JP4443299B2 - Service provision system by network robot - Google Patents

Description

  The present invention relates to a service providing system that provides a service to a user via a robot that operates by receiving a command via a network (hereinafter referred to as a “network robot”), and more particularly, a limited number of network robots to a plurality of users. The present invention relates to a service providing system using a network robot that can be used.

  In recent years, development of robots for humans, such as application to personal use, has become active, and network robots have been developed that operate when a user sends a command via a network (for example, the command is received). Patent Document 1).

  Currently, most of such network robots are limited to one person or a small number of people who operate as a user. That is, the network robot is the property of the user who operates, and a method in which the user operates his network robot in a limited place such as a home is common.

  On the other hand, in the near future, it is considered that a network robot that works in public places where a large number of unspecified people are present and places where people cannot go will be realized. In that case, the network robot provides the customer with a service that guides the customer, picks up the baggage, or operates remotely from a person who is not there. It is conceivable to move to a place and deliver an image.

Examples of public places include department stores, supermarkets, aquariums and amusement parks. Examples of places where there are no people are extreme environments where ordinary people cannot go, such as underwater, space, or the South Pole. In such a case, a limited number of network robots provide services to an unspecified number of people.
JP 2002-101333 A

  However, a plurality of people cannot simultaneously send commands to the network robot for operation. For this reason, exclusive control of the user is required when using the network robot, but if one person can use it continuously for a long time, a fair service cannot be provided. In addition, when access to a specific network robot is concentrated with respect to the operation of the network robot, there is a problem that the communication load increases, the operation processing is delayed, and the operability is deteriorated.

  In addition, regarding the billing process associated with the use of the network robot, it is necessary to take into consideration that the communication speed and the degree of communication congestion are indefinite, particularly when using a public Internet network for remote operation of the network robot. . Further, there may be a case where the operation desired by the user cannot be performed depending on the state of the network robot, such as when the corresponding network robot is being used by another user. Furthermore, if the amount of network robot operation that can be performed is divided only in units of time, sufficient operation cannot be performed when the network robot is busy or the network robot is difficult to move, and only the billing process is executed. There is a problem of dissatisfaction on the side.

  The present invention has been made in view of such a point, and can provide efficient service by a network robot, and more preferably, by optimizing billing processing associated with the service, An object of the present invention is to provide a service providing system using a network robot that can improve user satisfaction.

  In the present invention, in order to solve the above problem, a service providing system (hereinafter also simply referred to as “service providing system”) using a network robot as shown in FIG. 1 is provided. The service providing system according to the present invention is for providing a service in accordance with a request from the user terminal 2 via the network robot 1 connected to the network 10, and the access server 3 connected to the network 10. Are realized by the operation server 4.

  The access server 3 has the following functions. That is, the right information issuing means 31 generates right data 36a including right contents and usage amount information when using the network robot 1 based on a request from the user terminal 2, and identifies the right data 36a. The right ID 36b is issued. The charging processing unit 32 executes predetermined charging processing for the user terminal 2 based on the right data 36a. The right information management means 33 centrally manages the right data 36a in correspondence with the right ID 36b, and updates the right data 36a as needed through communication with the operation server 4. The authentication processing unit 34 performs authentication processing based on the right ID 36 b managed by the right information management unit 33 and the right ID 36 b input from the user terminal 2. Based on the state of the network robot 1 transmitted from the operation server 4, the operation information processing means 35 presents information on the currently available network robot 1 to the authenticated user terminal 2 and selects the network robot 1 to be used. The operation data 36c of the network robot 1 selected by the user terminal 2 is generated and transmitted to the operation server 4.

The operation server 4 has the following functions. That is, the robot information processing means 41 manages the state of the network robot 1 and transmits the state of the network robot 1 based on a request from the access server 3. The operation processing means 42 is provided with map information of an area in which the network robot 1 moves, and when the target movement position of the network robot 1 is instructed from the user terminal 2 to the access server 3, the movement route from the map information to the target movement position. To obtain a plurality of passing points included in the moving route, calculate the longest time to pass each passing point, and move along with the operations that can be provided by the network robot 1 to the user terminal 2 via the access server 3 An operation command signal for operating the network robot 1 in accordance with an operation from the user terminal 2 is output by requesting an operation for changing the moving route and an operation that can be provided by presenting the route and the longest time . Data processing means 43, based on the operation of the network robot 1, the information on the use amount, or the information of the rights data 36a after subtracting from the rights data 36a corresponding the usage amount, the network robot 1 When the passing time of the passing point is later than the longest time, the actual usage amount is discounted and subtracted from the right data 36a as the usage amount and transmitted to the access server 3.

  According to such a service providing system, in the access server 3, the right data issuing means 31 generates the right data 36a based on the request from the user terminal 2, and the right ID 36b for identifying the right data 36a is set. publish. At this time, the billing processing means 32 executes a predetermined billing process based on the right data 36a. The right data 36a is centrally managed by the right information management means 33 in correspondence with the right ID 36b.

  In the operation server 4, the state of the network robot 1 is managed by the robot information processing means 41, and the state of the network robot 1 is transmitted based on a request from the access server 3.

  In the access server 3, when this service providing system is used, the authentication processing unit 34 performs authentication processing based on the right ID 36 b managed by the right information management unit 33 and the right ID 36 b input from the user terminal 2. Done. Then, based on the state of the network robot 1 transmitted from the operation server 4 by the operation information processing means 35, information on the currently available network robot 1 is presented to the authenticated user terminal 2, and the network robot 1 to be used is used. A selection is required. At this time, the operation data 36 c of the network robot 1 selected by the user terminal 2 is generated and transmitted to the operation server 4.

In the operation server 4, map information of an area where the network robot 1 moves is provided by the operation processing means 42, and when the target movement position of the network robot 1 is instructed from the user terminal 2 to the access server 3, the map information A moving route to the target moving position is created, a plurality of passing points included in the moving route are acquired, the longest time passing each passing point is calculated, and the network robot 1 is connected to the user terminal 2 via the access server 3. The movement path and the longest time are presented together with the action that can be provided by the user, and an operation for changing the movement path and the presentation of the available action are required. Then, an operation command signal for operating the network robot 1 according to an operation from the user terminal 2 is output. At this time, the data processing means 43, based on the operation of the network robot 1, information on the use amount, or information rights data 36a after subtracting from the rights data 36a corresponding the usage amount is, the network robot 1 When the passing time of each passing point is later than the longest time, the actual usage amount is discounted and subtracted from the right data 36a as the usage amount and transmitted to the access server 3.

