CN111281375A - Sensing system - Google Patents

Abstract

The present invention provides a sensing system comprising: an electronic skin treater, which can be attached to a human body; the electronic skin sensor is connected with the electronic skin processor and used for being attached to a human body to sense human body parameters and/or environmental parameters and provide the human body parameters and/or the environmental parameters to the electronic skin processor, and the electronic skin processor is used for processing and analyzing the human body parameters and/or the environmental parameters. The invention can improve the use effect of the sensing system.

Description

Sensing system

Technical Field

The present invention relates to electronic device technologies, and in particular, to a sensing system.

Background

With the development of scientific technology, sensing devices are more and more widely used, and wearable sensing devices are available for collecting and monitoring human body data.

The existing wearable sensing equipment comprises a wearing device and a sensing device, wherein the sensing device is arranged on the wearing device, and a user can wear the wearing device on the body, so that the sensing device can sense the human body data of the user.

However, the existing wearable sensing equipment can cause great limitation to human body activities after being worn, and the use effect of the wearable sensing equipment is reduced.

Disclosure of Invention

The invention provides a sensing system to improve the use effect.

The present invention provides a sensing system comprising:

an electronic skin treater, which can be attached to a human body;

the electronic skin sensor is connected with the electronic skin processor and used for being attached to a human body to sense human body parameters and/or environmental parameters and provide the human body parameters and/or the environmental parameters to the electronic skin processor, and the electronic skin processor is used for processing and analyzing the human body parameters and/or the environmental parameters.

Based on the above, the sensing system provided by the invention can attach the electronic skin processor and the electronic skin sensor to a human body when in use, so that the electronic skin sensor can sense human body parameters and/or environmental parameters and provide the human body parameters and/or environmental parameters to the electronic skin processor for processing and analysis. The electronic skin sensor and the electronic skin processor have good flexibility, so that the skin sensor and the electronic skin processor have good conformality, and cannot cause great limitation on human activities, so that the skin sensor can be worn for a long time, the human activities and the health behaviors can be monitored in real time, and the using effect of the sensing system is improved.

Drawings

Fig. 1 is a first partial schematic view of a sensing system provided in an embodiment of the present invention in a use state;

fig. 2 is a second partial schematic view of a sensing system in a use state according to an embodiment of the present invention.

Reference numerals:

101: an electronic skin processor; 102: an electronic skin sensor;

103: a first line; 104: a cervical spine movement sensor;

105: an electroencephalogram sensor; 106: a second line;

107: a first knuckle strain sensor; 108: a first elbow joint strain sensor;

109: a third line; 110: a first pressure sensor;

111: a first electromyographic sensor; 112: a sweat sensor;

113: a body temperature sensor; 114: a laryngeal movement sensor;

115: an electrocardiograph sensor; 116: a first shoulder joint strain sensor;

117: a second electromyographic sensor; 118: a third electromyographic sensor;

119: a knee joint strain sensor; 120: a first processor;

121: a second processor; 122: the wire may be stretched.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent 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.

Referring to fig. 1 and fig. 2, an embodiment of the invention provides a sensing system, including: an electronic skin processor 101, the electronic skin processor 101 being capable of being attached to a human body; the electronic skin sensor 102 is connected with the electronic skin processor 101, the electronic skin sensor 102 is used for being attached to a human body to sense human body parameters and/or environmental parameters and provide the human body parameters and/or the environmental parameters to the electronic skin processor 101, and the electronic skin processor 101 is used for processing and analyzing the human body parameters and/or the environmental parameters.

In use, the sensing system of the embodiment can attach the electronic skin processor 101 and the electronic skin sensor 102 to the human body, so that the electronic skin sensor 102 can sense the human body parameter and/or the environmental parameter and provide the human body parameter and/or the environmental parameter to the electronic skin processor 101 for processing and analysis. The electronic skin sensor 102 and the electronic skin processor 101 have good flexibility, so that the skin conformal property is good, the human body activity is not limited greatly, the electronic skin sensor can be worn for a long time, the human body activity and the health behavior can be monitored in real time, and the using effect of the sensing system is improved. The electronic skin processor 101 may collect various human body parameters and/or environmental parameters provided by the electronic skin sensor 102 to form personal body big data, and may process and analyze the various human body parameters and/or environmental parameters to extract important information and manage and analyze personal living habits. The human body parameters comprise electroencephalogram parameters, electrocardio parameters, myoelectricity parameters, body temperature parameters, joint motion parameters and the like, and the environment parameters comprise environment temperature parameters, environment humidity parameters, air quality parameters, light intensity parameters, altitude parameters, air pressure parameters, height parameters, distance parameters and the like.

