JP2010026748A - Content generation device, server device, and content generation system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a service for providing a user of his or her health condition, and to provide a content generation system for urging the user to use the service for a long term by giving an entertainment to the user. <P>SOLUTION: This content generation system 100 includes: content generation devices 106A, 106B and 106C or the like for providing content corresponding to information to be detected from breath of a user; and a server device 102 connected through the Internet 104 to the content generation devices 106A, 106B and 106C for managing information to be detected from the breath transmitted from the content generation device 106A or the like, and for, in response to the request of the user, transmitting data for content generation corresponding to the request and information to be detected from the breath of the user. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a content generation device, and more particularly to a content generation device, a server device, and a content generation system for providing a user with content based on information detected from a user's breath.

  In recent years, self-management of health has attracted attention due to problems such as an aging society and metabolic syndrome (metabolic syndrome). The most noticeable of these problems is lifestyle-related diseases. It is said that lifestyle-related diseases can be avoided and recovered quickly by changing lifestyle. Therefore, even those who are not suffering from illness and those who have no subjective symptoms are considered to need to always manage their health condition to prevent illness.

  Patent Document 1 discloses a remote evaluation system that allows a doctor or the like to grasp a patient's medical condition even if the doctor and the patient are far away from each other. The remote evaluation system is provided by a patient electronic data collection device that is held by a patient and collects data related to a patient's medical condition, and is provided to some extent from the patient electronic data collection device, and is connected to the patient electronic data collection device. Network computer systems used by doctors and pharmacists.

  The patient enters data regarding the patient's medical condition into the patient electronic data collection device. The method of inputting data is performed as follows. The patient electronic data collection device is provided with a mouthpiece. The patient breathes with the mouth in contact with the mouthpiece. The patient electronic data collection device analyzes the patient's respiration and transmits the analysis result to the network computer system.

  Doctors and pharmacists can see the analysis results sent to the network computer system to determine what the patient's medical condition is, and determine which drugs to prescribe for the patient be able to. As a result, doctors and the like can arrange prescribed drugs for patients. The patient can bother to go to the hospital and take an appropriate medicine arranged by the doctor or the like without being directly examined by the doctor.

Patent Document 2 discloses a portable game machine. The portable game machine includes an odor sensor for measuring a gas concentration from a user's breath, an input / output device such as a numeric keypad, a power button, and a speaker, a display, and the like. The portable game machine inputs the user's breath into the odor sensor, and measures the concentration of gas such as carbon monoxide, methane, and ammonia from the input breath. The portable game machine expresses the magnitude of bad breath by a numerical value depending on whether the measured gas concentration is large or small. The portable game machine displays a prepared character on the display in accordance with the numerical value of the bad breath. The character in Patent Document 2 is an image of the face of an animal such as a bear. The portable game machine has a plurality of images prepared by changing the facial expression of the bear in advance. The portable game machine displays one image of a plurality of images on the display according to the numerical value of the bad breath. Therefore, the portable game machine described in Patent Document 2 can provide the user with entertainment that displays different images according to the size of bad breath.
Special table 2003-511124 JP 2002-273032 A

  The technology described in Patent Document 1 is a service for only those who have already suffered from a disease. Therefore, it can be said that for those who are in a healthy state and those who have no subjective symptoms, the service is difficult to use to manage the health state and prevent disease.

  In patent document 2, the service for displaying the image of a character according to the magnitude | size of a bad breath is provided. However, simply displaying images prepared in advance makes it difficult for the user to know the pattern in which an image appears as to which image is displayed, and to maintain the user's interest. If the user's interest cannot be sustained for a long period of time, it is difficult to achieve the purpose of always managing the health condition for a long period of time.

  Moreover, in the image of the character of patent document 2, in addition to the image in which the display of the character is changed, an image including a document indicating whether or not the bad breath is large is also prepared. The health state of the user will be described in detail. There is no image expressed as such. In an image indicating whether or not bad breath is large, it is difficult for a user who has no specialized medical knowledge to know what health state he is in. In addition, even if it is conscious that the bad breath is large, it may be left without consulting with a doctor and a dentist if the specific disease content is not clearly presented.

  Further, in Patent Document 2, some games are prepared in addition to a service for displaying an image of a character according to the size of bad breath, but these are not related to health care. Therefore, the technique described in Patent Document 2 is also difficult to achieve the purpose of always managing the health condition.

  Accordingly, an object of the present invention is to provide a service for presenting a user's health status to the user, and a content generation apparatus and server capable of using the service for a long period of time by providing entertainment to the user An apparatus and a content generation system are provided.

  A content generation apparatus according to a first aspect of the present invention detects a concentration of a specific chemical substance from a biological sample of a user and outputs a concentration signal, and a concentration signal output by the biological sample sensor. Content generating means for generating content whose scenario changes according to the value.

  The biological sample sensor detects the concentration of the specific chemical substance from the biological sample of the user, and the content generation unit generates content whose scenario changes according to the concentration signal output by the biological sample sensor.

  If the content generation device is used, the scenario of the content changes depending on the biological sample of the user. Therefore, the user estimates and grasps the state of his / her body from the content, and Can manage to some extent the health condition.

  Further, a person who is a target of using the content generation device is not limited to a person suffering from a disease and a person who has specialized medical knowledge. Even if a person who does not have a disease uses it, he / she can guess the state of his / her body every day by enjoying the content that is generated by the content generation means and the scenario changes according to the value of the concentration signal. You can try to do activities to maintain your health. In addition, even if a person who has a disease but has no subjective symptoms, the content detected in a biological sample may generate content for a scenario that suggests that the physical condition is not good. The user can confirm the scenario and immediately consult with a specialist.

  Furthermore, since the content generation unit generates content whose scenario varies depending on the biological sample of the user, the user can use the content generation device while enjoying the program for a long period of time.

  As a result, it is possible to provide a content generation device that provides a service for presenting the user's health condition to the user and allows the user to use the service for a long period of time by providing entertainment.

  Preferably, the content generation device further includes a display device. The content generation unit includes a unit for generating a content whose scenario changes according to the value of the density signal and displaying an image on the display device.

  The means for generating generates content for which a scenario changes according to the value of the density signal, and displays an image on a display device. If the image displayed on the display device is suitable for the user's preference, the user can feel that he / she wants to use the content generation device for a long period of time. Therefore, the user can manage his / her health condition by using a content whose scenario changes according to the concentration signal for a long period of time by estimating his / her physical condition to some extent.

  More preferably, the content generation means is an offline content generation means for generating a content whose scenario changes according to the value of the concentration signal output by the biological sample sensor and is executed offline on the content generation device. including.

  The content generation means generates content that is executed offline. Therefore, the user can personally or domestically use the content generation device to manage his / her health condition and enjoy and use the content generated by the content generation device for a long period of time. it can.

  More preferably, the off-line content generation means includes content generation program execution means for executing a computer program for generating content with the value of the density signal as an input.

  More preferably, the content generation device further includes receiving means for receiving a computer program from outside by communication, and program storage means for storing the computer program received by the receiving means.

  The receiving means receives a computer program from the outside by communication, and the program storage means stores the computer program received by the receiving means. If the computer program for generating the content is received from the outside, when the user gets bored with the existing content in the content generation device, the user can delete the content received from the outside. Can be used. Therefore, the user can use the content whose scenario changes according to the concentration signal for a long period of time, and can manage his / her health condition by estimating his / her physical condition to some extent.

  More preferably, the content generation unit generates a data request signal for requesting content generation data, which is a parameter for generating content, based on the value of the density signal, and transmits the data request signal to a predetermined server device. And data receiving means for receiving content generation data transmitted in response to the data request signal from the server device, and means for generating content using the content generation data received by the data receiving means as parameters. Including.

  More preferably, the request transmission means includes means for transmitting a data request signal including the value of the concentration signal to the server device. The data receiving means includes means for receiving a ranking in a predetermined user set of values of the density signal of the user transmitted in response to the data request signal from the server device. The means for generating includes means for generating content that presents the user rankings received by the means for receiving.

  More preferably, the content generation device further includes storage means for storing a time series of values of the concentration signal output by the biological sample sensor. The content generation means includes means for generating content that presents the time series of the physical condition of the user based on the time series of the value of the density signal stored in the storage means.

  More preferably, the biological sample is a user's breath.

  A server device according to a second aspect of the present invention includes a request receiving unit for receiving a data request signal including a value of a concentration signal of a specific chemical substance detected from a biological sample from an arbitrary terminal device, and a request receiving unit In response to receiving the data request signal, data for generating content generation data that changes depending on the value of the concentration signal in the data request signal, and data to be transmitted to the terminal device that has transmitted the data request signal Transmitting means.

  A content generation system according to a third aspect of the present invention includes a content generation device and a server device. A content generation device detects a concentration of a specific chemical substance from a biological sample of a user and outputs a concentration signal, and content in which a scenario changes according to the value of the concentration signal output by the biological sample sensor Content generation means for generating content, request transmission means for transmitting to the server device a data request signal for requesting content generation data that is a parameter for generating content based on the value of the density signal, and a server Data receiving means for receiving content generation data transmitted in response to a data request signal from the apparatus, and means for generating content using the content generation data received by the data receiving means as a parameter. The server device depends on the value of the density signal in the data request signal in response to the request receiving means for receiving the data request signal from any content generation device and the request receiving means receiving the data request signal. Data transmission means for generating the content generation data that changes and transmitting the data generation signal to the content generation apparatus that has transmitted the data request signal.

  A content generation device according to a fourth aspect of the present invention detects a concentration of a specific chemical substance from a user's biological sample and outputs a concentration signal, and stores the output of the biological sample sensor. A storage means, a service providing means for providing one or a plurality of services that respectively present contents using the output of the biological sample sensor stored in the storage means, and one or more in response to a user operation Menu selection means for presenting a menu for selecting a plurality of services and receiving menu selection input from the user, and corresponding to the menu selected by the menu selection means among one or a plurality of services Activating means for activating service providing means for providing the service to be performed.

  Preferably, the content generation device further includes a network interface that provides a connection to the network. The service providing means communicates with another apparatus using a network interface, thereby providing the user with a service provided by the other apparatus using the output of the biological sample sensor stored in the storage means. Includes online service provision means.

  More preferably, the service provided by the other device is a health information providing service using the output of the biological sample sensor stored in the storage means.

  More preferably, the service provided by the other apparatus is an introduction service of a medical institution using the output of the biological sample sensor stored in the storage unit.

  More preferably, the content generation device is an Internet television device connected to the Internet. The other device is a television program information server, and the online service providing means determines the health condition of the user based on the output of the biological sample sensor stored in the storage means, and the television related to the health condition. The program presenting means for obtaining the John program from the program information server and presenting it to the user is included.