  In the access server 3, the right data 36 a is updated as needed by the right information management means 33.

  As described above, in the present invention, the access server and the operation server connected to the network are provided, the service use procedure is mainly received by the access server, and the operation control of the network robot is mainly managed by the operation server. In addition, the provision of services in accordance with requests from user terminals is realized by distributed processing. As a result, it is possible to prevent accesses from being concentrated on the operation server from a plurality of user terminals, and to prevent delays in the operation of the network robot. Further, since an operation that can be provided in advance to the user terminal side is presented based on the state of the network robot, the user terminal can be operated efficiently. As a result, efficient service provision by the network robot can be realized.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First, the outline of the invention applied to the embodiment will be described, and then the specific contents of the embodiment will be described. FIG. 1 is a conceptual diagram of the invention applied to the embodiment of the present invention.

The access server 3 includes right information issuing means 31, billing processing means 32, right information management means 33, authentication processing means 34, and operation information processing means 35.
Based on a request from the user terminal 2, the right information issuing means 31 generates right data 36a including right contents and usage amount information when using the network robot 1, and a right for identifying the right data 36a. Issue ID 36b.

  As the “right content” here, for example, as a function of the network robot 1, for example, a full function including movements of limbs and work by using only specific functions such as movement (walking, running) and image transmission is used. Information on the right selected by the user terminal, such as using. In addition, examples of the “usage amount” include an amount related to occupation of the network robot 1 such as an available time, an available distance, and an available power usage amount of the network robot 1.

  The charging processing unit 32 executes predetermined charging processing for the user terminal 2 based on the right data 36a. That is, the right to use the network robot 1 is basically purchased by the user using the user terminal, and the charging process is collectively performed on the access server 3 side.

The right information management means 33 centrally manages the right data 36a in correspondence with the right ID 36b.
The authentication processing unit 34 performs authentication processing based on the right ID 36 b managed by the right information management unit 33 and the right ID 36 b input from the user terminal 2. That is, when the right ID input from the user terminal 2 is not issued by the access server 3, the use of this service providing system is rejected.

  When the status of the network robot 1 is transmitted from the operation server 4 as will be described later, the operation information processing means 35 extracts information on the network robot 1 that can be currently used based on the status, and authenticates by the authentication processing means 34. The user terminal 2 is presented to request selection of the network robot 1 to be used. At this time, the operation data 36 c of the network robot 1 selected by the user terminal 2 is generated and transmitted to the operation server 4. The “operation data 36c” may include, for example, the above-described right ID 36b and right data 36a in which information such as a usable function and its remaining usage amount is recorded.

  On the other hand, the operation server 4 includes robot information processing means 41, operation processing means 42, and data processing means 43. In the illustrated example, one operation server 4 is provided and connected to the network 10 independently of the network robot 1. However, for example, the operation server 4 is mounted on each network robot 1, and the network robot 1 It may be connected to the network 10 via the operation server 4.

  The robot information processing means 41 manages the state of one or a plurality of network robots 1 that can be used in this service providing system. For example, one that can operate normally among a plurality of network robots 1, one that is out of order, one that can be used immediately, one that takes several minutes to use, one that cannot be used for the time being, one that is stuck and cannot move, Various information such as current position information of the network robot 1 and functions of each network robot 1 is managed. And based on the request of the access server 3, the state of the network robot 1 is transmitted. The user terminal 2 can select the network robot 1 for receiving the service and its function based on the information transmitted and displayed at this time.

  The operation processing means 42 analyzes the contents of the operation data 36c received from the access server 3, presents the operation that can be provided by the network robot 1 to the user terminal 2, and requests the operation. Then, an operation command signal for operating the network robot 1 is output in accordance with an operation from the user terminal 2 in response thereto. The network robot 1 executes an operation for realizing a service requested by the user in accordance with the operation command signal.

  Based on the operation of the network robot 1, the data processing unit 43 transmits information on the usage amount to the access server 3, or the right data 36 a after subtracting the usage amount from the corresponding right data 36 a. Information is transmitted to the access server 3. That is, the calculation process (billing process) of the right data 36a for converting and subtracting the operation of the network robot 1 into the usage amount may be performed on the access server 3 side or the operation server 4 side.

  When the access server 3 receives information on the usage amount from the operation server 4, the access server 3 subtracts the usage amount from the corresponding right data 36a and updates the right data 36a. On the other hand, when the information of the right data 36a after the usage amount is subtracted is updated as the right data 36a. As described above, the access server 3 updates the right data 36 a as needed by communication with the operation server 4.

  As described above, the access server 3 and the operation server 4 perform distributed processing for access from the user terminal 2. In other words, procedural processing such as accounting processing, management of right information, authentication processing when shifting to a service, etc. is performed on the access server 3 side, accompanying the status management of the network robot 1 executing the service and the operation of the user terminal Substantial processing such as operation of the network robot 1 is performed by the operation server 4. As a result, access from the user terminal 2 and processing operations corresponding thereto are not concentrated on the operation server 4, and processing delay of the operation server 4 that moves the network robot 1 can be prevented. Further, the connection of the user terminal 2 to each server becomes relatively smooth. As a result, for example, a limited number of network robots 1 in a public place can efficiently provide services. In addition, dissatisfaction of users who receive services through the network 10 can be prevented or reduced.

  Further, the right information issuing unit 31 may include the function information of the network robot 1 as the right contents of the right data 36a, and set a predetermined upper limit for the usage amount of each function for each right ID 36b.

  Accordingly, it is possible to prevent a user having one right ID 36b from occupying a specific network robot 1 for a long time, and to provide a fair service.

  Further, a separate distribution server is provided so that image information such as a camera image captured by the network robot 1 is distributed, and the image information is transmitted regardless of the presence or absence of the right ID 36b based on the request of the user terminal 2. It may be.

  Thereby, the user can grasp in advance which network robot 1 is congested, and the concentration of access to the specific network robot 1 can be prevented or reduced. In addition, when the service of the network robot 1 is image distribution, it is possible to provide a demonstration of service use to the user side, and to encourage users who have been less interested until now to use this service providing system. it can.

