KR100673782B1 - Remote health management system - Google Patents

Abstract

The present invention relates to a remote health care system, and more particularly, to a remote health care system for managing a user's health by providing a diet based on health diagnosis information according to physical data, dietary patterns, nutritional status, and the like.

The present inventors remote health management system transmits health care information to a health diagnosis server through a predetermined network, receives health diagnosis information on the health care information from the health diagnosis server, and diets based on the health diagnosis information. And a health care server configured to receive health care information through the network and generate and display the health care information through the network, and generate and transmit the health diagnosis information to the refrigerator by comparing the health care information with previously stored diagnosis standard information. Is done.

Description

Remote health management system {REMOTE HEALTH MANAGEMENT SYSTEM}

1 is a block diagram of a remote health care system according to the present invention.

2 is a configuration diagram of the refrigerator of FIG. 1.

3 is an embodiment of food consumption information.

4 is an embodiment of dietary pattern information.

<Description of the symbols for the main parts of the drawings>

100: refrigerator 200: Internet

300: health diagnosis server

The present invention relates to a remote health care system, and more particularly, to a remote health care system for managing a user's health by providing a diet based on health diagnosis information according to physical data, dietary patterns, nutritional status, and the like.

In general, a refrigerator is a device for storing food and the like freshly in a low temperature state for a long time by keeping the freezer and the refrigerating compartment at a low temperature using cold air.

Most people think that 'the food in the refrigerator doesn't hurt' leads to the idea that 'it is safe to eat', so that many people eat and drink cold foods and drinks in the refrigerator. In addition, cold energy accumulates, causing pain, inflammation, and swelling in the body, and obesity is rapidly increasing today.

Obesity, of course, is not dangerous in itself, but is often dangerous because excess visceral fat (fat that surrounds the organs) increases the abdominal fat rate and thus increases the risk of high blood pressure and cardiovascular disease.

Therefore, in recent years, it is required to be able to prevent and manage diseases that may be caused by obesity in addition to refrigerators for storing food and beverages, etc., which may cause obesity, at low temperatures.

The refrigerator according to the related art does not provide information regarding health care related to foods which a user ingests.

In order to solve this problem, the present invention is to provide a remote health care system for the purpose of providing a proper diet to the user according to the result of the health diagnosis server, such as a hospital to diagnose the current health status of the user The purpose.

In addition, an object of the present invention is to provide a remote health care system that utilizes data from nutrition and dietary patterns of foods ingested by a user for health diagnosis, and ingests appropriate foods according to health conditions.

In addition, the present invention is to determine the diet according to the user's health condition, after that to determine the usefulness of this diet to update to provide a remote health care system that performs more efficient user health management. .

The present inventors remote health management system transmits health care information to a health diagnosis server through a predetermined network, receives health diagnosis information on the health care information from the health diagnosis server, and diets based on the health diagnosis information. And a health care server configured to receive health care information through the network and generate and display the health care information through the network, and generate and transmit the health diagnosis information to the refrigerator by comparing the health care information with previously stored diagnosis standard information. Is done.

In this case, the refrigerator transmits the diet to the health diagnosis server, and the health diagnosis server preferably stores health management information according to the diet.

In addition, the health diagnosis server determines the usefulness of the diet based on the health care information and dietary reference information, and transmits the diet judgment information reflecting the determination result to the refrigerator, the refrigerator is the diet determination information It is desirable to update the diet accordingly.

The refrigerator may further include determining means for determining a food to be taken out by the user and alarm means for outputting a predetermined warning sound, and comparing the food and / or health diagnosis information with the food to be extracted. It is preferable to drive the alarm means according to the comparison result.

In addition, the health care information preferably includes at least one or more of the user's body data, diet patterns and nutritional status.

In addition, the determination means is to determine the food to be put and / or withdrawn in the refrigerator, it is preferable that the refrigerator recognizes the eating pattern and nutritional status of the user over a period of time according to the determination result of the food.

In addition, the refrigerator may be connected to an external health measurement device to generate health care information including body data from the health measurement device and / or body data input by a user.

