CN116650845A - Method for realizing remote control of myopia therapeutic apparatus and related system - Google Patents
Method for realizing remote control of myopia therapeutic apparatus and related system Download PDFInfo
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- 230000004379 myopia Effects 0.000 title claims abstract description 361
- 208000001491 myopia Diseases 0.000 title claims abstract description 361
- 230000001225 therapeutic effect Effects 0.000 title claims abstract description 297
- 238000000034 method Methods 0.000 title claims abstract description 40
- 230000004044 response Effects 0.000 claims abstract description 30
- 230000008569 process Effects 0.000 claims description 10
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- VYFYYTLLBUKUHU-UHFFFAOYSA-N dopamine Chemical compound NCCC1=CC=C(O)C(O)=C1 VYFYYTLLBUKUHU-UHFFFAOYSA-N 0.000 description 2
- 238000012545 processing Methods 0.000 description 2
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- 230000004430 ametropia Effects 0.000 description 1
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
- A61N5/0613—Apparatus adapted for a specific treatment
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F9/00—Methods or devices for treatment of the eyes; Devices for putting-in contact lenses; Devices to correct squinting; Apparatus to guide the blind; Protective devices for the eyes, carried on the body or in the hand
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
- A61N2005/0635—Radiation therapy using light characterised by the body area to be irradiated
- A61N2005/0643—Applicators, probes irradiating specific body areas in close proximity
- A61N2005/0645—Applicators worn by the patient
- A61N2005/0647—Applicators worn by the patient the applicator adapted to be worn on the head
- A61N2005/0648—Applicators worn by the patient the applicator adapted to be worn on the head the light being directed to the eyes
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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- Animal Behavior & Ethology (AREA)
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Abstract
The embodiment of the application provides a method and a related system for realizing remote control of a myopia therapeutic apparatus. Because myopia is that therapeutic instrument needs to be used regularly, and irregular use can possibly produce adverse effect on eyes, in the scheme of the embodiment of the application, the remote control server receives a myopia therapeutic instrument use request sent by the user terminal T1, and sends a myopia therapeutic instrument use request response to the user terminal T1 under the condition that the user represented by the user identifier U1 meets the use requirement, wherein the myopia therapeutic instrument use request response carries an allowable use identifier and a device identifier of the myopia therapeutic instrument M1, and the allowable use identifier is used for indicating that the myopia therapeutic instrument M1 is allowed to be used this time, and the myopia therapeutic instrument is used as far as possible by effectively and remotely controlling the use of the myopia therapeutic instrument, so that the use safety of the myopia therapeutic instrument is improved.
Description
Technical Field
The application relates to the technical field of network and medical equipment, in particular to a method and a related system for realizing remote control of a myopia therapeutic apparatus.
Background
Myopia is one of ametropia. When the eye is in a condition of accommodation relaxation, parallel rays enter the eye, which focus in front of the retina, which results in the inability to form a clear image on the retina, known as myopia.
At present, the teenagers have very high myopia proportion, can conveniently and effectively realize the correction and treatment of myopia, and is a subject of long-term research in the industry.
Disclosure of Invention
The embodiment of the application provides a method and a related system for realizing remote control of a myopia therapeutic apparatus.
An embodiment of the present application provides a method for implementing remote control of a myopia therapeutic apparatus, where the method is applicable to a remote control system, where the remote control system includes a remote control server, X user terminals and Y myopia therapeutic apparatuses, the X user terminals include a user terminal T1, the Y myopia therapeutic apparatuses include a myopia therapeutic apparatus M1, the myopia therapeutic apparatus M1 can be connected with the user terminal T1 through bluetooth, and the remote control server and the user terminal T1 can be connected through a network; when the myopia therapeutic apparatus M1 is in a Bluetooth connection state with the user terminal, the myopia therapeutic apparatus M1 is in an on-line state; when the Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, the myopia therapeutic apparatus M1 is in an offline state. The myopia therapeutic apparatus can only support online use, or the myopia therapeutic apparatus can support online use and offline use.
Wherein,,
the method comprises the following steps: the remote control server receives a myopia therapeutic apparatus use request sent by a user terminal T1, wherein the myopia therapeutic apparatus use request carries a user identifier U1, a user type identifier TU1 and a device identifier of a myopia therapeutic apparatus M1 in an online state; and the remote control server judges whether the user represented by the user identifier U1 meets the use requirement.
The remote control server sends a myopia therapeutic apparatus use request response to the user terminal T1 under the condition that the user represented by the user identifier U1 meets the use requirement, wherein the myopia therapeutic apparatus use request response carries an allowable use identifier and a device identifier of the myopia therapeutic apparatus M1, and the allowable use identifier is used for indicating that the myopia therapeutic apparatus M1 is allowed to be used this time; when the remote control server receives a myopia therapeutic apparatus use report sent by the user terminal T1, the myopia therapeutic apparatus use report records a use time period time1 of the user identifier U1 and the myopia therapeutic apparatus M1; and generating and caching a myopia therapeutic apparatus use record corresponding to the user identifier U1 based on the myopia therapeutic apparatus use report.
In some possible embodiments, the remote control server determining whether the user represented by the user identifier U1 meets the usage requirement may include:
the user identification U1 and the user type identification TU1 are imported into a use judgment model mode1, whether the user represented by the user identification U1 meets the use requirement is judged through the use judgment model mode1, a preset use condition set is arranged in the start judgment model mode1, the use judgment model mode1 and the user type identification TU1 have a corresponding relation, and different user type identifications correspond to different use judgment models.