  More preferably, the service provided by the other device is comparison information with another user using the output of the biological sample sensor stored in the storage unit.

  More preferably, the service provided by the other device is a role-playing game in which the state of the appearing character changes according to the output of the biological sample sensor stored in the storage means.

  More preferably, the service providing means includes an offline service providing means for providing a service executed offline on the content generation device using the output of the biological sample sensor stored in the storage means.

  More preferably, the storage means includes means for storing the output of the biological sample sensor together with the measurement date and time. The off-line service providing means includes time-series change presenting means for presenting the output of the biological sample sensor stored in the storage means and the time-series change of the measurement date and time.

  More preferably, the time-series change presenting means includes a graph presenting means for presenting the output of the biological sample sensor stored in the storage means as a graph with respect to the measurement date and time.

  More preferably, the offline service providing means writes a sentence storage means for storing a sentence associated with the output value of the biological sample sensor in advance, and a sentence corresponding to the output of the biological sample sensor stored in the storage means. Means for extracting from the storage means and presenting to the user;

  More preferably, the off-line service providing means updates the parameter defining the growth state of the specific character based on the output of the biological sample sensor stored in the storage means, and the parameter update. Means for generating and displaying an image of a particular character based on the parameters updated and stored by the means.

  More preferably, the storage unit, the service providing unit, the menu selecting unit, and the starting unit are realized by a computer that can be substantially connected to a network and software executed on the computer. The content generation device includes a computer, a recording medium that is connected to the computer and stores software executed by the computer, and a first housing that houses communication means for wirelessly communicating with other devices, The biological sample sensor, the input device operated by the user to perform input to the computer, and the output of the biological sample sensor and the output of the input device are transmitted wirelessly to the communication means of the computer. And a second housing that accommodates the transmission means.

  According to the present invention, since the content scenario changes depending on the user's biological sample, the user can estimate and grasp the state of his / her body from the content, Can be managed to some extent.

  In addition, a person who is a target of use of the present invention is not limited to a person who suffers from a disease and a person who has specialized medical knowledge. Even if a person who does not have a disease uses it, by enjoying the content generated by the content generation device, he can infer his / her physical condition every day and conduct activities to maintain his / her health. You can try to go. In addition, even if a person who has a disease but has no subjective symptoms, the content of a scenario that suggests that the physical condition is not good may be generated by the concentration detected from the biological sample of the user Therefore, the user can confirm the scenario and immediately consult with a specialist.

  Furthermore, since the content generation device generates content whose scenario changes depending on the biological sample of the user, the user can use the content generation device while enjoying it for a long period of time.

  As a result, it is possible to provide a content generation device that provides a service for presenting the user's health condition to the user and allows the user to use the service for a long period of time by providing entertainment.

[Disease points]
Hereinafter, for preparation, an evaluation index called a disease point calculated from the concentration of a chemical substance detected from the breath of a subject will be described. In some services described later, these points are used as parameters for content generation.

The chemical substance to be detected from the user's _{breath, NO, CO, H 2 O} 2, ethane, pentane, hydrogen, ammonia, there are acetone, and methyl mercaptan. By detecting the concentration of each of these chemical substances in the breath, it is possible to estimate what kind of disease the subject suffers from.

  Hereinafter, in particular, a subject's disease estimated from the hydrogen concentration will be described. The hydrogen concentration contained in exhaled breath is used as an index for determining whether or not the subject has gastrointestinal disease.

  In general, the higher the age of the subject, the higher the concentration of hydrogen contained in exhaled breath, and the lower the concentration of hydrogen contained in expired air, regardless of age, the more healthy the patient does not suffer from gastrointestinal disease. ing.

  Therefore, in the present embodiment, the average value of the hydrogen concentration contained in the breath of a subject who is in their teens, 20s, 30s, and 40s and does not suffer from a gastrointestinal disease is about 5 ppm (parts), respectively. per million), 10 ppm, 10 ppm, and 20 ppm. Moreover, the average value of the hydrogen concentration contained in the exhalation of the test subject suffering from a gastrointestinal disease who is in their teens, 20s, 30s, and 40s is about 25 ppm, 25 ppm, 30 ppm, and 45 ppm, respectively. Shall.

  In the present invention, the average value of the hydrogen concentration when not suffering from a gastrointestinal disease or when suffering from a gastrointestinal disease is not limited to the above-described numerical values, and numerical values obtained by experiments may be used.

  Hereinafter, when the subject does not suffer from gastrointestinal disease, that is, is healthy, the average value of the concentration of the chemical substance detected from exhalation is referred to as `` average value during health '', and when the subject suffers from the disease, The average value of the concentration of the chemical substance detected from exhaled breath is called the “average value during malfunction”.

  The more healthy the hydrogen concentration in the breath of subjects in their teens, 20s, 30s, and 40s that are closer to or smaller than 5 ppm, 10 ppm, 10 ppm, and 20 ppm, respectively, the healthier the subject with respect to the gastrointestinal tract. It can be said that there is. In addition, as the hydrogen concentration in the breath of subjects in their teens, 20s, 30s, and 40s approaches or exceeds 25 ppm, 25 ppm, 30 ppm, and 45 ppm, respectively, It can be said that it is unhealthy about the gastrointestinal tract.

  The same can be said for chemical substances detected from exhaled breath other than hydrogen. For ethane, NO, hydrogen, ammonia, acetone, and methyl mercaptan, there are mean values for health and mean values for malfunction. Oxidative stress, pulmonary disease, gastrointestinal disease, kidney disease, metabolic disorder, and oral disease, respectively, as the concentrations of ethane, NO, hydrogen, ammonia, acetone, and methyl mercaptan are larger than the average value during health and farther away from each other. It is known that the possibility of suffering from is increased.

  Therefore, an evaluation index called “disease point” is defined to indicate how close the concentration of the chemical substance detected from exhalation is to the average value during health or the average value during malfunction.

  Let x and y be the average value during health and the average value during malfunction of a certain chemical substance detected from exhaled breath, and z be the concentration of the chemical substance detected from the exhaled breath of the subject. When x> z, the disease point is defined as 0 [%], and when x ≦ z, the disease point is defined as (z−x) / (y−x) × 100 [%]. When defined in this way, the disease point becomes closer to 0 [%] as the concentration of the chemical substance detected from the breath of the subject is closer to the healthy average, and the disease point becomes closer to the average value during the malfunction. Becomes close to 100 [%]. Therefore, the healthier the subject, the closer the disease point is to 0, and the healthier the health, the higher the disease point.

[Excellent points]
Hereinafter, in the present invention, an evaluation index referred to as an “excellent point” for defining how healthy a user is for each disease is defined.

  For each gas, if the disease point is greater than 100, the good point is 0, and if the disease point is 0 or more and 100 or less, the good point is defined as (100-disease point). To do.

  If the good points are defined in this way, if the good points of a certain disease are close to 0, the user is more likely to have the disease, and if close to 100, the user is healthy with respect to the disease. Become.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the embodiments, the same parts are denoted by the same reference numerals. Their functions and names are also the same. Therefore, detailed description thereof will not be repeated.

[Network environment]
FIG. 1 is a diagram showing a simplified configuration of a content generation system 100 according to an embodiment of the present invention. Referring to FIG. 1, content generation system 100 according to the present embodiment provides content in which a scenario changes according to the value of a specific gas component detected from a user's breath as a parameter. Content generation devices 106A, 106B, 106C, etc. for connecting to the content generation devices 106A, 106B, 106C, etc. via the Internet 104, and information detected from exhaled breath transmitted from the content generation devices 106A, etc. A server apparatus 102 for managing and transmitting content generation data, which is a parameter for content generation, in accordance with information detected from the request and the user's breath in response to a user request .

  In the present invention, “content” refers to the contents of an information service such as a moving image, audio, and text provided by a network and information equipment. Note that the information service is not limited to moving images, audio, and text, and any information service may be used as long as it is an information service provided to the user by a network and an information device.

  Hereinafter, the content generation devices 106A, 106B, and 106C may be simply referred to as the content generation device 106.

[Appearance Configuration of Content Generation Device 106]
FIG. 2 is a plan view showing an external configuration of the content generation device 106. Here, it is assumed that the content generation apparatuses 106A, 106B, and 106C have the same configuration as the content generation apparatus 106. Referring to FIG. 2, a content generation device 106 is a television connected to the Internet 104, and a display device 130 for providing the user with content corresponding to information detected from the user's breath. And a remote controller that is separate from the housing of the display device 130 for causing the user to operate the display device 130. The user's exhalation is input, and the concentration of a plurality of specific chemical substances is input from the input exhalation. And an operation device 134 for transmitting the information to the display device 130.

  The display device 130 includes a display unit 132.

<Functional Configuration of Operation Device 134>
FIG. 3 is a block diagram illustrating a functional configuration of the operation device 134. Referring to FIG. 3, the operation device 134 is used when the user operates the display device 130 such as an expiration sensor 152 that detects the concentrations of a plurality of gases simultaneously from the expiration 150 of the subject and a numeric keypad. And a communication device 156 that transmits the instruction from the user input to the input device 158 and the concentration of each gas detected by the breath sensor 152 to the display device 130.

The plurality of gases detected from the user's exhalation are NO, CO, H ₂ O ₂ , ethane, pentane, hydrogen, ammonia, acetone, and methyl mercaptan, and the exhalation sensor 152 determines the concentration of these chemical substances. It is possible to detect at the ppb (parts per billion) level simultaneously.

<Functional Configuration of Display Device 130>
FIG. 4 is a block diagram illustrating a functional configuration of the display device 130. Referring to FIG. 4, display device 130 is connected to control unit 182 that is substantially a computer that controls the control center of display device 130, and operation device 134 that is connected to control unit 182. A first communication device 170 for communicating data with the device 134, a second communication device 178 that can be connected to the server device 102 via the Internet 104, and for transmitting / receiving data to / from the server device 102, and And a storage unit 180 for storing various information.

  The control unit 182 controls the operation device 134 to detect the gas component of the user's breath via the first communication device 170, and stores the detected gas component in the storage unit 180 together with the measurement date and time. In response to an instruction from the operation device 134 via the first communication device 170 and the exhalation measurement unit 176, the gas component of the user, which is the output of the exhalation measurement unit 176, stored in the storage unit 180 In response to an instruction from the operation device 134 via the first communication device 170 and an offline application execution unit 174 for displaying an image on the display unit 132 based on the value and providing content to the user , An online application for providing content to the user based on the data stored in the storage unit 180 and the data from the server device 102 via the second communication device 178 And a line section 172.

