates with the wireless repeater 14e.

  The server 16 needs to record the affiliation history for each display terminal 12 before generating candidate information based on the affiliation history of the display terminal 12. While the server 16 records the affiliation history, the display terminal 12 searches for all channels used by the wireless repeater 14 and performs a handoff operation. Then, after the affiliation history of the display terminal 12 is sufficiently recorded, the server 16 generates candidate information based on the affiliation history and transmits it to the wireless repeater 14.

  In this modification, the server 16 determines candidate radio relay 14 that is a new communication target of the display terminal 12 based on the affiliation history of the display terminal 12 and generates candidate information. For example, in the affiliation history shown in FIG. 8, the next communication target of the display terminal 12 communicating with the wireless repeater 14a is the wireless repeater 14c. Therefore, when the current communication target of the display terminal 12 is the wireless relay 14a, the server 16 stores information on the channel C3 used by the wireless relay 14c that is a candidate for the next communication target of the display terminal 12, It produces | generates as candidate information and transmits to the radio repeater 14a. The wireless repeater 14 a transmits a beacon including candidate information received from the server 16 to the display terminal 12.

  In the wireless display system 10 of the present modification, the server 16 records, as history information, the wireless relay device 14 selected by the display terminal 12 as a communication target each time the display terminal 12 performs a handoff operation. When the display terminal 12 performs the handoff operation, the server 16 selects the wireless repeater 14 that is a new communication target of the display terminal 12 based on the history information. Therefore, the wireless display system 10 can select an appropriate wireless repeater 14 as a candidate for communication with the display terminal 12.

(4-2) Modification B
In the wireless display system 10 according to the present embodiment, when the display terminal 12 performs a handoff operation, the wireless relay device 14 that is the current communication target of the display terminal 12 executes the candidate information generation unit 32a to execute candidate information Is generated. The candidate information generated by the wireless repeater 14 is information regarding a channel used by the wireless repeater 14 installed around the candidate information. The wireless repeater 14 transmits the generated candidate information to the display terminal 12. The display terminal 12 performs a handoff operation based on the candidate information received from the wireless repeater 14.

  However, instead of the wireless repeater 14 generating candidate information, the server 16 may generate candidate information and transmit it to the wireless repeater 14. In this case, the wireless repeater 14 periodically transmits a beacon including candidate information received from the server 16, and the display terminal 12 acquires candidate information from the beacon received from the wireless repeater 14.

  In this modification, the server 16 may store candidate information in the storage unit 42 in advance. For example, the administrator of the server 16 may store candidate information as shown in FIG. 5 in the storage unit 42 using the input unit 43 and the output unit 44 of the server 16.

  Further, the administrator of the server 16 may store the position information of the wireless repeater 14 in the storage unit 42 using the input unit 43 and the output unit 44 of the server 16. In this case, the server 16 automatically acquires information on the wireless repeaters 14 installed around each wireless repeater 14 based on the position information of each wireless repeater 14, and is shown in FIG. Such candidate information is generated.

  In the wireless display system 10 of this modification, the server 16 performs wireless relay that is a new communication target of the display terminal 12 based on information stored in the server 16 in advance when the display terminal 12 performs a handoff operation. Select the instrument 14. Therefore, the wireless display system 10 can select an appropriate wireless repeater 14 as a candidate for communication with the display terminal 12.

(4-3) Modification C
In the wireless display system 10 according to the present embodiment, when the display terminal 12 performs the handoff operation, the display terminal 12 starts a new operation from the wireless repeater 14 installed around the wireless repeater 14 that is the current communication target. Select the communication target. For example, in FIG. 4, when the current communication target of the display terminal 12 is the wireless repeater 14a, the candidate information generating unit 32a stored in the storage unit 32 of the wireless repeater 14a includes the distribution area 15a of the wireless repeater 14a. And information on the channels C2 and C3 used by the wireless repeaters 14b and 14c having the distribution areas 15b and 15c adjacent to the channel are generated as candidate information and transmitted to the display terminal 12. The display terminal 12 selects a new communication target from the radio repeaters 14b and 14c using the channels C2 and C3 based on the received candidate information.

  However, when the moving speed of the display terminal 12 in the work area 90 is high, for example, when the display terminal 12 moves from the distribution area 15a to the distribution area 15e in a short time in FIG. 4, the handoff operation of the display terminal 12 fails. there's a possibility that. In this case, for example, when the display terminal 12 with which the wireless repeater 14a is a communication target performs the handoff operation, the wireless repeater 14b that uses the channels C2 and C3 included in the candidate information received from the wireless repeater 14a, 14c may not be able to communicate. However, after the handoff operation of the display terminal 12 fails, the display terminal 12 performs a second handoff operation for searching for the channels of all the wireless repeaters 14 of the wireless display system 10 and selects a new communication target. You may fix it.