  Further, the right information issuing means 31 may set the upper limit of the usage amount based on the power usage amount for the operation of each function of the network robot 1. Then, based on the operation of the network robot 1, the data processing means 43 subtracts the usage amount based on the power usage amount from the corresponding right data 36 a, and sends the information of the right data 36 a after the subtraction processing to the access server 3. You may make it transmit.

  In this way, for example, when the network robot 1 provides a service for performing a predetermined work, if the work cannot be executed due to circumstances, the load of the network robot 1 is reduced, and the power consumption during that time is reduced. Specifically, the case where the network robot 1 is forced to pause due to the appearance of a crowd or a sudden obstacle when the network robot 1 tries to move to a predetermined location is applicable. As a result, it is possible to provide a service that is more cost-effective than when the charging process is performed in units of time, and the convenience of the user can be improved.

  Further, when the data processing unit 43 sets an upper limit value of the usage amount consumed for each operation of the network robot 1 and the actual usage amount during the operation of the network robot 1 exceeds the upper limit value, the upper limit value is set. May be subtracted from the right data 36a as a usage amount.

As a result, when the operation of the network robot 1 is delayed due to some external factor, it is possible to prevent the user from receiving unscheduled charges, and this can be facilitated.
Furthermore, when the movement is included in the service provided by the network robot 1, the route information may be displayed by the operation server 4 so that the required time or the like can be presented to the user terminal 2.

  That is, the operation processing means 42 holds the map information of the area where the network robot 1 moves. This map information is stored in advance in a predetermined database and updated as necessary. Then, when the target movement position of the network robot 1 is instructed from the user terminal 2, the operation processing means 42 creates a movement route to the target movement position with reference to the map information, and the movement to the user terminal 2 is performed. The usage amount consumed based on the distance of the route and the average end time of the operation are presented.

  Thus, the user can determine whether to receive the service by looking at the usage amount and the average end time, and can cancel the service if he / she thinks it is not reasonable or he / she has no time margin.

  Further, the operation processing means 42 may display a plurality of passing points on the moving route from the map information to the target moving position, and calculate and display the time for passing each passing point. Thereby, the user side can change the movement route for reaching the same target movement position, and can receive the service more efficiently.

  At that time, the operation processing means 42 may calculate and display the longest time for passing each passing point. When the passing time of each passing point of the network robot 1 is later than the longest time, the data processing means 43 discounts the actual usage amount and subtracts it from the right data 36a as the usage amount. Also good.

  Furthermore, if the data processing unit 43 offers to cancel the use from the user terminal 2 when the passing time of each passing point of the network robot 1 is later than the longest time, the right data corresponding to the amount of usage is used. The subtraction process from 36a may not be performed.

Thereby, a user's disadvantage can be prevented and utilization of this service can be promoted further.
Further, the operation processing means 42 accumulates the average passing time required for the network robot 1 to finish passing between adjacent passing points according to the information on the day of the week and the date and time. When the target movement position is instructed, the predicted arrival time at the target movement position may be calculated and displayed based on the average passing time.

Accordingly, it is possible to estimate the congestion status of each travel route based on the day of the week and the date and time, and it is possible to provide a service that is more realistic.
For example, the user may be able to indicate a desired initial position where the user wants to start operating the network robot 1. In this case, the distance from the user-specified initial position to the preset default position of the network robot 1 is compared with the distance from the initial position to the current position of the network robot 1, and the shorter initial distance is desired. It is good also as the usage-amount with respect to the movement to a position. Thereby, the unfairness of the operation due to the current position of the network robot 1 can be solved.

Hereinafter, embodiments of the present invention will be specifically described.
FIG. 2 is a diagram showing a system configuration example according to the embodiment of the present invention. As shown in FIG. 2, in the service providing system according to the present embodiment, a plurality of network robots 1a, 1b (which are collectively referred to as “network robot 1”), a plurality of user terminals 2a, 2b, 2c (collectively referred to as “user terminal 2”), an access server 3, an operation server 4, a distribution server 5, and another service server 6 are connected via a network 10.

  The network robot 1 is shown as a wheel-type network robot 1a, 1b having one manipulator (arm) in the illustrated example, but there are also ones having two or more manipulators and two-legged robots. . There are also the same type and different types. The network robot 1 may be connected to the same network as the user terminal 2 and each server, or may be connected to a local area network connected only to the operation server 4, the distribution server 5, and the access server 3, for example.

The user terminal 2 is a computer or a portable information terminal of a plurality of users who use this service providing system.
The access server 3 mainly accepts service use procedures from the user terminal 2. The access server 3 generates right data 36a for using the network robot 1 based on a request from the user terminal 2, and issues a right ID 36b for identifying the right data 36a, and centrally manages them. To do. The access server 3 executes predetermined billing processing and authentication processing for the user terminal 2, and details thereof will be described later.

  The operation server 4 mainly manages operation control of the network robot. The operation server 4 manages the states of the plurality of network robots 1 of the service providing system, and provides them in response to a request from the access server 3. The operation server 4 receives operation data 36 c for operating the network robot 1 from the access server 3 and outputs an operation command signal for operating the network robot 1 in accordance with an operation from the user terminal 2. Details of the operation of the operation server 4 will be described later.

  The distribution server 5 constantly distributes camera images captured by the network robot 1. The user terminal 2 can connect to the distribution server 5 via the access server 3 and acquire the image information regardless of the presence or absence of the right ID 36b.

  The other service server 6 is configured to be able to communicate with the access server 3 via the network 10 or a dedicated network. The other service server 6 is installed in, for example, a store contracted with an operator of the service providing system, and issues a service point to a customer who purchased a product in the store. The other service server 6 can convert the service point of the customer into right data based on the contract, and can request the access server 3 to issue the right ID 36b. Details of the operation of the other service server 6 will be described later.

FIG. 3 is a diagram illustrating a hardware configuration example of the service providing system.
The entire network robot 1 is controlled by a CPU (Central Processing Unit) 101. The CPU 101 is connected to a storage device 102 such as a RAM (Random Access Memory), a hard disk drive (HDD), an input interface 103, a communication interface 104, and the like via a predetermined signal line such as a bus. .

  The RAM of the storage device 102 temporarily stores at least part of an OS program and application programs to be executed by the CPU 101, and stores various data necessary for processing by the CPU 101. The HDD stores an OS and application programs.