In this embodiment, the electronic skin sensor 102 is preferably connected to the electronic skin processor 101 via a stretchable wire 122. The stretchable wire 122 has good stretchability, and can be attached to the surface of a human body for a long time without obvious feeling, thereby being beneficial to further improving the use effect of the sensing system. In addition, the stretchable wire 122 can be attached to the surface of a human body, so that the circuit can be optimized, the circuit is prevented from obstructing clothes worn by the human body, the electronic skin sensors 102 can still be conveniently worn under the condition that the electronic skin sensors are connected with the same electronic skin processor 101, the processor does not need to be excessively arranged for convenience in wearing, sensor nodes are reduced, power consumption is reduced, and the reliability and the using effect of the sensing system are improved.

In this embodiment, preferably, the stretchable wire 122 is provided with an adhesive layer for adhering to a human body. Therefore, the stretchable wire 122 can be conveniently attached to the human body.

In this embodiment, the electronic skin sensor 102 is preferably a stretchable wire 122. When the stretchable wire is bent or stretched, the internal resistance of the stretchable wire changes, so that the stretchable wire can be used as a strain sensor, and the stretchable wire can be attached to the surface of a human body for a long time without obvious feeling, so that the use effect of the sensing system is further improved.

In this embodiment, preferably, the electronic skin processor 101 includes a first processor 120, the first processor 120 is configured to be attached to the back of a human body, the electronic skin sensor 102 includes a cervical vertebra motion sensor 104 and an electroencephalogram sensor 105, the electroencephalogram sensor 105 is connected to the first processor 120 through a first line 103, the cervical vertebra motion sensor 104 is connected to the first line 103 and is located between the electroencephalogram sensor 105 and the first processor 120, the cervical vertebra motion sensor 104 is configured to be attached to the cervical vertebra of the human body to sense a motion parameter of the cervical vertebra and provide the motion parameter to the first processor 120, and the electroencephalogram sensor 105 is configured to be attached to the head of the human body to sense an electroencephalogram parameter and provide the brain parameter to the first processor 120. Therefore, after the first processor 120 is attached to the back of the human body, the cervical vertebra motion sensor 104 can be conveniently attached to the cervical vertebra part of the human body, the electroencephalogram sensor 105 is used for being attached to the head of the human body, motion parameters and electroencephalogram parameters of the cervical vertebra part can be sensed, functions of a sensing system are enriched, and the use convenience of the sensing system is improved.

In this embodiment, it is preferable that the electronic skin sensor 102 further includes a first knuckle strain sensor 107 and a first elbow strain sensor 108, the first knuckle strain sensor 107 is connected to the first processor 120 through the second line 106, the first elbow strain sensor 108 is connected to the second line 106 and located between the first knuckle strain sensor 107 and the first processor 120, the first knuckle strain sensor 107 is configured to be attached to a knuckle of a human body to sense a motion parameter of the knuckle and provide the motion parameter to the first processor 120, and the first elbow strain sensor 108 is configured to be attached to an elbow joint of the human body to sense a motion parameter of the elbow joint and provide the motion parameter to the first processor 120. Therefore, after the first processor 120 is attached to the back of the human body, the first elbow joint strain sensor 108 can be conveniently attached to the elbow joint of the human body, and the first finger joint strain sensor 107 can be conveniently attached to the finger joint of the human body, so that the motion parameters of the elbow joint and the motion parameters of the finger joint can be sensed, the functions of a sensing system are enriched, and the use convenience of the sensing system is improved.

In this embodiment, preferably, the electronic skin sensor 102 further includes a first pressure sensor 110 and a first electromyography sensor 111, the first pressure sensor 110 is connected to the first processor 120 through a third line 109, the first electromyography sensor 111 is connected to the third line 109 and is located between the first pressure sensor 110 and the first processor 120, the first pressure sensor 110 is configured to be attached to a finger of a human body to sense a pressure parameter of the finger pressing and provide the pressure parameter to the first processor 120, and the first electromyography sensor 111 is configured to be attached to an arm of the human body to sense an electromyography parameter of the arm and provide the electromyography parameter to the first processor 120. Therefore, after the first processor 120 is attached to the back of the human body, the first myoelectric sensor 111 can be conveniently attached to the arm of the human body, and the first pressure sensor 110 can be conveniently attached to the finger of the human body, so that the myoelectric parameters of the arm and the pressure parameters pressed by the finger can be sensed, the functions of a sensing system are enriched, and the use convenience of the sensing system is improved.

