CN104586406A - Wearable device, method and system for monitoring respiration and sleep characteristics - Google Patents

Abstract

The invention discloses a wearable device for monitoring respiration and sleep characteristics. The wearable device comprises a wearable carrier, an elastic fabric strain sensor, a data acquisition and analysis module and a triaxial acceleration sensor, wherein the wearable carrier is arranged on the upper body of a wearer in a wearing manner; the fabric strain sensor is mounted on the wearable carrier and is used for monitoring a respiration signal; the triaxial acceleration sensor is arranged in the data acquisition and analysis module or mounted on the wearable carrier, and is used for acquiring body gesture change information of the wearer; the data acquisition and analysis module is connected with a conductive layer and the triaxial acceleration sensor, and is used for acquiring and analyzing a conductivity change signal of the conductive layer and the body gesture change information of the wearer. The wearable device is simple in structure, convenient to wear and suitable for long-term use, can accurately monitor the respiration, and can improve the wearing comfort level.

Description

Breathe and sleep characteristics monitoring object wearing device, method for supervising and monitoring system

Technical field

The present invention relates to a kind of device for monitoring breathing and sleep characteristics, particularly relating to a kind of breathing and sleep characteristics monitoring object wearing device, method for supervising and monitoring system.

Background technology

Breathe the process referring to gas exchange between body and external environment, comprise and exhale and inhale two parts.Have multiple method can be used for carrying out monitoring of respiration, wherein mask type device is the most direct monitoring method, the mask worn just or the comfortableness of Mask devices poor, be not suitable for life-time service.Especially for old man, patient, anemia of pregnant woman, infant, be more not suitable for using.And be exactly often that old man, patient, anemia of pregnant woman, infant just need to carry out respiration monitoring control, thus collect long-time interior breathing situation data information, be used for the treatment of or keep healthy.In like manner, people is when sleep state, the frequency of stand up, breathing, amplitude all may embody its health status, especially the infant that old man, anemia of pregnant woman, patient or body constitution are more weak, if can monitor its sleep state when it is slept, then can understand health and safety situation during its sleep expediently, exactly, avoid asphyxiation hazard as prostrate in baby, night cardiovascular and cerebrovascular disease risk of dying suddenly, during respiratory disorder sleeping at night, adnormal respiration is dangerous etc., realizes effective data collection, process.But at present, also there is no such device.

Summary of the invention

The object of the present invention is to provide a kind of applicable life-time service, easy to use, comfortableness better again can to device, the method and system of breathing and sleep characteristics is accurately monitored.

The object of the invention is to be achieved through the following technical solutions:

A kind of breathing and sleep characteristics monitoring object wearing device, comprise and dress carrier, elastic fabric strain transducer, data acquisition and analysis module, and 3-axis acceleration sensor;

Described wearing carrier is for being worn on the upper body of wearer;

Described elastic fabric strain transducer is installed on described wearing carrier, and for monitoring breath signal, it comprises elastic fabric matrix and conductive layer, and described conductive layer is arranged on described elastic fabric matrix; Described fabric strain sensors can be breathed with wearer and produce length variations, to change the electric conductivity of conductive layer;

Described 3-axis acceleration sensor is arranged in described data acquisition and analysis module or is installed on described wearing carrier, and it is for responding to the change of the body posture of wearer;

Described data acquisition and analysis module are connected with described conductive layer and described 3-axis acceleration sensor, for the induced signal of the electric conductivity variable signal and 3-axis acceleration sensor that gather described conductive layer, and analyze.

Optionally, described wearing carrier is banded, and its one end is connected to one end of described fabric strain sensors, and described data acquisition and analysis module are connected to the other end of described fabric strain sensors; And described data acquisition and analysis module are connected with the other end of described wearing carrier is detachable; The two ends of described wearing carrier can link becomes ring-type.

Optionally, described wearing carrier is jacket, and described fabric strain sensors is one or more, its respectively or concentrated setting in the chest of described jacket and/or abdominal region.

