WO2020066360A1 - Dispositif serveur, terminal de traitement d'informations, système, procédé et programme - Google Patents

Dispositif serveur, terminal de traitement d'informations, système, procédé et programme Download PDF

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Publication number
WO2020066360A1
WO2020066360A1 PCT/JP2019/032294 JP2019032294W WO2020066360A1 WO 2020066360 A1 WO2020066360 A1 WO 2020066360A1 JP 2019032294 W JP2019032294 W JP 2019032294W WO 2020066360 A1 WO2020066360 A1 WO 2020066360A1
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WIPO (PCT)
Prior art keywords
recipe information
unit
user
recipe
expression
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PCT/JP2019/032294
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English (en)
Japanese (ja)
Inventor
伸弥 大谷
将之 伊尾木
金子 晃久
朋享 住
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クックパッド株式会社
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Publication of WO2020066360A1 publication Critical patent/WO2020066360A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/10Services

Definitions

  • the present disclosure relates to a server device, an information processing terminal, a system, a method, and a program for converting a qualitative expression in a recipe information into a quantitative expression.
  • Patent Literature 1 discloses a method of supplying, via a communication network, cooking recipe data of a search result requested by a user from a host device storing a plurality of cooking recipe data.
  • the present disclosure inquires about the qualitative expression in the recipe information to the user who created the recipe information for a quantitative expression, and converts the qualitative expression into a quantitative expression based on the user's answer. It is an object of the present invention to provide a server device, an information processing terminal, a system, a method, and a program.
  • a server device includes an obtaining unit that obtains recipe information posted by a user, and a specifying unit that specifies a cooking process described in a qualitative expression with respect to the obtained recipe information. And a presentation unit that presents a display that prompts the user to input a quantitative expression for the specified cooking process.
  • the information processing terminal specifies an acquisition unit that acquires recipe information posted by a user, and specifies a cooking step described in qualitative expression with respect to the acquired recipe information.
  • the information processing apparatus includes a specification unit and a presentation unit that presents a display that prompts a user to input a quantitative expression for the specified cooking process.
  • a system includes an acquiring unit that acquires recipe information posted by a user, and a specifying unit that identifies a cooking process described in a qualitative expression with respect to the acquired recipe information. And a presentation unit that presents a display that prompts the user to enter a quantitative expression for the specified cooking process.
  • the method according to the present disclosure includes a step of acquiring recipe information posted by a user, and for the acquired recipe information, a step of specifying a cooking step described in a qualitative expression, Presenting a display that prompts the user to enter a quantitative expression for the identified cooking process.
  • a program according to the present disclosure causes a computer to execute the above method.
  • the user who created the recipe information can be queried for a quantitative expression, and the qualitative expression can be converted into a quantitative expression based on the user's answer.
  • FIG. 1 is a configuration diagram of a recipe information conversion system 1.
  • FIG. 3 is a block diagram illustrating a hardware configuration example.
  • FIG. 2 is a diagram illustrating a functional block configuration of a terminal device 200.
  • FIG. 3 is a diagram showing a functional block configuration of a recipe information conversion server 300. It is a figure which shows an example of the display which prompts the input of a quantitative expression. It is a figure which shows an example of the display which prompts the input of a quantitative expression. It is a figure which shows an example of the display which prompts the input of a quantitative expression. It is a figure which shows an example of the display which prompts the input of a quantitative expression.
  • FIG. 3 is a diagram showing a functional block configuration of a device control server 400.
  • FIG. 2 is a diagram showing a functional block configuration of the device 100.
  • FIG. 3 is a diagram illustrating an operation example of the recipe information conversion system 1.
  • FIG. 12 is a diagram illustrating an operation example of the recipe
  • the recipe information conversion system is a system that converts a qualitative expression in recipe information into a quantitative expression based on a user's answer.
  • quantitative expression refers to an expression that describes the work content of the cooking process using abstract words. In other words, it refers to an expression that does not express the work, the state of the material, and the like in the cooking process by numerical values such as quantity, temperature, and time. Specifically, the expressions include "bake until the meat is fragrant", “slightly salt”, and "boil until the potatoes pass through the skewer". Further, “quantitative expression” refers to an expression that describes the contents of work in the cooking process using specific numerical values.
  • the expressions include “bake the meat in an oven heated to 200 degrees for 20 minutes”, “3 grams of salt”, and “warm the potatoes in a microwave at 600 watts for 5 minutes”.
  • the quantitative expression can be said to be an expression suitable for controlling the cooking appliance, since the work content using the cooking appliance (tool) is specifically represented by numerical values.
  • recipe information described in a human-readable manner by a qualitative expression, a quantitative expression, or the like is described as HRR (Human ⁇ Readable ⁇ Recipe).
  • quantitative recipe information described by the quantitative expression is described as a quantitative HRR.
  • the user who created the recipe information is inquired about the quantitative expression, and is converted into the quantitative expression based on the user's answer.
  • accurate quantitative recipe information can be obtained, and the control of the cooking appliance is facilitated. Therefore, any user can make a dish according to the recipe.
  • the device control recipe information is recipe information including a series of cooking steps that can be decoded by a cooking device, and the device to be controlled is a cooking material or a device related to cooking using the same. .
  • the cooking appliance given the appliance control recipe information performs an action (process) according to the appliance control recipe information.
  • appliance control recipe information that can be read and decoded by a cooking appliance is referred to as MRR (Machine Readable Recipe).
  • FIG. 1 is a diagram showing a data structure of device control recipe information according to the embodiment.
  • the device control recipe information according to the embodiment is represented by a graph (directed graph) including a plurality of nodes and edges between the nodes.
  • nodes are indicated by circles, and edges are indicated by arrows.
