JP2020166532A - Outing determination system, outing determination method and outing determination program - Google Patents

Abstract

To realize outing determination including the specification of a travel route for the settlement of transportation expense based on schedule data including a past schedule and/or a future schedule of a user without using the usage history of transportation systems.SOLUTION: An outing determination system comprises: detection means for detecting at least one of a schedule, a person, and a transportation hub based on schedule data; and determination means for determining whether or not to go out related to the schedule data at least based on the transportation hub.SELECTED DRAWING: Figure 3

Description

The present invention relates to an outing determination system, an outing determination method, and an outing determination program.

Activities outside the location by individuals or legal entities may require the movement of personnel by public transport. The activity refers to a sales activity as an example. The transportation cost required for the movement is generally settled with the approval of the accounting staff based on the movement route information input and processed by the user.

In the transportation expense settlement, when the movement route information including the information related to the type of public transportation and the transportation node is input and processed each time, the user needs to record the movement route information every time the movement is performed. The generation of work time required for the recording may hinder the efficiency of work.

In the invention described in Patent Document 1, transportation expenses are settled using an information storage card for using public transportation. In the technology described in the document, the usage history of the bus or railroad read from the IC (Integrated Circuit) card reader in the multifunction device connected to the communication with the outing settlement application server that accepts the outing settlement application. By linking with the attendance management data, the transportation expenses are settled.

However, when the transportation cost is settled based on the usage history corresponding to the information storage card, the user inputs the information related to the movement route in order to settle the transportation cost related to the movement that does not require the information storage card. Must be done. On the other hand, a technique for managing a user's action history based on the user's schedule data instead of the usage history has been reported.

In the invention described in Patent Document 2, the user's behavior can be grasped more accurately by using the schedule registered by the user in combination with the user's behavior history. In the technique described in the document, the schedule acquisition unit for acquiring the schedule, the action history acquisition unit for acquiring the action history including the position information, and the past schedule of the schedule are obtained based on the action history. An information processing device including a past schedule correction unit for correction is provided.

JP 2011-118881 Japanese Unexamined Patent Publication No. 2015-011431

The usage history of transportation associated with the information storage card can be useful for reimbursement of transportation expenses, but the movement route cannot be specified until after the movement. Therefore, it is difficult to settle the transportation expenses of the future schedule.

When analyzing schedule data in order to calculate transportation costs based on the future schedule, it is necessary to remove noise such as notation fluctuations related to action schedules that occur for each user, and perform outing judgment and movement route identification. .. Noise removal in the past schedule can be realized based on the usage history and location information, but noise removal in the future schedule is difficult.

In the present invention, the outing determination including the identification of the travel route for the settlement of transportation expenses can be realized based on the schedule data including the past schedule and / or the future schedule of the user without using the usage history of transportation. Is the subject.

In order to solve the above problems, the present invention is an outing determination system, which is a detection means for detecting at least a traffic node based on schedule data, and at least based on the traffic node, going out related to schedule data. It has a determination means for determining the presence or absence.
With such a configuration, it is possible to realize an outing determination for transportation expense settlement based on the user's schedule data without using the usage history of transportation.
Further, with such a configuration, the outing determination system according to the present invention can reduce the amount of traffic for realizing the outing determination system based on the schedule data mainly including the text data input by the user. This means that the present invention does not necessarily require traffic related to data having a data size larger than text data, for example, a change over time in location information of a user terminal or the like. As a result, the present invention has a further technical effect that the processing time until determining whether or not to go out can be shortened.

In a preferred embodiment of the present invention, the detection means determines the occurrence cost or connection cost corresponding to one or more words and phrases contained in the schedule data based on the schedule data, and detects the traffic node based on at least the occurrence cost.
With such a configuration, the outing determination system according to the present invention can perform morphological analysis based on schedule data and detect traffic nodes with high accuracy.
Further, with such a configuration, the detection means determines the total cost of the character string included in the schedule data, at least based on the occurrence cost. As an example, the detection means detects a phrase when the total cost is the maximum / minimum as a transportation hub. Thereby, the present invention can realize the detection of a traffic node while suppressing the influence of the notation fluctuation caused by the user input. Since the traffic related to the outing determination is occupied by the traffic for the text data, the present invention has a further technical effect that the processing time until determining whether or not to go out can be shortened.