  The input interface 103 includes a control board 106 for driving each motor 105 that is an actuator for driving the internal configuration of the network robot 1 such as wheels and arm joints, and a sensor board 108 for capturing output signals of various sensors 107. It is connected via (Universal Serial Bus). For this reason, the CPU 101 can output a predetermined command signal to the control board 106 via the USB to control each motor 105 or obtain output information of each sensor 107 from the sensor board 108.

  The communication interface 104 includes an antenna and is connected to the network 10. The communication interface 104 transmits / receives data to / from the operation server 4, the distribution server 5, another network robot 1, and the like via the network 10.

  On the other hand, the access server 3 is entirely controlled by the CPU 301. A storage device 302 such as a RAM and a hard disk drive (HDD), a display device 303, a communication interface 304, and the like are connected to the CPU 301 via predetermined signal lines such as a bus.

  The RAM of the storage device 302 temporarily stores at least part of an OS program and application programs to be executed by the CPU 301, and stores various data necessary for processing by the CPU 301. In the HDD, an OS and application programs are stored, and a database for storing the right ID 36b and the right data 36a in association with each other is constructed.

The display device 303 displays the state of communication with the network robot 1 as appropriate, or displays internal information according to the input of the administrator of the access server 3.
The communication interface 304 is connected to the network 10. The communication interface 304 transmits / receives data to / from the network robot 1, the user terminal 2, the operation server 4, etc. via the network 10.

  Note that the user terminal 2, the operation server 4, the distribution server 5, and the other service server 6 can also be realized with a hardware configuration substantially similar to that of the access server 3 described above, but the description thereof is omitted.

Next, an example of processing executed in each server will be described with reference to a flowchart and a sequence diagram.
FIG. 4 is a flowchart illustrating an example of a right ID purchase process executed by the access server 3. This process is executed on the premise that the user uses this service providing system. In the following, the process illustrated in FIG. 4 will be described in order of step number.

[Step S11] The access server 3 waits for a connection command from the user terminal 2, and when there is a connection command, the process proceeds to step S12.
[Step S12] The access server 3 transmits a top page to the user terminal 2. At this time, a predetermined menu screen is displayed on the display device of the user terminal 2, and the user selects purchase of an operation right for using the service providing system from the menu. An example of this menu screen will be described later.

  [Step S13] The access server 3 determines whether or not an operation right purchase request has been received from the user terminal 2. At this time, if there is a purchase request, the process proceeds to step S14, and if there is no purchase request, the series of processes ends. The absence of a purchase request is determined, for example, when a predetermined cancel button displayed on the user terminal 2 is selected.

  [Step S14] The access server 3 transmits an operation right purchase page. On this operation right purchase page, functions that can be used for the network robot 1 and the usage amount thereof can be selected. In this embodiment, in order to achieve fairness with other users, the usage amount of each function is limited in advance, and the user can select the usage amount within the range of the limitation. Also, on this operation right purchase page, when purchasing the operation right, a method of debiting a charge such as use of a credit card or bank transfer is selected, and the user's personal information is input.

[Step S15] The access server 3 receives the purchase function selected from the user terminal 2 and its usage amount.
[Step S16] The access server 3 receives the selected withdrawal information from the user terminal 2.

[Step S17] For confirmation, the access server 3 transmits to the user terminal 2 a confirmation screen indicating the purchase information of the operation right selected by the user and the withdrawal information of the price.
[Step S18] The access server 3 determines whether or not a confirmation notification is transmitted from the user terminal 2. At this time, if there is a confirmation notification, the process proceeds to step S19, and if there is no confirmation notification, the process returns to step S12.

  [Step S19] The access server 3 generates the right data 36a based on the purchase information of the operation right, and issues a right ID 36b for identifying the right data 36a. Then, the right information including the right data 36 a and the right ID 36 b is transmitted to the user terminal 2.

[Step S20] The access server 3 stores the issued right ID 36b and the corresponding right data 36a in the database.
FIG. 5 is a diagram illustrating an example of the menu screen displayed on the user terminal 2 (step S12). As described above, the menu screen [1 .. for the user to shift to the operation screen for purchasing the operation right is displayed. Purchase operation right], [2. [Operation], for the user to move to the operation right confirmation screen for confirming the contents of the current operation right [3. Selection buttons such as “confirm operation right status”,... Are set.

  FIG. 6 is a sequence diagram illustrating an example of exchange between the access server 3 and the operation server 4 when the network robot 1 is operated. In the following, the process illustrated in FIG. 6 will be described in order of step number.

  [Step S21] The access server 3 receives an operation request for operating the network robot 1 from the user terminal 2. This operation request is sent from the menu screen [2. This is done by selecting [Operation].

[Step S22] The access server 3 transmits an ID input screen for inputting the right ID 36b. From the user terminal 2, a right ID 36b possessed by the user is input.
[Step S23] The access server 3 refers to the database and determines whether the ID input from the user terminal 2 is valid. At this time, if the ID is the registered right ID 36b and is valid, the process proceeds to step S24. If the ID is not valid, the process returns to step S22 to request the user terminal 2 to input the right ID 36b again. To do. At this time, if the right ID 36b does not become valid within a certain time, the operation from the customer is rejected. Then, if there is another user waiting in the order registered in the access server, the user terminal 2 is notified by e-mail or the like so that the operation right can be given to the next user.

[Step S24] The access server 3 requests the operation server 4 for the state of the network robot 1.
[Step S <b> 25] The operation server 4 transmits to the access server 3 information on whether the network robot 1 under management is in a state in which it can operate normally, current operating state, current position, and the like.

  [Step S26] The access server 3 transmits a selection screen of the network robot 1 to the user terminal 2, and requests the user to select the network robot 1. On this selection screen, for example, position information of each network robot 1, information on availability, usable functions, usage amount, and the like are displayed so as to be selectable. Specific examples thereof will be described later.

  [Step S27] The access server 3 waits for selection of the network robot 1 from the user terminal 2. When the selection information is transmitted from the user terminal 2, the process proceeds to step S28.

  [Step S28] The access server 3 generates the operation data 36c according to the selection information from the user terminal 2. The operation data 36c includes right data 36a in which information such as a user right ID 36b, a selected function, and a remaining usage amount is recorded.

[Step S29] The access server 3 transmits the operation data 36c to the operation server 4.
[Step S30] The operation server 4 analyzes the contents of the operation data 36c and transmits the operation screen of the network robot 1 to the user terminal 2.