  The content provided by the offline application execution unit 174 is based on history display content that is a content for indicating a history of a certain gas component concentration for a certain period of time, and gas components detected from the user's breath (of these components). Component fortune-telling content that is content for generating and displaying sentences such as fortune, fortune-telling, and today's sayings, and content for RPG (Role Playing Game) The value of the gas component detected from the user's exhalation is used as a parameter, and the RPG content is a content that the RPG character specifically increases or grows according to the value. .

  The content provided by the online application execution unit 172 ranks the health status determined by using the concentration of a specific gas component in exhaled air as a parameter among a large number of unspecified users on the Internet, and the ranking is determined by the user. A breath ranking content that is a content to be shown in FIG. 1, a health information program providing content that is a content that determines a user's health status from the exhalation, and provides TV program information according to the determined health status, The user's health status is determined from the latest information providing content that is a content for sending academic papers as electronic data according to the determined health status, and the user's health status is determined from expiration Content to compare the health status of other users and the health status of other users on the Internet 104 to compete That consists of an online exhalation battle content.

  In the present invention, contents provided by the offline application execution unit 174 and the online application execution unit 172 are referred to as offline content and online content, respectively.

  FIG. 5 is a diagram illustrating the configuration of the storage unit 180 and the offline application execution unit 174. Referring to FIG. 5, the storage unit 180 includes an exhalation information DB 212 for storing gas components detected from a user's exhalation, an average value of each gas concentration and a healthy average value for each gas and age range, and Expiration reference value DB 214 for storing the average value during malfunction, document DB 206 for storing sentences such as fortune, fortune telling, and today's saying displayed in the component fortune-telling content, and information on characters in the RPG content For example, and a character growth condition DB 210 used in the RPG content for storing character growth conditions.

  The offline application execution unit 174 refers to the exhalation information DB 212, the exhalation reference value DB 214, and the document DB 206 in accordance with an instruction from the operation device 134 via the first communication device 170, and reads the text stored in the document DB 206. In response to an instruction from the operation device 134 via the first communication device 170 and the component fortune-telling execution unit 200 for executing the process of displaying the component fortune-telling content on the display unit 132 to the user, the expiration information DB 212 From the operation device 134 via the first communication device 152 and the character generation unit 202 for executing processing for providing RPG content with reference to the expiratory reference value DB 214, the character information DB 208, and the character growth condition DB 210. By referring to the expiration information DB 212 and the expiration reference value DB 214. And a history display section 204 for executing a process of providing a display content to a user.

[Functional configuration of server apparatus 102]
FIG. 6 is a block diagram illustrating a functional configuration of the server apparatus 102. Referring to FIG. 6, server device 102 is connected to control unit 240 that is substantially a computer that controls the control center of server device 102, and is connected to control unit 240, and is connected to content generation device 106 via Internet 104. It includes a communication device 244 for transmitting and receiving data, and a storage unit 242 connected to the control unit 240 for storing various information.

  The storage unit 242 is used in the breath information DB 246 having the same configuration as the breath information DB 212 shown in FIG. 5, the breath reference value DB 248 having the same structure as the breath reference value DB 214 shown in FIG. A program data DB 250 for storing information on the TV program to be played, and a latest information DB 252 for storing electronic data of academic papers used in the latest information providing content.

[DB configuration]
FIG. 7 is a diagram showing a configuration of the exhalation information DB 212 shown in FIG. Referring to FIG. 7, each record of breath information DB 212 includes a user ID field for storing the ID of each user of content generation device 106, a registration date field for storing the date on which the record is registered, and , A registration time field for storing the time when the record was registered, and NO, CO, H ₂ O ₂ , ethane, pentane, hydrogen, ammonia, acetone, detected from the user's breath at the registration date and time, NO concentration field, CO concentration field, H ₂ O ₂ concentration field, ethane concentration field, pentane concentration field, hydrogen concentration field, ammonia concentration field, acetone concentration field, and methyl for storing the concentrations of methyl mercaptan and methyl mercaptan, respectively. It consists of a mercaptan concentration field.

  FIG. 8 is a diagram showing the configuration of the document DB 206 shown in FIG. Referring to FIG. 8, each record in document DB 206 includes a gas name field for storing the name of the gas detected from the user's breath, and a disease point for each gas stored in the gas name field. A document for storing sentences such as fortune, fortune telling, and today's sayings that change in the combination of the disease point field for storing the range and the range of the gas and disease point range, and are shown to the user in the component fortune-telling content Data field.

  FIG. 9 is a diagram showing a configuration of the expiration reference value DB 214 shown in FIG. Referring to FIG. 9, each record of expiration reference value DB 214 includes a gas name field for storing the name of a gas detected from the user's expiration, and an age range field for storing an age range. The average value during health and the average value during malfunction are stored in the mean field during health and the mean field during malfunction, respectively.

  FIG. 10 is a diagram showing the configuration of the character information DB 208 shown in FIG. Referring to FIG. 10, each record of character information DB 208 includes a user ID field for storing the ID of each user of content generation apparatus 106, a character image field for storing an image of an RPG character, The state of the RPG character depends on the level field for storing the level, which is an index for indicating the strength level of the RPG character, as a numerical value, and the concentration of each chemical substance detected from the user's breath. , An ability field for storing the occupation of the RPG character, an experience field for storing the experience value of the RPG character, the current state, HP ( Hit Point), MP (Magic Point), physical attack power, physical defense power, magic It consists of a status field for storing a character status similar to that used in normal RPG, such as legal attack power, magic defense power, quickness, weapons, armor, and belongings.

  FIG. 11 is a diagram showing a configuration of the character growth condition DB 210 shown in FIG. Referring to FIG. 11, each record of character growth condition DB 210 includes a gas name field for storing the name of a gas detected from the user's breath, and a disease point field for storing a range of disease points. The expiratory tendency field for storing the same data as the expiratory tendency field of the character information DB 208 shown in FIG. 10 and any item such as physical attack power and physical defense power in the status field of the character information DB 208 A status field for storage, and a growth point field that indicates how much the numerical value of the item stored in the status field increases as each character level-up, depending on the range of gas and disease points Consists of.

  FIG. 12 is a diagram showing the configuration of the exhalation information DB 246 shown in FIG. Referring to FIG. 12, the configuration of each record in exhalation information DB 246 is substantially the same as exhalation information DB 212 shown in FIG. The breath information DB 212 stores only a record for the user of one content generation device 106, but the breath information DB 246 stores a record of a user of an arbitrary content generation device 106 existing on the Internet 104. Remembered.

  FIG. 13 is a diagram showing the configuration of the program data DB 250 shown in FIG. Referring to FIG. 13, each record of program data DB 250 includes a gas name field for storing the name of the gas detected from the user's breath, and a disease point of each gas stored in the gas name field. It consists of a program data field for storing program data such as a television station, a broadcast time zone, a program name, etc. of a health information program associated with a disease caused by a large concentration of each gas for a large user.

  FIG. 14 is a diagram showing a configuration of the latest information DB 252 shown in FIG. Referring to FIG. 14, each record of the latest information DB 252 includes a gas name field for storing the name of the gas detected from the user's breath, and a disease point of each gas stored in the gas name field. It consists of a latest information data field for storing electronic data of academic papers related to diseases caused by the high concentration of each gas for large users.

  It is assumed that the data stored in the program data field of the program data DB 250 and the latest information data field of the latest information DB 252 are updated to the latest information every day by the administrator of the server apparatus 102.

[Screen structure]
Hereinafter, an example of a screen displayed on the display unit 132 in each content provided to the user by the content generation device 106 will be described.

  FIG. 15 is a diagram illustrating an example of a screen displayed on the display unit 132 by the content generation device 106 when the user starts using the content provided by the content generation device 106.

  FIG. 15A shows a screen that is first displayed on the display unit 132 when the user intends to use the content. Referring to FIG. 15A, content generation device 106 displays top menu screen 300 on display unit 132. The top menu screen 300 includes an offline application button (hereinafter referred to as offline button) 302 and an online application button (hereinafter referred to as online button) 304 for allowing the user to select offline content and online content, respectively, An expiration measurement button 306 that is operated to cause the person to measure expiration is disposed, and an end button 308 that is operated to end use of the content.

  FIG. 15B shows an offline top menu screen 320 that is displayed when the user presses the offline button 302 while the top menu screen 300 is displayed, and that allows the user to select one of the offline contents. FIG. Referring to FIG. 15B, the offline top menu screen 320 has a history display button 322, a component fortune-telling button 324, and an RPG button for allowing the user to select history display content, component fortune-telling content, and RPG content, respectively. 326 and a top menu return button 328 operated by the user to return to the top menu screen 300 are arranged.

  FIG. 15C shows an online top menu screen 340 for allowing the user to select one of online contents displayed after the user presses the online button 304 when the online top menu screen 320 is displayed. FIG. Referring to FIG. 15C, the online top menu screen 340 has an entry button 342 for allowing the user to select expiration ranking content, health information program providing content, latest information providing content, and online expiration breath content, A program providing button 344, an information providing button 346, an exhalation battle button 348, and a top menu return button 328 are arranged.

  FIG. 15D shows an expiration measurement screen 360 for prompting the user to input expiration, which is displayed after the user presses the expiration measurement button 306 when the top menu screen 300 is displayed. FIG. Referring to FIG. 15D, on the breath measurement screen 360, an image for prompting the user to input breath and a top menu return button 328 are arranged.

  FIG. 16 is a diagram showing a screen of history display content. FIG. 16A is a diagram showing a gas selection screen 410 displayed after the user presses the history display button 322 when the offline top menu screen 320 is displayed. Referring to FIG. 16A, in the gas selection screen 410, an area 376 in which a check box for selecting a gas for displaying a history is displayed and a date and time range are input to the user. An area 378 in which a text box is displayed, a confirmation button 372, and an offline top menu return button 374 operated by the user to return to the offline top menu screen 320 are arranged.

  FIG. 16B is a diagram showing a history display screen 380 displayed after the user presses the confirm button 372. Referring to FIG. 16B, the history display screen 380 shows the history of the concentration of the gas selected in the region 376 shown in FIG. An image for display and a return button 382 for returning to the gas selection screen 410 are arranged.

  FIG. 17 is a diagram showing a component fortune-telling content screen displayed after the user presses the component fortune-telling button 324 when the offline top menu screen 320 is displayed. FIG. 17A shows an exhalation measurement screen 390 for prompting the user to input exhalation, which is displayed after the user presses the component fortune-telling button 324 when the offline top menu screen 320 is displayed. FIG. Referring to FIG. 17 (A), an exhalation measurement screen 390 has an image for prompting the user to input exhalation and an offline top menu return button 374.