  • the multiple nodes define the state transition of each material.
  • Edges represent actions required for state transition between nodes.
  • the action refers to a basic procedure of cooking, for example, a procedure such as “cut” or “warm” corresponds to the action.
  • the action includes a specific set temperature of the device, a cooking time, a work content, and the like.
  • the type of action and its ID are defined in advance, or an ID is given to the type of action afterward, a list of actions and their IDs is defined, and the edge is assigned an action ID selected from this list. You. Note that an ID may also be assigned to a state (intermediate node).
  • a plurality of nodes in the graph are a starting point of the graph, a material node representing an ingredient of the dish, an ending point of the graph, a dish node representing the dish, and a state of the ingredients on the way to the dish. And intermediate nodes that represent them.
  • the ingredients refer to ingredients for cooking, but may also include seasonings and ingredients discarded during cooking.
  • the type of material and its ID are defined in advance, a list of materials and their IDs is defined, and the material node is assigned a material ID selected from this list.
  • the state of the material refers to the state after the action is performed, for example, “material A cut into three equal parts”, “material B cut into 3 cm squares”, “heated material C”, and the like. This corresponds to the state of the material.
  • the data structure of the device control recipe information according to the embodiment is not a graph of the description of the recipe text, which is a natural language, but a graph of the state transition of each material.
  • Each material is assigned a material ID for uniquely identifying the material, and each action required for state transition is assigned an action ID for uniquely identifying the action. Therefore, the machine can easily and reliably decode the recipe information based on the ID. Further, since it is not always necessary to specify a device to perform an action in the recipe information, it is easy to cope with various devices including new devices appearing in the future. Furthermore, since each action is represented as an edge, it is easy to extract each action from the recipe information.
  • a partial graph obtained by removing some edges from the graph as shown in FIG. 1 and further removing some isolated nodes is a specific graph of a series of cooking steps shown in the recipe information. It can be regarded as device control information of a cooking process of controlling and cooking the cooking device. That is, among the cooking processes of the entire recipe information, device control information in a cooking process performed by a specific cooking device can be represented by a partial graph.
  • Table 1 shows the types of nodes in the device control recipe information according to the embodiment.
  • Each node can be given an attribute shown in Table 2, for example, as an attribute of the node.
  • the node is a material node, and this material node represents “carrot”.
  • the “name” is information necessary for a human to create and decode an MRR, and does not necessarily need to be machine-readable.
  • Each edge can be given an attribute shown in Table 3 as an attribute of the edge.
  • each node When a dish “salad” is made, the dish node is “salad”.
  • the material nodes are, for example, “onion”, “cucumber”, “tomato”, “ketchup”, and “mayonnaise”. Each material node is given an ID that uniquely identifies the material.
  • the material node “onion” is connected to the intermediate node “chopped onion” by “cut” which is an edge (action). Further, the material node “cucumber” is connected to the intermediate node “1 cm square cucumber” by “cut” which is an edge (action). Further, the material node “tomato” is connected to the intermediate node “1/2 tomato” by “cut” which is an edge (action). Furthermore, the material node “ketchup” and the material node “mayonnaise” are connected to the intermediate node “Aurora Source” by the edge (action) “mix”. Note that an ID that uniquely identifies an action is assigned to each of “cut” and “mix”.
  • the intermediate nodes “chopped onion”, “1 cm square cucumber”, and “1/2 tomato” are connected to the cooking node “salad” by the edge (action) “placing”.
  • the intermediate node “Aurora source” is connected to the cooking node “salad” by the edge (action) “kake”.
  • an ID for uniquely identifying an action is assigned to each of “arrange” and “apply”.
  • the order between edges is set so that “apply” is performed next to “place”. It should be noted that an action of “daring” may be used instead of “apply”.
  • FIG. 2 is a configuration diagram of the recipe information conversion system 1. The configuration of the recipe information conversion system 1 will be described with reference to FIG.
  • the recipe information conversion system 1 includes a device 100, a terminal device 200, a recipe information conversion server 300, and a device control server 400, and is communicably connected via a network NW.
  • the network NW includes a WAN (World Area Network), a LAN (Local Area Network), and the like.
  • the device 100 may directly communicate with the terminal device 200 (for example, short-range wireless communication) without using the network NW.
  • FIG. 2 although one device 100 and one terminal device 200 are described as representatives, a plurality of devices may be connected to the network NW.
  • the device 100 has a communication function, is a cooking material, a device related to cooking using the same, and a device existing in a kitchen space.
  • the device 100 may be a household electrical device used at home or a business device.
  • the device 100 may be any device as long as it is a material or a device related to cooking using the same, or a device existing in a kitchen space, such as a refrigerator, a microwave, an oven, an electromagnetic cooker, and a toaster. , Food processor, mixer, rice cooker, electric pot, electric fryer, electric steamer, noodle making machine, measuring instrument, cooking robot, gas cooker, lighting, etc.
  • the terminal device 200 has a communication function and provides a user interface.
  • the terminal device 200 posts (transmits) recipe information (recipe text, dish image data, and the like) to the recipe information conversion server 300 in response to a user operation.
  • a display prompting the input of a quantitative expression for the qualitative expression is received from the recipe information conversion server 300 and presented to the user.
  • the terminal device 200 acquires and displays the recipe information obtained by converting the qualitative expression into the quantitative expression from the recipe information conversion server 300.
  • the terminal device 200 makes a request regarding control of the device 100 to the device control server 400 according to a user operation on the displayed recipe.
  • the terminal device 200 is an information processing terminal, for example, a mobile terminal (for example, a tablet, a smartphone, a laptop, a feature phone, a portable game machine, an electronic book reader, and the like).