In some possible embodiments, the user types include exclusive users and shared users; the set of usage conditions includes: the individual enjoyment users can only use 2 times a day and cannot exceed 3 minutes each time, and the using interval time is more than 4 hours; the sharing user automatically shuts down after 3 minutes of use each time and does not limit the number of times of use every day.
It will be appreciated that a single user indicates that a certain myopia treatment apparatus (myopia treatment apparatus M1) is shared by the user, and a shared user indicates that a certain myopia treatment apparatus (myopia treatment apparatus M1) is shared by a plurality of users including the shared user. For example, when the myopia treatment apparatus M1 is used exclusively with the user represented by the user identifier U1, then the user represented by the user identifier U1 is an exclusive user, i.e., the user type represented by the user type identifier TU1 is an exclusive user. In addition, when the myopia treatment apparatus M1 is shared among a plurality of users including the user represented by the user identifier U1, then the user represented by the user identifier U1 is a shared user, that is, the user type represented by the user type identifier TU1 is a shared user.
In some possible embodiments, the myopia treatment apparatus M1 has an offline use controller built into it; the offline use controller may be used to control the use mechanism of the myopia treatment apparatus M1 in an offline state.
For example, the offline use controller is used for recording the first starting time of the myopia therapeutic apparatus M1, in a time range that the interval duration from the first starting time of the myopia therapeutic apparatus M1 is still less than 3 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 7 days in a state that the bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, and in a time range that the interval duration from the first starting time of the myopia therapeutic apparatus M1 is between 3 and 6 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 15 days in a state that the bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected; and when the interval duration from the first starting time of the myopia therapeutic apparatus M1 exceeds the time range of 6 months, the myopia therapeutic apparatus M1 is allowed to be permanently used offline in a state of being disconnected from the Bluetooth connection between the user terminal.
In some possible embodiments, the usage record of the myopia therapeutic apparatus corresponding to the user identifier U1 records the usage period (the period can represent the usage time of each time, the daily usage times and the like) and the history accumulated usage time of the myopia therapeutic apparatus represented by the user identifier U1.
In some possible embodiments, the remote control server processes the received myopic therapeutic apparatus start-up application with a higher priority than the received myopic therapeutic apparatus use report.
A second aspect of an embodiment of the present application provides a remote control system, where the remote control system includes: the remote control server, X user terminals and Y myopia therapeutic apparatuses;
the X user terminals comprise user terminals T1, the Y myopia therapeutic apparatuses comprise myopia therapeutic apparatuses M1, the myopia therapeutic apparatuses M1 can be connected with the user terminals T1 through Bluetooth, and the remote control server and the user terminals T1 can be connected through a network; when the myopia therapeutic apparatus M1 is in a Bluetooth connection state with the user terminal, the myopia therapeutic apparatus M1 is in an on-line state; when the Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, the myopia therapeutic apparatus M1 is in an offline state;
wherein,,
the user terminal T1 is configured to send a myopia therapeutic apparatus use request to the remote control server when the user terminal T1 is in a bluetooth connection state with the myopia therapeutic apparatus M1; wherein, the myopia therapeutic apparatus use request carries a user identifier U1, a user type identifier TU1 and an equipment identifier of the myopia therapeutic apparatus M1 in an on-line state;
The remote control server is used for receiving a myopia therapeutic apparatus use request sent by the user terminal T1 and judging whether a user represented by the user identifier U1 meets the use requirement or not; under the condition that the user represented by the user identifier U1 meets the use requirement, sending a myopia therapeutic apparatus use request response to the user terminal T1, wherein the myopia therapeutic apparatus use request response carries an permission use identifier and an equipment identifier of the myopia therapeutic apparatus M1, and the permission use identifier is used for indicating that the myopia therapeutic apparatus M1 is permitted to be used at this time;
the user terminal T1 is further configured to send a myopia therapeutic apparatus usage report to the remote control server after the use of the myopia therapeutic apparatus M1 is finished; the myopia therapeutic apparatus use report records a user identifier U1 and a use time period time1 of the myopia therapeutic apparatus M1;
the remote control server is further configured to receive a myopia therapeutic apparatus usage report sent by the user terminal T1, generate and cache a myopia therapeutic apparatus usage record corresponding to the user identifier U1 based on the myopia therapeutic apparatus usage report, where the myopia therapeutic apparatus usage record includes the user identifier U1 and a usage period time1 of the myopia therapeutic apparatus M1.
In some possible embodiments, the determining whether the user type indicated by the user type identifier TU1 meets the usage requirement includes:
and importing the user type identifier TU1 into a use judgment model mode1, judging whether the user type represented by the user type identifier TU1 meets the use requirement or not through the use judgment model mode1, wherein a preset use condition set is arranged in the starting judgment model mode1, and the use judgment model mode1 and the user type identifier TU1 have a corresponding relation, wherein different user type identifiers correspond to different use judgment models.
In some possible embodiments, the user types include exclusive users and shared users; the set of usage conditions includes: the individual enjoyment users can only use 2 times a day and cannot exceed 3 minutes each time, and the using interval time is more than 4 hours; wherein, sharing user is automatic to shut down after 3 minutes of each time of use and does not limit the number of times of use every day.
In some possible embodiments, the myopia treatment apparatus M1 has an offline use controller built into it; the offline use controller may be used to control the use mechanism of the myopia treatment apparatus M1 in an offline state.