  [Step S31] The operation server 4 outputs an operation command signal for operating the network robot 1 in accordance with an input from the user terminal 2, and executes an accounting process associated with the operation. Details of the robot control / billing process executed here will be described later.

[Step S32] The operation server 4 transmits the new right data 36a after the billing process to the access server 3.
[Step S33] The access server 3 updates the received new right data 36a to the database. A user who has not used all of the usage amount can use the remaining usage amount of the right ID 36b next time.

  FIG. 7 is a diagram illustrating an example of a selection screen of the network robot 1 transmitted from the access server 3 to the user terminal 2 (step S26). On this selection screen, a map of the hall, which is a serviceable area for the user, is displayed, and the arrangement of each network robot 1 and whether or not it can be used are displayed there. The user can select the currently available network robot 1 indicated by “◯”. In addition, after the network robot 1 is selected on the selection screen shown in the figure, a selection screen for the functions that can be used in the network robot 1 and the usage amount thereof is displayed.

FIG. 8 is a flowchart showing an example of the robot control / billing process (step S31). In the following, the process illustrated in FIG. 8 will be described in order of step number.
[Step S41] The operation server 4 receives the work content requested of the network robot 1 by an input from the user terminal 2 in accordance with the operation screen.

  [Step S42] The operation server 4 generates a work plan based on the work content. For example, when the network robot 1 is moved to a target point and the image is distributed, a movement route to the target movement position and a plurality of passing points are generated based on the map information stored in the database.

  [Step S43] The operation server 4 calculates the average usage amount and the average usage amount required for the work based on the work plan. For example, a time for passing through each passing point is calculated, and a work screen indicating the average time and the average usage amount required for moving between the passing points is transmitted to the user terminal 2 in correspondence with the moving route. A specific example of this work screen will be described later.

[Step S44] The operation server 4 calculates the remaining usage amount (remaining usage amount) of the operation right included in the operation data 36c.
[Step S45] When the operation server 4 performs the operation requested by the user, the operation server 4 determines whether or not the remaining usage amount of the right data 36a is insufficient. At this time, if the remaining usage amount is insufficient, the process proceeds to step S46, and if the remaining usage amount is sufficient, the process proceeds to step S50.

  [Step S46] The operation server 4 transmits an operation right additional purchase instruction screen to the user terminal 2. On this additional purchase instruction screen, a selection button for selecting whether or not to perform additional purchase is set.

  [Step S47] The operation server 4 determines whether or not the additional purchase is selected by the user terminal 2. If additional purchase is selected by the user terminal 2, the process proceeds to step S48, and if additional purchase is not selected, the process ends.

  [Step S48] The operation server 4 instructs the access server 3 to execute additional purchase processing. At this time, an additional purchase process is executed by the access server 3 and the updated right data 36a is transmitted. Details of this process will be described later.

[Step S49] The operation server 4 receives the updated right data 36a from the access server 3. Subsequently, the process proceeds to step S50.
[Step S50] The operation server 4 confirms the work content with the user terminal 2 and starts the work.

  [Step S51] The operation server 4 measures the work time in the course of work, and determines whether or not the work time exceeds a preset maximum time. For example, when moving along a selected movement route, it is determined whether or not the time taken to pass between each passing point has exceeded a preset longest time. Note that a time counter is set in the RAM of the operation server 4. At this time, if the working time is within the preset maximum time, the process proceeds to step S52, and if the maximum time is exceeded, the process proceeds to step S53.

  [Step S52] The operation server 4 accumulates and calculates the usage amount of the operation right consumed during work, and adds a preset average usage amount to the total usage amount. For example, the average usage amount set for the movement of each section of the movement route is added.

  [Step S53] The operation server 4 adds a value obtained by multiplying a preset average usage amount by a preset reduction rate to the total usage amount. That is, when the work does not proceed within the longest time presented to the user terminal 2, the user's dissatisfaction is reduced by discounting the charge.

[Step S54] The operation server 4 determines whether or not the operation requested by the user has been completed. If the work is finished, the process proceeds to step S55.
[Step S55] The operation server 4 subtracts the accumulated usage amount from the right data 36a and transmits new right data 36a to the access server 3.

  FIG. 9 is a diagram showing a specific example of the work screen (step S43). (A) shows subdivided route information that is a basis for setting a movement route, and (B) shows a movement route to a specifically selected target movement position.

  As shown in FIG. 9A, the operation server 4 stores map information in which a plurality of passage routes are set in the operation range of each network robot 1 and time information required for passing through the routes in a database. Yes. In the work plan, the route information and the time information are extracted. Then, when the current position of the selected network robot 1 and its target movement position are specified based on the input from the user terminal 2, the time required for movement between each passing point of the movement route is calculated, and FIG. It is displayed on the work screen as shown in B).

FIG. 10 is a diagram showing the contents of a database storing the passage time of each route used for displaying the work screen (step S43).
The operation server 4 includes the average movement time between points, the average usage amount of the operation right, the average movement time for each day of the week, the average movement time for each time, and the degree of congestion as the time required for movement between the respective passing points described above It holds information such as another average travel time and the longest travel time. For this reason, according to the request | requirement from the user terminal 2, any one of these movement time etc. can be displayed on a work screen, and a user can provide detailed and accurate information. The user can determine whether or not to execute the requested service by acquiring information such as the travel time.

  FIG. 11 is a flowchart showing an example of the additional purchase process (step S48). Note that the processing of steps S62 to S66 is the same as the processing of steps S14 to S18 shown in FIG. Hereinafter, of the processes shown in FIG. 11, processes different from those in FIG. 4 will be described.

  That is, the access server 3 executes an additional purchase process regarding the right data 36 a with the user terminal 2 in accordance with an instruction from the operation server 4. Then, when the purchase process is completed by communication with the user terminal 2, in step S67, the access server 3 updates the right data 36a by adding the purchased usage amount to the right data 36a. In step S68, the access server 3 transmits the updated right data 36a to the operation server 4.

  Next, processing involving the other service server 6 will be described. FIG. 12 is a sequence diagram showing processing executed between the other service server 6 and the access server 3. In the following, the process illustrated in FIG. 12 will be described in order of step number.

  The other service server 6 is installed in a shopping mall contracted with an operator of the service providing system, and issues a service point to a customer who purchased the product via the network 10 on a Web site or the like. The other service server 6 converts the service point into right data based on the customer's request, and requests the access server 3 to issue the right ID 36b. That is, the customer can use the service points stored in shopping or the like as the operation right of the network robot 1.

