CN105301949B - Method and system for detecting wearing state of smart watch and smart watch - Google Patents

Abstract

The invention discloses a method and system for detecting the wearing state of a smart watch and the smart watch. The method includes: the infrared sensor detects an occluder, and turns on a capacitive touch sensor; the capacitive touch sensor identifies whether the occluder is skin; if so, determines that the smart watch is in a wearing state, and turns off the capacitive touch sensor. The present invention uses a capacitive touch sensor to identify whether the occluder is skin, if so, the smart watch has been worn, and the wearing state is determined to be accurate; when the capacitive touch sensor recognizes that the occluder is skin, the capacitive touch sensor is turned off, that is, after wearing the smart watch The capacitive touch sensor is always off, so the power consumption of the smartwatch is low.

Description

Method and system for detecting wearing state of smart watch, and smart watch

technical field

The invention relates to the technical field of smart watches, in particular to a detection method and system for a wearing state of a smart watch and a smart watch.

Background technique

At present, children's smart watches focus on children's safety. Children's watch wearing detection has become a standard configuration for children's watches. There are currently various detection methods such as light-sensing detection and capacitive touch detection. However, each individual detection method has disadvantages, such as light-sensing It cannot identify whether the covering is skin or not, so in many cases, false alarms will be reported. Capacitive touch detection will also consume too much power if it is normally on, so it cannot be practically applied when the battery capacity of the wearable device is limited.

Contents of the invention

The invention provides a method and system for detecting the wearing state of a smart watch, and the smart watch can accurately identify the wearing state of the smart watch, and the smart watch has low power consumption.

For reaching this purpose, the present invention adopts following technical scheme:

In the first aspect, a method for detecting the wearing state of a smart watch includes the following steps:

A. The infrared sensor detects an obstruction and turns on the capacitive touch sensor;

B. The capacitive touch sensor identifies whether the occluder is skin;

C. If so, determine that the smart watch is in the wearing state, and turn off the capacitive touch sensor.

Wherein, after the capacitive touch sensor identifies whether the occluder is skin, it also includes:

If not, it is determined that the smart watch is not worn, and the capacitive touch sensor is turned off; the infrared sensor detects an obstruction, and the time interval between the last time the capacitive touch sensor is turned on is greater than or equal to a preset time period, and the capacitive touch sensor is turned on. sensor, return to step B.

Wherein, after the determination that the smart watch is in the wearing state, it also includes sending the wearing state to the client.

Wherein, after turning off the capacitive touch sensor, it also includes:

The infrared sensor detects that there is no obstruction, and determines that the smart watch is in a detached state;

Acquiring the positioning information of the smart watch;

Send the falling off state and the positioning information to the client.

Wherein, after the determination that the smart watch is in the off state, it also includes that the smart watch sends out an alarm.

In the second aspect, a detection system for the wearing state of a smart watch includes:

The first opening module is used for detecting an obstruction by the infrared sensor and opening the capacitive touch sensor;

The closing module is used for the capacitive touch sensor to identify whether the shield is skin, if so, determine that the smart watch is in the wearing state, and close the capacitive touch sensor.

Wherein, the detection system of the wearing state of the smart watch further includes a second opening module, the second opening module is used for determining that the smart watch is in a non-wearing state when the capacitive touch sensor recognizes that the shield is not skin, Turn off the capacitive touch sensor; the infrared sensor detects an obstruction, confirm that the time interval from the last time the capacitive touch sensor was turned on is greater than or equal to a preset time period, and turn on the capacitive touch sensor.

Wherein, the system for detecting the wearing state of the smart watch further includes a first sending module, and the first sending module is used for sending the wearing state to a client.

Wherein, the detection system of the wearing state of the smart watch also includes:

A judging module, used for the infrared sensor to detect that there is no obstruction, and judge that the smart watch is in a falling state;

A positioning module, configured to obtain the positioning information of the smart watch;

A second sending module, configured to send the falling-off state and the positioning information to a client;

The alarm module is used for sending an alarm after the smart watch is in a falling state.