The offline use controller is configured to record a first start-up time of the myopia therapeutic apparatus M1, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is still less than 3 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 7 days in a state that a bluetooth connection with a user terminal is disconnected, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is between 3 and 6 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 15 days in a state that a bluetooth connection with the user terminal is disconnected; and when the interval duration from the first starting time of the myopia therapeutic apparatus M1 exceeds the time range of 6 months, the myopia therapeutic apparatus M1 is allowed to be permanently used offline in a state of being disconnected from the Bluetooth connection between the user terminal.
In some possible embodiments, the usage record of the myopia therapeutic apparatus corresponding to the user identifier U1 records the usage period (the period can represent the usage time of each time, the daily usage times and the like) and the history accumulated usage time of the myopia therapeutic apparatus represented by the user identifier U1.
In some possible embodiments, the remote control server processes the received myopic therapeutic apparatus start-up application with a higher priority than the received myopic therapeutic apparatus use report.
It can be understood that, because myopia is a treatment instrument and requires normal use, irregular use may have adverse effects on eyes, in the embodiment of the present application, a remote control server receives a myopia treatment instrument use request sent by a user terminal T1, and sends a myopia treatment instrument use request response to the user terminal T1 when it is determined that a user represented by the user identifier U1 meets the use requirement, where the myopia treatment instrument use request response carries an permission use identifier and a device identifier of the myopia treatment instrument M1, and the permission use identifier is used to indicate that the myopia treatment instrument M1 is permitted to be used this time, and by performing effective remote control on use of the myopia treatment instrument, use of the myopia treatment instrument by the user is standardized as much as possible, so as to further improve use safety of the myopia treatment instrument.
Drawings
In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of a remote control system according to an embodiment of the present application
Fig. 2 is a schematic flow chart of a method for implementing remote control of a myopia therapeutic apparatus according to the present application.
Fig. 3 is a flowchart of another method for implementing remote control of a myopia therapeutic apparatus according to the present application.
Detailed Description
In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.
The terms first, second and the like in the description and in the claims and drawings are used for distinguishing between different objects and not for describing a particular sequential order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.
The following first describes the working principle and technical requirements of the myopia therapeutic apparatus: according to related researches, the low-level red laser or low-intensity red light therapeutic instrument can effectively control the eye axis growth and solve the biggest problem about controlling the abnormal eye axis growth in myopia treatment. The working principle and technical requirements of the low-intensity red light myopia therapeutic apparatus mainly show the following aspects including the output power of a laser, the irradiation power related to pupils, the wavelength, the optical path length, the spot diameter, the spot shape, the illuminance of light and the like.
Wherein, the selection of the semiconductor laser (laser or laser generator for short) is as follows: the output stability of the light beam of the imported semiconductor laser diode is better at present. Output power of the laser: the original output power of the imported semiconductor laser is generally about 7mW, and the output power can be controlled to be 1 nW+/-0.2 nW after being regulated by the circuit board control unit.
The optical path length refers to the distance from the laser to the eye irradiation position, and the optical path distance of a desk type light supplementing instrument or a weak myopia therapeutic instrument on the market is mostly 20cm, 25cm and 30cm.
Regarding the spot diameter: the irradiation light spot refers to the irradiation diameter of a light beam of a light outlet of equipment, and like products in the market of light spot formation are divided into three types: the light spot of the device is obvious at a short distance and is dispersed at a long distance, the light path is uneven, unstable laser luminous points are easy to appear, and the damage to the retina at the bottom of the eye is likely to happen. Secondly, an optical lens of a concave mirror is arranged in front of the laser generator so as to gather square beams emitted by the laser generator together and ensure output light spots by means of an external cylinder, however, the light spots have stronger beam concentration, so that the intensity of illuminance is ensured, the irradiation power of pupils is greatly improved, and certain potential risks exist; the third is that on the basis of the second, a nano-level optical lens grating sheet (also called a dodging sheet or a beam splitting sheet) is added in front of the concave mirror, the grating sheet is provided with a plurality of nano-level optical lenses which are assembled together to form output light spots, no matter the irradiation distance is far or near, the light spots are very uniform, the manufacturing difficulty of the grating sheet is very high, the price is relatively high, the laser generator of a few light supplementing instruments on the market adopts the optical lenses, the light spots with the irradiation diameter of 20cm are about 7.5 mm, the light spots with the irradiation diameter of 25cm are about 10mm, the light spots with the irradiation diameter of 30cm are about 14mm, and the pupil irradiation light spot diameter of 12 mm-16 mm is found to be optimal through multi-way verification.
The practical discovery shows that the desk-top myopia therapeutic apparatus is very inconvenient to use, and the inventor develops the myopia therapeutic apparatus as wearable equipment, wherein the optical path length of the myopia therapeutic apparatus used in the embodiment of the application can be 65mm, and a grating sheet with a pupil irradiation light spot of 14mm is used.
Regarding wavelength: the research shows that the light sources with the wavelengths of 600-700 nanometers irradiate eyes and are low-intensity safe light sources, the 635nm light source is orange red, the 650nm light source is red, and the 650nm red light source has better effect of eye development and dopamine secretion stimulation.
Regarding the irradiation power: the irradiation power refers to laser irradiation power which can be received by the pupil after the eye is close to the equipment and is not more than 0.39mw in international safety light source standard.
Regarding the spot morphology: the light spot morphology can be divided into: the non-uniform circle, the center of the non-uniform circle has a highlight small spot, the center highlights the circular spot, the brightness distribution is irregular, etc. The non-uniform circular shape is not a direct emission type for laser generators interfacing with circular tubes. The uniform circle is generated by adding a concave lens and a grating sheet to the laser generator; the center of the circle is provided with a highlight small spot and a highlight circular spot which are generally caused by insufficient processing technology of the grating sheet; the irregularities are direct irradiation with a laser generator.