  [Step S71] The other service server 6 displays a service point provided to the user terminal 2 at the time of billing at the time of purchase of the product, and then transmits a point exchange screen of the service providing system. At this time, on the point exchange screen, the service content of the service providing system, the exchange rate between the service point and the operation right, and the like are displayed.

[Step S72] When the intention to purchase the right data 36a is input from the user terminal 2, the other service server 6 advances the process to step S73.
[Step S73] The other service server 6 converts the service point into the usage amount of the operation right.

[Step S74] The other service server 6 transmits the usage amount converted to the access server 3 and requests the right ID 36b to be issued.
[Step S75] The access server 3 issues a right ID 36b based on the usage amount and transmits the content to the other service server 6.

[Step S76] The other service server 6 transmits to the user terminal 2 the fact that the right ID 36b has been issued and its contents.
[Step S77] The access server 3 transmits the right ID 36b and the contents of the right data 36a to the user terminal 2.

[Step S78] The access server 3 stores the right ID 36b and the right data 36a in a database.
Next, processing involving the distribution server 5 will be described.

The distribution server 5 constantly acquires camera images taken by the network robot 1.
On the menu screen of the access server 3, an image acquisition button for the network robot 1 is set. The access server 3 transmits an image request for the network robot 1 designated by the user terminal 2 to the distribution server 5. The distribution server 5 transmits an image of the network robot 1 corresponding to the image request to the user terminal 2.

  As a result, even a person who does not actually operate the network robot 1 can view the image from the network robot 1, and the user who only sees the image can access the operation server 4 and increase its load. can do.

  Each processing function of each server described above can be realized by a computer. In that case, a program describing the processing content of each function is provided. By executing the program on a computer, the above processing functions are realized on the computer. The program describing the processing contents can be recorded on a computer-readable recording medium. Examples of the computer-readable recording medium include a magnetic recording device, an optical disk, a magneto-optical recording medium, and a semiconductor memory. Examples of the magnetic recording device include a hard disk device (HDD), a flexible disk (FD), and a magnetic tape. Optical disks include DVD (Digital Versatile Disc), DVD-RAM, CD-ROM (Compact Disc Read Only Memory), CD-R (Recordable) / RW (ReWritable), and the like. Magneto-optical recording media include MO (Magneto-Optical disk).

  When distributing the program, for example, a portable recording medium such as a DVD or a CD-ROM in which the program is recorded is sold. It is also possible to store the program in a storage device of a server computer and transfer the program from the server computer to another computer via a network.

  The computer that executes the program stores, for example, the program recorded on the portable recording medium or the program transferred from the server computer in its own storage device. Then, the computer reads the program from its own storage device and executes processing according to the program. The computer can also read the program directly from the portable recording medium and execute processing according to the program. In addition, each time the program is transferred from the server computer, the computer can sequentially execute processing according to the received program.

(Additional remark 1) In the service provision system by the network robot which provides the service according to the request | requirement from a user terminal via the network robot connected to the network,
An access server connected to the network and communicating with the user terminal; and an operation server connected to the network and communicating with the network robot;
The access server is
Rights information issuing means for generating rights data including information on rights content and usage when using the network robot based on a request from the user terminal, and issuing a rights ID for identifying the rights data; ,
Charging processing means for executing predetermined charging processing for the user terminal based on the right data;
Rights information management means for centrally managing the rights data in correspondence with the rights ID and updating the rights data as needed by communication with the operation server;
Authentication processing means for performing authentication processing based on a rights ID managed by the rights information management means and a rights ID input from the user terminal;
Based on the state of the network robot transmitted from the operation server, presents information on the currently available network robot to the authenticated user terminal, requests selection of the network robot to be used, and selects by the user terminal Operation information processing means for generating operation data of the network robot and transmitting it to the operation server;
With
The operation server is
Robot information processing means for managing the state of the network robot and transmitting the state of the network robot based on a request from the access server;
An operation for analyzing the operation data received from the access server, presenting an operation that can be provided by the network robot to the user terminal, requesting the operation, and operating the network robot according to the operation from the user terminal Operation processing means for outputting a command signal;
Based on the operation of the network robot, data processing means for transmitting information on the usage amount, or information on the right data after subtracting the usage amount from the corresponding right data, to the access server;
Having
A service providing system using network robots.

  (Additional remark 2) The right information issuing means includes a function information of the network robot as the right contents of the right data, and sets a predetermined upper limit for the usage amount of each function for each right ID. A service providing system using the network robot according to attachment 1.

(Supplementary Note 3) A distribution server that distributes image information captured by the network robot,
2. The service providing system using a network robot according to claim 1, wherein the distribution server transmits the image information regardless of the presence of the right ID based on a request from the user terminal.

(Supplementary Note 4) The right information issuing means sets the upper limit of the usage amount based on the power usage amount for the operation of each function of the network robot,
The data processing means subtracts the usage amount based on the power usage amount from the corresponding right data based on the operation of the network robot, and transmits information on the rights data after the subtraction processing to the access server. 2. A service providing system using a network robot according to appendix 1.

(Supplementary Note 5) The operation processing means includes:
Comprising map information of the area where the network robot moves;
When the target movement position of the network robot is instructed from the user terminal, the use that creates a movement route from the map information to the target movement position and consumes the user terminal based on the distance of the movement route The service providing system using the network robot according to appendix 1, wherein an amount and an average end time of the operation are presented.

(Supplementary Note 6) The data processing means includes:
Based on the operation of the network robot, the usage amount is subtracted from the corresponding right data, and the right data information after the subtraction is transmitted to the access server,
When the upper limit value of the usage amount consumed for each operation of the network robot is set, and the actual usage amount during the operation of the network robot exceeds the upper limit value, the upper limit value is set as the usage amount. The service providing system using a network robot according to appendix 1, wherein the service data is subtracted from the right data.

(Supplementary note 7) The operation processing means includes:
Comprising map information of the area where the network robot moves;
When a target movement position of the network robot is instructed from the user terminal, a movement path from the map information to the target movement position is created, and a plurality of passing points are displayed on the moving path, and each passing point is displayed. The service providing system by the network robot according to appendix 1, wherein the passing time is calculated and displayed.