In a third aspect, a smart watch includes the above detection system.

The present invention provides a smart watch wearing state detection method, system and smart watch. The method includes: an infrared sensor detects an occluder, and turns on a capacitive touch sensor; the capacitive touch sensor identifies whether the occluder is skin; if , determine that the smart watch is in the wearing state, and turn off the capacitive touch sensor. The present invention uses a capacitive touch sensor to identify whether the occluder is skin, if so, the smart watch has been worn, and the wearing state is determined to be accurate; when the capacitive touch sensor recognizes that the occluder is skin, the capacitive touch sensor is turned off, that is, after wearing the smart watch The capacitive touch sensor is always off, so the power consumption of the smartwatch is low.

Description of drawings

Fig. 1 is a method flowchart of the first embodiment of a method for detecting the wearing state of a smart watch provided by the present invention.

Fig. 2 is a method flowchart of the second embodiment of a method for detecting the wearing state of a smart watch provided by the present invention.

FIG. 3 is a structural block diagram of a first embodiment of a detection system for a smart watch wearing state provided by the present invention.

Fig. 4 is a structural block diagram of a second embodiment of a detection system for a smart watch wearing state provided by the present invention.

detailed description

The technical solutions of the present invention will be further described through specific embodiments below in conjunction with the accompanying drawings.

Embodiment one

Referring to Fig. 1, a method for detecting the wearing state of a smart watch includes the following steps:

S101. The infrared sensor detects an obstruction, and turns on the capacitive touch sensor;

In the initial state of the smart watch, the infrared sensor is off, that is, the initial state of the infrared sensor is off, but during the working process of the smart watch, when the wearing status detection function of the smart watch is turned on, the infrared sensor is always in the working state, constantly to detect if there is an obstruction. The power consumption of the capacitive touch sensor is high, and the capacitive touch sensor is only turned on when the infrared sensor starts to detect an occluded object, so the power consumption of the smart watch can be reduced.

S102. The capacitive touch sensor identifies whether the shield is skin;

The principle of capacitive touch sensor is based on the debounce method of noise threshold and finger threshold to realize clean transition between key switch states. The core part of all capacitive touch sensing systems is a set of conductors that interact with electric fields. Beneath the skin, human tissue is filled with conductive electrolytes, so capacitive touch sensors are able to recognize that the object is skin.

S103. If yes, determine that the smart watch is in the wearing state, and turn off the capacitive touch sensor.

If the occlusion is skin, the watch is worn, and the capacitive touch sensor is used to identify the skin. There will be no misjudgment that the smart watch is in the wearing state when the occlusion is not skin, so the judgment is more accurate. When the capacitive touch sensor recognizes that the cover is skin, it is turned off, that is, the capacitive touch sensor is in the off state after the watch is worn, so power consumption can be reduced.

A method for detecting the wearing state of a smart watch provided in this embodiment includes: an infrared sensor detects an occluder, and turns on a capacitive touch sensor; the capacitive touch sensor identifies whether the occluder is skin; if so, determines that the smart watch is worn state, turn off the capacitive touch sensor. The present invention uses a capacitive touch sensor to identify whether the shield is skin, thereby judging whether the smart watch is worn, and determining whether the wearing state is accurate; after wearing the smart watch, the capacitive touch sensor is always in the off state, so the power consumption of the smart watch is low.

Embodiment two

In this embodiment, several steps are added on the basis of the first embodiment, and the contents not detailed in this embodiment can be referred to the above-mentioned embodiment.

Referring to Fig. 2, Fig. 2 is a flow chart of the detection method of the smart watch wearing state of the present embodiment, the method includes the following steps:

S201. The infrared sensor detects an obstruction, and turns on the capacitive touch sensor;

S202. The capacitive touch sensor identifies whether the shield is skin;

S203. If yes, determine that the smart watch is in the wearing state, and turn off the capacitive touch sensor; go to step S206.