Regarding illuminance: illuminance is also referred to as the brightness or intensity of illumination. The higher the illuminance is, the stronger the energy absorbed during irradiation is, the more obvious the effect is, the irradiation time of the existing low-intensity red light myopia therapeutic apparatus is 3 minutes once per day and 2 times per day, and if the illuminance is insufficient, the energy absorbed by eyes is insufficient, and the treatment time can be correspondingly prolonged.
The technical indexes of the myopia therapeutic apparatus of the embodiment of the application can be as follows: the emission power is 1nw plus or minus 0.2nw, the irradiation power is 0.35-0.39 mw, and the spot diameter is 14mm.
It can be understood that, since myopia is a therapeutic apparatus requiring standard use, irregular use may have adverse effects on eyes, and therefore, the embodiment of the application further provides a method and related system for implementing remote control of a myopia therapeutic apparatus, and by effectively and remotely controlling use of a myopia therapeutic apparatus, a user can be standardized to use of a myopia therapeutic apparatus as much as possible, thereby improving use safety of a myopia therapeutic apparatus.
Referring to fig. 1, fig. 1 is a schematic diagram of a remote control system according to an embodiment of the present application, as shown in fig. 1 by way of example, a remote control system may include a remote control server, X user terminals and Y myopia treatment apparatuses, where the X user terminals include a user terminal T1, the Y myopia treatment apparatuses include a myopia treatment apparatus M1, the myopia treatment apparatus M1 may be connected to the user terminal T1 through bluetooth, and the remote control server and the user terminal T1 may be connected through a network. The myopia therapeutic apparatus may be, for example, a wearable device.
The myopia treatment apparatus may be in an on-line or off-line state. For example, when the myopia therapeutic apparatus M1 is in a bluetooth connection state with the user terminal, the myopia therapeutic apparatus M1 is in an on-line state; when the Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, the myopia therapeutic apparatus M1 is in an off-line state. The myopia treatment apparatus may support only online use, or the myopia treatment apparatus may support online use and offline use.
Referring to fig. 2, fig. 2 is a flow chart of a method for implementing remote control of a myopia therapeutic apparatus according to the present application. As shown by way of example in fig. 2, a method for implementing remote control of a myopia therapeutic apparatus according to the present application may include:
201. the user terminal T1 starts a myopia therapeutic apparatus operation application program installed locally, searches the started myopia therapeutic apparatus M1 through the myopia therapeutic apparatus operation application program, and establishes Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal T1. When the myopia therapeutic apparatus M1 is in the bluetooth connection state with the user terminal T1, the myopia therapeutic apparatus M1 is in the on-line state.
202. When a request use button in a myopia therapeutic apparatus operation application program in the user terminal T1 is clicked by a user, the myopia therapeutic apparatus operation application program in the user terminal T1 sends a myopia therapeutic apparatus use request to a remote control server, wherein the myopia therapeutic apparatus use request carries a user identifier U1, a user type identifier TU1 and a device identifier of the myopia therapeutic apparatus M1 in an online state.
203. The remote control server receives a myopia therapeutic apparatus use request sent by the user terminal T1, and the remote control server judges whether the user represented by the user identifier U1 meets the use requirement. And under the condition that the user represented by the user identifier U1 meets the use requirement, the remote control server sends a myopia therapeutic apparatus use request response to the user terminal T1, wherein the myopia therapeutic apparatus use request response carries an permission use identifier and a device identifier of the myopia therapeutic apparatus M1, and the permission use identifier is used for indicating that the myopia therapeutic apparatus M1 is permitted to be used this time.
204. After receiving the myopia therapeutic apparatus use request response from the remote control server, the myopia therapeutic apparatus operation application program in the user terminal T1 pops up a myopia therapeutic apparatus use button if the myopia therapeutic apparatus use request response carries the permission use identification, and when the popped up myopia therapeutic apparatus use button is clicked by a user, a use start instruction is sent to the myopia therapeutic apparatus M1 through the bluetooth connection and a single use time-long timer (the timing time of the single use time-long timer is 3 minutes or other reasonable time, for example) is started.
The myopia treatment apparatus M1 having received the use start instruction will enter the use state, thereby starting the relevant myopia treatment. The single-use time length timer started by the myopia therapeutic apparatus operation application program is used for controlling the single-use time length of the myopia therapeutic apparatus.
In addition, if the remote control server determines that the user indicated by the user identifier U1 does not meet the use requirement, the myopia treatment apparatus use request response sent to the user terminal T1 may carry a use impermissible identifier, where the use impermissible identifier is used to indicate that the myopia treatment apparatus M1 is not allowed to be used this time. In this case, the myopia treatment apparatus operation application program may pop up the prompt box that the myopia treatment apparatus is not allowed to be used after receiving the myopia treatment apparatus use request response from the remote control server. In the flow shown in fig. 2, the case that the remote control server determines that the user represented by the user identifier U1 meets the use requirement is mainly taken as an example for description of the flow.
205. When the single use time-out timer arrives, the myopia therapeutic apparatus operation application program in the user terminal T1 sends a use stop instruction to the myopia therapeutic apparatus M1 through the bluetooth connection, and the myopia therapeutic apparatus M1 which receives the use start instruction enters a deactivated state.