(Additional remark 8) The said operation processing means calculates and displays the longest time which passes each said passage point,
When the passage time of each passing point of the network robot is behind the longest time, the data processing means discounts an actual usage amount and subtracts it from the right data as the usage amount. The service provision system by the network robot of Claim 7.

  (Additional remark 9) When the passage time of each passing point of the network robot is delayed from the longest time when the data processing means is requested to stop using the user terminal, the usage amount The service providing system using a network robot according to appendix 8, wherein a subtraction process from the right data is not performed.

(Supplementary Note 10) The operation processing means includes:
The network robot accumulates the average passing time taken to finish passing between adjacent passing points, corresponding to the day of the week and date information,
The network robot according to claim 7, wherein when the target movement position of the network robot is instructed from the user terminal, an estimated arrival time at the target movement position is calculated and displayed based on the average passing time. Service providing system by.

(Supplementary Note 11) The operation processing means includes:
When the usage amount for operating the network robot according to the operation request from the user terminal is insufficient, a request is made to select whether or not to perform additional charging processing based on the right data to the user terminal,
When there is a request for additional purchase from the user terminal, the fact is transmitted to the access server, and charging processing is executed with the user terminal. Based on the new right data generated at this time The service providing system by the network robot according to appendix 1, wherein the process is resumed.

(Supplementary Note 12) A communication server is configured to be communicable with the access server via the network, and includes another service server that issues a service point based on purchase of a predetermined service by a user.
The other service server converts the service point into the usage amount based on a predetermined conversion method, generates right data including the usage amount for the access server, and a right for identifying the right data It is configured to be able to request issuance of ID,
2. The service providing system using a network robot according to claim 1, wherein the right information issuing means executes generation of corresponding right data and issue of a right ID in accordance with a request from the other service server.

(Supplementary Note 13) For managing the state of the network robot and providing a service according to the request from the user terminal in cooperation with the operation server that operates the network robot according to the request from the user terminal via the network An access server,
Rights information issuing means for generating rights data including information on rights content and usage when using the network robot based on a request from the user terminal, and issuing a rights ID for identifying the rights data; ,
Charging processing means for executing predetermined charging processing for the user terminal based on the right data;
Authentication processing means for performing authentication processing based on a rights ID managed by the rights information management means and a rights ID input from the user terminal;
Based on the state of the network robot transmitted from the operation server, presents information on the currently available network robot to the authenticated user terminal, requests selection of the network robot to be used, and selects by the user terminal Operation information processing means for generating operation data of the network robot and transmitting it to the operation server;
Rights information management means for centrally managing the rights data in correspondence with the rights ID, and for updating new rights data from which usage is subtracted based on the operation of the network robot as needed through communication with the operation server When,
An access server comprising:

(Supplementary Note 14) Access for generating right data including information on right contents and usage amount when using a network robot and updating new right data from which usage amount is subtracted based on the operation of the network robot. An operation server that cooperates with a server to provide a service in accordance with a request from a user terminal connected via a network,
Robot information processing means for managing the state of the network robot and transmitting the state of the network robot based on a request from the access server;
Analyzing the operation data transmitted from the access server based on the state of the network robot and the selection by the user terminal, presenting an operation that can be provided by the network robot to the user terminal, and requesting the operation, Operation processing means for outputting an operation command signal for operating the network robot according to an operation from a user terminal;
Based on the operation of the network robot, data processing means for transmitting information to the access server, information on the usage amount, or information on the right data after subtracting the usage amount from the right data,
An operation server comprising:

(Supplementary Note 15) The state of the network robot is managed and mounted on an access server that cooperates with an operation server that operates the network robot in accordance with a request from the user terminal via the network, in accordance with the request from the user terminal. In a service providing program for providing a service,
Computer
Rights information issuing means for generating rights data including information on rights contents and usage when using the network robot based on a request from the user terminal, and issuing a rights ID for identifying the rights data;
Charging processing means for executing predetermined charging processing for the user terminal based on the right data;
Authentication processing means for performing authentication processing based on the rights ID managed by the rights information management means and the rights ID input from the user terminal;
Based on the state of the network robot transmitted from the operation server, presents information on the currently available network robot to the authenticated user terminal, requests selection of the network robot to be used, and selects by the user terminal Operation information processing means for generating operation data of the network robot and transmitting it to the operation server;
Rights information management means for centrally managing the rights data in correspondence with the rights ID, and for updating new rights data from which usage is subtracted based on the operation of the network robot as needed through communication with the operation server ,
Service providing program characterized by functioning as

(Supplementary Note 16) Access for generating right data including information on right contents and usage amount when using a network robot and updating new right data from which usage amount is subtracted based on the operation of the network robot. A service providing program for providing a service in accordance with a request from a user terminal connected to an operation server linked to a server via a network,
Computer
Robot information processing means for managing the state of the network robot and transmitting the state of the network robot based on a request from the access server;
Analyzing the operation data transmitted from the access server based on the state of the network robot and the selection by the user terminal, presenting an operation that can be provided by the network robot to the user terminal, and requesting the operation, Operation processing means for outputting an operation command signal for operating the network robot according to an operation from a user terminal;
Data processing means for transmitting to the access server information on the usage amount based on the operation of the network robot, or information on the right data after subtracting the usage amount from the corresponding right data,
Service providing program characterized by functioning as

(Supplementary Note 17) The state of the network robot is managed and mounted on an access server that cooperates with an operation server that operates the network robot in accordance with a request from the user terminal via the network, in accordance with the request from the user terminal. In a computer-readable recording medium in which a service providing program for providing a service is recorded,
Computer
Rights information issuing means for generating rights data including information on rights contents and usage when using the network robot based on a request from the user terminal, and issuing a rights ID for identifying the rights data;
Charging processing means for executing predetermined charging processing for the user terminal based on the right data;
Authentication processing means for performing authentication processing based on the rights ID managed by the rights information management means and the rights ID input from the user terminal;
Based on the state of the network robot transmitted from the operation server, presents information on the currently available network robot to the authenticated user terminal, requests selection of the network robot to be used, and selects by the user terminal Operation information processing means for generating operation data of the network robot and transmitting it to the operation server;
Rights information management means for centrally managing the rights data in correspondence with the rights ID, and for updating new rights data from which usage is subtracted based on the operation of the network robot as needed through communication with the operation server ,
A computer-readable recording medium on which a service providing program is recorded.