  FIG. 17B is a diagram showing a fortune-telling result screen 392 displayed after the user blows exhalation on the exhalation sensor 152 on the exhalation measurement screen 390. Referring to FIG. 17B, on the fortune telling result screen 392, a sentence indicating the result of fortune telling and an offline top menu return button 374 are arranged.

  FIG. 18 is a diagram showing an RPG content screen displayed after the user presses the RPG button 326 when the offline top menu screen 320 is displayed. FIG. 18A shows a breath measurement screen 390 that is displayed after the user presses the RPG button 324 when the offline top menu screen 320 is displayed.

  FIG. 18B is a diagram showing a status display screen 402 that displays the status of the RPG character displayed after the user blows exhalation on the exhalation sensor 152 on the exhalation measurement screen 390. Referring to FIG. 18B, status display screen 402 displays a user ID, a character image, and a character status and a sentence indicating how the character grows based on the result of the expiration measurement. And an offline top menu return button 374 are arranged.

  FIG. 19 is a diagram showing a screen for expiration ranking content. FIG. 19A is a diagram showing a gas selection screen 410 for allowing the user to select a gas, which is displayed after the user presses the entry button 342 when the online top menu screen 340 is displayed. is there. Referring to FIG. 19A, in the gas selection screen 410, the user is provided with one of a text box for inputting the user ID and date of birth of the user and a gas measured from expiration. A radio button for selection, a measurement start button 412 operated by the user to start inputting exhalation, and an online top menu regression button 414 operated by the user to return to the online top menu screen 340 are arranged. Has been.

  FIG. 19B prompts the user to input exhalation in the same manner as the exhalation measurement screen 360 shown in FIG. 15D displayed after the measurement start button 412 is pressed on the gas selection screen 410. It is a figure which shows the expiration measurement screen 416 for.

  FIG. 19C is a diagram showing a result screen 418 displayed on the expiration measurement screen 416 after the user finishes inputting the expiration. Referring to FIG. 19C, the result screen 418 is a bar graph showing the health average value, the malfunction average value, and the concentration at the time of expiration measurement of the gas selected by the radio button of the gas selection screen 410. A figure, a ranking of users, and an online top menu return button 414 are arranged. Assume that the user's age is in his twenties. The second from the left of the bar graph group shows the average value at the time of health of the user, the average value at the time of malfunction, and the concentration at the time of expiration measurement. In order to compare with users of other ages to which the user does not belong, the first, third, and fourth from the left of the bar graph group are teenage years, thirties, and 40, respectively, which are ages to which the user does not belong. A bar graph shows the average value during health, the average value during malfunction, and the average value calculated from the data stored in the exhalation information DB 246 for other users of the teenagers.

  FIG. 20 is a diagram illustrating a screen for health information program content that is displayed after the user presses the program provision button 344 while the online top menu screen 340 is displayed. FIG. 20A shows an exhalation measurement screen 416 displayed after the program providing button 344 is pressed on the online top menu screen 340.

  FIG. 20B is a diagram showing a result screen 418 that is displayed on the expiration measurement screen 416 after the user finishes inputting the expiration. Referring to FIG. 20 (B), program data of a health information program related to gas having the highest disease point and an online top menu return button 414 are displayed on the screen.

  FIG. 21 is a diagram showing a screen for the latest information providing content displayed after the user presses the information providing button 346 when the online top menu screen 340 is displayed. FIG. 21A shows an expiration measurement screen 416 displayed after the information providing button 346 is pressed on the online top menu screen 340.

  FIG. 21B is a diagram showing a screen displayed on the expiration measurement screen 416 after the user finishes inputting the expiration. Referring to FIG. 21B, the file name of the academic paper related to the gas with the highest disease point and an online top menu return button 414 are displayed on the screen. The user can download the electronic data of the academic paper with the selected file name by selecting the file name displayed on the screen.

  FIG. 22 is a diagram showing a screen for online exhalation battle content. FIG. 22A is a diagram showing an exhalation battle entry screen 440 displayed after the exhalation battle button 348 is pressed when the online top menu screen 340 is displayed. Referring to FIG. 22 (A), in the exhalation battle entry screen 440, a text box for inputting the user ID and date of birth of the user, and an entry operated when the user enters the exhalation battle. A button 442 and an online top menu return button 414 are arranged.

  FIG. 22B is a diagram showing an exhalation measurement screen 416 displayed after the entry button 442 is pressed on the exhalation battle entry screen 440.

  FIG. 22C shows a search screen 444 displayed on the breath measurement screen 416 after the user finishes inputting the breath, and indicating that the server apparatus 102 is searching for another user who is an opponent. FIG.

  If the server apparatus 102 fails to search for an opponent on the search screen 444, the display returns to the exhalation battle entry screen 440.

  FIG. 22D is a diagram showing an exhalation battle result screen 446 displayed when the server apparatus 102 succeeds in searching for another user who is an opponent in the search screen 444 shown in FIG. It is. Referring to FIG. 22 (D), on the exhalation battle result screen 446, an exhalation battle result and an online top menu return button 414 are arranged. In the result of the exhalation battle, the superior points of gastrointestinal diseases, oxidative stress, kidney diseases, etc. and the arithmetic average of the excellent points of all diseases are displayed as a bar graph for each user, and which user wins Or, it is displayed on the screen whether or not the character has been defeated with character strings “WIN” and “LOSE”.

[Packet configuration]
23 to 26 are diagrams illustrating configurations of a packet transmitted from the content generation device 106 to the server device 102 and a packet returned from the server device 102 to the content generation device 106 according to the packet.

  In the packet transmitted from the content generation device 106, in order for the user to enjoy each content, acquisition of data used for expiration ranking content, health information program provision content, latest information provision content, and expiration battle content is acquired. There are an “expiration ranking request packet”, a “program provision request packet”, an “information provision request packet”, and an “expiration battle request packet” for requesting the server apparatus 102, respectively.

  FIG. 23A is a diagram showing a configuration of the expiration ranking request packet 460. Referring to FIG. 23 (A), an expiration ranking request packet 460 is transmitted by the user on the gas selection screen 410 shown in FIG. 19 (A) by the user on the user ID, date of birth, and gas selection screen 410 entered by the user. It consists of the selected gas name and the gas concentration detected from the exhaled breath inputted by the user on the exhalation measuring screen 416 shown in FIG. FIG. 23B is a diagram showing a configuration of a packet 462 for reply to the expiration ranking request packet 460. Referring to FIG. 23B, a packet 462 includes a user ID of the breath ranking request packet received by the server apparatus 102, an age of the user ID calculated from the date of birth and the current date of the breath ranking request packet. , The gas selected by the user ID and its concentration, the average value during health and the average value during malfunction for the age of the user ID, and other ages for the age to which the user ID does not belong (No. 1 ) To other age IDs (No. 3), average values (No. 1) to (No. 3) based on data calculated from data stored in the expiration information DB 246, average values during health (No. 1) ) To (No. 3), and an average value during malfunction (No. 1) to (No. 3).

  FIG. 24A shows the configuration of program provision request packet 470. Referring to FIG. 24A, the program provision request packet 470 is the name of the gas having the highest disease point among the gases detected from the breath of the user on the breath measurement screen 416 shown in FIG. Consists of. FIG. 24B is a diagram showing a configuration of a packet 472 for replying to the program provision request packet 470. Referring to FIG. 24B, packet 472 is stored in the program data field of a record whose value in the gas name field matches the gas name of program provision request packet 470 in the record of program data DB 250. Consists of all program data.

  FIG. 25A shows the configuration of the information provision request packet 480. Referring to FIG. 25A, the information provision request packet 480 is the name of the gas having the highest disease point in the gas detected from the user's breath on the breath measurement screen 416 shown in FIG. Consists of. FIG. 25B is a diagram showing a configuration of a packet 482 for replying to the information provision request packet 480. Referring to FIG. 25 (B), packet 482 is stored in the latest information data field of the record in which the value of the gas name field matches the gas name of information provision request packet 480 among the records of latest information DB 252. It consists of all the latest information data.

  FIG. 26A is a diagram showing the configuration of the exhalation battle request packet 490. Referring to FIG. 26 (A), an exhalation battle request packet 490 includes a user ID, the user ID and date of birth entered by the user on the exhalation battle entry screen 440 shown in FIG. 22 (B) and the gas concentration detected from the exhaled breath inputted by the user. FIG. 26B is a diagram showing a configuration of a packet 492 for reply to the exhalation battle request packet 490. Referring to FIG. 26B, packet 492 stores the user ID of exhalation battle request packet 490 and either “win” or “defeat” to indicate whether or not the user ID has won. This is the average value of the above-mentioned excellent points and the average value of all the excellent points, which show the results of the results and how much each of oxidative stress, lung disease, gastrointestinal disease, kidney disease, metabolic disorder, and oral disease is affected It consists of total excellent points. The packet 492 further includes other user IDs as opponents, results of winning and losing other user IDs, excellent points (opponents) of each disease for the other user IDs, and overall excellent points (opponents). Consists of.

Software configuration
(Software configuration of content generation device 106)
27 to 30 are flowcharts illustrating a control structure of a program executed by the content generation apparatus 106. The function of the content generation device 106 is realized by the control unit 182 that is substantially a computer executing this program.

  FIG. 27 shows a control structure of a program executed by the control unit 182 when the user inputs a user ID and date of birth via the operation device 134 and instructs the content generation device 106 to start using the content. It is a flowchart to show. Referring to FIG. 27, in this program, step 500 for displaying top menu screen 300 on display unit 132, and after step 500, the user is placed on top menu screen 300 via operation device 134. And step 502 for waiting until the button is pressed. This program further deletes the top menu screen 300 from the display unit 132 when the end button 308 is pressed in step 502, and terminates the program in step 504 and when the offline button 302 is pressed in step 502. Execute the process of providing offline content, return the control to step 500 506, and execute the process of providing online content when the online button 304 is pressed in step 502, and return the control to step 500 When the breath measurement button 306 is pressed in step 508 and step 502, the user's breath is input, the concentration of each gas detected from the input breath is stored in the breath information DB 212, and control is performed. Step back to 500 And a flop 510.

  FIG. 28 is a diagram showing a detailed flow of step 506 in FIG. Referring to FIG. 28, this routine includes step 550 for displaying offline top menu screen 320 on display unit 132, and after step 550, the user is placed on offline top menu screen 320 via operation device 134. Step 552 for waiting until any one of the buttons is pressed, and Step 554 for deleting the offline top menu screen 320 from the display unit 132 and ending this routine when the top menu return button 328 is pressed in Step 552. including. When the history display button 322 is pressed in step 552, a history display process described later is executed and control is returned to step 552. When the component fortune-telling button 324 is pressed in step 552, the component described later Step 558 for executing fortune-telling processing and returning control to Step 552; and Step 560 for executing RPG character growth processing described later and returning control to Step 552 when the RPG button 326 is pressed in Step 552. .