  • the terminal device 200 may be a television receiver (including Internet television), a PC (Personal Computer), a VR (Virtual Reality) terminal, an AR (Augmented Reality) terminal, or the like.
  • the recipe information conversion server 300 converts a qualitative expression cooking process included in the recipe information posted from the terminal device 200 into a quantitative expression cooking process. Specifically, the terminal device 200 presents a display prompting the user to input a quantitative expression for the cooking process described in the qualitative expression. Then, based on the user's answer, the process is converted into a cooking process of a quantitative expression.
  • the recipe information conversion server 300 creates quantitative recipe information from the posted recipe information based on the converted quantitative expression.
  • the recipe information conversion server 300 transmits the created quantitative recipe information to the terminal device 200.
  • the recipe information conversion server 300 creates device control recipe information (MRR) for controlling the device 100 from the quantitative recipe information.
  • the MRR has the above-described recipe data structure (see FIG. 1, Tables 1 to 3), and is machine-readable.
  • the recipe information conversion server 300 distributes the MRR to the terminal device 200 and / or the device control server 400 via the network NW.
  • the recipe information conversion server 300 may be configured to distribute recipe information that matches the request from the stored recipe information to the terminal device 200. .
  • the terminal device 200 displays the recipe information acquired from the recipe information conversion server 300.
  • the recipe information conversion server 300 may collect the device control information from the device control server 400 and update the quantitative expression based on the collected device control information.
  • the device control server 400 acquires the MRR from the recipe information conversion server 300 or the terminal device 200 and generates a command for controlling the device 100 (hereinafter, referred to as “control command”). Then, the generated control command is transferred to the device 100.
  • the device 100 After transferring the control command to the device 100, the device 100 starts an action according to the control command.
  • the user of the terminal device 200 performs an action start operation on the device 100 to cause the device 100 to start an action according to the control command.
  • the device 100 is provided with a physical button for receiving an action start operation.
  • a software button for accepting an action start operation may be displayed on device 100.
  • FIG. 3 is a block diagram illustrating a hardware configuration example of each of the device 100, the terminal device 200, the recipe information conversion server 300, and the device control server 400.
  • each of the device 100, the terminal device 200, the recipe information conversion server 300, and the device control server 400 includes a CPU 21, a RAM 22, a ROM 23, an auxiliary storage device 24, a communication module 25, A device 26 and an output device 27 are provided.
  • the CPU 21 reads out software (program) from the RAM 22 and ROM 23 constituting the main storage device and executes the software.
  • the RAM 22 is used as a work area of the CPU 21.
  • the auxiliary storage device 24 is configured by a hard disk, a flash memory, or the like.
  • the communication module 25 is a module that transmits and receives data by wire communication or wireless communication.
  • the input device 26 includes a touch panel and / or a keyboard, and receives a user operation. The input device 26 may receive an operation by voice input.
  • the output device 27 is configured by a display or the like, and outputs (displays) various types of information.
  • the communication module 25 By reading the software on hardware such as the CPU 21 and the RAM 22, the communication module 25, the input device 26, and the output device 27 are operated under the control of the CPU 21, and the data is read out from the RAM 22 and the auxiliary storage device 24. By performing the writing, a series of functions in each device and each device are realized.
  • the device 100 further includes various mechanisms 28.
  • the various mechanisms 28 are mechanisms for executing actions in the device 100, and include, for example, a heating mechanism, a refrigeration / freezing mechanism, a cutting mechanism, a stirring mechanism, and the like.
  • FIG. 4 is a diagram illustrating a functional block configuration of the terminal device 200 according to the present embodiment.
  • the terminal device 200 includes a control unit 210, a communication unit 220, a storage unit 230, an operation unit 240, and a display unit 250.
  • the control unit 210 includes the CPU 21 and controls the operation of the terminal device 200.
  • the communication unit 220 includes the communication module 25, and performs communication via the network NW.
  • the communication unit 220 may have a function of directly communicating with the device 100.
  • the storage unit 230 includes a RAM 22, a ROM 23, and an auxiliary storage device 24, and stores various types of information and data.
  • the control unit 210 includes a recipe information creation unit 211, a recipe information acquisition unit 212, and a control request unit 213.
  • the recipe information creation unit 211 creates recipe information according to a user operation on the operation unit 240.
  • the recipe information is composed of a plurality of cooking steps. Specifically, the ingredients of the dishes, the amounts of the ingredients, the cooking equipment, the cooking utensils, the cooking steps, the images of the cooking and the state during the cooking, and the comments of the users who post them And so on. That is, the recipe information created by the recipe information creating unit 211 is an HRR described in a qualitative expression, a quantitative expression, or the like so as to be decipherable by a human.
  • the recipe information creation unit 211 controls the display unit 250 to display the template of the recipe information acquired in advance from the recipe information conversion server 300, and the user may input the recipe information according to the template. Good.
  • the recipe information creation unit 211 attaches the recipe ID to the created recipe information, and transmits the recipe information to the recipe information conversion server 300 via the communication unit 220.
  • the recipe information acquisition unit 212 acquires recipe information from the recipe information conversion server 300 via the communication unit 220 according to a user operation on the operation unit 240. Specifically, it acquires recipe information (that is, quantitative HRR) converted from a qualitative expression to a quantitative expression and MRR that is recipe information that can be read and decoded by the device 100.
  • recipe information that is, quantitative HRR
  • MRR that is recipe information that can be read and decoded by the device 100.
  • the recipe information acquisition unit 212 may acquire the quantitative HRR of the recipe selected by the user from the list of recipes displayed on the display unit 250, or may use the search condition (keyword or the like) to send the recipe information conversion server 300 By performing a search process, a quantitative HRR that meets the conditions may be obtained.
  • the recipe information acquisition unit 212 displays the acquired quantitative HRR on the display unit 250.
