CN114627998A - Method and system for transmitting breast biorhythm monitoring data - Google Patents

Method and system for transmitting breast biorhythm monitoring data Download PDF

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CN114627998A
CN114627998A CN202210532036.9A CN202210532036A CN114627998A CN 114627998 A CN114627998 A CN 114627998A CN 202210532036 A CN202210532036 A CN 202210532036A CN 114627998 A CN114627998 A CN 114627998A
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徐霜
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Abstract

The invention provides a method and a system for transmitting breast biorhythm monitoring data, which specifically comprise the following steps: the patient side receives the input mammary gland biological rhythm monitoring data to obtain first mammary gland data, and a first patient label and a first time label are added to the first mammary gland data and then transmitted to the server side; the server determines a corresponding patient storage unit and a historical breast sequence according to the first patient label, and updates the historical breast sequence to obtain a current breast sequence; extracting first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor side; after receiving the biological rhythm data set, the doctor end displays the biological rhythm indexes with the same dimensionality in the same target area in the doctor end; and monitoring the doctor behavior of the doctor end to obtain behavior monitoring data, and updating the preset extraction strategy by the server end according to the behavior monitoring data.

Description

Method and system for transmitting breast biorhythm monitoring data
Technical Field
The invention relates to the technical field of data transmission, in particular to a method and a system for transmitting breast biorhythm monitoring data.
Background
Biological clocks are also called physiological clocks. It is an intangible "clock" in the organism, actually an intrinsic rhythmicity of the life activity of the organism, and is determined by the time structure sequence in the organism. By studying biological clocks, new disciplines such as chronobiology, chronopharmacology, chronotherapeutics, and the like have been developed nowadays.
The biological rhythm of the mammary gland is understood to be the biological clock related to the mammary gland, and a doctor can analyze the biological rhythm of the mammary gland of a female patient to obtain a corresponding treatment scheme. For women, the data of the biological rhythm of the mammary gland is sensitive and is not easy to disclose. The breast biorhythm information and data of women need to be collected at regular time, so a stable transmission method needs to be determined to stably transmit the breast biorhythm monitoring data.
Disclosure of Invention
The embodiment of the invention provides a method and a system for transmitting mammary gland biorhythm monitoring data. The system can acquire the mammary gland biological rhythm monitoring data through the patient end, and store the mammary gland biological rhythm monitoring data in the server end, so that a doctor can obtain the corresponding mammary gland biological rhythm monitoring data through the doctor end, intelligent and online diagnosis is realized, the mammary gland biological rhythm monitoring data are only known by the patient and the doctor, and the privacy of the mammary gland biological rhythm monitoring data is improved while the data can be stably stored and transmitted.
In a first aspect of the embodiments of the present invention, a method for transmitting breast biorhythm monitoring data is provided, which includes a patient side, a server side and a doctor side, and the following steps are performed to transmit the breast biorhythm monitoring data output by the patient side to the server side and the doctor side, and specifically include:
the patient side receives the input mammary gland biological rhythm monitoring data to obtain first mammary gland data, and a first patient label and a first time label are added to the first mammary gland data and then transmitted to the server side;
the server determines a corresponding patient storage unit and a historical breast sequence according to the first patient label, and updates the historical breast sequence according to the first breast data and the first time label to obtain a current breast sequence;
extracting first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor side;
after receiving the biological rhythm data set, the doctor end extracts biological rhythm indexes with the same dimensionality in the biological rhythm data set, and displays the biological rhythm indexes with the same dimensionality in the same target area in the doctor end;
monitoring the doctor behavior of the doctor end to obtain behavior monitoring data, and transmitting the behavior monitoring data to the server end so that the server end updates and processes the preset extraction strategy according to the behavior monitoring data.
Optionally, in a possible implementation manner of the first aspect, in the step of determining, by the server, the corresponding patient storage unit and the historical breast sequence according to the first patient tag, and updating the historical breast sequence according to the first breast data and the first time tag to obtain the current breast sequence, the method specifically includes:
selecting a corresponding patient storage unit according to the first patient label, and determining a historical breast sequence in the patient storage unit, wherein the historical breast sequence is a sequence of all second breast data formed on the basis of a time point sequence;
and arranging the received first mammary gland data in front of all the second mammary gland data to update the historical mammary gland sequence to obtain the current mammary gland sequence.
Optionally, in a possible implementation manner of the first aspect, the step of extracting a first breast data and a plurality of second breast data in a current breast sequence based on a preset extraction strategy to obtain a breast data set, and transmitting the breast data set to a physician side specifically includes:
acquiring a preset extraction time period and a preset extraction quantity in a preset extraction strategy, and taking a moment corresponding to a first time tag of first mammary gland data in a current mammary gland sequence as an initial moment;
determining a plurality of second mammary gland data which are adjacent in sequence at intervals of preset extraction time periods by taking the starting moment as a starting point;
extracting second mammary gland data corresponding to the preset extraction quantity by taking the starting moment as a starting point, and obtaining a biological rhythm data set according to the first mammary gland data and the extracted second mammary gland data;
and transmitting the biorhythm data set to a doctor end.
Optionally, in a possible implementation manner of the first aspect, the step of monitoring a physician behavior at a physician end to obtain monitoring data, and transmitting the monitoring data to a server end, where the server end updates a preset extraction policy according to the monitoring data specifically includes:
receiving an access request of a doctor to the server, and monitoring the doctor calling behavior of the doctor if the access request is to call the breast biorhythm monitoring data stored in the patient storage unit;
determining historical breast biorhythm monitoring data called by a monitored doctor end, and determining a time label corresponding to the called second breast data and the calling number of the called second breast data;
updating the preset extraction time period according to the time labels respectively corresponding to all the called second mammary gland data;
updating the preset extraction number according to the calling number of all the called second mammary gland data.
Optionally, in a possible implementation manner of the first aspect, in the step of updating the preset extraction time period according to time tags respectively corresponding to all the called second breast data, the method specifically includes:
taking the time point corresponding to the time label of each first mammary gland data and each second mammary gland data in the biological rhythm data set as a first time point, and taking the time point corresponding to the time label of the called second mammary gland data as a second time point;
uniformly sequencing the first time points and the second time points according to a time sequence, determining a time period between each first time point and the adjacent second time point to obtain a first time period, and determining a time period between each second time point and the second time point to obtain a second time period;
if the first time period and the second time period are respectively greater than or equal to the preset extraction time period, the preset extraction time period is not updated;
and if any one of the first time period and the second time period is smaller than the preset extraction time period, updating the preset extraction time period.