In the following, the invention has been described in detail based on the embodiments of the invention and the accompanying drawings. However, the scope of the present invention is not limited by the following embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

1 is a block diagram of a remote health care system according to the present invention. As shown, the remote health care system stores the user's health care information, transmits the health care information to the health diagnosis server 300 through the Internet 200, and from this health diagnosis server 300 Receiving health diagnosis information, the result of analysis of health care information, reading pre-stored diet information, and generating a diet according to the health diagnosis information and displaying the user to the refrigerator 100, the refrigerator 100 and the health diagnosis server Receives the medical examination information from the Internet 200 and the refrigerator 100, which is a network for performing data communication between the 300, reads the stored diagnostic standard information, compares the generated medical diagnosis information, and generates the refrigerator 100 It consists of a health diagnosis server 300 to transmit to.

In detail, the refrigerator 100 acquires and stores health management information including a user's body data, a eating pattern, and a nutritional state. Here, the body data is obtained from an external measuring device such as blood pressure and body mass, or obtained by a user input such as height and weight, and includes data related to the state of the body. Next, the dietary pattern is a pattern of the user's dietary symbol related to the food ingested by the user, and means a pattern of how much food is ingested, including the consumption period for each standard amount of food. Next, the nutritional state is related to the dietary pattern of the user, and analyzes the nutrients contained in the foods included in the dietary pattern to indicate the nutritional level of the user for a predetermined period (eg, per day).

The refrigerator 100 transmits the above-described health care information to the health diagnosis server 300 through the Internet 200 and receives the health diagnosis information from the health diagnosis server 300. Here, the health diagnosis information may include information on the disease that the user is currently suffering from (eg, name of the disease, diet, etc.), nutritional analysis result (eg, excessive protein intake, fiber content, etc.) according to dietary patterns and nutritional status. Lack, etc.). The refrigerator 100 generates a diet based on the health diagnosis information and displays it to the user. To this end, the refrigerator 100 stores diet information. The diet information includes a diet corresponding to each disease, a diet, or a nutritional analysis result for the purpose of maintaining and treating the health condition of the user according to the information included in the medical examination information. This diet is generated based on health diagnosis information, taking into account the current dietary patterns and nutritional status of the user.

In addition, the refrigerator 100 transmits the generated diet to the health diagnosis server 300 through the Internet 200, receives diet determination information from the health diagnosis server 300, and updates the parasitic diet. By doing so, it is displayed to the user.

Next, the Internet 200 is a generic, including all components (e.g., Internet service provider server, etc.) for broadband network and / or local area network communication, such as, for example, a network using the TCP / IP protocol. It should be recognized as a concept.

Next, the medical examination server 300 stores the diagnostic reference information for the medical examination. The diagnostic reference information includes body data, reference data about a predetermined health condition according to a dietary pattern and nutritional status, reference data for diagnosis of a disease corresponding to the health condition, prescription and / or treatment for the disease. Contains reference data for The health diagnosis server 300 compares and analyzes the received health care information on the basis of the above-described diagnosis criteria information, and generates health diagnosis information including nutritional analysis results according to disease information, dietary patterns and nutritional status. .

In addition, the health diagnosis server 300 stores the dietary reference information for determining the usefulness of the diet received from the refrigerator (100). This dietary standard information is similar to the dietary information, and according to the information included in the medical examination information, the information corresponding to each disease, the diet, or the nutritional analysis results for the purpose of maintaining and treating the user's health condition. Including the standard diet, but the diet is applied to the method using the fundamental and dietary method of the disease, and means a data that is updated at various treatments and prescriptions from time to time by the administrator of the health diagnosis server (300). The health diagnosis server 300 analyzes the received diet using this dietary standard information, health care information or health diagnosis information, and the therapeutic utility of the diet (for example, the appropriateness of the diet, etc.), By determining the usefulness of the nutritional status, and the like, the diet judgment information that changes the portion of the diet to be changed is generated. The health diagnosis server 300 transmits the generated diet determination information to the refrigerator 100 through the Internet 200.