S204. If not, determine that the smart watch is not worn, and turn off the capacitive touch sensor; enter step S205;

S205. The infrared sensor detects an obstruction, confirms that the time interval from the last time the capacitive touch sensor was turned on is greater than or equal to a preset time period, turns on the capacitive touch sensor, and returns to step S202.

When the current occlusion is not skin, the smart watch is not worn, and the capacitive touch sensor is turned off. If the infrared sensor detects that there is always an occlusion, the capacitive touch sensor will not always be turned on, but will be turned on regularly to detect whether the occlusion is skin. .

In this embodiment, the preset time period is 10 minutes. Preferably, the preset time period can also be 5 minutes, 8 minutes or other values.

S206. Send the wearing state to the client; go to step S207.

The client shows an APP associated with the smart watch, the APP is installed on the mobile terminal, the smart watch is equipped with a phone card, and the phone card is used to send the wearing status to the mobile terminal where the client is located through the network, so holding the mobile terminal The person at the terminal can know in time that the smart watch has been worn.

S207. Whether the infrared sensor detects an obstruction.

S208. If not, determine that the smart watch is in a detached state.

S209. The smart watch sends out an alarm.

After the smart watch is worn, the infrared sensor will still detect whether there is an obstruction. If there is an obstruction, return to step S207; alert. It should be noted that steps S208 and S209 are executed in no order.

S210. Obtain the location information of the smart watch;

After the smart watch falls off or is taken off, the GPS positioning system obtains the positioning information of the smart watch. The GPS positioning system is a prior art, and will not be described here.

S211. Send the detached state and the location information to the client.

The smart watch sends its detachment status and location information to the mobile terminal where the client is located through the network, so the person holding the mobile terminal can know in time that the smart watch has fallen off, and can obtain the position information after it falls off.

If the smart watch is worn on the child, and the parent is not around the child, the parent can know in time whether the child wears the smart watch through the information fed back to the mobile terminal.

The method for detecting the wearing state of a smart watch provided in this embodiment uses a capacitive touch sensor to identify whether the covering is skin, thereby determining whether the smart watch is worn, and determining whether the wearing state is accurate; after wearing the smart watch, the capacitive touch sensor is always on Off state, so the power consumption of the smart watch is low. When the smart watch falls off, the mobile terminal can obtain the falling state and the falling position of the smart watch in time.

Embodiment Three

Referring to Fig. 3, Fig. 3 is a structural block diagram of the detection system of the wearing state of the smart watch of this embodiment. The detection system of this embodiment corresponds to the method embodiment 1. Please refer to the embodiment 1 for the details not yet detailed in this embodiment.

A detection system for the wearing state of a smart watch, comprising:

The first opening module 101 is used for detecting an obstruction by the infrared sensor and opening the capacitive touch sensor;

The closing module 102 is used for the capacitive touch sensor to identify whether the shield is skin, if so, determine that the smart watch is in the wearing state, and turn off the capacitive touch sensor.

A detection system for the wearing state of a smart watch provided in this embodiment uses a capacitive touch sensor to identify whether the covering is skin, thereby determining whether the smart watch is worn, and determining whether the wearing state is accurate; after wearing the smart watch, the capacitive touch sensor is always on Off state, so the power consumption of the smart watch is low.

Embodiment Four

Referring to Fig. 4, Fig. 4 is a structural block diagram of the detection system of the wearing state of the smart watch in this embodiment. The detection system in this embodiment corresponds to the method embodiment 2. Please refer to the embodiment 2 for details not yet detailed in this embodiment.

A detection system for the wearing state of a smart watch, comprising:

The first opening module 101 is configured to enable the capacitive touch sensor when the infrared sensor detects an obstruction.

The closing module 102 is used for the capacitive touch sensor to identify whether the shield is skin, if so, determine that the smart watch is in the wearing state, and turn off the capacitive touch sensor.

Preferably, the detection system further includes a second opening module 103, and the second opening module 103 is used for determining that the smart watch is not worn when the capacitive touch sensor recognizes that the shield is not a skin, and closes all The capacitive touch sensor; the infrared sensor detects an occluder, confirms that the time interval from the last time the capacitive touch sensor was turned on is greater than or equal to a preset time period, and turns on the capacitive touch sensor.