  • a button for transmitting a control command to the device 100 (hereinafter, “device control button”) may be displayed together with the quantitative HRR.
  • the control request unit 213 generates a control request for requesting control of the device 100 in response to the user operating the device control button, and transmits the generated control request to the device control server 400 via the communication unit 220. I do.
  • the control request includes a recipe ID corresponding to the selected recipe (quantitative HRR).
  • the control request may further include the device ID of the device 100 to be controlled. Further, the MRR corresponding to the selected recipe may be transmitted to the device control server 400.
  • the operation unit 240 includes the input device 26 and receives a user operation.
  • the display unit 250 includes the output device 27 (display) and displays various information and data.
  • the display unit 250 is controlled by the control unit 210 so as to present a display prompting the input of a quantitative expression, which is received by the communication unit 220 from the recipe information conversion server 300.
  • a display prompting the input of a quantitative expression which is received by the communication unit 220 from the recipe information conversion server 300.
  • the control unit 210 so as to present a display prompting the input of a quantitative expression, which is received by the communication unit 220 from the recipe information conversion server 300.
  • the control unit 210 for the cooking process described in the qualitative expression specified by the recipe information conversion server 300
  • information on the control used in the cooking process for example, the device to be operated and the setting of the device
  • the display prompting for input is performed.
  • the operation unit 240 accepts an input operation performed by the user in response to a display prompting input of a quantitative expression.
  • FIG. 5 is a diagram illustrating a functional block configuration of the recipe information conversion server 300 according to the present embodiment.
  • the recipe information conversion server 300 includes a control unit 310, a communication unit 320, and a storage unit 330.
  • the control unit 310 includes the CPU 21 and controls the operation of the recipe information conversion server 300.
  • the communication unit 320 is configured to include the communication module 25 and performs communication via the network NW.
  • the storage unit 330 includes the RAM 22, the ROM 23, and the auxiliary storage device 24, and stores various types of information and data. Further, the storage unit 330 includes an expression DB 331, a recipe information DB 332, and a control information history DB 333. These DBs will be described together with the components of the control unit 310 described below.
  • the control unit 310 includes an acquisition unit 311, a specification unit 312, a presentation unit 313, a conversion unit 314, a recipe information provision unit 315, a collection unit 316, and a generation unit 317.
  • the acquisition unit 311 acquires the recipe information posted by the user via the communication unit 320.
  • the recipe information transmitted from the terminal device 200 is acquired.
  • the recipe information acquired by the acquiring unit 311 may be referred to as “post recipe”.
  • the specifying unit 312 specifies a cooking process described in a qualitative expression in a posted recipe. Specifically, based on the qualitative expression stored in the expression DB 331 of the storage unit 330, the cooking process described by the qualitative expression is specified. A qualitative expression used for cooking is stored in the expression DB 331 in advance. For example, expressions such as “slightly”, “shinari”, “baked color”, “white”, “soft” and the like. Among the posted recipes, a cooking process that includes these expressions is specified. Although humans can understand such expressions themselves, they do not know specifically how to set the amount and the temperature and cooking time of the cooking appliance.
  • the presentation unit 313 presents a display that prompts the user who transmitted the posting recipe to input a quantitative expression for the cooking process identified by the identification unit 312. For example, it reads from the expression DB 331 the fixed phrase data for asking about the quantitative expression, and generates display data that prompts the input of the quantitative expression. Then, the communication unit 320 is instructed to transmit the display data to the terminal device 200 of the user.
  • the question about the quantitative expression is information about control of the cooking appliance used in the cooking process described in the qualitative expression, and more specifically, information about the cooking temperature and the cooking time set in the cooking appliance.
  • the cooking device is preferably the device 100 connected to the network NW, but may be a cooking device not connected to the network NW.
  • the presenting unit 313 may acquire the recipe information related to the dish indicated by the posted recipe from the recipe information DB 332, and may present the recipe information together with the question about the quantitative expression.
  • the recipe information DB 332 stores a plurality of pieces of recipe information. For example, recipe information posted by a user, recipe information created in advance by a business operator of the recipe information conversion system 1, and the like are stored. Each piece of recipe information may include an evaluation of a recipe or a comment by a user using the recipe information.
  • the presentation unit 313 presents, with a question, recipe information related to the same recipe as the dish indicated by the posted recipe or the same dish as the dish category, along with the question, so that the user can refer to the recipe information of another user. This makes it easier to input quantitative expressions.
  • the recipe information DB 332 also includes recipe information in which a quantitative expression accompanying a qualitative expression is described as a set.
  • a qualitative expression “scented” is accompanied by quantitative expressions "600 watts” and "3 minutes", such as "bake garlic with an IH cooker at 600 watts for 3 minutes”.
  • Recipe information described in the set for example, for a cooking process described in a qualitative expression, a user who actually cooked commented on specific cooking appliance settings, or a quantitative expression by a business operator of the recipe information conversion system 1. It may be provided.
  • the numerical value described in the vicinity of the qualitative expression is presumed to be a quantitative expression of the qualitative expression.
  • the description quantitatively expressing the qualitative expression by morphological analysis or the like is used. It may be inferred.
  • the presentation unit 313 acquires, from the recipe information DB 332, recipe information in which a quantitative expression accompanying the qualitative expression is described as a set as described above as recipe information related to the cooking process identified by the identifying unit 312. , May be presented together with the question about the quantitative expression.
  • the qualitative expressions used in recipes are used in various dishes. Therefore, by presenting to the user a cooking process including a qualitative expression and a quantitative expression described as a set from the recipe information stored in the recipe information DB 332, without being limited to the same dish as the posted recipe, The user has more quantitative expressions that can be referred to, and it becomes easier to input a more appropriate quantitative expression than the qualitative expression that he or she has posted.