Optionally, in a possible implementation manner of the first aspect, if any one of the first time period and the second time period is smaller than the preset extraction time period, the step of not updating the preset extraction time period specifically includes:
obtaining a minimum time period and an average time period according to the first time period and the second time period;
if the difference value between the minimum time period and the average time period is smaller than a preset value, taking the average time period as an updated preset extraction time period;
if the difference value between the minimum time period and the average time period is larger than a preset value, calculating a preset extraction time period according to the minimum time period and the average time period, and carrying out integral processing on the preset extraction time period;
the preset extraction time period is calculated by the following formula,
Figure 337414DEST_PATH_IMAGE001
wherein the content of the first and second substances,
Figure 723396DEST_PATH_IMAGE002
to be the average time period,
Figure 831029DEST_PATH_IMAGE003
a first time point or a second time point later than the time point in the first time period or the second time period,
Figure 570446DEST_PATH_IMAGE004
is the first timeA first time point or a second time point preceding the time point in the segment or the second time segment,
Figure 853660DEST_PATH_IMAGE005
is the upper limit value of the first time period and the second time period,
Figure 269598DEST_PATH_IMAGE006
is a quantitative value of the first time period and the second time period,
Figure 5473DEST_PATH_IMAGE007
in order to be the minimum time period,
Figure 545651DEST_PATH_IMAGE008
is a first time point or a second time point later in the minimum time period,
Figure 683371DEST_PATH_IMAGE009
the first time point or the second time point before the minimum time period,
Figure 4631DEST_PATH_IMAGE010
in order to calculate the preset extraction time period,
Figure 493381DEST_PATH_IMAGE011
to calculate the weight value.
Optionally, in a possible implementation manner of the first aspect, in the step of updating the preset extraction number according to the retrieval numbers of all retrieved second breast data, the method specifically includes:
if the time points of all the called second mammary gland data are before the time points in all the mammary gland data sets, adding the called number and the preset extraction number before updating to obtain the preset extraction number after the first updating mode;
if there is a time point of the second retrieved breast data that is subsequent to the most recent time point in the breast data set, determining a first quantity of the second retrieved breast data that is prior to the most recent time point in the breast data set and a second quantity of the second retrieved breast data that is subsequent to the most recent time point in the breast data set;
obtaining the preset extraction quantity after the second updating mode according to the first quantity and the second quantity, and carrying out integer processing on the preset extraction quantity after the second updating mode;
the updated preset number of extractions is calculated by the following formula,
Figure 574601DEST_PATH_IMAGE012
wherein the content of the first and second substances,
Figure 566828DEST_PATH_IMAGE013
the preset number of fetches after the first update mode,
Figure 590147DEST_PATH_IMAGE014
in order to preset the number of fetches before updating,
Figure 300614DEST_PATH_IMAGE015
in order to call up the number of calls,
Figure 919946DEST_PATH_IMAGE016
for the preset number of fetches after the second update mode,
Figure 32258DEST_PATH_IMAGE017
for the first calculation of the weight, the weight is calculated,
Figure 101845DEST_PATH_IMAGE018
in the form of a first number of bits,
Figure 424242DEST_PATH_IMAGE019
for the purpose of the second calculation of the weights,
Figure 971898DEST_PATH_IMAGE020
is the second number.
Optionally, in a possible implementation manner of the first aspect, the method further includes:
acquiring a corresponding doctor label in the behavior monitoring data, and corresponding the updated preset extraction time period and the updated preset extraction quantity to the doctor label;
in the step of extracting a first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, the method specifically includes:
acquiring a doctor label in the current mammary gland sequence, and determining a corresponding preset extraction time period and a preset extraction number according to the doctor label;
extracting first mammary gland data and a plurality of second mammary gland data according to the preset extraction time period and the preset extraction number to obtain a mammary gland data set, and adding a doctor label to the mammary gland data set;
and sending the mammary gland data set to a doctor end with a corresponding doctor label.
Optionally, in a possible implementation manner of the first aspect, the step of monitoring physician behavior at a physician end to obtain monitoring data, and transmitting the monitoring data to a server end specifically includes:
a doctor end receives the biological rhythm data set and then generates a case note, note information added to the case note is obtained according to the doctor behavior of the doctor end, and if the note information is not null, the note information and a doctor label are correspondingly stored to obtain complete case information;
sending the case information to a server side to be stored in a corresponding patient storage unit;
after the server side obtains the mammary gland data set, all case information in a patient storage unit where the mammary gland data set is located is determined, and the case information is sent to a doctor side.
In a second aspect of the embodiments of the present invention, a device for transmitting breast biorhythm monitoring data is provided, which includes a patient side, a server side and a doctor side, and the following modules are used to transmit the breast biorhythm monitoring data output by the patient side to the server side and the doctor side, and specifically includes:
the label adding module is used for enabling the patient end to receive the input mammary gland biological rhythm monitoring data to obtain first mammary gland data, adding a first patient label and a first time label to the first mammary gland data and then transmitting the first mammary gland data to the server end;
the sequence updating module is used for enabling the server to determine a corresponding patient storage unit and a historical mammary gland sequence according to the first patient label, and updating the historical mammary gland sequence according to the first mammary gland data and the first time label to obtain a current mammary gland sequence;
the data extraction module is used for extracting first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor end;
the display module is used for extracting the biological rhythm indexes with the same dimensionality in the biological rhythm data set after the doctor end receives the biological rhythm data set, and displaying the biological rhythm indexes with the same dimensionality in the same target area in the doctor end;
and the strategy updating module is used for monitoring the doctor behavior of the doctor end to obtain behavior monitoring data, and transmitting the behavior monitoring data to the server end so that the server end updates the preset extraction strategy according to the behavior monitoring data.
In a third aspect of the embodiments of the present invention, a storage medium is provided, in which a computer program is stored, which, when being executed by a processor, is adapted to implement the method according to the first aspect of the present invention and various possible designs of the first aspect of the present invention.
The invention provides a method and a system for transmitting breast biorhythm monitoring data. The patient can upload the breast biorhythm monitoring data at different time points through the patient side, the server side can store the first breast data obtained according to the breast biorhythm monitoring data and update the historical breast sequence to obtain the current breast sequence, the invention can obtain partial breast data according to a preset extraction strategy to generate a breast data set and transmit the corresponding breast data set to the doctor side, so that the invention can carry out preliminary screening when providing corresponding breast data for the doctor, reduce the data volume of the breast data checked by the doctor side, monitor the doctor behavior at the doctor side to obtain corresponding monitoring data, update the preset extraction strategy according to the monitoring data, ensure that the subsequent generation of the breast data set better meets the requirements of the corresponding doctor and reduce the time for the doctor to acquire the breast data, the online diagnosis and inquiry efficiency of doctors is improved.