206. A myopia therapeutic apparatus operation application program in the user terminal T1 sends a myopia therapeutic apparatus usage report to the remote control server, wherein the myopia therapeutic apparatus usage report records the user identifier U1 and the usage time period time1 of the myopia therapeutic apparatus M1.
207. When the remote control server receives the myopia therapeutic apparatus use report sent by the user terminal T1, a myopia therapeutic apparatus use record corresponding to the user identifier U1 is generated and cached based on the myopia therapeutic apparatus use report, and the myopia therapeutic apparatus use record comprises the user identifier U1 and a use time period time1 of the myopia therapeutic apparatus M1.
In some possible embodiments, the remote control server determining whether the user represented by the user identifier U1 meets the usage requirement may include:
the user identification U1 and the user type identification TU1 are imported into a use judgment model mode1, whether the user represented by the user identification U1 meets the use requirement is judged through the use judgment model mode1, a preset use condition set is arranged in the start judgment model mode1, the use judgment model mode1 and the user type identification TU1 have a corresponding relation, and different user type identifications correspond to different use judgment models.
In some possible embodiments, the user types include exclusive users and shared users; the set of usage conditions includes: the individual enjoyment users can only use 2 times a day and cannot exceed 3 minutes each time, and the using interval time is more than 4 hours; the sharing user automatically shuts down after 3 minutes of use each time and does not limit the number of times of use every day.
It will be appreciated that a single user indicates that a certain myopia treatment apparatus (myopia treatment apparatus M1) is shared by the user, and a shared user indicates that a certain myopia treatment apparatus (myopia treatment apparatus M1) is shared by a plurality of users including the shared user. For example, when the myopia treatment apparatus M1 is used exclusively with the user represented by the user identifier U1, then the user represented by the user identifier U1 is an exclusive user, i.e., the user type represented by the user type identifier TU1 is an exclusive user. In addition, when the myopia treatment apparatus M1 is shared among a plurality of users including the user represented by the user identifier U1, then the user represented by the user identifier U1 is a shared user, that is, the user type represented by the user type identifier TU1 is a shared user.
In some possible embodiments, the myopia treatment apparatus M1 has an offline use controller built into it; the offline use controller may be used to control the use mechanism of the myopia treatment apparatus M1 in an offline state.
For example, the offline use controller is used for recording the first starting time of the myopia therapeutic apparatus M1, in a time range that the interval duration from the first starting time of the myopia therapeutic apparatus M1 is still less than 3 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 7 days in a state that the bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, and in a time range that the interval duration from the first starting time of the myopia therapeutic apparatus M1 is between 3 and 6 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 15 days in a state that the bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected; and when the interval duration from the first starting time of the myopia therapeutic apparatus M1 exceeds the time range of 6 months, the myopia therapeutic apparatus M1 is allowed to be permanently used offline in a state of being disconnected from the Bluetooth connection between the user terminal.
In some possible embodiments, the usage record of the myopia therapeutic apparatus corresponding to the user identifier U1 records the usage period (the period can represent the usage time of each time, the daily usage times and the like) and the history accumulated usage time of the myopia therapeutic apparatus represented by the user identifier U1.
In some possible embodiments, the remote control server processes the received myopic therapeutic apparatus start-up application with a higher priority than the received myopic therapeutic apparatus use report.
It can be understood that, because myopia is a treatment instrument and requires normal use, irregular use may have adverse effects on eyes, in the embodiment of the present application, a remote control server receives a myopia treatment instrument use request sent by a user terminal T1, and sends a myopia treatment instrument use request response to the user terminal T1 when it is determined that a user represented by the user identifier U1 meets the use requirement, where the myopia treatment instrument use request response carries an permission use identifier and a device identifier of the myopia treatment instrument M1, and the permission use identifier is used to indicate that the myopia treatment instrument M1 is permitted to be used this time, and by performing effective remote control on use of the myopia treatment instrument, use of the myopia treatment instrument by the user is standardized as much as possible, so as to further improve use safety of the myopia treatment instrument.
Referring to fig. 3, fig. 3 is a flowchart of another method for implementing remote control of a myopia therapeutic apparatus according to the present application. As shown by way of example in fig. 2, a method for implementing remote control of a myopia therapeutic apparatus according to the present application may include:
301. the user terminal T1 starts a myopia therapeutic apparatus operation application program installed locally, searches the started myopia therapeutic apparatus M1 through the myopia therapeutic apparatus operation application program, and establishes Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal T1. When the myopia therapeutic apparatus M1 is in the bluetooth connection state with the user terminal T1, the myopia therapeutic apparatus M1 is in the on-line state.
302. When a request use button in a myopia therapeutic apparatus operation application program in the user terminal T1 is clicked by a user, the myopia therapeutic apparatus operation application program in the user terminal T1 sends a myopia therapeutic apparatus use request to a remote control server, wherein the myopia therapeutic apparatus use request carries a user identifier U1, a user type identifier TU1 and a device identifier of the myopia therapeutic apparatus M1 in an online state.
303. The remote control server receives a myopia therapeutic apparatus use request sent by the user terminal T1, and the remote control server judges whether the user represented by the user identifier U1 meets the use requirement. And under the condition that the user represented by the user identifier U1 meets the use requirement, the remote control server sends a myopia therapeutic apparatus use request response to the user terminal T1, wherein the myopia therapeutic apparatus use request response carries an permission use identifier and a device identifier of the myopia therapeutic apparatus M1, and the permission use identifier is used for indicating that the myopia therapeutic apparatus M1 is permitted to be used this time.