  • the presentation unit 313 may present a choice of a quantitative expression together with a question about the quantitative expression based on the cooking process described in the quantitative expression acquired from the recipe information DB 332 as described above. Good. For example, among the quantitative expressions acquired from the recipe information DB 332, options are generated based on expressions that are frequently used. By presenting the created options to the user, the user can more easily answer the question. At this time, the presentation unit 313 may preferentially present, as an option, the description of the recipe information that is highly evaluated by the user with respect to the recipe information including the cooking process acquired from the recipe information DB 332. As a result, a more accurate quantitative expression that can be cooked well can be expected.
  • the conversion unit 314 converts the cooking process of the qualitative expression specified by the specifying unit 312 into the cooking process of the quantitative expression based on the input from the user according to the presentation of the presentation unit 313. For example, regarding a cooking process of “boil potatoes until they become soft”, in response to presenting a display prompting the user to input a qualitative expression, the user sets the cooking appliance “microwave oven” and outputs “500 watts”. If the answer is that the time is "5 minutes”, the conversion unit 314 converts "the potatoes are heated in a microwave at 500 watts for 5 minutes”.
  • the recipe providing unit 315 converts the recipe information acquired by the acquiring unit 311 into recipe information (quantitative HRR) described in a quantitative expression, based on the quantitative expression cooking process converted by the conversion unit 314. Specifically, in the recipe information obtained by the obtaining unit 311, the cooking process of the qualitative expression specified by the specifying unit 312 is replaced with the cooking process of the quantitative expression converted by the conversion unit 314, and the cooking process is described by the quantitative expression. And the quantitative HRR. Then, the recipe providing unit 315 transmits the quantitative HRR to the terminal device 200 via the communication unit 320.
  • the recipe providing unit 315 may store the recipe information acquired by the acquiring unit 311 in the recipe information DB 332 in association with the quantitative HRR.
  • the collection unit 316 collects device control information of the device 100 from the device control server 400 via the communication unit 320. For example, in response to the provision of the quantitative HRR by the recipe providing unit 315, the device control server 400 transmits an operation (control content) input by the user to the device 100, a recipe ID of a recipe using the operation, and the like to a network. It is acquired as device control information via the NW and transferred to the recipe information conversion server 300. The collection unit 316 stores the collected device control information in the control information history DB 333.
  • the conversion unit 314 may update (correct) the cooking process converted into a quantitative expression based on the device control information stored in the control information history DB 333. That is, the conversion unit 314 corrects the quantitatively described cooking process converted based on the user input based on the control information history DB 333 in which the device control information collected from the device control server 400 is stored.
  • the device control information has a data structure as shown in FIG. 1.
  • the nodes of the graph define the state transition of each material, and the edges define actions required for the state transition between nodes. ing. That is, it can be said that the device control information includes a quantitative expression for controlling the device.
  • the conversion unit 314 decodes the state and action of the material defined for the node and the edge of the device control information.
  • the conversion unit 314 acquires device control information in which the recipe ID or the dish matches the recipe ID or the dish of the recipe information acquired by the acquisition unit 311 and the device control information stored in the control information history DB 333, Based on this, it is determined whether the converted quantitative expression is appropriate. If there is a deviation of a predetermined range or more between the converted quantitative expression and the quantitative expression based on the device control information, the quantitative expression is corrected based on the device control information.
  • the user receives the provision by the recipe provision unit 315 and cooks in accordance with the quantitative HRR, the user may feel that the preparation is not successful, and may change the control of the device.
  • the recipe information can be converted into a more accurate quantitative expression.
  • the recipe providing unit 315 updates the quantitative HRR according to the update of the quantitative expression by the conversion unit 314.
  • the generation unit 317 generates device control recipe information (MRR) for controlling the device 100 from the quantitative HRR created by the recipe providing unit 315. Specifically, the ingredients of the dishes and the state transitions and actions of the ingredients are extracted from the quantitative HRR, and an MRR having a data structure represented by a graph composed of nodes and edges as described with reference to FIG. 1 is generated. .
  • the material that can be a node, the state transition of the material, and the action that can be an edge are stored in advance in the storage unit 330 as graph information (not shown), and the generation unit 317 generates an MRR based on the graph information. I do.
  • the generated MRR is transmitted to the terminal device 200 and / or the device 100 with the recipe ID attached to the recipe information acquired from the terminal device 200.
  • FIG. 6 is a diagram showing an example of a display for prompting the input of a quantitative expression.
  • Display data generated by the presentation unit 313 of the recipe information conversion server 300 is displayed as an image 60 on the display unit 250 of the terminal device 200.
  • recipe information of “potato salad” is created from the terminal device 200 and transmitted to the recipe information conversion server 300.
  • the transmitted recipe information of the “potato salad” includes the cooking process 2 “boil the potatoes until softened”.
  • the specifying unit 312 determines that the expression “boil until soft” matches the expression stored in the expression DB 331, and the cooking process 2 is described in a qualitative expression.
  • the presenting unit 313 presents a display prompting the user to input a quantitative expression as shown in FIG.
  • a pull-down C1 is displayed for the cooking appliance
  • a pull-down C2 is displayed for the output (temperature) of the cooking appliance
  • a pull-down C3 is displayed for the operation time of the cooking appliance.
  • the user selects each pull-down and inputs the settings of the cooking appliance.
  • the cooking device displayed by the pull-down C1 may be the device 100 connected to the network NW of the recipe information conversion system 1, or may be a device generally used for cooking.
  • the pull-downs C2 and C3 change numerical values and units to be displayed according to the cooking appliance selected by the pull-down C1. Further, the numerical value to be displayed may be a numerical value for each predetermined value (10 minutes, 20 minutes, etc.) or a continuous value (10 minutes, 11 minutes, 12 minutes, etc.). You may do so.