According to the technical scheme provided by the invention, when the preset extraction strategy is updated, the preset extraction time period and the preset extraction quantity are respectively updated. When the preset extraction time period is updated, the second time point of the second breast data actively called by the physician is obtained according to the monitoring data of the physician behavior, and the preset extraction time period is updated according to the position of the second time point of each second breast data actively called, so that the subsequent preset extraction time period is more suitable for the corresponding physician. When the preset extraction quantity is updated, the second time point of the second mammary gland data actively called by the doctor is obtained according to the monitoring data of the doctor, the preset extraction quantity is updated according to the position of the second time point of each second mammary gland data actively called and the quantity of the second time points, and different updating modes are adopted according to different calling scenes, so that the subsequent preset extraction quantity is more suitable for the corresponding doctor. Thereby enabling the present invention to better conform to each physician in the subsequent generation of biorhythm data sets.
According to the technical scheme provided by the invention, the corresponding preset extraction time period and the preset extraction number can be obtained for each doctor label, so that when the corresponding mammary gland data set is sent to each doctor end, the mammary gland data sets with different data combination modes can be sent according to different diagnosis habits of each doctor, each doctor has appropriate data volume when looking up the first mammary gland data and the second mammary gland data, the time for locking target data by the doctor due to excessive data is avoided, and the misdiagnosis caused by insufficient data can be avoided.
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FIG. 1 is a schematic diagram of an applicable scenario of a transmission method of mammary gland biorhythm monitoring data;
FIG. 2 is a flow chart of a first embodiment of a method for transmitting breast biorhythm monitoring data;
FIG. 3 is a flow chart of a second embodiment of a method for transmitting breast biorhythm monitoring data;
fig. 4 is a block diagram of a first embodiment of a transmission device for breast biorhythm monitoring data.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.
It should be understood that, in various embodiments of the present invention, the sequence numbers of the processes do not mean the execution sequence, and the execution sequence of the processes should be determined by the functions and the internal logic of the processes, and should not constitute any limitation on the implementation process of the embodiments of the present invention.
It should be understood that in the present application, "comprising" and "having" and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
It should be understood that, in the present invention, "a plurality" means two or more. "and/or" is only an association relationship describing an associated object, and means that there may be three relationships, for example, a and/or B, and may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. "comprises A, B and C" and "comprises A, B, C" means that A, B, C all comprise, "comprises A, B or C" means comprise one of A, B, C, "comprises A, B and/or C" means comprise any 1 or any 2 or 3 of A, B, C.
It should be understood that in the present invention, "B corresponding to a", "a corresponds to B", or "B corresponds to a" means that B is associated with a, and B can be determined from a. Determining B from a does not mean determining B from a alone, but may be determined from a and/or other information. And the matching of A and B means that the similarity of A and B is greater than or equal to a preset threshold value.
As used herein, "if" may be interpreted as "at … …" or "when … …" or "in response to a determination" or "in response to a detection", depending on the context.
The technical solution of the present invention will be described in detail below with specific examples. These several specific embodiments may be combined with each other below, and details of the same or similar concepts or processes may not be repeated in some embodiments.
Fig. 1 is a schematic view of a suitable scenario provided by the present invention, which includes a patient side, a server side, and a physician side. The patient end and the doctor end can be intelligent devices such as mobile phones, computers and intelligent screens. The server may include a server, a database, and other devices with data transmission, storage, and processing functions. The server side can process and store the breast biorhythm monitoring data uploaded by the patient side, send the breast biorhythm monitoring data to the corresponding doctor side and receive an access request of the doctor side.
The invention provides a method for transmitting mammary gland biorhythm monitoring data, as shown in figure 2, which comprises the following steps of transmitting the mammary gland biorhythm monitoring data output by a patient end to a server end and a doctor end, and specifically comprises the following steps:
step S110, the patient side receives the input mammary gland biorhythm monitoring data to obtain first mammary gland data, and the first mammary gland data is added with a first patient label and a first time label and then transmitted to the server side. The patient fills corresponding breast biorhythm monitoring data, such as the change condition of breast nodules in the breast, the milk blockage condition, the milk discharge condition and the like, into the patient end according to the change of the breast and the mammary gland at different moments, and the invention does not limit the specific behavior of the breast biorhythm. Generally, each patient end corresponds to one patient, and the breast biorhythm monitoring data received by the patient end can be understood as the data of the patient corresponding to the patient end. After receiving the breast biorhythm monitoring data, the patient side can obtain first breast data, and adds a corresponding first patient label and a first time label to the first breast data, wherein the first patient label comprises a name, an identification number and the like. The first time tag may be the time at which the first breast data was generated, e.g., 10 months, 14 days, 2021, etc. After the first patient tag and the first time tag are added to the first breast data, the patient side locally transmits the corresponding first breast data to the server side.
The patient may send the breast biorhythm monitoring data to the patient at a reference time interval, which may be determined by the patient's business with a physician, e.g., 1 day, 2 days, 1 week, etc.
And S120, the server determines a corresponding patient storage unit and a corresponding historical breast sequence according to the first patient label, and updates the historical breast sequence according to the first breast data and the first time label to obtain the current breast sequence. After receiving the first breast data, the server first determines a corresponding patient storage unit. Typically, the server will assign a corresponding patient storage unit to each patient, the patient storage unit will have all breast data of the corresponding patient, the patient storage unit will have a historical breast sequence stored therein, and the historical breast sequence will include a plurality of previous breast data. The server side can update the historical mammary gland sequence according to the newly received first mammary gland data and the first time tag, and then the latest current mammary gland sequence is obtained.
In a possible implementation manner of the technical solution provided by the present invention, as shown in fig. 3, step S120 specifically includes:
step S1201, selecting a corresponding patient storage unit according to the first patient label, and determining a historical breast sequence in the patient storage unit, wherein the historical breast sequence is a sequence of all second breast data formed on the basis of a time point sequence. According to the technical scheme provided by the invention, firstly, the patient storage units are determined according to the first patient label, each patient storage unit has corresponding preset unit information, and the unit information can be the name, identification number and the like of the patient. After obtaining the patient memory cell, the invention determines the corresponding historical breast sequence. For example, 3 second mammary gland data are present in the historical mammary gland sequence, and the time points of the 5 second mammary gland data are 10/13 days in 2021, 10/12 days in 2021, 10/11 days in 2021, 10/10 days in 2021, and 10/9 days in 2021. Then there are 5 second breast data in the historical breast sequence at this time, sorted by time point.