304. After receiving the myopia therapeutic apparatus use request response from the remote control server, the myopia therapeutic apparatus operation application program in the user terminal T1 pops up a myopia therapeutic apparatus use button if the myopia therapeutic apparatus use request response carries an allowable use identifier, and when the popped-up myopia therapeutic apparatus use button is clicked by a user, a use start instruction is sent to the myopia therapeutic apparatus M1 through Bluetooth connection.
305. The myopia treatment apparatus M1 that received the use start instruction enters a use state, and starts a single-use time-length timer (the timing time length of the single-use time-length timer is, for example, 3 minutes or other reasonable time length). When the single use time-long timer arrives, the myopia therapeutic apparatus M1 enters the deactivated state, and sends a use stop instruction to the user terminal T1 through the bluetooth connection, wherein the use start instruction is used for indicating that the myopia therapeutic apparatus M1 enters the deactivated state.
In addition, if the remote control server determines that the user indicated by the user identifier U1 does not meet the use requirement, the myopia treatment apparatus use request response sent to the user terminal T1 may carry a use impermissible identifier, where the use impermissible identifier is used to indicate that the myopia treatment apparatus M1 is not allowed to be used this time. In this case, the myopia treatment apparatus operation application program may pop up the prompt box that the myopia treatment apparatus is not allowed to be used after receiving the myopia treatment apparatus use request response from the remote control server. In the flow shown in fig. 2, the case that the remote control server determines that the user represented by the user identifier U1 meets the use requirement is mainly taken as an example for description of the flow.
306. After receiving the use stop instruction sent by the myopia therapeutic apparatus M1, the myopia therapeutic apparatus operation application program in the user terminal T1 sends a myopia therapeutic apparatus use report to the remote control server, where the myopia therapeutic apparatus use report records the user identifier U1 and the use time period time1 of the myopia therapeutic apparatus M1.
307. When the remote control server receives the myopia therapeutic apparatus use report sent by the user terminal T1, a myopia therapeutic apparatus use record corresponding to the user identifier U1 is generated and cached based on the myopia therapeutic apparatus use report, and the myopia therapeutic apparatus use record comprises the user identifier U1 and a use time period time1 of the myopia therapeutic apparatus M1.
It can be understood that, because myopia is a treatment instrument and requires normal use, irregular use may have adverse effects on eyes, in the embodiment of the present application, a remote control server receives a myopia treatment instrument use request sent by a user terminal T1, and sends a myopia treatment instrument use request response to the user terminal T1 when it is determined that a user represented by the user identifier U1 meets the use requirement, where the myopia treatment instrument use request response carries an permission use identifier and a device identifier of the myopia treatment instrument M1, and the permission use identifier is used to indicate that the myopia treatment instrument M1 is permitted to be used this time, and by performing effective remote control on use of the myopia treatment instrument, use of the myopia treatment instrument by the user is standardized as much as possible, so as to further improve use safety of the myopia treatment instrument.
The embodiment of the application also provides a remote control system, which comprises: a remote control server, X user terminals and Y myopia therapeutic apparatuses.
The X user terminals comprise user terminals T1, the Y myopia therapeutic apparatuses comprise myopia therapeutic apparatuses M1, the myopia therapeutic apparatuses M1 can be connected with the user terminals T1 through Bluetooth, and the remote control server and the user terminals T1 can be connected through a network; when the myopia therapeutic apparatus M1 is in a Bluetooth connection state with the user terminal, the myopia therapeutic apparatus M1 is in an on-line state; when the Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, the myopia therapeutic apparatus M1 is in an offline state.
Wherein,,
the user terminal T1 is configured to send a myopia therapeutic apparatus use request to the remote control server when the user terminal T1 is in a bluetooth connection state with the myopia therapeutic apparatus M1; the myopia therapeutic apparatus use request carries a user identifier U1, a user type identifier TU1 and an equipment identifier of the myopia therapeutic apparatus M1 in an online state.
The remote control server is used for receiving a myopia therapeutic apparatus use request sent by the user terminal T1 and judging whether a user represented by the user identifier U1 meets the use requirement or not; under the condition that the user represented by the user identifier U1 meets the use requirement, sending a myopia therapeutic apparatus use request response to the user terminal T1, wherein the myopia therapeutic apparatus use request response carries an permission use identifier and an equipment identifier of the myopia therapeutic apparatus M1, and the permission use identifier is used for indicating that the myopia therapeutic apparatus M1 is permitted to be used at this time;
The user terminal T1 is further configured to send a myopia therapeutic apparatus usage report to the remote control server after the use of the myopia therapeutic apparatus M1 is finished; the myopia therapeutic apparatus use report records a user identifier U1 and a use time period time1 of the myopia therapeutic apparatus M1;
the remote control server is further configured to receive a myopia therapeutic apparatus usage report sent by the user terminal T1, generate and cache a myopia therapeutic apparatus usage record corresponding to the user identifier U1 based on the myopia therapeutic apparatus usage report, where the myopia therapeutic apparatus usage record includes the user identifier U1 and a usage period time1 of the myopia therapeutic apparatus M1.
In some possible embodiments, the determining whether the user type indicated by the user type identifier TU1 meets the usage requirement includes:
and importing the user type identifier TU1 into a use judgment model mode1, judging whether the user type represented by the user type identifier TU1 meets the use requirement or not through the use judgment model mode1, wherein a preset use condition set is arranged in the starting judgment model mode1, and the use judgment model mode1 and the user type identifier TU1 have a corresponding relation, wherein different user type identifiers correspond to different use judgment models.