  • a method of allowing the user to make a selection by pull-down is provided, but a free input field is presented to allow the user to freely input, and the recipe information conversion server 300 determines whether or not the expression is a quantitative expression. It may be.
  • the presentation unit 313 presents other recipe information of “potato salad” stored in the recipe information DB 332 to the user.
  • a user can easily enter a quantitative expression by searching for recipe information close to his / her own cooking method with reference to recipe information created by another user.
  • the recipes R1 to R6 presented together with the display for prompting the input may include those containing a large number of quantitative expressions or recipes highly evaluated by the user with priority.
  • tapping the display field of the recipes R1 to R6 may display a detailed cooking process of each recipe, scroll display in the display field, enlargement display by pinch out, Various display methods may be used so that the user can easily confirm the recipe.
  • the user taps the confirm button E1. Thereby, the quantitative expression is transmitted from the terminal device 200 to the recipe information conversion server 300.
  • FIG. 7 is a diagram showing an example of a display prompting the input of a quantitative expression.
  • FIG. 7 is a screen example different from that of FIG. 6, and an image 70 is displayed on the display unit 250 of the terminal device 200.
  • the posted recipe of another user stored in the recipe information DB 332 for “potato salad” is displayed.
  • the image 70 not only “potato salad” but also “boil the potato until it becomes soft”
  • the recipes R11 to R16 of the dishes including the cooking process are displayed.
  • the display fields of the recipes R11 to R16 may be displayed so that the user can easily confirm the cooking process of “boil the potatoes until they become soft”.
  • displaying only the cooking process “boil potatoes until soft” in the display column allows the user to describe the quantitative expression used in which cooking process is better. It becomes easy to confirm.
  • the entire recipe information may be displayed as a cooking process related to the “boil potatoes until softened” cooking process.
  • FIG. 8 is a diagram showing an example of a display for prompting the input of a quantitative expression.
  • FIG. 8 is an example of a screen different from FIGS. 6 and 7.
  • An image 80 is displayed on the display unit 250 of the terminal device 200.
  • the presentation unit 313 acquires from the recipe information DB 332 a cooking process of a quantitative expression corresponding to the “boil potatoes until softened” cooking process, and quantitatively calculates the obtained recipe information.
  • An option is generated by analyzing a frequently used expression among the expressions. For example, it is possible to determine which expression is frequently used by morphological analysis or the like, but it is also possible to generate alternatives using a known technique.
  • the image 80 options for quantitative expression are presented to the user by the check button C31.
  • the "recommended degree” C32 is displayed in the order of higher use frequency, higher user evaluation, and the like in the recipe information DB 332, and reference information is presented so that the user can easily select the recommended information.
  • a slide bar C33 on which the user can input the accuracy of the quantitative expression to be input is displayed.
  • the user slides the button C34 to the left end of the slide bar C33 when, for example, the user knows empirically that cooking can be successfully performed according to the quantitative expression selected by the check button C31. If the user is not completely confident, the user slides the button C34 to the right end of the slide bar C33. That is, the slide bar C33 allows the user to input the certainty of the input quantitative expression.
  • the process of collecting the device control information and correcting the quantitative expression may be omitted while ensuring the accuracy of the user. With such a configuration, the processing amount in the recipe information conversion system 1 can be reduced.
  • FIG. 9 is a diagram illustrating a functional block configuration of the device control server 400 according to the present embodiment.
  • the device control server 400 includes a control unit 410, a communication unit 420, and a storage unit 430.
  • the control unit 410 includes the CPU 21 and controls the operation of the device control server 400.
  • the communication unit 420 includes the communication module 25, and performs communication via the network NW.
  • the storage unit 430 includes the RAM 22, the ROM 23, and the auxiliary storage device 24, and stores various types of information and data.
  • the storage unit 430 stores the MRR acquired from the recipe information conversion server 300 in association with the recipe ID.
  • the request receiving unit 411 receives a control request from the terminal device 200 via the communication unit 420.
  • the control request includes a recipe ID corresponding to the selected recipe.
  • the control request may further include the device ID of the device 100 to be controlled.
  • the MRR acquisition unit 412 acquires the MRR corresponding to the recipe ID included in the control request from the storage unit 430. Note that the MRR acquisition unit 412 may acquire the MRR from the terminal device 200.
  • the processing unit 413 decodes the MRR obtained by the MRR obtaining unit 412 and performs processing for controlling the device 100 corresponding to the device ID included in the control request.
  • the processing unit 413 includes an MRR decoding unit 413a, a command generation unit 413b, and a command transmission unit 413c.
  • the RMRR decryption unit 413a decrypts the MRR acquired by the MRR acquisition unit 412.
  • the command generation unit 413b extracts, from the MRR, an action (action ID) executable by the device 100 corresponding to the device ID included in the control request based on the result of the MRR decryption by the MRR decryption unit 413a. Generate control commands to set execution. For example, a list of executable actions (action IDs) is defined for each device ID. The list includes an ID representing “cut”, an ID representing “bake”, an ID representing “boil”, and the like.
  • the command generation unit 413b extracts an action (action ID) executable by the device 100 corresponding to the device ID included in the control request from the MRR by referring to the list. Specifically, a list of action IDs that can be executed by the device is compared with the action ID of each edge in the MRR, a matching action ID is extracted, and the device is assigned to the action corresponding to the extracted ID. May be determined.
  • the command transmission unit 413c transmits the command generated by the command generation unit 413b to the terminal device 200 via the communication unit 420.
  • the control information acquisition unit 414 acquires device control information from the device 100 via the network NW.