And step S1202, arranging the received first mammary gland data in front of all second mammary gland data to update the historical mammary gland sequence, so as to obtain the current mammary gland sequence. The invention arranges the first mammary gland data in front of all the second mammary gland data, namely arranges the first mammary gland data in front of the second mammary gland data. At this time, 1 first mammary gland data and 5 second mammary gland data exist in the current mammary gland sequence. The time points of the first and second mammary gland data included in the current mammary gland sequence are 14/10/2021, 13/10/2021, 12/10/2021, 11/10/2021, 10/2021, 9/10/2021, 8/10/2021, 7/10/2021, and 6/10/2021.
Step S130, extracting first mammary gland data and a plurality of second mammary gland data in the current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor side. In the actual treatment process of a doctor, the interval time is short, the information between the adjacent first breast data and the adjacent second breast data, and the information between the adjacent second breast data and the adjacent second breast data may be less changed, the current breast sequence may have breast data transmitted by a patient at all times, if all the breast data in the current breast sequence are transmitted to the doctor end, the data amount at the doctor end may be increased, and the doctor cannot quickly determine the required data, so that the diagnosis efficiency of the doctor is reduced. Therefore, the invention can extract the first mammary gland data and the plurality of second mammary gland data in the current mammary gland sequence according to the preset extraction strategy to generate a mammary gland data set, and send the data in the mammary gland data set to a doctor end.
In a possible embodiment of the technical solution provided by the present invention, step S130 specifically includes:
and acquiring a preset extraction time period and a preset extraction quantity in a preset extraction strategy, and taking the moment corresponding to the first time tag of the first mammary gland data in the current mammary gland sequence as an initial moment. When determining the first breast data and the second breast data in the current breast sequence, it is first necessary to determine a preset extraction time period, which may be 1 day, 2 days, 1 week, etc., and the determination may be performed according to different diagnosis situations, and may be 2 days in general. The invention takes the time corresponding to the first time label of the first mammary gland data as the starting time, for example, 10 months and 14 days in 2021.
And determining a plurality of second mammary gland data which are adjacent in sequence at intervals and preset extraction time periods by taking the starting moment as a starting point. If the second mammary gland data is extracted according to the preset extraction time period every two days, the second mammary gland data with the time points of 10 and 14 days in 2021 year, 10 and 10 days in 2021 year, 10 and 8 days in 2021 year, and 6 days in 2021 year, 10 and 6 days in 2021 year are used as the determined second mammary gland data.
And extracting second mammary gland data corresponding to the preset extraction number by taking the starting moment as a starting point, and obtaining a biological rhythm data set according to the first mammary gland data and the extracted second mammary gland data. The biological rhythm data set determined at this time includes first mammary gland data of 14 days at 10 months in 2021, and second mammary gland data of 12 days at 10 months in 2021, 10 days at 10 months in 2021, 8 days at 10 months in 2021, and 6 days at 10 months in 2021. For example, if the preset extraction number is 4, and the biological rhythm data set includes 5 pieces of breast data, only 3 pieces of second breast data closest to the current time are retained, and a biological rhythm data set having 1 piece of second breast data and 3 pieces of second breast data is obtained. The second mammary gland data included in the biological rhythm data set at this time are second mammary gland data of 12 days at 10 months in 2021, 10 days at 10 months in 2021, and 8 days at 10 months in 2021.
And transmitting the biorhythm data set to a doctor end. After the biological rhythm data set is obtained, the corresponding biological rhythm data set is transmitted to a doctor end, so that the doctor end carries out corresponding diagnosis according to the biological rhythm data of the patient.
Through the steps, the mammary gland data of each patient can be preliminarily screened to obtain the corresponding biological rhythm data set, the data in the biological rhythm data set at the moment have the preset interval and are close to the current moment, the biological rhythm change trend of the patient in the latest time period can be reflected, and a doctor can determine the corresponding treatment scheme according to the trend.
And step S140, after receiving the biological rhythm data set, the doctor end extracts the biological rhythm indexes with the same dimension in the biological rhythm data set, and displays the biological rhythm indexes with the same dimension in the same target area in the doctor end. According to the technical scheme provided by the invention, after a doctor end receives a corresponding biological rhythm data set, biological rhythm indexes with the same dimensionality in the biological rhythm data set are actively extracted, and the dimensionality can be breast nodules, milk discharge amount, milk blockage and the like. The biorhythmic indicator associated with a breast nodule may be, for example, a textual indicator, such as small, medium, large, and the like. The biorhythm index corresponding to the milk output may be, for example, 10 ml, 20 ml, or the like. The invention is not limited in any way as to the dimension in the biorhythm data set and the specific content of the biorhythm index. The doctor end can preset a display area, and the biological rhythm indexes with the same dimensionality in the biological rhythm data set are displayed in the corresponding target display area, so that the doctor can easily check and analyze the state of an illness.
And S150, monitoring the doctor behavior of the doctor end to obtain behavior monitoring data, and transmitting the behavior monitoring data to the server end so that the server end updates and processes the preset extraction strategy according to the behavior monitoring data. A physician may view the first and second breast data within the biorhythm data set through a physician side. When a doctor views the breast data in the biorhythm data set for diagnosis, there may be two possibilities, and the first is that the doctor considers that the data in the biorhythm data set can reflect the current condition of the patient and the corresponding breast biorhythm condition, and does not need to actively call the breast data stored in the server. The 2 nd is that the physician considers that the data in the biorhythm data set can not fully reflect the current illness state of the patient and the corresponding biological rhythm condition of mammary gland, and needs to actively call the mammary gland data stored in the server. The invention can correspondingly monitor according to different behaviors of the doctor, and monitor whether the doctor calls the mammary gland data or not after receiving the biorhythm data set.
In a possible implementation manner of the technical solution provided by the present invention, step S150 specifically includes:
and receiving an access request of a doctor to the server, and monitoring the doctor calling behavior of the doctor if the access request is to call the breast biorhythm monitoring data stored in the patient storage unit. In this case, the present invention is the above-mentioned case 2, and the present invention monitors the doctor's calling behavior at the doctor side.
Determining historical breast biorhythm monitoring data called by the monitored doctor, and determining a time label corresponding to the called second breast data and the calling number of the called second breast data. According to the technical scheme provided by the invention, the time tag corresponding to the second mammary gland data and the calling quantity of the second mammary gland data are extracted. The preset extraction time period can be updated according to the time tag corresponding to the second breast data, so that the current breast sequence is more suitable for the corresponding physician when being determined next.
And updating the preset extraction time period according to the time labels respectively corresponding to all the called second mammary gland data. According to the technical scheme provided by the invention, the preset extraction time period can be updated according to the time labels respectively corresponding to the second mammary gland data.