In a preferred embodiment of the present invention, the detecting means determines the occurrence cost of the phrase based on an exponential function with the number of characters of the traffic node indicated by the phrase as a variable.
With such a configuration, the outing determination system according to the present invention can preferentially detect words and phrases that have a large number of characters and may be proper nouns. Therefore, the present invention can suitably realize the detection of a transportation hub based on schedule data.
Further, with such a configuration, the outing determination system according to the present invention does not make the determination of the occurrence cost a unique process based on a database reference or the like. Therefore, the present invention has a further technical effect that the frequency of data storage / reference related to the determination of the occurrence cost can be reduced and the database load can be reduced.

In a preferred embodiment of the present invention, when the number of characters of a traffic node indicated by a phrase is less than a predetermined number of characters, the detection means uses the number of traffic nodes within the range of the first distance from the traffic node as a variable. Determine the cost of occurrence of the phrase based on the Gaussian decay function of.
With such a configuration, among the names of a plurality of transportation hubs having a small number of characters, the transportation hub having a large number of passengers is preferentially detected. Therefore, the present invention can suitably realize the detection of a transportation hub based on schedule data.
Further, with such a configuration, the outing determination system according to the present invention does not make the determination of the occurrence cost a unique process based on a database reference or the like. Therefore, the present invention has a further technical effect that the frequency of data storage / reference related to the determination of the occurrence cost can be reduced and the database load can be reduced.

In a preferred embodiment of the present invention, the detection means is based on a second Gaussian attenuation function, where the linear distance from the user traffic node to the traffic node indicated by the phrase is a variable and the second distance is half-life. Determine the cost of occurrence of a phrase.
With such a configuration, it is possible to preferentially detect a traffic node within the action range of the user who is the input source of the schedule data. Therefore, the present invention can suitably realize the detection of a transportation hub based on schedule data.
Further, with such a configuration, the outing determination system according to the present invention does not make the determination of the occurrence cost a unique process based on a database reference or the like. Therefore, the present invention has a further technical effect that the frequency of data storage / reference related to the determination of the occurrence cost can be reduced and the database load can be reduced.

In a preferred embodiment of the present invention, whether or not to go out is determined based on a deep learning model.
With such a configuration, the present invention can realize highly accurate optimized outing determination for each user who is the input source of the schedule data.
Further, with such a configuration, the outing determination system according to the present invention does not make the determination regarding the presence or absence of going out a unique process based on a database reference or the like. Therefore, the present invention has a further technical effect that the frequency of data storage / reference related to the determination can be reduced and the database load can be reduced.

In a preferred embodiment of the present invention, the deep learning model detects the schedule and the corresponding emotional polarity, outing and non-going, each of the time and person included in the schedule data, and the detection means. The input value is the traffic node and the vector value related to the traffic node, and the output value is the vector value related to at least one of the possibility of going out and the possibility of not going out.
With such a configuration, the present invention can realize a deep learning model for a suitable outing determination that handles various information constituting the schedule data in multiple ways.
Further, with such a configuration, since the present invention is based on a deep learning model using a multidimensional vector value as an input value, the processing time related to learning can be shortened and the accuracy of inference based on the deep learning model can be shortened. It has a further technical effect of being able to achieve both improvement and improvement.

In a preferred embodiment of the present invention, the deep learning model is a recurrent neural network model in which user input data indicating going out or not going out is used as a teacher signal.
With such a configuration, in the outing determination system according to the present invention, the correctness of the inference result of the outing determination is input by the user. At this time, the user input data is preferably input by the user on the schedule data input screen or on the screen displayed superimposed on the schedule data input screen. Therefore, the user can easily input the teacher data. The present invention can suitably improve the accuracy of outing determination due to the above effects.
Further, with such a configuration, the present invention has a further technical effect that the learning time of the deep learning model until the accuracy of the outing determination is improved can be shortened by inputting the simple teacher data.

In a preferred embodiment of the present invention, the outing determination system includes at least a user traffic hub, a traffic hub, and a settlement means for determining the transportation cost based on the presence or absence of going out.
With such a configuration, the present invention can realize transportation expense reimbursement including highly accurate outing determination, which is not based on mere registration of a movement route.
Further, with such a configuration, the present invention does not make the determination of the transportation cost a unique process based on the schedule data and the database reference. Therefore, the present invention has a further technical effect of reducing the frequency of data storage / reference related to the determination of transportation costs and reducing the database load.

The present invention is an outing determination method, in which a detection step for detecting at least one of a schedule, a person, and a traffic node based on schedule data, and whether or not the schedule data is out based on at least the traffic node. To make the processor of the computer execute the determination step of determining.