(Supplementary Note 18) Access for generating right data including information on right contents and usage amount when using a network robot, and updating new right data obtained by subtracting the usage amount based on the operation of the network robot as needed In a computer-readable recording medium on which a service providing program for providing a service according to a request from a user terminal connected via a network is installed in an operation server that cooperates with the server,
Computer
Robot information processing means for managing the state of the network robot and transmitting the state of the network robot based on a request from the access server;
Analyzing the operation data transmitted from the access server based on the state of the network robot and the selection by the user terminal, presenting an operation that can be provided by the network robot to the user terminal, and requesting the operation, Operation processing means for outputting an operation command signal for operating the network robot according to an operation from a user terminal;
Data processing means for transmitting information on the usage amount based on the operation of the network robot, or information on the right data after subtracting the usage amount from the corresponding right data to the access server,
A computer-readable recording medium on which a service providing program is recorded.

(Supplementary Note 19) In a service providing method by a network robot that provides a service according to a request from a user terminal via a network robot connected to a network,
The provision of the service is realized by distributed processing by an access server and an operation server connected to the network,
Based on a request from the user terminal, the access server generates right data including right contents and usage amount information when using the network robot, and issues a right ID for identifying the right data. , Centrally managing the right data in correspondence with the right ID,
The operation server manages the state of the network robot, and transmits the state of the network robot based on the request of the access server,
Based on the state of the network robot transmitted from the operation server, the access server presents information on the currently available network robot to the user terminal and requests selection of the network robot to be used. Generate the operation data of the network robot selected by, send it to the operation server,
The operation server analyzes the operation data received from the access server, presents an operation that can be provided by the network robot to the user terminal, requests the operation, and operates the network robot according to the operation from the user terminal. An operation command signal for operating is output, and based on the operation of the network robot, information on the usage amount, or information on the right data after subtracting the usage amount from the corresponding right data, is accessed. To the server,
The access server updates the right data as needed through communication with the operation server;
A service providing method by a network robot characterized by the above.

It is a conceptual diagram of the invention applied to embodiment of this invention. It is a figure which shows the system configuration example of embodiment of this invention. It is a figure which shows the hardware structural example of a service provision system. It is a flowchart which shows the example of the process at the time of right ID purchase which an access server performs. It is a figure showing the example of the menu screen displayed on a user terminal. It is a sequence diagram showing the example of an exchange with the access server at the time of operation of a network robot and an operation server. It is a figure showing the example of the selection screen of the network robot which the access server transmitted to the user terminal. It is a flowchart showing the example of a robot control and charging process. It is a figure which shows the specific example of a work screen. It is a figure showing the content of the database which stored the passage time of each path | route used for the display of a work screen. It is a flowchart showing the example of an additional purchase process. It is a sequence diagram which shows the process performed between another service server and an access server.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Network robot 2 User terminal 3 Access server 4 Operation server 5 Distribution server 6 Other service server 10 Network 31 Rights information issuing means 32 Charge processing means 33 Rights information management means 34 Authentication processing means 35 Operation information processing means 36a Rights data 36b Rights ID
36c Operation data 41 Robot information processing means 42 Operation processing means 43 Data processing means

Claims (5)

In a service providing system by a network robot that provides a service according to a request from a user terminal via a network robot connected to a network,
An access server connected to the network and communicating with the user terminal; and an operation server connected to the network and communicating with the network robot;
The access server is
Rights information issuing means for generating rights data including information on rights content and usage when using the network robot based on a request from the user terminal, and issuing a rights ID for identifying the rights data; ,
Charging processing means for executing predetermined charging processing for the user terminal based on the right data;
Rights information management means for centrally managing the rights data in correspondence with the rights ID and updating the rights data as needed by communication with the operation server;
Authentication processing means for performing authentication processing based on a rights ID managed by the rights information management means and a rights ID input from the user terminal;
Based on the state of the network robot transmitted from the operation server, presents information on the currently available network robot to the authenticated user terminal, requests selection of the network robot to be used, and selects by the user terminal Operation information processing means for generating operation data of the network robot and transmitting it to the operation server;
With
The operation server is
Robot information processing means for managing the state of the network robot and transmitting the state of the network robot based on a request from the access server;
Provided with map information of the area where the network robot moves, and when the target movement position of the network robot is instructed from the user terminal to the access server, creates a movement route from the map information to the target movement position, Obtaining a plurality of passing points included in the moving path, calculating the longest time to pass each passing point, and the movement path together with the operation that can be provided by the network robot to the user terminal via the access server An operation for presenting the longest time , requesting an operation for changing the movement route and an operation for providing the available operation, and outputting an operation command signal for operating the network robot in accordance with an operation from the user terminal Processing means;
Based on the operation of the network robot, the information on the usage amount, or the right data information after subtracting the usage amount from the right data, the passing time of each passing point of the network robot is the If it is later than the longest time, the data processing means for discounting the actual usage amount and subtracting it from the right data as the usage amount and transmitting it to the access server;
Having
A service providing system using network robots.   The data processing means, when the user terminal makes a request to cancel the use when the passing time of each passing point of the network robot is later than the longest time, the right for the usage amount. 2. A service providing system using a network robot according to claim 1, wherein subtraction processing from data is not performed.   The operation processing means accumulates an average passing time required for the network robot to finish passing between adjacent passing points in correspondence with information on a day of the week and a date, and from the user terminal to the target of the network robot The predicted arrival time at the target moving position is calculated and displayed based on the average passing time when the moving position is instructed, and displayed according to any one of claims 1 and 2. Service provision system using network robots.   Whether the operation processing means performs additional charging processing based on the right data in the user terminal when the usage amount for operating the network robot according to the operation request from the user terminal is insufficient. When a request for selection is made and there is a request for additional purchase from the user terminal, a message to that effect is transmitted to the access server, and charging processing is executed with the user terminal. 4. The service providing system using a network robot according to claim 1, wherein the processing is resumed based on the right data.   It is configured to be communicable with the access server via the network, and includes another service server that issues a service point based on purchase of a predetermined service by a user,
  The other service server converts the service point into the usage amount based on a predetermined conversion method, generates right data including the usage amount for the access server, and a right for identifying the right data It is configured to be able to request issuance of ID,
  The service by the network robot according to any one of claims 1 to 4, wherein the right information issuing means executes generation of corresponding right data and issue of a right ID in accordance with a request from the other service server. Offer system.

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