2 is a configuration diagram of the refrigerator of FIG. 1. As shown, the refrigerator 100 includes a health measuring device A capable of measuring various body data, an input unit 20 for receiving a predetermined selection command from a user, and identification displayed or attached to food. Reading means 30 for reading food information from the means, storage means 40 for storing at least food consumption information for a given food (s), dietary patterns, nutritional status, diet information and the like, and the Internet 200 Communication means (50) for data communication with), display means (60) for displaying predetermined food selection information and a diet to a user, one-hour counting means (70) for calculating a current date and time, and the above-described configuration Control the factors to store the received body information, and based on the pre-stored food consumption information to store the user's preference pattern for the predetermined food, and to analyze and store the nutritional status according to, including these Health care It made by the microprocessor 80 to transmit a health check server 300 via the communication means (50). Here, the refrigerator includes a refrigerating compartment and / or a freezing compartment capable of refrigerating and / or freezing food in the refrigerator, and the microprocessor 80 naturally controls such refrigerating and / or freezing process, but is not related to the present invention. , Description thereof is omitted.

In detail, the health measuring device (A) is preferably a medical device capable of measuring blood pressure and body mass, which are the body data associated with it, in order to prevent and manage diseases such as hypertension and hyperlipidemia that are usually caused by obesity. In addition, the health measuring device (A) is configured not only to directly measure blood pressure and body mass, but also to be connected to the data receiving unit 81 through a USB cable at one side.

Next, the input means 20 is a food selection unit 21 for inputting the food information that the user wants to keep in the storehouse (and / or a specific place in the storehouse), and when the food is put into or withdrawn from the storehouse, It consists of an input / withdrawal selection unit 22 for informing the input and / or withdrawal to the microprocessor 70 and the service selection unit 23 for receiving a health diagnosis service through the health diagnosis server (300). Here, the input means 20 is related to the user interface displayed on the display means 60, and means for inputting content required by the displayed user interface.

The food selection unit 21 can input at least the name (or type) of the food and / or the amount stored in the refrigerator (eg, g unit, ml unit, etc.), and thus the name and / or amount of the food. This is food information. In addition, the input / withdrawal selection unit 22 is a means for receiving the input and / or withdrawal facts from the user when the user puts the food into the container and / or withdrawal, consisting of one button or a plurality of buttons Can be. In order to utilize the input / discharge selection section 22, the microprocessor 80 first displays the food information on the display means 60, so that the user can first select the food to be added or withdrawn, and the selected food. Make an input selection or withdrawal selection. This input means 20 may comprise an additional input (not shown) for the selection of the complete withdrawal (or final withdrawal) of the food, ie the complete consumption selection of the food.

In addition, the input unit 20 includes means (not shown) for receiving data such as height and weight from the user in addition to the body data obtained from the above-described health measuring apparatus A.

Next, the reading means 30 includes an RF reader 31 for reading the food information stored in the RFID displayed or attached to the food and / or a barcode reader 32 for reading the food information indicated by the barcode. Here, the food information includes at least the name (type) and / or amount of food. However, the amount of food may be input separately through the input means 20 described above.

The RF reader 31 may be installed near the display means 60 (front of the refrigerator) for the convenience of the user, or may be installed in the warehouse. When installed near the display means 60, when the user inserts and withdraws the food, if the food is placed near the RF reader 31, the user reads the food information accordingly. If the number is even, it can be read as drawn. In addition, when installed in the refrigerator, the user reads the RFID before and after the food is put in and withdrawn. Therefore, when the food information is read, the food is read into the refrigerator. However, the input and withdrawal of the food may be input through the input means 20.

The barcode reading unit 32 reads a barcode printed on food or on a food container or food wrapping paper, and is installed near the display means 60 for the convenience of the user. The reading of the food information by the barcode reading unit 32 is the same as a general barcode reading method, and it is determined that an input is read when an odd number is read, and that it is withdrawn when an even number is read, except for input and withdrawal of food. It may be input via means 20.

Both the input means 20 and the reading means 30 described above may be mounted or optionally mounted.

Next, the storage means 40 stores the food selection information for a plurality of foods so that food selection by the input means 20 is made. The food selection information includes at least a user interface capable of selecting a name (or type) of a food, selecting a quantity, and the like. The storage means 40 also includes food information including the name and / or amount of food selected by the user and / or food information read from the reading means 30. In addition to the food information, the storage means 40 also stores food consumption information including the number of times the food is put into and / or taken out of the food storage and the consumption period of the food. Here, the consumption period can be calculated by the time interval between the first internal input time and the final withdrawal time of the food when the consumption of the food is completed, the input and withdrawal time is by the one-hour clock means 70 described below Is done.