The present invention is an outing determination program for determining whether or not a computer is out of schedule data based on schedule data and at least a detection means for detecting a traffic node and at least the traffic node. Act as a means and.

According to the present invention, outing determination including identification of a travel route for transportation expense settlement is optimal for each user by morphological analysis and machine learning based on the user's schedule data without using the usage history of transportation. It will be realized. In addition, outing determination is realized based on schedule data indicating the past schedule and the future schedule.

It is an outline of the outing determination system which concerns on embodiment of this invention. It is a hardware block diagram of the outing determination system which concerns on embodiment of this invention. It is a flowchart of the outing determination system which concerns on embodiment of this invention. It is a schematic diagram of the deep learning model in the outing determination system which concerns on embodiment of this invention.

Hereinafter, the outing determination system 1 according to the present invention will be described with reference to the drawings. The embodiments shown below are examples of the present invention, and the present invention is not limited to the following embodiments, and various configurations can be adopted.

For example, in the present embodiment, the configuration, operation, and the like of the outing determination system 1 will be described, but a method of the same configuration, a server device, a computer program, a recording medium, and the like can also exert the same effects. Further, the program may be stored in a recording medium. Using this recording medium, for example, a program can be installed on a computer. Here, the recording medium in which the program is stored may be, for example, a non-transient recording medium such as a CD-ROM.

In the present invention, there is no limitation on the service form in which the outing determination system 1 is used.

Further, in the present embodiment, the notification process related to the outing determination system 1 is performed by using the application stored in the user terminal 2. The notification process is not limited to this, and for example, the e-mail address associated with the user terminal 2. Various methods such as a method of sending an e-mail to the user and an SMS (Short Memory Service) can be used.

FIG. 1 is a diagram showing an outline of an outing determination system 1 according to the present embodiment.

In the present embodiment, the morphological analysis of the character string included in the schedule data SCL is performed, and the name of the traffic node or the base is detected. The outing determination system 1 performs learning / inference based on the deep learning model RNN based on the detected input value including the name, and makes an outing determination.

As shown in FIG. 2, the outing determination system 1 includes a user terminal 2 and a server device 3.

In the present embodiment, the user terminal 2 includes an arithmetic unit 201, a main storage device 202, an auxiliary storage device 203, an input device 204, an output device 205, a communication device 206, and a bus interface for interconnection. , Equipped with. The server device 3 includes an arithmetic unit 301, a main storage device 302, an auxiliary storage device 303, a communication device 304, and a bus interface for interconnection.

The arithmetic units 201 and 301 in this embodiment include a processor capable of executing an instruction set.

The main storage devices 202 and 302 in the present embodiment include volatile memories such as RAM (Random Access Memory) as an example.

As an example, the auxiliary storage devices 203 and 303 in the present embodiment include a non-volatile memory, and the recording method thereof is not limited.

The operating system (OS) 2001 is recorded in the auxiliary storage device 203 in this embodiment.

The auxiliary storage device 303 in the present embodiment includes an operating system (OS) 3001, an outing determination program 3002 that cooperates with the OS 3001 to exert its functions, and an application programming interface (API) for performing input processing from various routes. ) 3003 and is recorded.

As an example, the input device 204 in the present embodiment includes a touch panel, and the input method is not limited.

The output device 205 in this embodiment includes a video memory as a frame buffer for holding drawing information, and also includes a display device.

In the present embodiment, a SoC (System-on-Chip) including at least an arithmetic unit 201 and a main storage device 202 may be provided in the user terminal 2. At this time, the SoC may be provided with, for example, an integrated circuit (ASIC: Application Specific Integrated Circuit) optimized for a specific application.

The communication devices 206 and 304 in this embodiment are used to perform wireless communication. The communication is based on a wireless communication standard such as Wi-Fi (registered trademark). Radio waves, sound waves, light waves, etc. can be used as the communication medium, and there are no restrictions on the types. The communication device 206 in the present embodiment may use a wired communication standard using Ethernet (registered trademark) as an example.

The outing determination system 1 can perform data communication by using TCP / IP (Transmission Control Protocol / Internet Protocol) or the like as a communication protocol. The network NW can use various lines such as a CATV (Community Antenna Television) line, an out-of-home communication network, an aviation communication network, and a satellite communication network, and the communication method is not limited.

FIG. 3 shows a flowchart of the outing determination system 1 in the present embodiment.