In a possible implementation manner, the step of updating the preset extraction time period according to the time tags respectively corresponding to all the called second breast data specifically includes:
and taking the time point corresponding to the time label of each of the first mammary gland data and the second mammary gland data in the biological rhythm data set as a first time point, and taking the time point corresponding to the time label of the called second mammary gland data as a second time point. According to the technical scheme provided by the invention, the time points corresponding to the time labels of the first mammary gland data and the second mammary gland data in the original biological rhythm data set determined by the server are taken as the first time points, and by the above way, the mammary gland data of different source ways viewed by a doctor during diagnosis are distinguished, and the preparation processing is carried out for subsequently determining the first time period and the second time period.
And uniformly sequencing the first time points and the second time points according to a time sequence, determining a time period between each first time point and the adjacent second time point to obtain a first time period, and determining a time period between each second time point and the second time point to obtain a second time period. After the first time point and the second time are obtained, all the time points are sequenced, for example, the sequencing in a descending order is carried out, and the time point close to the current time is before and the time point far away from the current time is after. The breast data corresponding to the first time point can be regarded as the time point of the breast data extracted by the server according to the preset extraction time period, and the second time point is the time point of the breast data actively called by the doctor.
When the physician actively calls, calls the second breast data, it may call the second breast data between two adjacent second breast data, the first breast data or the second breast data in the biorhythm data set, for example, the breast data in the biorhythm data set includes:
first mammary gland data of 14 days at 10 months 2021, second mammary gland data of 12 days at 10 months 2021, 10 months 10 days at 10 months 2021, 8 days at 10 months at 2021, and 6 days at 10 months at 2021.
In the first calling mode, the active calling of the physician and the called mammary gland data are as follows:
second mammary gland data of 13/10/2021, 11/10/2021, 9/10/2021, and 7/10/2021.
In the second calling mode, the active calling of the physician and the called mammary gland data are as follows:
second mammary gland data of 10/4/2021 and 10/2/2021.
In the first calling mode, the first time period between the first time point and the adjacent second time point is 1 day, and the second time period between the second time point and the adjacent second time point is 2 days. In a second calling mode, a first time period between a first time point and an adjacent second time point is 2 days, and a first time period between the second time point and the adjacent second time point is 2 days.
And if the first time period and the second time period are respectively greater than or equal to the preset extraction time period, not updating the preset extraction time period. In the second calling mode, the first time period and the second time period are respectively greater than or equal to the preset extraction time period, which proves that the preset extraction time period is not too large, so that the preset extraction time period may not be updated.
And if any one of the first time period and the second time period is smaller than the preset extraction time period, updating the preset extraction time period. When any one of the first time period and the second time period is smaller than the preset extraction time period, it is proved that the preset extraction time period is too large, so that the preset extraction time period needs to be subjected to reduced adjustment, and a doctor needs to obtain mammary gland data with a finer time dimension.
In a possible implementation manner, in the step of not updating the preset extraction time period if any one of the first time period and the second time period is less than the preset extraction time period, the method specifically includes:
and obtaining a minimum time period and an average time period according to the first time period and the second time period. The technical scheme provided by the invention can be based on the minimum time period and the average time period of the first time period and the second time period.
And if the difference value between the minimum time period and the average time period is smaller than a preset value, taking the average time period as an updated preset extraction time period. If the difference value between the minimum time period and the average time period is smaller than the preset value, the fact that the minimum time period and the average time period are closer is proved, and therefore the average time period can be directly used as the updated preset extraction time period. In an actual scene, the preset time period before updating may be 5 days, 10 days, and the like, so that a value of the preset extraction time period may have a large range, and further a certain difference exists between the minimum time period and the average time period, when a difference between the minimum time period and the average time period is smaller than the preset value, the minimum time period and the average time period are closer to each other, for example, the minimum time period is 5 days, and the average time period is 6 days, so that the average time period may be directly used as the updated preset extraction time period, that is, the average time period is 6 as the updated preset extraction time period.
For example, breast data in a biorhythm data set includes:
first mammary gland data of 30 months at 2021, second mammary gland data of 20 days at 10 months at 2021, 10 days at 10 months at 2021, 30 days at 9 months at 2021, and so on. The preset extraction time period before updating is 10, for example, if the calculated minimum time period is 7, the average time period is 8, and the preset value is 2, then the updated preset extraction time period is the average time period.
And if the difference value between the minimum time period and the average time period is larger than a preset value, calculating a preset extraction time period according to the minimum time period and the average time period, and carrying out integral processing on the preset extraction time period. According to the technical scheme provided by the invention, when the difference value between the minimum time period and the average time period is larger than the preset value, the difference value between the minimum time period and the average time period is proved to be overlarge.
For example, breast data in a biorhythm data set includes:
first mammary gland data of 30 months at 2021, second mammary gland data of 20 days at 10 months at 2021, 10 days at 10 months at 2021, 30 days at 9 months at 2021, and so on. The preset extraction time period before updating is 10, for example, the calculated minimum time period is 4, the average time period is 8, and the preset value is 2, then the updated preset extraction time period is calculated according to the minimum time period and the average time period.
The preset extraction time period is calculated by the following formula,
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wherein the content of the first and second substances,
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to be the average time period,
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a first time point or a second time point later than the time point in the first time period or the second time period,
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the first time period or the first time period before the time point in the second time periodThe point in time or the second point in time,
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is the upper limit value of the first time period and the second time period,
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is a quantitative value of the first time period and the second time period,
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in order to be the minimum time period,
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is a first time point or a second time point later in the minimum time period,
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the first time point or the second time point before the minimum time period,
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in order to calculate the preset extraction time period,
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to calculate the weight value.
The technical scheme provided by the invention can be realized according to
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Obtaining an average value of the sum of all the first time periods and the second time periods by
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A minimum first or second time period can be obtained by
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The updated preset extraction time period may be calculated in combination with the minimum time period and the average time period, such that the preset extraction time period is determined in combination with multiple dimensions, such thatThe preset extraction time period is not suddenly reduced, and can be adjusted in a variable manner according to the minimum time period and the average time period.
According to the technical scheme provided by the invention, the preset extraction time period can be adjusted or not adjusted according to different calling modes of doctors, so that the corresponding mammary gland data can better meet the requirements of the doctors when the server generates the mammary gland data set, and continuous training and updating of the preset extraction time period are realized.
And updating the preset extraction number according to the calling number of all the called second mammary gland data. According to the technical scheme provided by the invention, the preset extraction quantity is updated.