In addition, the storage means 40 stores the standard nutrition information for a plurality of foods in order to determine the nutritional level of the food, and determines the nutritional status of the user according to the total nutritional level (nutrition of the entire food consumed by the user) In order to store the standard nutritional status information, and in addition to the diet information to provide a desirable diet according to the health diagnostic information provided by the health diagnosis server 300. Here, the standard nutrition information is, for example, in the case of milk, as the basic data for determining the nutrients of food, such as the analysis data of nutrients contained per 100 ml. In addition, the standard nutritional status information includes data on the degree of nutrition that the user should consume for a certain period of time (eg, 1 day).

Next, the communication means 50 means a communication interface such as a wired or wireless modem that enables data communication between the microprocessor 80 of the refrigerator 100 and the Internet 200, and may be internally or externally included in the refrigerator 100. Can be installed.

Next, the display means 60 is a display device for displaying the above-described food selection information, food information, dietary patterns, nutrition, diet, etc., the LCD monitor can be used, a kind of touch screen with the input means 20 It may be configured in the form.

Next, the one-time clock means 70 is a device that calculates and provides the current time periodically or when a request from the microprocessor 80 is provided. will be. In addition, the one-hour clock means 70 may operate like a clock to provide a current time for display on the display means 60.

Next, the microprocessor 80 receives the health measurement apparatus A, the body data input or read from the input means 20 and / or the reading means 30, and the food information, and receives the data control unit 84. The data receiving unit 81 to be applied to the data, and the data processing unit 82 for analyzing the dietary pattern of the user from the food consumption information, and generates a diet according to the health diagnosis information, food selection information, food information, dietary pattern information, nutrition The data transmission unit 83 receives and applies the data from the data control unit 84 so that the state, the diet, and the like are displayed on the display unit 60, and controls the above-described components to generate and store food consumption information from the received food information. Means for storing in the means 40, analyzing the dietary pattern of the user from the food consumption information, and analyzing the nutritional status according to the dietary pattern, according to the medical examination information transmitted from the medical examination server 300 Controlling the data processor 82 to generate and, a data controller 84 for transmitting data displayed on the display means 60 to the data transmission unit (83).

In detail, the data control unit 84 receives food information and body data from the data receiving unit 81, stores the food information and body data in the storage unit 40, and applies the data information to the data transmitting unit 83 to be displayed on the display unit 60. The data controller 84 stores the food consumption information including the received food information and the body data in the storage means 40. The food information includes at least the name and / or quantity of the food as described above, but the food consumption information includes the number of times of food input and / or withdrawal into the food in addition to the food information, as shown in FIG. In addition, the consumption period of this food is included.

First, look at the generation of food consumption information through the input means 20. The data control unit 84 reads the food selection information from the storage unit 40 and transmits it to the data transmission unit 83 so that it is displayed on the display unit 60. Accordingly, the data control unit 84 receives food information including the name and / or amount of food stored in the storehouse by the user input through the food selection unit 21 through the data receiving unit 81 and includes the food consumption. The information is generated and stored in the storage means 40. At this time, the data control unit 84 may set the number of times of input of the food consumption information to '1' and the number of times of withdrawal to '0' (that is, since it is the first input), but the input selection from the input selection unit 22 is performed. After the input, the number of inputs and withdrawals may be set in this manner. In addition, the data control unit 84 receives the current time from the one-hour counting means 70 and stores the first time of food input (time for calculating the consumption time) in the food consumption information.

Thereafter, the data control unit 84 transmits the stored food consumption information to the data transmission unit 83 so as to be displayed on the display unit 60, selects the food consumption information (or food) drawn out or inputted by the user, and A withdrawal or input selection is input through the withdrawal selection / input selection section 22, and the withdrawal or input number of the food consumption information is increased according to the withdrawal or input selection. At this time, the data control unit 84 stores each withdrawal time in the food consumption information according to the current time from the one clock number means 70.

In addition, since the consumption period of the food can be calculated only by determining the complete withdrawal (ie, consumption) of the food, when the data control unit 84 receives a selection for complete withdrawal from the input means 20, the withdrawal time at this time Is stored in the food consumption information at the time of the last withdrawal of this food. Alternatively, if the input selection for the food is not input from the input / output selection section 22 for a predetermined time (for example, six hours) after the data control section 84 has been withdrawn, it is determined that complete consumption has been made. The last withdrawal is determined as the last withdrawal, and this withdrawal time is determined as the withdrawal time. Thereafter, the data control unit 84 calculates the difference between the initial input time and the last withdrawal time as the consumption period and stores the difference in the food consumption information.