The outing determination system 1 in the present embodiment is used for input process of schedule data SCL (step S10), detection process of traffic node by natural language processing based on the schedule data SCL (step S20), and inference processing by deep learning model. It has an outing determination process (step S30) based on this, a process of inputting and processing user input data indicating outing / non-going as a teacher signal (step S40), and a transportation expense settlement process of schedule data SCL (step S50).

The outing determination system 1 in the present embodiment includes a registration means 11, a detection means 12, a determination means 13, and a settlement means 14. The functions of the detection means 12, the determination means 13, and the settlement means 14 are preferably configured to be realized by the server device 3. At this time, the user terminal 2 performs the input processing of the schedule data SCL and the display processing related to the outing determination system 1. Used for. In addition, at least a part of the functions of the registration means 11, the detection means 12, the determination means 13, and the settlement means 14 may be performed by the user terminal 2.

In the present embodiment, the schedule data SCL is input processed to the server device 3 via the user terminal 2 (step S10). At this time, the configuration may be via API 3003. The schedule data SCL in the present embodiment has, for example, text data indicating a past schedule and a future schedule input and processed by a user in Google Calendar (registered trademark).

The registration means 11 is used for input processing of the schedule data SCL. Further, the registration means 11 is used for input processing of config data as an initial setting in the outing determination system 1. The config data includes words and phrases indicating a user traffic node, a user base, a regular traffic section, working hours, and going out or not going out.

The user traffic node includes the nearest station of the user's home address and the nearest station of the user's work address. The user base includes the user's home address and the user's work address. The user traffic node and the user base may each include the nearest station or address of the address associated with the organization of the business partner or business partner, respectively.

The detection means 12 performs natural language processing of the character string (text data) included in the schedule data SCL and divides it into words (step S20). The natural language processing is performed using a morphological analysis engine using Mecab (registered trademark) as an example.

The detection means 12 calculates the occurrence cost and the connection cost, and the detection means 12 is associated with the occurrence cost associated with the word in the character string included in the schedule data SCL and the phrase including the part of speech connecting the words. The total cost in the character string is calculated based on the connection cost (step S20). The detection means 12 determines a phrase and a combination of phrases that maximizes or minimizes the total cost in the character string. At this time, it is self-evident that the detection means 12 detects not only the transportation hub but also words and phrases such as a schedule and a person included in the schedule data SCL.

In the present embodiment, the cost of generating a word indicating a transportation hub included in the schedule data SCL is determined based on the importance score of the transportation hub. The importance score is determined based on the first Gaussian decay function with the number of traffic nodes within the range of the first distance from the traffic node as an independent variable. At this time, the first distance is uniquely determined for each user. The first Gaussian decay function in the present embodiment may be replaced with a decay function having a characteristic of linear or exponential decay.

The transportation hub in the present embodiment indicates a transportation hub including a station, an airport, a taxi stand, a bus terminal, an interchange, and a junction, and a road that allows people to come and go. Therefore, the transportation hub in this embodiment includes a transportation hub that can use a single means of transportation. It should be noted that any place on the road where the person can come and go can be a transportation hub in the present embodiment as a place for getting on and off a taxi.

In the present embodiment, a dedicated dictionary in which the name of the transportation hub and the occurrence cost are registered is used in the morphological analysis of the character string included in the schedule data SCL.

In the present embodiment, the cost of occurrence of the transportation hub is determined based on the number of characters of the transportation hub. The occurrence cost is determined based on an exponential function with the number of characters as a variable. At this time, the absolute amount of the occurrence cost increases as the number of characters increases.

In the present embodiment, the occurrence cost related to the name of a traffic node whose number of characters in the phrase is less than a predetermined number is determined based on the importance score associated with the traffic node. The occurrence cost may be determined based on the importance score and correction factor. It is preferable that the correction coefficient is empirically introduced.

In this embodiment, the relevance score of a transportation hub is determined based on character matching and regional matching. The relevance score is used to correct the cost of occurrence corresponding to the phrase indicating the transportation hub.

The character matching in the present embodiment is evaluated based on the characters constituting the word and the pronunciation indicated by the word. The character matching is determined by the Term Frequency and Inverse Document Frequency provided by Elasticsearch®.

The regional consistency in the present embodiment is determined based on the user traffic node and the linear distance of the traffic node. At this time, the relevance score is determined based on the second Gaussian decay function with the linear distance as the independent variable. The second Gaussian decay function has half-life as the second distance. The second distance is uniquely determined for each user.