In a possible implementation manner, the step of updating the preset extraction number according to the calling number of all the called second breast data specifically includes:
and if the time points of all the called second mammary gland data are before the time points in all the mammary gland data sets, adding the called number and the preset extraction number before updating to obtain the preset extraction number after the first updating mode. When the time points of all the second mammary gland data are before the time points in all the mammary gland data sets, the calling mode of the doctor at this time is proved to be the second calling mode, so that the calling number and the preset extraction number before updating can be added to obtain the preset extraction number after the first updating mode. At this time, it is proved that the physician needs to check the breast data with more advanced time, so that the preset extraction amount is determined next time, and more breast data can be extracted.
If there is a time point of the second breast data that is called after the most recent time point in the breast data set, a first quantity of the second breast data that is called before the most recent time point in the breast data set and a second quantity of the second breast data that is called after the most recent time point in the breast data set are determined. If the time point of the second retrieved breast data is after the most recent time point in the breast data set, it is proved that the interval time of the partial breast data is considered to be larger by the physician at this time. If there is a second number of time points of the second breast data after the most recent time point in the breast data set, it turns out that the physician needs to view the more recent breast data at this point in time, the second number may be 0.
And obtaining the preset extraction quantity after the second updating mode according to the first quantity and the second quantity, and carrying out integer processing on the preset extraction quantity after the second updating mode. According to the technical scheme provided by the invention, the preset extraction quantity is calculated by combining the first quantity and the second quantity.
The updated preset number of extractions is calculated by the following formula,
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wherein the content of the first and second substances,
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the preset number of fetches after the first update mode,
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in order to preset the number of fetches before updating,
Figure 292076DEST_PATH_IMAGE015
in order to call up the number of calls,
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for the preset number of fetches after the second update mode,
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for the first calculation of the weight, the weight is calculated,
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in the form of a first number of bits,
Figure 292688DEST_PATH_IMAGE019
for the purpose of the second calculation of the weights,
Figure 148649DEST_PATH_IMAGE020
is the second number.
According to the method, the updating modes with different preset extraction quantities are adopted according to different calling modes of doctors, the preset extraction time period is not changed in the first updating mode, the increased preset extraction quantity corresponds to a purely increased numerical value, for example, the number is increased by 2, and the preset extraction quantity is increased by 2. In the second updating method, the corresponding preset extraction time period has changed, so the extracted time period changes at this time, and the number of the second breast data called at different time points also has corresponding differences, so fusion calculation needs to be performed according to the first number and the second number, and generally, the first calculation weight is calculated according to the first number and the second number
Figure 252871DEST_PATH_IMAGE024
Less than the second calculated weight
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If the second number is larger, it is proved that the previous preset extraction time period is longer, so that the shortened preset extraction time is shorter, and the updated preset extraction number is more, so that a plurality of second mammary gland data with a longer time period can be obtained.
According to the technical scheme provided by the invention, when the preset extraction quantity is updated, different calculation modes can be adopted according to different calling modes and updating modes, so that the updated preset extraction quantity is more applicable to scenes.
In a possible embodiment, the technical solution provided by the present invention further includes:
and acquiring a corresponding doctor label in the behavior monitoring data, and corresponding the updated preset extraction time period and the updated preset extraction quantity to the doctor label. Generally speaking, the diagnosis habits of each physician are different, so the number and time of breast data required to be viewed by each physician in the diagnosis process are also different, and the preset extraction time period and the preset extraction number corresponding to each physician label are generated according to the corresponding physician label in each monitoring data.
When the system is initialized, each doctor can be considered to have the same preset extraction time period and preset extraction number, and with the difference of the modes of viewing the mammary gland data by each doctor, the preset extraction time period and the preset extraction number corresponding to each doctor can be obtained, and the preset extraction time period and the preset extraction number corresponding to each doctor label are continuously updated and trained according to the behavior monitoring data of the doctor, so that the accuracy of the preset extraction time period and the preset extraction number corresponding to each doctor is improved.
In the step of extracting a first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, the method specifically includes:
and acquiring a doctor label in the current mammary gland sequence, and determining a corresponding preset extraction time period and a preset extraction number according to the doctor label. Generally, physicians corresponding to each patient are relatively fixed, the present invention obtains a corresponding preset extraction time period and a corresponding preset extraction number according to a physician tag corresponding to a current mammary gland sequence, each patient storage unit has a corresponding physician tag, the number of the physician tags corresponding to each patient storage unit may be multiple, and the present invention determines the corresponding preset extraction time period and the corresponding preset extraction number according to the physician tags.
Extracting first mammary gland data and a plurality of second mammary gland data according to the preset extraction time period and the preset extraction number to obtain a mammary gland data set, and adding a doctor label to the mammary gland data set. After the mammary gland data set is obtained, a doctor label is added.
And sending the mammary gland data set to a doctor end with a corresponding doctor label. The server sends the breast data set to the corresponding physician according to the physician label.
In a possible implementation manner, the step of monitoring the physician behavior at the physician end to obtain the monitoring data and transmitting the monitoring data to the server end specifically includes:
and the doctor end receives the biological rhythm data set and then generates a case note, note information added to the case note is obtained according to the doctor behavior of the doctor end, and if the note information is not null, the note information and the doctor label are correspondingly stored to obtain complete case information. Generally speaking, after receiving a corresponding biorhythm data set, a doctor end can perform some diagnosis behaviors and comment behaviors, so at this time, the technical scheme provided by the invention can generate a corresponding case note, the diagnosis behaviors and the comment behaviors are collected through the case note to obtain note information, if the note information is not null, the fact that corresponding content is added to the doctor is proved, so that the note information and the doctor label are correspondingly stored to obtain complete case information, and the case information at this time has the diagnosis information of the doctor and the identity information of the doctor, so that the subsequent diagnosis process can be checked.
And sending the case information to a server side to be stored in a corresponding patient storage unit. After obtaining the corresponding case information, the invention can send the case information to the patient storage unit, and can also send the case information to the patient end through the server end.
After the server side obtains the mammary gland data set, all case information in a patient storage unit where the mammary gland data set is located is determined, and the case information is sent to the doctor side. In the treatment process of a patient, a plurality of cases corresponding to doctors may exist, so when a mammary gland data set is sent to a certain doctor end, all cases can be sent to the doctor end, the doctor end can check corresponding case comments according to the cases, and the diagnosis efficiency is improved.