Next, look at the generation of food consumption information through the reading means (30). The data control unit 84 receives food information (first food information) of the food introduced into the refrigerator from the reading unit 30 and generates food consumption information. At this time, the number of inputs is set to '1', the number of withdrawals may be automatically set to '0', or may be set after receiving the input selection from the input / withdrawal selector 22 of the input means 20. have. In addition, the data control unit 84 receives the current time from the one-hour counting means 70 and stores the first time of food input (time for calculating the consumption time) in the food consumption information.

Thereafter, the data control unit 84 transmits the stored food consumption information to the data transmission unit 83 to be displayed on the display unit 60. For example, when the RF reader 31 or the barcode 30 is installed in the vicinity of the display means 60 (i.e., the front of the refrigerator), when the user withdraws or injects food, after the withdrawal or At least the food is brought close to the reading means 30 before feeding, and the data control unit 84 receives the food information read by the reading means 30 through the data receiving unit 81 and stores the storage means 40. It is determined whether the same food information and / or food consumption information exists in the. In this judgment, if the same food information and / or food consumption information exists, it is judged as re-entry and / or withdrawal of food, otherwise it is judged as new food by initial input. In addition, if the same food information and / or food consumption information exists, if the number of times the retrieved food consumption information is greater than the withdrawal number, the food information received now is determined to be the reception of the withdrawal, the number of times and withdrawal times If the same, the food information received now is determined to be the reception of the input, and increases the number of times of input or withdrawal. Even in this case, the identification of the food to be fed or withdrawn is made by RFID or a barcode, and the identification of the fed or withdrawn can be made through the input / output selection unit 22 of the input means 20. In addition, when a plurality of RFID readers 31 are installed in the refrigerator, since the RFID reader 31 periodically reads the identification means of the food in the refrigerator, the data controller 84 has food consumption information. However, if food information is not received at some point after receiving food information, it is determined to be withdrawn, and if food information is received again later, it is determined as input, and if food information is continuously received, it is determined that the input state is maintained. . In accordance with this determination, the data processing unit 84 increases the number of times of withdrawing or inputting the food consumption information. At this time, the data control unit 84 stores each withdrawal time in the food consumption information according to the current time from the one-hour number means 60.

In addition, since the consumption period of the food can be calculated only by determining the complete withdrawal (ie, consumption) of the food, when the data control unit 84 receives a selection for complete withdrawal from the input means 20, the withdrawal time at this time Is stored in the food consumption information at the time of the last withdrawal of this food. Alternatively, if the input selection for the food is not input from the input / output selection section 22 for a predetermined time (for example, six hours) after the data control section 84 has been withdrawn, it is determined that complete consumption has been made. The last withdrawal is determined as the last withdrawal, and this withdrawal time is determined as the withdrawal time. Thereafter, the data control unit 84 calculates the difference between the initial input time and the last withdrawal time as the consumption period and stores the difference in the food consumption information.

As described above, the microprocessor 80 can generate a plurality of food consumption information for the same food, thereby determining a dietary pattern indicating the food consumption trend of the user.

As shown in FIG. 4, the data control unit 84 transmits food consumption information of the food to the data processing unit 82. Accordingly, the data processing unit 82 calculates an average number of input / outputs and an average consumption period (for example, six days) with respect to a reference amount (for example, 100 g) based on the received food consumption information. It is calculated and transmitted to the data control unit 84 as symbol pattern information, and the data control unit 84 stores it in the storage unit 40.

In addition, the dietary pattern information includes the degree of nutrition for this food. For the analysis of the nutritional level, the data control unit 84 reads the standard nutritional information from the storage means 40, analyzes the nutritional level corresponding to this food, and stores this nutritional level together with the dietary pattern information. This degree of nutrition may include information such as the degree of component analysis (for example, the content of protein, fat, carbohydrate, etc.), calories, and the content of fiber of the food.