The cost of generating a transportation hub in the present embodiment may be corrected based on the words immediately before / immediately after. If a predetermined phrase is attached immediately after a word indicating a transportation hub, the cost of occurrence of the word is corrected.

The determination means 13 acquires a vector value relating to at least one of the possibility of going out and the possibility of not going out as an output value based on the deep learning model RNN having a vector value based on the schedule data SCL as an input value, and outputs the vector value. The presence or absence of going out is determined based on the value (step S30). At this time, the presence or absence of the going out may be determined based on whether either the possibility of going out or the possibility of not going out exceeds an arbitrarily determined threshold value. Further, the presence or absence of going out may be determined based on the magnitude relationship between the vector value indicating the possibility of going out and the vector value indicating the possibility of going out.

FIG. 4 shows an outline of the deep learning model RNN in this embodiment.

In the present embodiment, the input values D11, D12, D13, D14, D15 and D16 in the deep learning model RNN are sentiment analysis data, traffic node data, outing event data, non-outing event data, attendee data and time, respectively. Associated with data.

The deep learning model RNN is preferably configured as a recurrent neural network model having an input layer, an intermediate layer, a state layer, and an output layer. The input layer, middle layer, state layer and output layer have one or more neurons. As an example, the neuron response functions in the input and output layers are linear functions. Also, as an example, the response function of neurons in the middle layer is the sigmoid function. The input layer and the output layer are used for the input of the vector value (input value) and the output of the vector value (output value), respectively. The intermediate layer is used for feedback processing based on input values and output values, and the number of layers is not limited.

In the present embodiment, the determination means 13 performs learning processing based on the output value and the teacher signal (teacher data). In the learning process, as an example, a method based on the backpropagation method is used for the feedback process. The feedback process updates the weighting factors between neurons. At this time, optimization of the output value and the teacher data, including determination of a part of the weighting coefficient and the input value so as to minimize the difference, is performed based on the steepest descent method. The numerical calculation algorithm for the optimization is not limited to the steepest descent method.

As an example, the information held in the intermediate layer is stored in the state layer of the deep learning model RNN. In the present embodiment, the state layer may be configured to store the information held in the output layer. The deep learning model RNN in the present embodiment is, for example, an RSTM (Long Short-Term Memory) network. In the present embodiment, the determination means 13 determines whether or not to go out based on the deep learning model RNN after the learning process is performed, but each time the determination regarding whether or not to go out is made, the teacher signal is input. When is performed, the learning process is performed as appropriate.

The sentiment analysis data in this embodiment shows the emotional polarity of words and phrases contained in the schedule data SCL. Specifically, the words of the meeting correspond to the negative emotional polarity, and the words of the drinking party correspond to the positive emotional polarity. The positive and negative are associated with vector values in the range 0 to 1, respectively. At this time, the sentiment analysis data is updated based on the deep learning model RNN.

The traffic node data in the present embodiment shows a vector value determined based on the presence / absence of a traffic node detected by the detection means 12 in the schedule data SCL, the occurrence cost, and the like. As an example, the vector value is 1 when the phrase indicating the name of the traffic node is included, and 0 when the phrase indicating the name of the traffic node is not included.

The vector value of the outing event in the present embodiment is determined based on the presence or absence of a phrase suggesting outing in the schedule data SCL. Specifically, when the target phrase is a business trip, the vector value is 1. The vector value is not limited to 1 or 0, and may be> 1 when it is a phrase that strongly suggests going out. If there are multiple words that suggest going out, the maximum vector value is adopted.

The vector value of the non-going out event in the present embodiment is determined based on the presence or absence of a phrase suggesting non-going out in the schedule data SCL. Specifically, when the target term is an in-house meeting, the vector value is 1. The vector value is not limited to 1 or 0, and may be> 1. When there are a plurality of words indicating non-going out, the maximum vector value is adopted.

Each of the words and phrases indicating outing and non-going out in the present embodiment is registered in advance as config data. The config data is updated each time by user input. At this time, the config data may be updated based on the deep learning model RNN.

The attendant data in the present embodiment indicates a vector value determined based on the person information associated with the person name or the e-mail address in the schedule data SCL. The attendee data is registered in advance and updated each time by user input. The vector value is not limited to the range of 0 to 1, and it is preferable that the vector value is uniquely assigned to a person or an e-mail address.