In some possible embodiments, the user types include exclusive users and shared users; the set of usage conditions includes: the individual enjoyment users can only use 2 times a day and cannot exceed 3 minutes each time, and the using interval time is more than 4 hours; wherein, sharing user is automatic to shut down after 3 minutes of each time of use and does not limit the number of times of use every day.
In some possible embodiments, the myopia treatment apparatus M1 has an offline use controller built into it; the offline use controller may be used to control the use mechanism of the myopia treatment apparatus M1 in an offline state.
The offline use controller is configured to record a first start-up time of the myopia therapeutic apparatus M1, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is still less than 3 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 7 days in a state that a bluetooth connection with a user terminal is disconnected, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is between 3 and 6 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 15 days in a state that a bluetooth connection with the user terminal is disconnected; and when the interval duration from the first starting time of the myopia therapeutic apparatus M1 exceeds the time range of 6 months, the myopia therapeutic apparatus M1 is allowed to be permanently used offline in a state of being disconnected from the Bluetooth connection between the user terminal.
In some possible embodiments, the usage record of the myopia therapeutic apparatus corresponding to the user identifier U1 records the usage period (the period can represent the usage time of each time, the daily usage times and the like) and the history accumulated usage time of the myopia therapeutic apparatus represented by the user identifier U1.
In some possible embodiments, the remote control server processes the received myopic therapeutic apparatus start-up application with a higher priority than the received myopic therapeutic apparatus use report.
The embodiment of the application also provides a computer storage medium, wherein the computer storage medium stores a computer program for electronic data exchange, and the computer program makes a computer execute part or all of the steps of any one of the above method embodiments, and the computer includes an electronic device.
Embodiments of the present application also provide a computer program product comprising a non-transitory computer-readable storage medium storing a computer program operable to cause a computer to perform part or all of the steps of any one of the methods described in the method embodiments above. The computer program product may be a software installation package, said computer comprising an electronic device.
It should be understood that, in various embodiments of the present application, the sequence numbers of the foregoing processes do not mean the order of execution, and the order of execution of the processes should be determined by the functions and internal logic thereof, and should not constitute any limitation on the implementation process of the embodiments of the present application.
In the several embodiments provided in the present application, it should be understood that the disclosed method, apparatus and system may be implemented in other manners. For example, the device embodiments are merely illustrative; for example, the division of the units is only one logic function division, and other division modes can be adopted in actual implementation; for example, multiple units or components may be combined or may be integrated into another system, or some features may be omitted or not performed. In another aspect, the couplings shown or discussed are mutually coupledClosing deviceOr direct coupling or communication connection may be indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.
The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.
In addition, each functional unit in the embodiments of the present invention may be integrated in one processing unit, or each unit may be physically included separately, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in hardware plus software functional units.
The integrated units implemented in the form of software functional units described above may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium, and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform some or all of the steps of the methods according to the embodiments of the present invention. Wherein the storage medium may include: various media capable of storing program codes, such as a usb disk, a removable hard disk, a magnetic disk, an optical disk, a volatile memory, or a nonvolatile memory.
Although the disclosure of the present invention is described above, the present invention is not limited thereto. Various changes and modifications, including combinations of the various functions and steps, and implementation thereof, as well as software and hardware implementations, may be made by those skilled in the art without departing from the spirit and scope of the present invention.
Claims (10)
1. A method for realizing remote control of myopia therapeutic apparatuses, which is characterized in that the method is applied to a remote control system, the remote control system comprises a remote control server, X user terminals and Y myopia therapeutic apparatuses, the X user terminals comprise user terminals T1, the Y myopia therapeutic apparatuses comprise myopia therapeutic apparatuses M1, the myopia therapeutic apparatuses M1 can be connected with the user terminals T1 through Bluetooth, and the remote control server and the user terminals T1 can be connected through a network; when the myopia therapeutic apparatus M1 is in a Bluetooth connection state with the user terminal, the myopia therapeutic apparatus M1 is in an on-line state; when the Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, the myopia therapeutic apparatus M1 is in an offline state;
wherein,,
the method comprises the following steps: the remote control server receives a myopia therapeutic apparatus use request sent by a user terminal T1, wherein the myopia therapeutic apparatus use request carries a user identifier U1, a user type identifier TU1 and a device identifier of a myopia therapeutic apparatus M1 in an online state; the remote control server judges whether the user represented by the user identifier U1 meets the use requirement or not;
The remote control server sends a myopia therapeutic apparatus use request response to the user terminal T1 under the condition that the user represented by the user identifier U1 meets the use requirement, wherein the myopia therapeutic apparatus use request response carries an allowable use identifier and a device identifier of the myopia therapeutic apparatus M1, and the allowable use identifier is used for indicating that the myopia therapeutic apparatus M1 is allowed to be used this time; when the remote control server receives a myopia therapeutic apparatus use report sent by the user terminal T1, the myopia therapeutic apparatus use report records the user identifier U1 and the current use time period time1 of the myopia therapeutic apparatus M1; generating and caching a myopia therapeutic apparatus use record corresponding to the user identifier U1 based on the myopia therapeutic apparatus use report, wherein the myopia therapeutic apparatus use record comprises the user identifier U1 and the current use time period time1 of the myopia therapeutic apparatus M1.