  In addition, when the control unit 182 executes the above-described history display process, component fortune-telling process, and RPG process, the content generation device 106 can provide the user with history display content, component fortune-telling content, and RPG content, respectively. it can.

  FIG. 29 is a diagram showing a detailed flow of step 508 in FIG. Referring to FIG. 29, in this routine, step 580 for displaying online top menu screen 340 on display unit 132, and after step 580, the user is placed on online top menu screen 340 via operation device 134. Step 582 for waiting until any one of the buttons is pressed, and Step 584 for erasing the online top menu screen 340 from the display unit 132 and ending this routine when the top menu return button 328 is pressed in Step 582. including. This routine further executes a ranking request process (to be described later) when the entry button 342 is pressed in step 582 and returns control to step 582, and when the program provision button 344 is pressed in step 582. When the information provision button 346 is pressed in step 582, the program provision request process described later is executed and control is returned to step 582, and the information provision request process described later is executed, and control is passed to step 582. Step 590 to return and step 592 to execute an exhalation battle request process described later when the exhalation battle button 348 is pressed in step 582 and return the control to step 582 are included.

  The control unit 182 executes the ranking request process, the program provision request process, the information provision request process, and the exhalation battle button process, so that the content generation device 106 provides the user with the exhalation ranking content and the health information program, respectively. Content, latest information providing content, and exhalation battle content can be provided.

  FIG. 30 is a diagram showing a detailed flow of step 510 in FIG. Referring to FIG. 30, this routine waits until step 600 for displaying the breath measurement screen 360 shown in FIG. 15D on display unit 132, and after step 600, the user blows breath on breath sensor 152. In step 602 and step 602, when the user blows exhalation, data including the concentration value of each gas detected from the exhalation is received via the communication device 156 and the first communication device 170, And storing in the expiration information DB 212 and ending this routine.

  In step 604 described above, specifically, the user ID field, the date of birth field, the registration date and the registration time, and the values of each gas concentration field in the expiration information storage unit 180 are activated. A record of the user ID, date of birth, current date and time, and the concentration of each gas detected from the user's exhalation, which is sometimes input by the user, is added to the exhalation information storage unit 180.

<History display processing>
In the history display process, the gas selection screen 370 shown in FIG. 16A is displayed on the display unit 132 and waits until either the confirmation button 372 or the offline top menu regression button 374 is pressed by the user. If the offline top menu return button 374 is pressed while the gas selection screen 370 is displayed, this process ends. When the confirm button 372 is pressed while the gas selection screen 370 is displayed, the value of the user ID field is the user ID input by the user when starting this program with reference to the exhalation information DB 212. In addition, a record in which the date and time determined by the registration date field and the registration time field are included in the date and time range input by the user in the area 378 in the gas selection screen 370 is extracted. From the extracted record, the history of the gas concentration input to the user in the area 376 of the gas selection screen 370 is displayed on the history display screen 380. When the return button 382 is pressed by the user on the history display screen 380, this process ends.

<Component fortune-telling process>
In the component fortune-telling process, the breath measurement screen 390 shown in FIG. When the user blows exhalation on the exhalation sensor 152, the concentration of the gas detected from the exhalation is registered in the exhalation information DB 212, and a disease point is calculated for each gas. With reference to the document DB 206, the gas name field and the disease point field values are extracted as the gas name having the largest disease point and the disease point of the gas, respectively. A fortune telling result screen 392 displaying the document data of the extracted record is displayed on the display unit 132. When the offline top menu return button 374 is pressed on the fortune telling result screen 392, this process ends.

<RPG character growth processing>
In the RPG character growth process, first, a start screen for RPG content (not shown) is displayed on the display unit 132. After the user performs an operation for starting the RPG content, the breath measurement screen 400 shown in FIG. 18A is displayed on the display unit 132. When the user blows exhalation on the exhalation sensor 152, the concentration of the gas detected from the exhalation is registered in the exhalation information DB 212, and a disease point is calculated for each gas. With reference to the character growth condition DB 210, the gas name field and the disease point field values are extracted as the gas name having the largest disease point and the growth condition record that is a record of the disease point of the gas. Refer to the character information DB 208, refer to the character information record in which the value of the user ID field matches the user ID input by the user at the start of the program, and set the value of the breath tendency field of the character information record to the growth condition Update with the value of the exhalation tendency field of the record. Further, a status display screen 402 displaying each data of the character information record is displayed. The future RPG scenario is performed based on the updated value. That is, the future scenario of this RPG will change depending on the value of exhalation data. When the offline top menu return button 374 is pressed on the status display screen 402, this content ends. When the button 374 is not pressed, the user starts playing the RPG content with the updated character status.

<Ranking request processing>
In the ranking request process, a gas selection screen 410 shown in FIG. In this process, the process waits until either the measurement start button 412 or the online top menu return button 414 is pressed by the user. When the online top menu return button 414 is pressed on the gas selection screen 410, this process ends. In the gas selection screen 410, when the user ID, date of birth, and gas are input by the user and the measurement start button 412 is pressed, the breath measurement screen 416 is displayed on the display unit 132. When the user blows exhalation on the exhalation sensor 152, the concentration of the gas detected from the exhalation is registered in the exhalation information DB 212. The input user ID, date of birth, gas, and concentration of the gas are transmitted to the server apparatus 102 as an expiration ranking request packet 460. Further, it waits until a reply packet 462 is received from the server apparatus 102. When the packet 462 is received from the server apparatus 102, a result screen 418 is displayed on the display unit 132 based on the packet 462. When the online top menu return button 414 is pressed on the result screen 418, this process ends.

<Program provision request processing>
In the program provision request process, the breath measurement screen 416 shown in FIG. When the user blows exhalation on the exhalation sensor 152, the concentration of each gas detected from the exhalation is registered in the exhalation information DB 212, and a disease point is calculated for each gas. The gas having the largest disease point is transmitted to the server apparatus 102 as a program provision request packet 470. Further, it waits until it receives a reply packet 472 from the server apparatus 102. When the packet 472 is received from the server apparatus 102, the screen shown in FIG. 20B on which the program data included in the packet 472 is listed is displayed on the display unit 132. When the online top menu return button 414 is pressed on the screen, this process ends.

<Information provision request processing>
In the information provision request process, the breath measurement screen 416 shown in FIG. When the user blows exhalation on the exhalation sensor 152, the concentration of each gas detected from the exhalation is registered in the exhalation information DB 212, and a disease point is calculated for each gas. The gas with the largest disease point is transmitted to the server apparatus 102 as an information provision request packet 480. Further, it waits until a reply packet 482 is received from the server apparatus 102. When the packet 482 is received from the server apparatus 102, a screen shown in FIG. 21B is displayed on the display unit 132, listing the links of each file of information data included in the packet 482. When the online top menu return button 414 is pressed on the screen, this process ends.

<Exhalation battle request processing>
In the exhalation battle request process, the exhalation battle entry screen 440 shown in FIG. While the screen 440 is displayed, it waits until either the entry button 442 or the online top menu return button 414 is pressed. If the online top menu return button 414 is pressed while the screen 440 is being displayed, this process ends. When the user ID and date of birth are input by the user while the screen 440 is displayed and the entry button 442 is pressed, the breath measurement screen 416 shown in FIG. 22B is displayed on the display unit 132. When the user blows exhalation on the exhalation sensor 152, the concentration of each gas detected from the exhalation is registered in the exhalation information DB 212, and the user ID and date of birth entered on the screen 440 and each gas detected from the exhalation. Is sent to the server apparatus 102 as an exhalation battle request packet 490. Further, the search screen 444 is displayed on the display unit 132 and waits until a reply packet 492 is received from the server apparatus 102. When the packet 492 is received from the server apparatus 102, an expiration battle result screen 446 is displayed on the display unit 132 based on the packet 492. When the online top menu return button 414 is pressed on the screen, this process ends.

(Software configuration of server apparatus 102)
FIG. 31 is a flowchart showing a control structure of a program executed by the server apparatus 102. The function of the server apparatus 102 is realized by the control unit 240 that is substantially a computer executing this program.

  Referring to FIG. 31, this program waits until a packet is transmitted from content generation device 106, and when it receives breath ranking request packet 460 in step 650, it returns a reply by ranking processing described later. When the program provision request packet 470 is received in Step 652 and Step 650 in which the packet 462 is generated, the packet is transmitted to the content generation apparatus 106, and the control is returned to Step 650. When the information provision request packet 480 is received in Step 654 and Step 650 in which the packet 472 for reply is generated, the packet is transmitted to the content generation apparatus 106, and the control returns to Step 650. Returned by information provision process When a breath battle request packet 490 is received in steps 656 and 650, in which a packet 482 is generated for the mobile station, the packet is transmitted to the content generation device 106, and the control is returned to step 650. And a step 658 of generating a reply packet 492 by processing, transmitting the packet to the content generation device 106, and returning the control to the step 650.

<Ranking process>
In the ranking process, referring to the expiratory reference value DB 248, disease points are calculated from the date of birth, gas, and concentration contained in the ranking request packet 460. With reference to the expiration information DB 246, the latest date and time records are extracted for each of all users, and the number of extracted records is counted. For each of the extracted records, the age is calculated, and the disease point of the gas contained in the packet 460 is calculated. The rank of the user who is the transmission source of the packet 460 is calculated, and the packet ID 462 includes the user ID, date of birth, gas, concentration, average value during health, average value during malfunction, rank, Store the number of entries. From the extracted records, the records of the age to which the user ID does not belong are extracted, and the average value of the gas concentration of each age is calculated. For each age, the age, the average value of the calculated concentration, the average value during health, and the average value during malfunction are further stored in the packet 462. The packet 462 is returned to the transmission source of the packet 460.

<Program provision processing>
In the program providing process, a record that matches the gas name in the program providing request packet 470 is extracted with reference to the program data DB 250. Data stored in the program data field of the extracted record is returned as a packet 472 to the content generation apparatus 106 that is the transmission source of the program provision request packet 470.

<Information provision processing>
In the information provision process, the latest information DB 252 is referenced to extract a record that matches the gas name in the information provision request packet 480. Data stored in the latest information data field of the extracted record is returned as a packet 482 to the content generation apparatus 106 that is the transmission source of the information provision request packet 480.