Preferably, the detection system also includes:

The first sending module 104 is configured to send the wearing state to the client.

The determination module 105 is used for determining that the smart watch is in a detached state when the infrared sensor detects that there is no obstruction.

The alarm module 106 is used for sending out an alarm after the smart watch is in a falling state.

A positioning module 107, configured to acquire the positioning information of the smart watch;

The second sending module 108 is configured to send the falling state and the positioning information to the client;

The method for detecting the wearing state of a smart watch provided in this embodiment uses a capacitive touch sensor to identify whether the covering is skin, thereby determining whether the smart watch is worn, and determining whether the wearing state is accurate; after wearing the smart watch, the capacitive touch sensor is always on Off state, so the power consumption of the smart watch is low. When the smart watch falls off, the mobile terminal can obtain the falling state and the falling position of the smart watch in time.

Embodiment five

A smart watch, including the above-mentioned detection system for the wearing state of the smart watch.

The smart watch provided in this embodiment has low power consumption, can determine the wearing state accurately, and can timely feedback the falling state and the falling position when falling off.

The above describes the technical principles of the present invention in conjunction with specific embodiments. These descriptions are only for explaining the principles of the present invention, and cannot be construed as limiting the protection scope of the present invention in any way. Based on the explanations herein, those skilled in the art can think of other specific implementation modes of the present invention without creative work, and these modes will all fall within the protection scope of the present invention.

Claims (10)

1. A detection method of smart watch wearing state, is characterized in that, comprises the following steps: A. The infrared sensor detects an obstruction and turns on the capacitive touch sensor; B. The capacitive touch sensor identifies whether the occluder is skin; C. If so, determine that the smart watch is in the wearing state, and turn off the capacitive touch sensor. 2. The detection method according to claim 1, wherein after the capacitive touch sensor identifies whether the occluder is skin, further comprising: If not, it is determined that the smart watch is not worn, and the capacitive touch sensor is turned off; the infrared sensor detects an obstruction, and the time interval between the last time the capacitive touch sensor is turned on is greater than or equal to a preset time period, and the capacitive touch sensor is turned on. sensor, return to step B. 3 . The detection method according to claim 1 , further comprising, after determining that the smart watch is in a wearing state, sending the wearing state to a client. 4 . 4. The detection method according to claim 1, further comprising: after the capacitive touch sensor is turned off, The infrared sensor detects that there is no obstruction, and determines that the smart watch is in a detached state; Obtain the positioning information of the smart watch; Send the falling off state and the positioning information to the client. 5 . The detection method according to claim 4 , further comprising, after the determination that the smart watch is in a detached state, the smart watch sends out an alarm. 6 . 6. A detection system for a smart watch wearing state, characterized in that it comprises: The first opening module is used for detecting an obstruction by the infrared sensor and opening the capacitive touch sensor; closing the module, used for the capacitive touch sensor to identify whether the shield is skin, If so, it is determined that the smart watch is in the wearing state, and the capacitive touch sensor is turned off. 7. The detection system according to claim 6, further comprising a second opening module, the second opening module is used for determining that the smart watch In the non-wearing state, turn off the capacitive touch sensor; the infrared sensor detects an obstruction, confirm that the time interval from the last time the capacitive touch sensor was turned on is greater than or equal to a preset time period, and turn on the capacitive touch sensor. 8. The detection system according to claim 6, further comprising a first sending module, the first sending module is configured to send the wearing state to a client. 9. The detection system of claim 6, further comprising: A judging module, used for the infrared sensor to detect that there is no obstruction, and judge that the smart watch is in a falling state; A positioning module, configured to obtain the positioning information of the smart watch; A second sending module, configured to send the falling-off state and the positioning information to a client; The alarm module is used for sending an alarm after the smart watch is in a falling state. 10. A smart watch, characterized by comprising the detection system according to any one of claims 6-9.