In this embodiment, it is preferable that the electronic skin sensor 102 further includes a sweat sensor 112, the sweat sensor 112 is connected to the third line 109 and located between the first electromyography sensor 111 and the first processor 120, and the sweat sensor 112 is configured to be attached to an armpit of the human body to sense a sweat parameter and provide the sweat parameter to the first processor 120. Therefore, after the first processor 120 is attached to the back of the human body, the third line 109 can pass through the armpit of the human body, so that the sweat sensor 112 is conveniently attached to the armpit of the human body, the first myoelectric sensor 111 is conveniently attached to the arm of the human body, and the first pressure sensor 110 is conveniently attached to the finger of the human body, thereby realizing sensing of sweat parameters, enriching the functions of a sensing system and improving the use convenience of the sensing system.

In this embodiment, it is preferable that the electronic skin sensor 102 further includes a body temperature sensor 113, the body temperature sensor 113 is connected to the third line 109 and located between the first electromyographic sensor 111 and the first processor 120, and the body temperature sensor 113 is configured to be attached to an armpit of the human body to sense a temperature parameter of the human body and provide the temperature parameter to the first processor 120. Therefore, after the first processor 120 is attached to the back of the human body, the third line 109 can pass through the armpit of the human body, so that the body temperature sensor 113 is conveniently attached to the armpit of the human body, the first myoelectric sensor 111 is conveniently attached to the arm of the human body, and the first pressure sensor 110 is conveniently attached to the finger of the human body, the sensing of the temperature parameter of the human body is realized, the function of a sensing system is enriched, and the use convenience of the sensing system is improved.

In this embodiment, preferably, the electronic skin sensor 102 further includes a laryngeal movement sensor 114, the laryngeal movement sensor 114 is connected to the first processor 120, and the laryngeal movement sensor 114 is configured to be attached to the larynx of the human body to sense the movement parameter of the larynx and provide the sensed movement parameter to the first processor 120. Therefore, the sensing of the motion parameters of the larynx is realized, and the function of the sensing system is enriched.

In this embodiment, preferably, the electronic skin sensor 102 further includes an electrocardiograph sensor 115, the electrocardiograph sensor 115 is connected to the first processor 120, and the electrocardiograph sensor 115 is configured to be attached to a heart portion of a human body to sense an electrocardiograph parameter of the heart of the human body and provide the sensed electrocardiograph parameter to the first processor 120. Therefore, the electrocardio-parameter sensing is realized, and the functions of the sensing system are enriched.

In this embodiment, it is preferable that the electronic skin sensor 102 further includes a first shoulder joint strain sensor 116, the first shoulder joint strain sensor 116 is connected to the first processor 120, and the first shoulder joint strain sensor 116 is adapted to be attached to a shoulder joint of a human body to sense a motion parameter of the shoulder joint and provide the motion parameter to the first processor 120. Therefore, the motion parameter of the shoulder joint is sensed, and the function of the sensing system is enriched.

In a preferred embodiment, the first line 103, the second line 106, the third line 109, the laryngeal movement sensor 114, the electrocardiograph sensor 115, and the first shoulder joint strain sensor 116 are respectively connected to the first processor 120, so that the sensing system forms a star topology network, which is beneficial to reducing sensor nodes and simplifying the network structure. Of course, one or more of the first line 103, the second line 106, the third line 109, the laryngeal movement sensor 114, the cardiac sensor 115, and the first shoulder joint strain sensor 116 may be optionally connected to the first processor 120 to form a sensing system.

In this embodiment, preferably, the electronic skin processor 101 further includes a second processor 121, the second processor 121 is configured to be attached to the crotch of a human body, the electronic skin sensor 102 further includes a second electromyography sensor 117, a third electromyography sensor 118 and a knee joint strain sensor 119, the second electromyography sensor 117, the third electromyography sensor 118 and the knee joint strain sensor 119 are respectively connected to the second processor 121, the second electromyography sensor 117 is configured to be attached to the thigh region of the human body to sense an electromyography parameter of the thigh region and provide the electromyography parameter to the second processor 121, the third electromyography sensor 118 is configured to be attached to the calf region of the human body to sense an electromyography parameter of the calf region and provide the electromyography parameter to the second processor 121, and the knee joint strain sensor 119 is configured to be attached to the knee joint of the human body to sense an exercise parameter of the knee joint and provide the movement parameter. Therefore, after the second processor 121 is attached to the crotch of the human body, the second myoelectric sensor 117 can be conveniently attached to the thigh of the human body, the third myoelectric sensor 118 can be conveniently attached to the calf of the human body, and the knee joint strain sensor 119 can be conveniently attached to the knee joint of the human body, so that the myoelectric parameters of the thigh, the calf and the knee joint can be sensed, the functions of the sensing system are enriched, and the use convenience of the sensing system is improved.