<Exhalation battle process>
In the exhalation battle process, after receiving the exhalation battle request packet 490, the apparatus waits until a packet having the same configuration as the packet 490 is received from another content generation device. When a packet is received from another content generation device, an excellent point is calculated from the concentration of gas contained in each packet. Based on the calculated result, a packet 492 is returned to both content generation apparatuses 106.

[Operation]
1 to 31, content generation system 100 according to the present embodiment having the above-described configuration operates as follows. Prior to this, exhalation information DB 212, document DB 206, exhalation reference value DB 214, character information DB 208, character growth condition DB 210, exhalation information DB 246, exhalation reference value DB 248, program data DB 250, and latest information DB 252 are shown in FIG. -12, information shown in FIGS. 9, 13, and 14 is stored in advance.

  When the server apparatus 102 is activated, the server apparatus 102 waits until any of the packets 460, 470, 480, and 490 is received from the content generation apparatus 106 (step 650 shown in FIG. 31).

  It is assumed that the user of the content generation device 106A inputs a user ID and date of birth via the operation device 134 and instructs the content generation device 106A to start using the content.

  The content generation device 106A displays the top menu screen 300 on the display unit 132 of the display device 130 (step 500 shown in FIG. 27), and the user operates the offline button 302, the online button 304, and the breath measurement button via the operation device 134. It waits until either 306 or the end button 308 is pressed (step 502 shown in FIG. 27). Note that the following processing is executed separately for each user who uses the content generation apparatus 106A.

  In step 502 described above, when the user presses the end button 308, the content generation apparatus 106A deletes the top menu screen 300 from the display unit 132 and ends the processing.

  In step 502 described above, when the user presses the breath measurement button 306, the content generation apparatus 106A displays the breath measurement screen 360 shown in FIG. 15D on the display unit 132 (step 600 shown in FIG. 30). The user waits until the user blows the exhalation sensor 152 (step 602 shown in FIG. 30). When the user blows exhalation on the exhalation sensor 152, the content generation device 106A stores the concentration of each gas detected from the exhalation in the exhalation information DB 212 at the current date and time (step 604 shown in FIG. 30), and performs control. Return to 500.

  In step 502 described above, when the user presses the offline button 302, the content generation apparatus 106A displays the offline top menu screen 320 on the display unit 132 (step 550 shown in FIG. 28). The content generation device 106A waits until the user presses any one of the history display button 322, the component fortune telling button 324, the RPG button 326, and the top menu return button 328 via the operation device 134 (step 552 shown in FIG. 28). ).

  In step 552, when the user presses the history display button 322, the content generation apparatus 106A executes the history display process described above (step 556 shown in FIG. 28). The content generation device 106A displays the gas selection screen 370 to allow the user to select the gas for which the history is to be displayed and the measured date and time range. Assume that the user turns on the check box for each gas in the region 376, inputs the date of birth, and presses the confirm button 372. The content generation device 106A refers to the exhalation information DB 212, extracts records that match the conditions input in the region 378, and displays a history display screen 380 that shows the history of the concentration of the gas selected in the region 376. 132.

  The user can manage his / her health condition and prevent diseases by referring to the gas concentration history shown on the history display screen 380. Even if there is no subjective symptom despite having a disease, an abnormal value may appear in the gas concentration detected from exhaled breath, so consult a specialist from the gas concentration history display. Whether or not to do so can be determined immediately.

  When the user presses the return button 382 on the history display screen 380, the content generation device 106A returns the control to step 552.

  In step 552 described above, when the user presses the component fortune-telling button 324, the content generation device 106A executes the above-described component fortune-telling process (step 558 shown in FIG. 28). The content generation device 106A displays an expiration measurement screen 390 shown in FIG. 17A on the display unit 132, and the user blows the expiration sensor 152 on the expiration. The content generation device 106A stores the concentration of each gas detected from exhalation in the exhalation information DB 212 at the current date and time, and calculates a disease point for each gas. The content generation device 106A refers to the document DB 206, extracts the document data of the gas having the highest disease point, and displays the result screen 392 showing the extracted document data on the display unit 132.

  By reading the document shown on the result screen 392, the user can determine how to act in the future.

  When the user presses the return button 382 on the result screen 392, the content generation device 106A returns the control to step 552.

  In step 552 described above, when the user presses the RPG button 326, the content generation apparatus 106A executes the RPG process described above (step 560 shown in FIG. 28). The content generation device 106A displays an expiration measurement screen 390 shown in FIG. 18A on the display unit 132, and the user blows the expiration sensor 152 on the expiration sensor 152. The content generation device 106A stores the concentration of each gas detected from exhalation in the exhalation information DB 212 at the current date and time, and calculates a disease point for each gas. The content generation device 106A refers to the character growth condition DB 210, extracts the record of the gas with the highest disease point, and updates the character information DB 208 according to the extracted record. The content generation device 106 </ b> A refers to the character information DB 208 and displays the status display screen 402 on the display unit 132.

  The user can enjoy the content by referring to the status display screen 402 and confirming how much his / her character has grown. In addition, by reading the area 404, it is possible to enjoy the content by checking how the character will grow in the future, and at the same time, managing his / her health condition to prevent disease. be able to.

  When the user presses the return button 382 on the status display screen 402, the content generation apparatus 106A returns the control to step 552.

  In step 552 described above, when the user presses the top menu return button 328, the content generation apparatus 106A deletes the offline top menu screen 320 from the display unit 132 and returns to step 500 described above.

  In step 502 described above, when the user presses the online button 304, the content generation apparatus 106A displays the online top menu screen 340 on the display unit 132 (step 580 shown in FIG. 29). The content generation device 106 </ b> A waits until the user presses any of the entry button 342, the program provision button 344, the information provision button 346, the expiration battle button 348, and the top menu return button 328 via the operation device 134. (Step 582 shown in FIG. 29).

  In step 582 described above, when the user presses the entry button 342, the content generation apparatus 106A executes the above-described ranking request process (step 586 shown in FIG. 29). The content generation device 106A displays the gas selection screen 410 shown in FIG. The user inputs the user ID and date of birth, selects gas, and presses the measurement start button 412.

  The content generation device 106A displays the breath measurement screen 416 shown in FIG. The user blows exhalation on the exhalation sensor 152. The content generation device 106A stores the concentration of each gas detected from expiration in the expiration information DB 212 at the current date and time, generates an expiration ranking request packet 460, and transmits it to the server device 102.

  Upon receiving the expiration ranking request packet 460 from the content generation device 106A, the server device 102 executes the above-described ranking processing (step 652 shown in FIG. 31). The server apparatus 102 generates a packet 462 and transmits the packet 462 to the content generation apparatus 106.

  Upon receiving the packet 462 from the server apparatus 102, the content generation apparatus 106A displays a result screen 418 indicating the content of the packet 462 on the display unit 132.

  The user can check how healthy he is among the users of the content generation apparatus 106 connected to the Internet 104 by referring to the result screen 418. If the ranking is good, the user will try to stay healthy. Conversely, if the ranking is bad, the user will try to consult a specialist or take steps to restore health.

  When the user presses the program provision button 344 in step 582 described above, the content generation apparatus 106A executes the program provision request process described above (step 588 shown in FIG. 29). The content generation device 106A displays an expiration measurement screen 416 shown in FIG. 20A on the display unit 132, and the user blows the expiration sensor 152 on the expiration. The content generation device 106A stores the concentration of each gas detected from the expiration in the expiration information DB 212 at the current date and time, generates a program provision request packet 470, and transmits it to the server device 102.

  Upon receiving the program provision request packet 470, the server apparatus 102 executes the program provision process described above (step 654 shown in FIG. 31). The server apparatus 102 refers to the program data DB 250, extracts program data of records that match the gas in the program provision request packet 470, and generates a packet 472. The server apparatus 102 transmits the generated packet 472 to the content generation apparatus 106A.

  When the content generation device 106A receives the packet 472, the content generation device 106A displays the screen shown in FIG. 20B on the display unit 132 in which the program data included in the packet 472 is listed.

  By referring to the screen shown in FIG. 20B, the user can make a schedule for watching a TV program suitable for his / her current health condition and make a video reservation for the TV program. . Moreover, disease can be prevented by watching those TV programs.

  When the user presses the information provision button 346 in step 582 described above, the content generation apparatus 106A executes the information provision request process described above (step 590 shown in FIG. 29). The content generation device 106A displays an expiration measurement screen 416 shown in FIG. 21A on the display unit 132, and the user blows the expiration sensor 152 on the expiration. The content generation device 106A stores the concentration of each gas detected from the exhalation in the exhalation information DB 212 at the current date and time, generates an information provision request packet 480, and transmits the packet to the server device 102.

  Upon receiving the information provision request packet 480, the server apparatus 102 executes the above-described information provision processing (step 656 shown in FIG. 31). The server apparatus 102 refers to the latest information DB 252, extracts the latest information data of the record that matches the gas in the information provision request packet 480, and generates a packet 482. The server apparatus 102 transmits the generated packet 482 to the content generation apparatus 106A.

  Upon receiving the packet 482, the content generation device 106A displays the screen shown in FIG. 21B on the display unit 132, listing the links to the files of the latest information data included in the packet 482.

  The user downloads the electronic data by clicking the link of the latest information data on the screen shown in FIG. By browsing the electronic data, the user can acquire information suitable for his / her health condition, and can manage his / her health condition.

  In step 582 described above, when the user presses the exhalation battle button 348, the content generation apparatus 106A executes the exhalation battle request process described above (step 592 shown in FIG. 29). The content generation device 106A displays an exhalation battle entry screen 440 shown in FIG.

  On the exhalation battle entry screen 440, the user inputs the user ID and date of birth and presses the entry button 442.

  The content generation device 106A displays the breath measurement screen 416 on the display unit 132, and the user blows the breath on the breath sensor 152. The content generation device 106A stores the concentration of each gas detected from expiration in the expiration information DB 212 at the current date, generates a packet 490A having the same configuration as the expiration battle request packet 490, and transmits the packet 490A to the server device 102. The content generation apparatus 106A displays the search screen 444 until a response is received from the server apparatus 102.

  Upon receiving the exhalation battle request packet 490A, the server apparatus 102 waits until a packet having the same configuration as the packet 490 is received from another content generation apparatus. Assume that the server apparatus 102 has received a packet 490B having the same configuration as the packet 490 from the content generation apparatus 106B. The server apparatus 102 calculates all gas good points for each of the packet 490A and the packet 490B, and generates a packet 492. The server apparatus 102 transmits the generated packet 492 to both the content generation apparatuses 106A and 106B.

  When the content generation apparatus 106A receives the packet 492, the content generation apparatus 106A displays an exhalation battle result screen 446 reflecting data included in the packet 492 on the display unit 132.