(4-4) Modification D
In the wireless display system 10 according to the present embodiment, when the display terminal 12 performs the handoff operation, the display terminal 12 starts a new operation from the wireless repeater 14 installed around the wireless repeater 14 that is the current communication target. Select the communication target. The wireless repeater 14 transmits candidate information regarding the channel used by the wireless repeater 14 that is a new candidate for communication to the display terminal 12. The number of channels included in the candidate information, that is, the number of new communication target candidates is smaller than the number of all the wireless repeaters 14. As long as this condition is satisfied, the number of wireless repeaters 14 included in the wireless display system 10 and the number of channels included in the candidate information are not limited.

  In the present embodiment, in the case of the wireless display system 10 shown in FIG. 4, the wireless repeater 14a periodically performs wireless communication with the other wireless repeaters 14b to 14f, and the other wireless repeaters 14b to 14f. Measure the strength of the radio waves received from each. Then, the wireless repeater 14a determines that the wireless repeaters 14b to 14f whose received radio wave intensity is equal to or greater than a predetermined value are adjacent wireless repeaters having the distribution areas 15b to 15f adjacent to the distribution area 15a. . And the radio repeater 14a produces | generates the information regarding the channel which its adjacent radio repeater uses as candidate information. Other wireless repeaters 14b to 14f also generate candidate information in the same manner.

  However, the radio repeater 14 may generate candidate information by other methods. For example, the wireless repeater 14 may generate candidate information based on the order of the strength of radio waves received from other wireless repeaters 14. A specific description will be given using the wireless display system 10 shown in FIG. First, the wireless repeater 14a periodically performs wireless communication with the other wireless repeaters 14b to 14f, and measures the intensity of the radio wave received from each of the other wireless repeaters 14b to 14f. Next, the radio repeater 14a selects the radio repeaters 14b to 14f having the highest received radio wave intensity and the radio repeaters 14b to 14f having the second highest radio wave intensity received. The wireless repeater 14a determines that the two selected wireless repeaters 14b to 14f are adjacent wireless repeaters having distribution areas 15b to 15f adjacent to their own distribution area 15a. And the radio repeater 14a produces | generates the information regarding the channel which its adjacent radio repeater uses as candidate information.

  As described above, the wireless repeater 14 selects a predetermined number of wireless repeaters 14 based on the strength of radio waves received from other wireless repeaters 14, and stores information on the channels used by the selected wireless repeaters 14. It may be generated as candidate information. The number of the other wireless repeaters 14 selected by the wireless repeater 14 may be any number as long as it is smaller than the number of all the wireless repeaters 14 included in the wireless display system 10.

  In the present modification, as in the present embodiment, the wireless display system 10 can reduce the number of channels to be searched, and thus can reduce the amount of power consumed by the display terminal 12 due to the handoff operation.

(4-5) Modification E
In the wireless display system 10 according to the present embodiment, the wireless repeater 14 is connected to the server 16 by wire. However, the wireless repeater 14 may be wirelessly connected to the server 16. In this case, the second communication unit 34 of the wireless repeater 14 is a network interface device that mediates wireless communication with the server 16, and the communication unit 45 of the server 16 is a network that mediates wireless communication with the wireless repeater 14. Interface equipment. Note that the server 16 may perform wireless communication with the wireless repeater 14 via a hub, a router, or the like.

10 wireless display system 12 display terminal 14 wireless repeater 16 server

JP 2009-163686 A

Claims (7)

A display terminal;
A server capable of wireless communication with the display terminal;
A plurality of wireless repeaters installed in an area where the display terminal is used, and relaying communication between the display terminal and the server;
With
The wireless repeater transmits candidate information regarding the candidate for the wireless repeater that is a communication target of the display terminal to the display terminal,
The display terminal selects the wireless repeater that is the communication target of itself based on the communication status with the wireless repeater and the candidate information,
The number of candidates is smaller than the number of the wireless repeaters,
Wireless display system. The wireless repeater transmits the candidate information that is the candidate for the wireless repeater installed around the wireless repeater to the display terminal.
The wireless display system according to claim 1. The wireless repeater recognizes the wireless repeater installed around itself by communicating with another wireless repeater, and sets the wireless repeater installed around the wireless repeater as the candidate. Generating the candidate information and transmitting it to the display terminal;
The wireless display system according to claim 2. The server generates the candidate information and transmits it to the wireless repeater.
The wireless display system according to claim 1 or 2. The server generates the candidate information based on information on the history of the wireless relay selected by the display terminal as a communication target.
The wireless display system according to claim 4. The server generates the candidate information based on information related to the wireless repeater input to itself.
The wireless display system according to claim 4. The display terminal selects the wireless repeater that is its communication target based on the candidate information when the strength of the radio wave received from the wireless repeater has decreased to a predetermined value.
The wireless display system according to claim 1.

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