In addition, the data control unit 84 transmits the symbol pattern information of the food consumed by the user for a predetermined time to the data processing unit 82, and the data processing unit 82 analyzes the degree of nutrition included in the symbol pattern information, Analyze the overall fostering status that the user will consume. This nutritional status may include the amount of calories consumed by a user for a predetermined period of time (eg, daily average), the proportion of nutritional components, the degree of fiber, and the like. The data processor 82 transmits the nutritional status of the user to the data controller 84, and the data controller 84 stores the data in the storage means 40.

As described above, the data control unit 84 stores in the storage means 40 information on the body data, the eating pattern and the nutritional state included in the health care information. Accordingly, the data control unit 84 transmits the health management information to the health diagnosis server 300 through the communication means 50 in accordance with the service selection command of the user from the service selection unit 23.

Subsequently, when the health diagnosis server 300 processes the health care information, generates and transmits the health diagnosis information corresponding thereto, the data control unit 84 receives the communication information through the communication means 50, and the previously stored diet information. It transmits to the data processing part 82 together. Accordingly, the data processor 82 generates a diet that satisfies the conditions (for example, strengthening fiber intake, avoiding high-sugar foods, etc.) of the received medical diagnosis information based on the diet information, and transmits it to the data controller 84. The data control unit 84 transmits the received diet to the data transmission unit 83 and is displayed on the display unit 60 to provide a diet to the user.

In addition, the data control unit 84 transmits the received diet to the health diagnosis server 300 through the communication means 50, receives diet determination information from the health diagnosis server 300, and changes and updates the pre-stored diet. And the updated diet is transmitted to the data transmitter 83 and provided to the user.

In addition, when the user withdraws a predetermined food from inside the store, the data control unit 84 identifies the food using the information from the input means 20 and / or the information from the reading means 30, and identifies the food. Compared with the prepared food and the diet and / or health diagnosis information, if the withdrawn food is forbidden in the diet and / or health diagnosis information or restricts its intake, the prohibition means and Restrictions can be indicated. In addition, the refrigerator 100 further includes an alarm means (not shown) that emits a predetermined warning sound to alert the user to such prohibitions and limitations, and the data control unit 84 includes the above-described prohibitions and restrictions. When the matter occurs, the alarm means notifies the user of the fact, so that the user can stop the intake of the food.

The present invention of such a configuration is to allow the user to check the current health status of the health diagnosis server, such as a hospital, according to the result to provide a proper diet to the user, to perform health care through the refrigerator closest to the food It works.

In addition, the present invention has the effect of utilizing the data from the nutrition, dietary patterns of the food ingested by the user in the health diagnosis, and ingesting the appropriate food according to the state of health.

In addition, the present invention determines the diet according to the health status of the user, thereafter has the effect of determining the usefulness of this diet to be updated to more efficiently perform the user's health care.

In addition, the present invention has an effect of providing a warning display for the food taken out from the refrigerator by the user, so that the user's health care can be kept in mind when the food is ingested.

Claims (7)

It is connected to a health measuring device, generates health care information including at least body data obtained from the health measuring device, transmits the health care information to a health diagnosis server through a network, the health management from the health diagnosis server A refrigerator for receiving health diagnosis information about the information, and generating a diet based on the health diagnosis information and displaying the diet to a user; A remote health management system, comprising: a health diagnosis server configured to receive health management information through the network, compare the health care information with previously stored diagnostic reference information, and generate and transmit the health diagnosis information to the refrigerator. . The method of claim 1, wherein the refrigerator transmits the diet to the health diagnosis server, and the health diagnosis server determines the usefulness of the diet based on the health care information and the dietary reference information, and determines the determination result. And transmit the reflected diet determination information to the refrigerator, wherein the refrigerator updates the diet according to the diet determination information. The remote health care system of claim 1, wherein the health care information includes at least one of a user's body data, a eating pattern, and a nutritional status. Judging means for judging food to be taken out by the user; Alarm means for displaying a warning sound; Storage means for storing diet or health diagnosis information; And a control means for reading out the diet or health diagnosis information from the storage means, and driving the alarm means according to the comparison result, in comparison with the extracted food. The health care refrigerator of claim 4, wherein the health care information comprises at least one of a user's body data, a eating pattern, and a nutritional status. The method of claim 4, wherein the determining means determines the food to be put or withdrawn into the refrigerator, the control means for recognizing the eating pattern and nutritional status of the user over a period of time according to the determination result of the food Healthcare refrigerator. delete

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