  By referring to the exhalation battle result screen 446, the user can know which disease he / she suffers from. If users are victorious, they can increase their motivation to endeavor to sustain their current health. If a user loses or wins, and the result is that the points are too low, the user will be more motivated to try to restore health.

[Effects of the present embodiment]
As is clear from the above description, by using the content generation system 100 according to the present embodiment, the user inputs his / her breath into the content generation apparatus 106, and the content generation apparatus 106 detects from the exhalation. According to the information, the user's health condition can be presented and contents can be provided. Therefore, since the user can manage his / her health condition while enjoying the content, he / she can use the content generation device 106 for a long period of time without getting bored.

  As a result, if the user is in a healthy state, the user will try to maintain the state, and if the content generation device 106 presents the result that the user is suffering from a disease, the user will immediately consult with the doctor. Can go to. In addition, even if the user is suffering from a disease but has no subjective symptoms, the content generation device 106 may present a result that the user is suffering from the disease from information detected from expiration. Therefore, the user can take measures to prevent the disease in consideration of the presented content.

[Modification]
In the above-described embodiment, the content generation device 106 includes the display device 130 and the operation device 134 as shown in FIG. However, the present invention is not limited to such an embodiment, and the content generation device 106 is a mobile phone that can be connected to the Internet 104 and includes a breath sensor and a display unit. It may be a mobile phone provided to the user. In addition, the content generation device 106 may be a personal portable information terminal such as a PHS (Personal Handyphone System) and a PDA (Personal Digital Assistant), or may be a desktop or notebook PC (Personal Computer).

  In the above-described embodiment, the user can select only the above-described content due to the program control structure of the control unit 182 of the content generation device 106. However, the present invention is not limited to such an embodiment. In the future, when a program for new content using information detected from the user's breath is developed, the administrator of the server apparatus 102 stores such a program in the server apparatus 102, and the content generation apparatus 106 The program may be downloaded from the server apparatus 102. After the content generation device 106 downloads the program, the user may select the newly downloaded program in addition to the content described in the above embodiment.

  Further, in the above-described embodiment, the expiration ranking content is online content. However, the present invention is not limited to such an embodiment, and the expiration ranking content may be offline content. In that case, the content generation apparatus periodically receives information detected from the expiration of the user of the arbitrary content generation apparatus 106 from the server apparatus 102. When a user of a content generation device 106 uses offline breath ranking content, the content generation device 106 calculates the ranking of the user from the latest information received from the server device 102. In the same manner as online breath ranking content, information detected from the breath of the user and information detected from the breath of other ages are compared with the age when the user does not belong. Present.

  Furthermore, in the above-described embodiment, each content is classified into two types: offline content and online content. However, the present invention is not limited to such an embodiment, and various contents may be classified into various types. For example, various types of content may be classified by moving image content, comic content, game content, and the like.

  In that case, the content generation system 100 may be provided with a function of allowing the user to select a content type and automatically searching for and displaying the selected type of content. Specifically, it is as described below.

  The content generation device 106 causes the user to select the type of content. The content generation device 106 transmits the selected type and information related to the user's expiration to the server device 102. The server apparatus 102 searches for content belonging to the selected type suitable for information related to the user's expiration. The server apparatus 102 transmits the searched content name to the content generation apparatus 106, and the content generation apparatus 106 presents the content name received from the server apparatus 102 to the user. The user can consider whether or not to use the content by looking at the presented content name.

  Furthermore, in the above-described embodiment, the content provided by the content generation device 106 is not limited to the above-described content, and any content that uses information detected from the user's breath in addition to the above-described content. good. For example, the content may be an online RPG game that provides an RPG game in which a character grows specifically from information detected from a user's breath.

  In the above-described embodiment, the RPG content only describes how the character grows based on information detected from exhalation. However, the present invention is not limited to such an embodiment. For example, in a battle scene of an RPG game, the battle result may depend on information detected from exhalation. For example, it is assumed that an attack is possible by selecting a body part of a character in an RPG game battle scene. It is assumed that the result of having a gastrointestinal disease is output from the concentration of each gas detected from exhaled breath. In that case, if a battle partner attacks the part including the gastrointestinal tract, HP may be drastically reduced, and the result of suffering from kidney disease from the concentration of each gas detected from exhaled breath Is output, the HP may be drastically reduced when a portion including the kidney is attacked. Also, if you are suffering from a lung disease, it means that you will be short of breath immediately, so no matter what part of your body is attacked, the amount of HP decrease should be greater than usual.

  Further, the character growth condition DB 210 used in the RPG content has a growth point for each chemical substance and disease point, and the status value increases by the numerical value stored in the growth point when the level is increased. It was. However, the present invention is not limited to such an embodiment, and the increase value at the time of level up may be determined by a random number based on a growth point. For example, a normal random number having an average value stored in the growth point field may be used as the rising value at the time of level up.

  Further, in the RPG content, item acquisition and event generation may be caused according to the concentration of each chemical substance detected from exhaled breath. It is desirable that such item acquisition and event generation should not occur no matter how long normal play continues. By using such a mechanism for the RPG content, the content generation device 106 can provide different enjoyments for each user.

  In addition to the RPG game, the content generation device 106 may provide content for sports games such as baseball and soccer that depend on information detected from exhalation. For example, in the case of content for a baseball game, if the result of suffering a lung disease is output depending on the concentration of each gas detected from exhalation, processing such as setting the player's stamina amount lower than normal is performed. Just do it. In addition, if a result of metabolic abnormality is output from exhalation, an effect that the agility does not increase so much may be added no matter how many times the players in the game repeat the game and practice.

  In addition, the content generation device 106 may display a character on a display device and provide character training content for growing the character according to information detected from expiration. The character displayed in this content is, for example, an image of an actual creature or an imaginary creature. In the content, the character is trained by the user by performing an operation of feeding the character on the display device or an operation of cleaning the excrement of the character. Depending on the disease point detected from the user's exhalation, a function may be provided in which the character is specifically grown or displayed as if suffering from the same disease as the user.

  The component fortune-telling content described above may be executed online.

  In the embodiment described above, one document data is stored for each range of gas name and disease point in the document data field of the document DB 206 used for component fortune-telling content. However, the present invention is not limited to such an embodiment, and a plurality of document data may be prepared for each range of gas name and disease point. In this case, which document data is displayed may be determined by a random number.

  A user's illness point does not change so much in one day. Therefore, by configuring the document DB 206 in such a configuration, the content generation device 106 can display different documents even if the component fortune-telling content is used a plurality of times in one day. As a result, the user can enjoy the content without getting bored.

  Furthermore, in the document DB 206 used for the component fortune-telling content described above, a different document may be prepared for each combination of a plurality of chemical substances. For example, pentane disease points that are indicators for stress diseases and hydrogen disease points that are indicators for gastrointestinal diseases are each 75 to 100, and acetone diseases that are indicators for metabolic syndrome When the point is 25 to 50, the following document may be displayed.

“Even if you're frustrated, don't eat and drink as much as you can to relieve stress. Exercise and refresh yourself with a refreshing sweat.”
Further, when the disease points of pentane, hydrogen, and acetone are 75 to 100, 0, and 0, respectively, the following documents may be displayed.

  “If I get frustrated, can I sometimes eat delicious dessert as a reward for myself?”

  Furthermore, in the above-described embodiment, it has been described that the latest information data stored in the latest information DB 252 is simply electronic data. In the present invention, the electronic data may have any format. Further, not only academic papers but also newspaper articles on diseases may be provided in various file formats, and addresses of homepages distributed on the Internet may be provided. Furthermore, the date and place of the conference presentation and symposium on disease research may be provided.

  Further, in the health information program providing content described above, the TV station, the broadcast time zone, the program name, and the like that are the broadcast source of the health information program are presented to the user. However, the present invention includes such an embodiment. It is not limited. In addition to these, DVDs (Digital Versatile Discs) and video tapes sold in the market for providing information on health problems may be introduced according to information detected from expiration.

  Further, the history display content described above is offline content. However, the present invention is not limited to such an embodiment, and the history display content may be online content. For example, online contents such as comparing the history of each chemical substance with other users of the same age may be used.

  Further, in the above-described embodiment, in the expiration reference value DBs 214 and 248, the average value during health and the average value during malfunction are stored for each age. However, the average value during health and the average value during malfunction of each chemical substance are generally considered to be different for each user. Therefore, in the present invention, the average value at the time of health and the average value at the time of malfunction of the concentration of each chemical substance may be stored not for each age but for each user. In such a case, for example, in the expiration reference values DB 214 and 248, a user ID field for storing the user ID of the user may be provided instead of the age range field. When calculating a disease point and a good point of a certain user, it may be calculated using an average value during health corresponding to the user ID of the user.

  When the expiratory reference value DB is configured as described above, it is desirable that the content generation device 106 performs daily maintenance of the expiratory reference value DB. This is because the average value at the time of health and the average value at the time of malfunction of each user change day by day as they age. Therefore, every time the expiration concentration is measured, the measured concentration value is reflected in the average value during health for the record corresponding to each user of the expiration reference value DB. That's fine. On the contrary, if it is unhealthy, the measured concentration value may be reflected in the average value during malfunction. As described above, the breath generation reference value DB is constantly maintained, so that the content generation device 106 can calculate each user's disease points using the latest average value during health and average value during malfunction. Can accurately present the health status of the person.

Furthermore, in the above-described embodiment, the breath sensor 152 measures the concentrations of NO, CO, H ₂ O ₂ , ethane, pentane, hydrogen, ammonia, acetone, and methyl mercaptan. However, the present invention is not limited to such an embodiment, and the concentration of the chemical substance measured by the breath sensor 152 may be anything as long as the concentration is measured from the breath.

  Further, in the above-described embodiment, the expiration sensor 152 detects the concentrations of a plurality of gases at the ppb level at the same time. In the present invention, the configuration of the breath sensor 152 may be anything as long as the above function can be realized. For example, such an exhalation sensor may be composed of a plurality of gas sensor elements including a carbon nanostructure whose surface is modified with a substance that selectively adsorbs a specific chemical substance.

  Further, in the above-described embodiment, the location where the server apparatus 102 is located is not particularly specified. The location where the server apparatus 102 is located may be any location. For example, the server apparatus 102 may be installed in a television station that generates moving image content or the like.

  Furthermore, in the above-described embodiment, the server apparatus 102 and the content generation apparatus 106 are different apparatuses. However, the present invention is not limited to such an embodiment, and the functions of both the server apparatus 102 and the content generation apparatus 106 may be provided in one apparatus. For example, it is assumed that the content generation device 106A further includes the function of the server device 102 and can provide online content to other devices. The other content generation apparatuses 106B and 106C and the like can use the content generated by the content generation apparatus 106A, and the user of the content generation apparatus 106A also uses the content using the content generation apparatus 106A. You may be able to do that.