In order to implement the method for transmitting the breast biorhythm monitoring data provided by the present invention, the present invention further provides a device for transmitting the breast biorhythm monitoring data, which comprises a patient end, a server end and a doctor end, wherein the breast biorhythm monitoring data output by the patient end is transmitted to the server end and the doctor end through the following modules, as shown in fig. 4, the method specifically comprises:
the label adding module is used for enabling the patient end to receive the input mammary gland biological rhythm monitoring data to obtain first mammary gland data, adding a first patient label and a first time label to the first mammary gland data and then transmitting the first mammary gland data to the server end;
the sequence updating module is used for enabling the server to determine a corresponding patient storage unit and a corresponding historical mammary gland sequence according to the first patient label, and updating the historical mammary gland sequence according to the first mammary gland data and the first time label to obtain a current mammary gland sequence;
the data extraction module is used for extracting first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor end;
the display module is used for extracting the biological rhythm indexes with the same dimensionality in the biological rhythm data set after the doctor end receives the biological rhythm data set and displaying the biological rhythm indexes with the same dimensionality in the same target area in the doctor end;
and the strategy updating module is used for monitoring the doctor behavior of the doctor end to obtain behavior monitoring data, and transmitting the behavior monitoring data to the server end so that the server end updates the preset extraction strategy according to the behavior monitoring data.
The present invention also provides a storage medium having a computer program stored therein, the computer program being executable by a processor to implement the methods provided by the various embodiments described above.
The storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media may be any available media that can be accessed by a general purpose or special purpose computer. For example, a storage medium is coupled to the processor such that the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an Application Specific Integrated Circuits (ASIC). Additionally, the ASIC may reside in user equipment. Of course, the processor and the storage medium may reside as discrete components in a communication device. The storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tapes, floppy disks, optical data storage devices, and the like.
The present invention also provides a program product comprising execution instructions stored in a storage medium. The at least one processor of the device may read the execution instructions from the storage medium, and the execution of the execution instructions by the at least one processor causes the device to implement the methods provided by the various embodiments described above.
In the above embodiments of the terminal or the server, it should be understood that the Processor may be a Central Processing Unit (CPU), other general-purpose processors, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor, or in a combination of the hardware and software modules within the processor.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A transmission method of mammary gland biorhythm monitoring data is characterized by comprising a patient end, a server end and a doctor end, and the mammary gland biorhythm monitoring data output by the patient end is transmitted to the server end and the doctor end through the following steps, which specifically comprises the following steps:
the patient side receives the input mammary gland biological rhythm monitoring data to obtain first mammary gland data, and a first patient label and a first time label are added to the first mammary gland data and then transmitted to the server side;
the server determines a corresponding patient storage unit and a historical breast sequence according to the first patient label, and updates the historical breast sequence according to the first breast data and the first time label to obtain a current breast sequence;
extracting first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor side;
after receiving the biological rhythm data set, the doctor end extracts biological rhythm indexes with the same dimensionality in the biological rhythm data set, and displays the biological rhythm indexes with the same dimensionality in the same target area in the doctor end;
monitoring the doctor behavior of the doctor end to obtain behavior monitoring data, and transmitting the behavior monitoring data to the server end so that the server end updates and processes the preset extraction strategy according to the behavior monitoring data.
2. The method for transmitting mammary gland biorhythm monitoring data according to claim 1,
in the step of determining, at the server, a corresponding patient storage unit and a historical breast sequence according to the first patient tag, and updating the historical breast sequence according to the first breast data and the first time tag to obtain a current breast sequence, the method specifically includes:
selecting a corresponding patient storage unit according to the first patient label, and determining a historical breast sequence in the patient storage unit, wherein the historical breast sequence is a sequence of all second breast data formed on the basis of a time point sequence;
and arranging the received first mammary gland data in front of all the second mammary gland data to update the historical mammary gland sequence to obtain the current mammary gland sequence.
3. The method for transmitting mammary gland biorhythm monitoring data according to claim 2,
the method comprises the steps of extracting first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor side, and specifically comprises the following steps:
acquiring a preset extraction time period and a preset extraction quantity in a preset extraction strategy, and taking a moment corresponding to a first time tag of first mammary gland data in a current mammary gland sequence as an initial moment;
determining a plurality of second mammary gland data which are adjacent in sequence at intervals of preset extraction time periods by taking the starting moment as a starting point;
extracting second mammary gland data corresponding to the preset extraction quantity by taking the starting moment as a starting point, and obtaining a biological rhythm data set according to the first mammary gland data and the extracted second mammary gland data;
and transmitting the biorhythm data set to a doctor end.
4. The method for transmitting mammary gland biorhythm monitoring data according to claim 3,
the method specifically comprises the following steps of monitoring the doctor behavior of a doctor end to obtain monitoring data, transmitting the monitoring data to a server end, and updating a preset extraction strategy by the server end according to the monitoring data:
receiving an access request of a doctor to the server, and monitoring the doctor calling behavior of the doctor if the access request is to call the mammary gland biological rhythm monitoring data stored in the patient storage unit;
determining historical breast biorhythm monitoring data called by a monitored doctor end, and determining a time label corresponding to the called second breast data and the calling number of the called second breast data;
updating the preset extraction time period according to the time labels respectively corresponding to all the called second mammary gland data;
updating the preset extraction number according to the calling number of all the called second mammary gland data.
5. The method for transmitting mammary gland biorhythm monitoring data according to claim 4,
in the step of updating the preset extraction time period according to the time labels respectively corresponding to all the called second breast data, the method specifically includes:
taking the time point corresponding to the time label of each first mammary gland data and each second mammary gland data in the biological rhythm data set as a first time point, and taking the time point corresponding to the time label of the called second mammary gland data as a second time point;
uniformly sequencing the first time points and the second time points according to a time sequence, determining a time period between each first time point and the adjacent second time point to obtain a first time period, and determining a time period between each second time point and the second time point to obtain a second time period;
if the first time period and the second time period are respectively greater than or equal to the preset extraction time period, the preset extraction time period is not updated;
and if any one of the first time period and the second time period is smaller than the preset extraction time period, updating the preset extraction time period.