In this embodiment, preferably, the electronic skin processor further includes a third processor, the third processor is configured to attach to an arm of a human body, the electronic skin sensor further includes a second pressure sensor, a second finger joint strain sensor, a second elbow joint strain sensor, a second shoulder joint strain sensor, and a fourth electromyographic sensor, the second pressure sensor, the second finger joint strain sensor, the second elbow joint strain sensor, the second shoulder joint strain sensor, and the fourth electromyographic sensor are respectively connected to the third processor, the second pressure sensor is configured to attach to a finger of the human body to sense a pressure parameter of the finger pressing and provide the pressure parameter to the third processor, the second finger joint strain sensor is configured to attach to a finger joint of the human body to sense a motion parameter of the finger joint and provide the motion parameter to the third processor, the second elbow joint strain sensor is configured to attach to an elbow joint of the human body to sense a motion parameter of the elbow joint and provide the motion parameter to the third processor, the second shoulder joint strain sensor is used for being attached to a shoulder joint of a human body to sense motion parameters of the shoulder joint and provide the motion parameters to the third processor, and the fourth electromyographic sensor is used for being attached to an arm of the human body to sense electromyographic parameters of the arm and provide the electromyographic parameters to the third processor. Therefore, after the third processor is attached to the arm of the human body, the second pressure sensor can be conveniently attached to the fingers of the human body, the second finger joint strain sensor can be conveniently attached to the finger joints of the human body, the second elbow joint strain sensor can be conveniently attached to the elbow joint of the human body, the second shoulder joint strain sensor can be conveniently attached to the shoulder joint of the human body, and the fourth myoelectric sensor can be conveniently attached to the arm of the human body, so that the pressure parameters pressed by the fingers, the motion parameters of the finger joints, the motion parameters of the elbow joints, the motion parameters of the shoulder joints and the myoelectric parameters of the arm can be sensed, the functions of a sensing system are enriched, and the use convenience of the sensing system is improved.

In this embodiment, it is preferable that the sensing system further includes an electronic device, and the first processor 120, the second processor 121, and the third processor are respectively connected to the electronic device in a wireless communication manner. Therefore, the sensing system forms a network combining star topology and/or cluster topology, sensor nodes are further reduced, a network structure is simplified, multi-dimensional monitoring of human body behaviors can be achieved through transmission and fusion of various human body parameters among the first processor 120, the second processor 121, the third processor and the electronic equipment, and functions and using effects of the sensing system are enriched.

In the present embodiment, the electronic skin processor 101 is preferably configured to process and analyze the human body parameter and/or the environmental parameter to output a prompt message. The electronic skin processor can fuse, process and analyze the human body parameters and the environmental parameters and then output prompt information, wherein the prompt information can be exercise prompt information, diet prompt information and the like, so that guidance and suggestions are provided for managing and regulating personal behaviors, and auxiliary bases are provided for health and medical treatment.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A sensing system, comprising:

an electronic skin treater, which can be attached to a human body;

the electronic skin sensor is connected with the electronic skin processor and used for being attached to a human body to sense human body parameters and/or environmental parameters and provide the human body parameters and/or the environmental parameters to the electronic skin processor, and the electronic skin processor is used for processing and analyzing the human body parameters and/or the environmental parameters.

2. The sensing system according to claim 1, wherein the electronic skin sensor is connected to the electronic skin processor by a stretchable wire.

3. The sensing system of claim 2, wherein the stretchable wire is provided with a layer of adhesive for adhering to a human body.

4. The sensing system of claim 1, wherein the electronic skin sensor is a stretchable wire.

5. The sensing system according to claim 1, wherein:

the electronic skin processor comprises a first processor, the first processor is used for being attached to the back of a human body, the electronic skin sensor comprises a cervical vertebra motion sensor and an electroencephalogram sensor, the electroencephalogram sensor is communicated with a first circuit and is connected with the first processor, the cervical vertebra motion sensor is connected to the first circuit and is positioned between the electroencephalogram sensor and the first processor, the cervical vertebra motion sensor is used for being attached to the cervical vertebra part of the human body to sense motion parameters of the cervical vertebra part and provide the motion parameters to the first processor, and the electroencephalogram sensor is used for being attached to the head of the human body to sense electroencephalogram parameters and provide the electroencephalogram parameters to the first processor;