The time data in the present embodiment refers to a vector value associated with the time zone information classified based on the rule. As an example, it can be all-day, half-day, morning, or afternoon, and the corresponding vector values are treated as input values.

The input value related to the deep learning model RNN in the present embodiment may include at least the vector value related to the traffic node detected by the detection means 12, in order to ensure the accuracy of the determination regarding the presence or absence of going out. It is self-evident that the number of dimensions related to the vector corresponding to the input value is adjusted as appropriate.

In the present embodiment, the user determines whether or not the result of the outing determination output by the determination means 13 is correct or not. After that, the user input data indicating going out / non-going out is input processed by the user (step S40). At this time, the learning process of the deep learning model RNN using the user input data as the teacher data is performed. In the present embodiment, the location information history of the user and / or the usage history of public transportation by the information storage card may be used as teacher data in the deep learning model RNN in addition to the user input data. Good.

The settlement means 14 determines the transportation cost related to the schedule data SCL for which the determination means 13 has determined that the person has gone out (step S50). The determination is made based on the traffic node, the nearest station at home, the nearest station at work, and the regular section detected by the detection means 12. At this time, the transportation cost is determined based on the transportation charge database including the information on the transportation charge. It should be noted that the determination of transportation expenses related to travel outside working hours may be invalidated. At this time, the transportation cost for traveling outside working hours is determined to be zero.

The traffic node in the present embodiment may be configured to be associated with the name of the base.

According to the present invention, the outing determination for the settlement of transportation expenses is realized by machine learning based on schedule data without using the usage history of transportation.

1 Outing determination system 11 Registration means 12 Detection means 13 Judgment means 14 Settlement means 2 User terminal 3 Server device 201, 301 Arithmetic logic unit 202, 302 Main storage device 203, 303 Auxiliary storage device 204 Input device 205 Output device 206, 304 Communication device 2001, 3001 Operating System (OS)
3002 Outing judgment program 3003 Application programming interface (API)
D11, D12, D13, D14, D15, D16 Input value D21, D22 Output value NW Network RNN Deep learning model S10, S20, S30, S40, S50 Step SCL Schedule data

Claims (11)

It is an outing judgment system
A detection means that detects at least a transportation hub based on schedule data,
A determination means for determining whether or not to go out related to the schedule data, at least based on the traffic node,
An outing judgment system that has. The detection means determines the occurrence cost or the connection cost corresponding to one or more words and phrases included in the schedule data based on the schedule data, and detects the traffic node based on at least the occurrence cost.
The outing determination system according to claim 1. The detection means determines the occurrence cost of the phrase based on an exponential function having the number of characters of the traffic node indicated by the phrase as a variable.
The outing determination system according to claim 2. When the number of characters of the traffic node indicated by the phrase is less than the predetermined number of characters, the detection means has a first Gaussian decay function in which the number of traffic nodes within the range of the first distance from the traffic node is used as a variable. Determine the cost of occurrence of the phrase based on
The outing determination system according to claim 2 or 3. The detection means is based on a second Gaussian attenuation function in which the linear distance from the user traffic node to the traffic node indicated by the phrase is a variable and the second distance is half-life, and the occurrence cost of the phrase is To decide,
The outing determination system according to any one of claims 2 to 4. The determination means determines whether or not to go out based on the deep learning model.
The outing determination system according to any one of claims 1 to 5. In the deep learning model, each of the emotional polarity, outing and non-going out, which corresponds to the schedule included in the schedule data, each of the time and the person included in the schedule data, and the detection means. The outing determination system according to claim 6, wherein the traffic node and the vector value related to the traffic node are input values, and the vector value related to at least one of the possibility of going out and the possibility of not going out is used as an output value. The deep learning model is a recursive neural network model in which user input data indicating going out or not going out is used as a teacher signal.
The outing determination system according to claim 6 or 7. It is an outing judgment system
It has at least a payment means for determining transportation expenses based on the user's transportation hub, the transportation hub, and the presence or absence of going out.
The outing determination system according to any one of claims 1 to 8. It ’s an outing judgment method.
A detection step that detects at least a transportation hub based on schedule data,
A determination step for determining whether or not to go out related to the schedule data, at least based on the traffic node, and
A method of determining when to go out, which causes the processor of the computer to execute. It is an outing judgment program, and the computer
A detection means that detects at least a transportation hub based on schedule data,
A determination means for determining whether or not to go out related to the schedule data, at least based on the traffic node,
An outing judgment program that functions as.