  • FIG. 10 is a diagram illustrating a functional block configuration of the device 100 according to the present embodiment.
  • the device 100 includes a control unit 110, a communication unit 120, a storage unit 130, and an operation unit 140.
  • the control unit 110 includes the CPU 21 and controls the operation of the device 100.
  • the communication unit 120 includes a communication module 25, and performs communication via the network NW.
  • the communication unit 120 may have a function of directly communicating with the terminal device 200.
  • the storage unit 130 includes a RAM 22, a ROM 23, and an auxiliary storage device 24, and stores various types of information and data.
  • the operation unit 140 includes the input device 26 and receives a user operation.
  • the operation unit 140 has a physical button or a software button for receiving an action (processing).
  • the control unit 110 includes a command acquisition unit 111 and an action control unit 112.
  • the command acquisition unit 111 acquires a control command transmitted from the device control server 400 or the terminal device 200 via the communication unit 120. Further, the command acquisition unit 111 acquires, as a control command, processing content (cooking work such as boiling, control parameters such as temperature setting, cooking time, and the like) directly input to the device 100 by a user using a physical button or the like. Is also good.
  • the action control unit 112 controls to start an action corresponding to the control command.
  • the action control unit 112 may start an action in response to the user operating the operation unit 140 (action start button).
  • the action control unit 112 instructs the communication unit 120 to transmit the action executed by the control command as device control information to the device control server 400 via the network NW.
  • FIG. 11 is a diagram illustrating an operation example of the recipe information conversion system 1.
  • step S101 the terminal device 200 receives a user input and creates recipe information.
  • the recipe information created here is a human-understandable HRR and includes a qualitative expression.
  • step S102 the terminal device 200 transmits the recipe information created in step S101 to the recipe information conversion server 300.
  • step S103 the recipe information conversion server 300 acquires the recipe information from the terminal device 200.
  • the recipe information conversion server 300 specifies a cooking process including a qualitative expression for the obtained recipe information.
  • the recipe information conversion server 300 refers to the qualitative expression stored in the qualitative expression DB 331 and specifies a cooking process including the qualitative expression in the obtained recipe information.
  • step S105 the recipe information conversion server 300 generates a display prompting the user to input a quantitative expression for the qualitative expression of the specified cooking process. For example, image data for performing display as shown in FIGS. 6 to 8 is generated.
  • step S106 the recipe information conversion server 300 presents a display prompting the input of a quantitative expression to the terminal device 200.
  • the terminal device 200 displays, for example, image data as shown in FIGS.
  • step S107 the terminal device 200 accepts a quantitative expression input from the user.
  • step S108 the terminal device 200 transmits the quantitative expression received in step S107 to the recipe information conversion server 300.
  • step S109 the recipe information conversion server 300 converts the specified qualitative expression of the cooking process into a quantitative expression based on the quantitative expression transmitted in step S108.
  • step S110 the recipe information conversion server 300 creates a quantitative HRR described in quantitative expression from the recipe information acquired in step S103, based on the converted quantitative expression cooking process.
  • the recipe information conversion server 300 transmits the created quantitative HRR to the terminal device 200.
  • the destination of the quantitative HRR may be the user (creator) of the terminal device 200 that created the recipe information that is the source of the quantitative HRR in step S101, or a terminal of a user different from the creator.
  • the device 200 may be used.
  • step S112 the terminal device 200 acquires a quantitative HRR. Then, for example, it is displayed on the display unit 250 of the terminal device 200 and presented to the user.
  • step S113 the terminal device 200 receives a device control operation from a user.
  • the user browses the quantitative HRR and inputs the device ID of the device to be controlled, specific set values, and the like via the operation unit 240.
  • step S114 the terminal device 200 transmits the input of the user to the device 100 to be controlled.
  • the user may manually input directly to the device 100 to be controlled.
  • step S115 the device 100 receives an input from the user and executes an action based on the corresponding set value.
  • step S116 the device control server 400 acquires the device control information of the device 100 and transfers it to the recipe information conversion server 300.
  • step S117 the recipe information conversion server 300 stores the device control information received from the device control server 400 in the control information DB 333.
  • step S118 the recipe information conversion server 300 corrects the cooking process converted into a quantitative expression based on the device control information stored in the control information history DB 333.
  • device control information in which the recipe ID or the dish matches the recipe ID or the dish of the recipe information acquired in step S103 and the device control information stored in the control information history DB 333 is obtained, and converted based on this.
  • Judge whether quantitative expressions are appropriate If there is a deviation of a predetermined range or more between the converted quantitative expression and the quantitative expression based on the device control information, the quantitative expression is corrected based on the device control information. Thereby, it can be updated to a highly accurate quantitative expression.
  • the recipe information conversion system 1 presents a display prompting the user to input a quantitative expression for the cooking process described in the qualitative expression. Then, by creating the recipe information of the quantitative expression based on the input of the quantitative expression from the user who is the creator of the recipe, it becomes possible to operate the cooking appliance according to the recipe, and Even you can make dishes according to the recipe.
  • FIG. 12 is a diagram illustrating an operation example of the recipe information conversion system 1 different from that of FIG.
  • step S201 the terminal device 200 receives a user input and creates recipe information.
  • the recipe information created here is a human-understandable HRR and includes a qualitative expression.
  • step S202 the terminal device 200 transmits the recipe information created in step S201 to the recipe information conversion server 300.
  • step S203 the recipe information conversion server 300 acquires the recipe information from the terminal device 200.
  • step S204 the recipe information conversion server 300 creates a quantitative HRR from the acquired recipe information.
  • the processing in step S204 corresponds to the processing in steps S104 to S110 in FIG. 11, and a detailed description thereof will be omitted.