2. The method according to claim 1, wherein the remote control server determining whether the user represented by the user identifier U1 meets the usage requirement includes:
the user identification U1 and the user type identification TU1 are imported into a use judgment model mode1, whether the user represented by the user identification U1 meets the use requirement is judged through the use judgment model mode1, a preset use condition set is arranged in the start judgment model mode1, the use judgment model mode1 and the user type identification TU1 have a corresponding relation, and different user type identifications correspond to different use judgment models.
3. The method of claim 2, wherein the user types include exclusive users and shared users; the set of usage conditions includes: the individual enjoyment users can only use 2 times a day and cannot exceed 3 minutes each time, and the using interval time is more than 4 hours; the sharing user automatically shuts down after 3 minutes of use each time and does not limit the number of times of use every day.
4. The method according to claim 2, wherein the myopia treatment apparatus M1 has an off-line use controller built therein;
the offline use controller is configured to record a first start-up time of the myopia therapeutic apparatus M1, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is still less than 3 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 7 days in a state that a bluetooth connection with a user terminal is disconnected, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is between 3 and 6 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 15 days in a state that a bluetooth connection with the user terminal is disconnected; and when the interval duration from the first starting time of the myopia therapeutic apparatus M1 exceeds the time range of 6 months, the myopia therapeutic apparatus M1 is allowed to be permanently used offline in a state of being disconnected from the Bluetooth connection between the user terminal.
5. The method according to any one of claims 1 to 4, wherein the myopia treatment apparatus usage record of the user identifier U1 is recorded with a period of time and a history of cumulative usage of the myopia treatment apparatus each time the user represented by the user identifier U1 is used.
6. The method of any one of claims 1-5, wherein the remote control server processes received myopic therapeutic device power-on applications with a higher priority than received myopic therapeutic device use reports.
7. A remote control system, the remote control system comprising: the remote control server, X user terminals and Y myopia therapeutic apparatuses;
the X user terminals comprise user terminals T1, the Y myopia therapeutic apparatuses comprise myopia therapeutic apparatuses M1, the myopia therapeutic apparatuses M1 can be connected with the user terminals T1 through Bluetooth, and the remote control server and the user terminals T1 can be connected through a network; when the myopia therapeutic apparatus M1 is in a Bluetooth connection state with the user terminal, the myopia therapeutic apparatus M1 is in an on-line state; when the Bluetooth connection between the myopia therapeutic apparatus M1 and the user terminal is disconnected, the myopia therapeutic apparatus M1 is in an offline state;
Wherein,,
the user terminal T1 is configured to send a myopia therapeutic apparatus use request to the remote control server when the user terminal T1 is in a bluetooth connection state with the myopia therapeutic apparatus M1; wherein, the myopia therapeutic apparatus use request carries a user identifier U1, a user type identifier TU1 and an equipment identifier of the myopia therapeutic apparatus M1 in an on-line state;
the remote control server is used for receiving a myopia therapeutic apparatus use request sent by the user terminal T1 and judging whether a user represented by the user identifier U1 meets the use requirement or not; under the condition that the user represented by the user identifier U1 meets the use requirement, sending a myopia therapeutic apparatus use request response to the user terminal T1, wherein the myopia therapeutic apparatus use request response carries an permission use identifier and an equipment identifier of the myopia therapeutic apparatus M1, and the permission use identifier is used for indicating that the myopia therapeutic apparatus M1 is permitted to be used at this time;
the user terminal T1 is further configured to send a myopia therapeutic apparatus usage report to the remote control server after the use of the myopia therapeutic apparatus M1 is finished; the myopia therapeutic apparatus use report records a user identifier U1 and the current use time period time1 of the myopia therapeutic apparatus M1;
The remote control server is further configured to receive a myopia therapeutic apparatus usage report sent by the user terminal T1, generate and cache a myopia therapeutic apparatus usage record corresponding to the user identifier U1 based on the myopia therapeutic apparatus usage report, where the myopia therapeutic apparatus usage record includes the user identifier U1 and the current usage time period time1 of the myopia therapeutic apparatus M1.
8. The remote control system of claim 7, wherein said determining whether the user type represented by the user type identifier TU1 meets the usage requirement comprises:
and importing the user type identifier TU1 into a use judgment model mode1, judging whether the user type represented by the user type identifier TU1 meets the use requirement or not through the use judgment model mode1, wherein a preset use condition set is arranged in the starting judgment model mode1, and the use judgment model mode1 and the user type identifier TU1 have a corresponding relation, wherein different user type identifiers correspond to different use judgment models.
9. The remote control system of claim 8, wherein the user types include exclusive users and shared users; the set of usage conditions includes: the individual enjoyment users can only use 2 times a day and cannot exceed 3 minutes each time, and the using interval time is more than 4 hours; the sharing user automatically shuts down after 3 minutes of use each time and does not limit the number of times of use every day.
10. The remote control system according to any one of claims 7 to 9, wherein an offline use controller is built into the myopia treatment apparatus M1;
the offline use controller is configured to record a first start-up time of the myopia therapeutic apparatus M1, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is still less than 3 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 7 days in a state that a bluetooth connection with a user terminal is disconnected, and in a time range that an interval duration from the first start-up time of the myopia therapeutic apparatus M1 is between 3 and 6 months, the myopia therapeutic apparatus M1 is allowed to be used offline for at most 15 days in a state that a bluetooth connection with the user terminal is disconnected; and when the interval duration from the first starting time of the myopia therapeutic apparatus M1 exceeds the time range of 6 months, the myopia therapeutic apparatus M1 is allowed to be permanently used offline in a state of being disconnected from the Bluetooth connection between the user terminal.
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