and/or the electronic skin sensor further comprises a first finger joint strain sensor and a first elbow joint strain sensor, the first finger joint strain sensor is connected with the first processor through a second line, the first elbow joint strain sensor is connected with the second line and is positioned between the first finger joint strain sensor and the first processor, the first finger joint strain sensor is used for being attached to a finger joint of the human body to sense motion parameters of the finger joint and provide the motion parameters to the first processor, and the first elbow joint strain sensor is used for being attached to an elbow joint of the human body to sense motion parameters of the elbow joint and provide the motion parameters to the first processor;

and/or the electronic skin sensor further comprises a first pressure sensor and a first electromyography sensor, wherein the first pressure sensor is connected with the first processor through a third line, the first electromyography sensor is connected with the third line and positioned between the first pressure sensor and the first processor, the first pressure sensor is used for being attached to a finger of a human body to sense a pressure parameter pressed by the finger and providing the pressure parameter to the first processor, and the first electromyography sensor is used for being attached to an arm of the human body to sense an electromyography parameter of the arm and providing the electromyography parameter to the first processor;

and/or, the electronic skin sensor further comprises a laryngeal movement sensor, the laryngeal movement sensor is connected with the first processor, and the laryngeal movement sensor is used for being attached to the larynx of the human body to sense the movement parameters of the larynx and provide the movement parameters to the first processor;

and/or the electronic skin sensor further comprises an electrocardio sensor, the electrocardio sensor is connected with the first processor, and the electrocardio sensor is used for being attached to the heart part of the human body so as to sense the electrocardio parameters of the heart of the human body and provide the electrocardio parameters to the first processor;

and/or the electronic skin sensor further comprises a first shoulder joint strain sensor, the first shoulder joint strain sensor is connected with the first processor, and the first shoulder joint strain sensor is used for being attached to a shoulder joint of a human body so as to sense the motion parameters of the shoulder joint and provide the motion parameters to the first processor.

6. The sensing system of claim 5, wherein the electronic skin sensor further comprises a sweat sensor and/or a body temperature sensor;

the sweat sensor is connected to the third circuit and located between the first myoelectric sensor and the first processor, and the sweat sensor is used for being attached to the armpit of the human body to sense sweat parameters and providing the sweat parameters to the first processor;

the body temperature sensor is connected on the third circuit and is positioned between the first electromyographic sensor and the first processor, and the body temperature sensor is used for being attached to the armpit of a human body to sense the temperature parameter of the human body and providing the temperature parameter for the first processor.

7. The sensing system according to claim 5, wherein said electronic skin processor further comprises a second processor, the second processor is used for being attached to the crotch of a human body, the electronic skin sensor further comprises a second electromyographic sensor, a third electromyographic sensor and a knee joint strain sensor, the second electromyographic sensor, the third electromyographic sensor and the knee joint strain sensor are respectively connected with the second processor, the second electromyographic sensor is used for being attached to the thigh part of the human body to sense the electromyographic parameters of the thigh part and provide the electromyographic parameters to the second processor, the third electromyographic sensor is used for being attached to the lower leg part of the human body so as to sense the electromyographic parameters of the lower leg part and provide the electromyographic parameters to the second processor, the knee joint strain sensor is used for being attached to the human knee joint to sense the motion parameters of the knee joint and provide the motion parameters to the second processor.

8. The sensing system according to claim 7, wherein the electronic skin processor further comprises a third processor for engaging with the arm of the human body, the electronic skin sensor further comprises a second pressure sensor, a second finger joint strain sensor, a second elbow joint strain sensor, a second shoulder joint strain sensor and a fourth myoelectric sensor, the second pressure sensor, the second finger joint strain sensor, the second elbow joint strain sensor, the second shoulder joint strain sensor and the fourth myoelectric sensor are respectively connected with the third processor, the second pressure sensor is for engaging with the finger of the human body to sense the pressure parameter of the finger pressing and provide the pressure parameter to the third processor, the second finger joint strain sensor is for engaging with the finger joint of the human body to sense the motion parameter of the finger joint and provide the motion parameter to the third processor, the second elbow joint strain sensor is used for being attached to an elbow joint of a human body to sense motion parameters of the elbow joint and providing the motion parameters to the third processor, the second shoulder joint strain sensor is used for being attached to a shoulder joint of the human body to sense motion parameters of the shoulder joint and providing the motion parameters to the third processor, and the fourth electromyographic sensor is used for being attached to an arm of the human body to sense electromyographic parameters of the arm and providing the electromyographic parameters to the third processor.

9. The sensing system of claim 8, further comprising an electronic device, wherein the first, second, and third processors are each in wireless communication with the electronic device.

10. The sensing system according to claim 1, wherein the electronic skin processor is configured to process and analyze the human body parameter and/or the environmental parameter to output a prompt message.

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