  • step S205 the recipe information conversion server 300 creates device control recipe information (MRR) for controlling the device 100 based on the quantitative HRR.
  • MRR device control recipe information
  • step S206 the recipe information conversion server 300 transmits the created MRR to the terminal device 200.
  • step S207 the terminal device 200 acquires the MRR.
  • step S208 the terminal device 200 receives a device control operation from a user.
  • the user inputs a recipe ID or the like corresponding to the acquired MRR.
  • the terminal device 200 may display an image of a dish or the like corresponding to the acquired MRR on the display unit 250 and allow the user to select a desired dish.
  • step S209 the terminal device 200 transmits the MRR corresponding to the user's input operation to the device control server 400.
  • step S210 the device control server 400 decrypts the MRR obtained from the terminal device 200.
  • step S211 the device control server 400 extracts an action (action ID) executable by the device 100 from the MRR based on the result of decoding the MRR, and generates a control command for setting execution of the extracted action.
  • action ID an action executable by the device 100 from the MRR based on the result of decoding the MRR
  • step S212 the device control server 400 transmits the generated control command to the device 100 to be controlled.
  • step S213 the device 100 executes an action corresponding to the control command acquired from the device control server 400.
  • the recipe information conversion system 1 converts the recipe information (qualitative HRR) including the qualitative expression into device control recipe information (MRR) for controlling the device 100.
  • the user can automatically control the device 100 by the MRR, and can prepare a dish according to the recipe.
  • the recipe information conversion server 300 and the device control server 400 are separate server devices.
  • the functions of the recipe information conversion server 300 and the device control server 400 may be provided in one server device, and the recipe information conversion server 300 and the device control server 400 may be integrated into one server device.
  • the terminal device 200 may have the function of the recipe information conversion server 300.
  • a program that causes a computer to execute each process in the recipe information conversion system 1 may be provided. Further, the program may be recorded on a computer-readable medium. With a computer readable medium, it is possible to install the program on a computer.
  • the computer-readable medium on which the program is recorded may be a non-transitory recording medium.
  • the non-transitory recording medium is not particularly limited, but may be, for example, a recording medium such as a CD-ROM or a DVD-ROM.
  • the recipe information conversion system presents a display that prompts a user who has posted recipe information including a qualitative expression to input a quantitative expression. Then, based on the input of the quantitative expression corresponding to the presentation, the recipe information including the qualitative expression is converted into the recipe information of the quantitative expression. Thereby, the user can cook the dish according to the recipe by operating the cooking appliance according to the recipe information described by the quantitative expression. In addition, by accepting a quantitative expression by the creator of the recipe, it is possible to create a highly accurate quantitative expression recipe.
  • the recipe information conversion system collects the device control information of the cooking appliance operated in accordance with the converted recipe information of the quantitative expression, and corrects the quantitative expression. Thereby, it can be updated to a more accurate quantitative expression.
  • the recipe information conversion system generates device control recipe information (MRR) based on recipe information of a quantitative expression converted from a qualitative expression.
  • MRR device control recipe information
  • Recipe information conversion system 21 CPU 22: RAM 23: ROM 24: auxiliary storage device 25: communication module 26: input device 27: output device 28: mechanism 100: device 110: control unit 111: command acquisition unit 112: action control unit 113: MRR acquisition unit 114: processing unit 114a: MRR decoding Unit 114b: action control unit 120: communication unit 130: storage unit 140: operation unit 200: terminal device 210: control unit 211: recipe information creation unit 212: recipe information acquisition unit 213: control request unit 220: communication unit 230: storage Unit 240: operation unit 250: display unit 300: recipe information conversion server 310: control unit 311: acquisition unit 312: identification unit 313: presentation unit 314: conversion unit 315: recipe provision unit 316: collection unit 317: generation unit 320: Communication unit 330: Storage unit 331: Expression DB 332: Recipe information DB 333: control information history DB 400: device control server 410: control unit 411: request reception unit 412: MRR acquisition unit 413: processing unit 413a: M

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Abstract

Dans la présente invention, on demande une expression quantitative à un utilisateur qui a créé des informations concernant une recette et l'expression qualitative est convertie en une expression quantitative, sur la base de la réponse par l'utilisateur. Ce dispositif serveur comprend : une unité d'acquisition qui acquiert des informations de recette envoyées par un utilisateur ; une unité de spécification qui, concernant les informations de recette acquises, spécifie une étape de cuisson décrite dans une expression qualitative ; et une unité de présentation qui, concernant l'étape de cuisson spécifiée, présente un affichage incitant l'utilisateur à entrer une expression quantitative.
PCT/JP2019/032294 2018-09-28 2019-08-19 Dispositif serveur, terminal de traitement d'informations, système, procédé et programme WO2020066360A1 (fr)

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JP2018185927A JP6541203B1 (ja) 2018-09-28 2018-09-28 サーバ装置、情報処理端末、システム、方法およびプログラム

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009151352A (ja) * 2007-12-18 2009-07-09 Satellite Links:Kk レシピ作成システム
WO2017010506A1 (fr) * 2015-07-13 2017-01-19 帝人株式会社 Appareil de traitement d'informations, procédé de traitement d'informations et programme informatique
JP6384978B1 (ja) * 2018-02-19 2018-09-05 クックパッド株式会社 サーバ装置、配信方法及びプログラム

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009151352A (ja) * 2007-12-18 2009-07-09 Satellite Links:Kk レシピ作成システム
WO2017010506A1 (fr) * 2015-07-13 2017-01-19 帝人株式会社 Appareil de traitement d'informations, procédé de traitement d'informations et programme informatique
JP6384978B1 (ja) * 2018-02-19 2018-09-05 クックパッド株式会社 サーバ装置、配信方法及びプログラム

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