6. The method for transmitting mammary gland biorhythm monitoring data according to claim 5,
if any one of the first time period and the second time period is smaller than the preset extraction time period, the step of not updating the preset extraction time period specifically includes:
obtaining a minimum time period and an average time period according to the first time period and the second time period;
if the difference value between the minimum time period and the average time period is smaller than a preset value, taking the average time period as an updated preset extraction time period;
if the difference value between the minimum time period and the average time period is larger than a preset value, calculating a preset extraction time period according to the minimum time period and the average time period, and carrying out integral processing on the preset extraction time period;
the preset extraction time period is calculated by the following formula,
Figure 476738DEST_PATH_IMAGE001
wherein the content of the first and second substances,
Figure 890401DEST_PATH_IMAGE002
to be the average time period,
Figure 774044DEST_PATH_IMAGE003
a first time point or a second time point later than the time point in the first time period or the second time period,
Figure 247750DEST_PATH_IMAGE004
a first time point or a second time point preceding the time point in the first time period or the second time period,
Figure 216843DEST_PATH_IMAGE005
is the upper limit value of the first time period and the second time period,
Figure 168619DEST_PATH_IMAGE006
is a quantitative value of the first time period and the second time period,
Figure 172347DEST_PATH_IMAGE007
in order to be a minimum time period,
Figure 816955DEST_PATH_IMAGE008
to be dependent on a minimum time periodThe first or second later point in time,
Figure 197645DEST_PATH_IMAGE009
the first time point or the second time point before the minimum time period,
Figure 218691DEST_PATH_IMAGE010
in order to calculate the preset extraction time period,
Figure 404822DEST_PATH_IMAGE011
to calculate the weight value.
7. The method for transmitting mammary gland biorhythm monitoring data according to claim 5,
in the step of updating the preset extraction number according to the retrieval number of all retrieved second breast data, the method specifically includes:
if the time points of all the called second mammary gland data are before the time points in all the mammary gland data sets, adding the called number and the preset extraction number before updating to obtain the preset extraction number after the first updating mode;
if the time point of the second modulated breast data is after the most previous time point in the breast data set, determining a first number of the second modulated breast data before the most previous time point in the breast data set and a second number of the second modulated breast data after the most previous time point in the breast data set;
obtaining the preset extraction quantity after the second updating mode according to the first quantity and the second quantity, and carrying out integer processing on the preset extraction quantity after the second updating mode;
the updated preset number of extractions is calculated by the following formula,
Figure 220331DEST_PATH_IMAGE012
wherein, the first and the second end of the pipe are connected with each other,
Figure 681793DEST_PATH_IMAGE013
the preset number of fetches after the first update mode,
Figure 240950DEST_PATH_IMAGE014
for the preset number of fetches before the update,
Figure 953691DEST_PATH_IMAGE015
in order to call up the number of calls,
Figure 674522DEST_PATH_IMAGE016
for the preset number of fetches after the second update mode,
Figure 839924DEST_PATH_IMAGE017
for the first calculation of the weight, the weight is calculated,
Figure 937193DEST_PATH_IMAGE018
in the form of a first number of bits,
Figure 770020DEST_PATH_IMAGE019
for the purpose of the second calculation of the weights,
Figure 661753DEST_PATH_IMAGE020
is the second number.
8. The method for transmitting data on monitoring the biological rhythm of the breast as set forth in claim 4, further comprising:
acquiring a corresponding doctor label in the behavior monitoring data, and corresponding the updated preset extraction time period and the updated preset extraction quantity to the doctor label;
in the step of extracting a first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, the method specifically includes:
acquiring a doctor label in the current mammary gland sequence, and determining a corresponding preset extraction time period and a preset extraction number according to the doctor label;
extracting first mammary gland data and a plurality of second mammary gland data according to the preset extraction time period and the preset extraction number to obtain a mammary gland data set, and adding a doctor label to the mammary gland data set;
and sending the mammary gland data set to a doctor end with a corresponding doctor label.
9. The method for transmitting mammary gland biorhythm monitoring data according to claim 8,
the method comprises the steps of monitoring the physician behavior of a physician end to obtain monitoring data, and transmitting the monitoring data to a server end, and specifically comprises the following steps:
a doctor end receives the biological rhythm data set and then generates a case note, note information added to the case note is obtained according to the doctor behavior of the doctor end, and if the note information is not null, the note information and a doctor label are correspondingly stored to obtain complete case information;
sending the case information to a server side to be stored in a corresponding patient storage unit;
after the server side obtains the mammary gland data set, all case information in a patient storage unit where the mammary gland data set is located is determined, and the case information is sent to a doctor side.
10. The utility model provides a transmission device of biological rhythm of mammary gland monitoring data, its characterized in that includes patient's end, server and doctor's end, makes the biological rhythm of mammary gland monitoring data transmission of patient's end output to server, doctor's end through following module, specifically includes:
the label adding module is used for enabling the patient end to receive the input mammary gland biological rhythm monitoring data to obtain first mammary gland data, adding a first patient label and a first time label to the first mammary gland data and then transmitting the first mammary gland data to the server end;
the sequence updating module is used for enabling the server to determine a corresponding patient storage unit and a historical mammary gland sequence according to the first patient label, and updating the historical mammary gland sequence according to the first mammary gland data and the first time label to obtain a current mammary gland sequence;
the data extraction module is used for extracting first mammary gland data and a plurality of second mammary gland data in a current mammary gland sequence based on a preset extraction strategy to obtain a mammary gland data set, and transmitting the mammary gland data set to a doctor end;
the display module is used for extracting the biological rhythm indexes with the same dimensionality in the biological rhythm data set after the doctor end receives the biological rhythm data set, and displaying the biological rhythm indexes with the same dimensionality in the same target area in the doctor end;
and the strategy updating module is used for monitoring the doctor behavior at the doctor end to obtain behavior monitoring data, and transmitting the behavior monitoring data to the server end so that the server end updates the preset extraction strategy according to the behavior monitoring data.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115171836A (en) * 2022-09-07 2022-10-11 南京诺源医疗器械有限公司 Data processing method and system suitable for medical information

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107330295A (en) * 2017-07-17 2017-11-07 深圳市前海博志信息技术有限公司 breast health management system and method
CN107391922A (en) * 2017-07-17 2017-11-24 深圳市前海博志信息技术有限公司 Interactive breast health management system and method
CN108305681A (en) * 2018-02-01 2018-07-20 四川东鼎里智信息技术有限责任公司 It is a kind of based on wearable female mammary gland monitoring and warning system
CN109363670A (en) * 2018-11-13 2019-02-22 杭州电子科技大学 A kind of depression intelligent detecting method based on sleep monitor

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107330295A (en) * 2017-07-17 2017-11-07 深圳市前海博志信息技术有限公司 breast health management system and method
CN107391922A (en) * 2017-07-17 2017-11-24 深圳市前海博志信息技术有限公司 Interactive breast health management system and method
CN108305681A (en) * 2018-02-01 2018-07-20 四川东鼎里智信息技术有限责任公司 It is a kind of based on wearable female mammary gland monitoring and warning system
CN109363670A (en) * 2018-11-13 2019-02-22 杭州电子科技大学 A kind of depression intelligent detecting method based on sleep monitor

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115171836A (en) * 2022-09-07 2022-10-11 南京诺源医疗器械有限公司 Data processing method and system suitable for medical information

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