  Furthermore, in the above-described embodiment, the expiration sensor 152 detects the concentrations of a plurality of gases from the expiration of the subject. However, the present invention is not limited to such an embodiment. In addition to exhalation, the present invention detects the concentration of a plurality of gases from any biological sample that can be detected from a subject's living body. You may do it. The subject's biological sample may be the subject's blood, sweat, tears, body odor, and the like in addition to exhaled breath. Therefore, a sensor capable of detecting the concentrations of a plurality of gases from those biological samples may be prepared.

  The embodiment disclosed herein is merely an example, and the present invention is not limited to the above-described embodiment. The scope of the present invention is indicated by each claim in the claims after taking into account the description of the detailed description of the invention, and all modifications within the meaning and scope equivalent to the wording described therein are included. Including.

It is a figure which shows the network environment of the content generation system 100 which concerns on embodiment of this invention. It is a figure which shows the external appearance structure of the content production | generation apparatus 106 shown in FIG. FIG. 3 is a block diagram of the operation device 134 shown in FIG. 2. It is a block diagram of the display apparatus 130 shown in FIG. FIG. 5 is a diagram illustrating configurations of a storage unit 180 and a control unit 182 illustrated in FIG. 4. It is a block diagram of the server apparatus 102 shown in FIG. It is a figure which shows the structure of the expiration information DB212 shown in FIG. It is a figure which shows the structure of document DB206 shown in FIG. It is a figure which shows the structure of the expiration reference value DB214 shown in FIG. It is a figure which shows the structure of character information DB208 shown in FIG. It is a figure which shows the structure of character growth condition DB210 shown in FIG. It is a figure which shows the structure of the expiration information DB246 shown in FIG. It is a figure which shows the structure of program data DB250 shown in FIG. It is a figure which shows the structure of the newest information DB252 shown in FIG. It is a figure which shows the menu screen etc. for the content which the content production | generation apparatus 106 provides. It is a figure which shows the screen for the history display content which the content production | generation apparatus 106 provides. It is a figure which shows the screen for the component fortune-telling content which the content generation apparatus 106 provides. It is a figure which shows the screen for RPG content which the content generation apparatus 106 provides. It is a figure which shows the screen for the expiration ranking content which the content generation apparatus 106 provides. It is a figure which shows the screen for the health information program provision content which the content generation apparatus 106 provides. It is a figure which shows the screen for the newest information provision content which the content production | generation apparatus 106 provides. It is a figure which shows the screen for the expiration battle content which the content production | generation apparatus 106 provides. It is a figure which shows the structure of the packet transmitted / received with the server apparatus 102, when the content production | generation apparatus 106 provides expiration | expired_air ranking content. It is a figure which shows the structure of the packet transmitted / received with the server apparatus 102, when the content production | generation apparatus 106 provides health information program information provision content. It is a figure which shows the structure of the packet transmitted / received with the server apparatus 102, when the content generation apparatus 106 provides the newest information provision content. It is a figure which shows the structure of the packet transmitted / received with the server apparatus 102, when the content production | generation apparatus 106 provides exhalation battle content. It is a flowchart which shows the control structure of the computer program which implement | achieves the function of the control part 182. It is a figure which shows the detailed flow of step 506 shown in FIG. It is a figure which shows the detailed flow of step 508 shown in FIG. It is a figure which shows the detailed flow of step 510 shown in FIG. It is a flowchart which shows the control structure of the computer program which implement | achieves the function of the control part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Content generation system 102 Server apparatus 104 Internet 106 Content generation apparatus 130 Display apparatus 132 Display part 134 Operation apparatus 150 Exhalation 152 Exhalation sensor 156,244 Communication apparatus 158 Input apparatus 170 1st communication apparatus 172 Online application execution part 174 Offline application execution Unit 176 Breath measurement unit 178 Second communication device 180, 242 Storage unit 182, 240 Control unit 200 Component fortune telling execution unit 202 Character generation unit 204 History display unit 206 Document DB
208 Character information DB
210 Character Growth Condition DB
212,246 Exhalation information DB
214,248 Exhalation reference value DB
250 Program data DB
252 Latest Information DB

Claims (25)

A biological sample sensor that detects a concentration of a specific chemical substance from a biological sample of a user and outputs a concentration signal;
A content generation device including content generation means for generating content whose scenario changes according to the value of the concentration signal output by the biological sample sensor. The content generation device further includes a display device,
2. The content generation device according to claim 1, wherein the content generation unit includes a unit that generates a content whose scenario changes according to a value of the density signal and displays an image on the display device. .   The content generation means includes an offline content generation means for generating a content whose scenario changes according to the value of the concentration signal output by the biological sample sensor and is executed offline on the content generation device. The content generation device according to claim 1, further comprising:   The content generation apparatus according to claim 3, wherein the offline content generation means includes content generation program execution means for executing a computer program for generating the content by using the value of the density signal as an input. Receiving means for receiving the computer program from outside by communication;
The content generation apparatus according to claim 4, further comprising program storage means for storing the computer program received by the reception means. The content generation means includes
Request transmission means for generating a data request signal for requesting content generation data that is a parameter for generating content based on the value of the density signal and transmitting the data request signal to a predetermined server device;
Data receiving means for receiving content generation data transmitted in response to the data request signal from the server device;
The content generation apparatus according to claim 1, further comprising: means for generating content using the content generation data received by the data receiving means as a parameter. The request transmitting means includes means for transmitting a data request signal including a value of the concentration signal to the server device,
The data receiving means includes means for receiving a ranking in a predetermined user set of values of the density signal of the user transmitted in response to the data request signal from the server device,
7. The content generation apparatus according to claim 6, wherein the means for generating includes means for generating content that presents the ranking of the user received by the means for receiving. Storage means for storing a time series of values of the concentration signal output by the biological sample sensor;
The content generation means includes means for generating content that presents a time series of the physical condition of the user based on a time series of the value of the concentration signal stored in the storage means. The content generation device described.   The content generation device according to claim 1, wherein the biological sample is a user's breath. Request receiving means for receiving a data request signal including a value of a concentration signal of a specific chemical substance detected from a biological sample from an arbitrary terminal device;
In response to the request receiving means receiving the data request signal, content generation data that changes depending on the value of the density signal in the data request signal is generated, and the data request signal has been transmitted. A server device including data transmission means for transmitting to a terminal device. A content generation system including a content generation device and a server device,
The content generation device includes:
A biological sample sensor that detects a concentration of a specific chemical substance from a biological sample of a user and outputs a concentration signal;
Content generating means for generating content whose scenario changes according to the value of the concentration signal output by the biological sample sensor;
A request transmission means for transmitting a data request signal for requesting content generation data, which is a parameter for generating content, based on the value of the density signal to the server device;
Data receiving means for receiving content generation data transmitted in response to the data request signal from the server device;
Means for generating content using the content generation data received by the data receiving means as a parameter,
The server device
Request receiving means for receiving the data request signal from any of the content generation devices;
In response to the request receiving means receiving the data request signal, content generation data that changes depending on the value of the density signal in the data request signal is generated, and the data request signal has been transmitted. A content generation system including data transmission means for transmitting to a content generation device. A biological sample sensor that detects a concentration of a specific chemical substance from a biological sample of a user and outputs a concentration signal;
Storage means for storing the output of the biological sample sensor;
Service providing means for providing one or a plurality of services each presenting content using the output of the biological sample sensor stored in the storage means;
A menu selection means for presenting a menu for selecting the one or a plurality of services in response to a user's operation and receiving a selection input of the menu from the user;
A content generation apparatus comprising: an activation unit for activating a service providing unit that provides a service corresponding to the menu selected by the menu selection unit among the one or more services. Further comprising a network interface providing a connection to the network;
The service providing means communicates with another apparatus using the network interface, thereby providing a service provided by the other apparatus using the output of the biological sample sensor stored in the storage means. The content generation device according to claim 12, comprising an online service providing means for providing the content to the device.   The content generation apparatus according to claim 13, wherein the service provided by the other apparatus is a service for providing health information using an output of the biological sample sensor stored in the storage unit.   The content generation apparatus according to claim 13, wherein the service provided by the other apparatus is a medical institution introduction service using an output of the biological sample sensor stored in the storage unit. The content generation device is an Internet television device connected to the Internet;
The other device is a television program information server,
The online service providing means determines a user's health condition based on an output of the biological sample sensor stored in the storage means, and acquires a television program related to the health condition from the program information server. The content generation device according to claim 13, further comprising program presentation means for presenting to a user.   The content generation apparatus according to claim 13, wherein the service provided by the other apparatus is comparison information with another user using an output of the biological sample sensor stored in the storage unit.   The content according to claim 13, wherein the service provided by the other device is a role-playing game in which the state of the appearing character changes according to the output of the biological sample sensor stored in the storage unit. Generator.   The service providing means includes offline service providing means for providing a service that is executed offline on the content generation device using the output of the biological sample sensor stored in the storage means. 12. The content generation device according to 12. The storage means includes means for storing the output of the biological sample sensor together with a measurement date and time,
The content generation according to claim 19, wherein the offline service providing unit includes a time-series change presenting unit for presenting a time-series change of the output of the biological sample sensor stored in the storage unit and its measurement date and time. apparatus.   21. The content generation apparatus according to claim 20, wherein the time-series change presentation unit includes a graph presentation unit for presenting the output of the biological sample sensor stored in the storage unit as a graph with respect to the measurement date and time. The offline service providing means includes:
Sentence storage means for storing in advance a sentence associated with the output value of the biological sample sensor;
The content generation apparatus according to claim 19, further comprising means for extracting a sentence corresponding to the output of the biological sample sensor stored in the storage means from the sentence storage means and presenting it to a user. The offline service providing means includes:
Parameter updating means for updating and storing parameters that define the growth state of a specific character based on the output of the biological sample sensor stored in the storage means;
The content generation apparatus according to claim 19, further comprising means for generating and displaying an image of the specific character based on the parameter updated and stored by the parameter update means. The storage means, the service providing means, the menu selection means, and the activation means are realized by a computer that can be substantially connected to a network and software executed on the computer,
A first housing for housing the computer, a recording medium connected to the computer and recording software executed by the computer, and communication means for wirelessly communicating with other devices;
Separate from the first casing, the biological sample sensor, an input device operated by a user to input to the computer, and the output of the biological sample sensor to the communication means of the computer The content generation device according to claim 12, further comprising: a second casing that houses a transmission unit for transmitting the output of the input device wirelessly. The content generation apparatus according to any one of claims 12 to 24, wherein the biological sample is expiration.

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