A method for supervising for respiration monitoring control object wearing device, it comprises the following steps:

Induction wearer breathes the perimeter change information of chest and/or the abdominal part caused;

Described perimeter change information is converted to the electric conductivity change information of electric conductor;

Gather the electric conductivity change information of described electric conductor.

Preferably, described electric conductor is conductive layer, and the described electric conductivity change information described perimeter change information being converted to electric conductor, specifically comprises: described conductive layer changes electric conductivity with described perimeter change information.

Preferably, after the electric conductivity change information of the described electric conductor of described collection, also comprise: described electric conductivity change information is carried out adding up, analyze and storing.

Preferably, after the electric conductivity change information of the described electric conductor of described collection, also comprise: the concentrated platform by wireless network, described electric conductivity change information being sent to needs.

Or, described described electric conductivity change information is carried out adding up, analyze and storing after, also comprise: by wireless network by described electric conductivity change information and body posture change information, and/or the statistics of carrying out described electric conductivity change information and body posture change information, the result of analysis are sent to the information processing platform of needs.

A monitoring system for respiration monitoring control object wearing device, it comprises:

Induction module, it breathes the perimeter change information of chest and/or the abdominal part caused for responding to wearer;

Electric conductor, it is for being converted to electric conductivity change information by described perimeter change information;

3-axis acceleration sensor, it is for responding to the change information of the body posture of wearer;

Data acquisition and analysis module, it is for the body posture change information of the electric conductivity change information and wearer that gather and analyze described electric conductor.。

Preferably, described electric conductor is conductive layer, can produce the change of electric conductivity with the perimeter change information of described chest and/or abdominal part.

Preferably, described system also comprises memory module, and it is for storing the induction information of described electric conductivity change information and 3-axis acceleration sensor.

Preferably, described system also comprises wireless signal sending module, its for by wireless network by described electric conductivity change information and body posture change information, and/or the statistics of carrying out described electric conductivity change information and body posture change information, the result of analysis are sent to the information processing platform of needs.

Relative to prior art, the present invention has the following advantages:

Respiration monitoring control object wearing device provided by the invention, the upper body of wearer can be worn on, fabric strain sensors is placed in chest or the abdominal part of wearer, due to wearer chest and/regular change can be there is along with breathing in abdomen circumference, cause length and the resistance variations of fabric strain sensors used, thus the frequency of breathing can be monitored, number of times, the depth, and the speed etc. of exhaling and inhaling, and carry out data collection by data acquisition and analysis module, structure is simple, accurately can monitor breathing, and convenient wearing, wearing comfort degree can be improved, be applicable to life-time service.Especially when wearer is in sleep state, can realize breathing and sleep characteristics monitoring simultaneously, do not need instrument and equipment, sense of discomfort can not be brought to wearer, breath state and the sleep characteristics of the whole sleep procedure of wearer can be monitored, there is record to the dormant breathing rule of wearer, sleep characteristics and burst change, thus embody the healthy secret worry of wearer in time, Timeliness coverage problem, to deal with problems.

Accompanying drawing explanation

In order to be illustrated more clearly in technical scheme of the present invention, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the schematic diagram of the respiration monitoring control object wearing device that first embodiment of the invention provides;

Fig. 2 is the data acquisition of respiration monitoring control object wearing device and the decomposing schematic representation of analysis module in Fig. 1;

Fig. 3 is the schematic diagram of data acquisition and analysis module in Fig. 2;

Fig. 4 is the schematic diagram of the respiration monitoring control object wearing device that second embodiment of the invention provides;

Fig. 5 is the data acquisition of respiration monitoring control object wearing device in Fig. 4 and the connection diagram of analysis module and wearing carrier;

Fig. 6 is the schematic diagram of the respiration monitoring control object wearing device that third embodiment of the invention provides;

Fig. 7 is the flow chart of the embodiment of the present invention four.

Detailed description of the invention

Below in conjunction with the accompanying drawing in embodiment of the present invention, the technical scheme in embodiment of the present invention is clearly and completely described.

embodiment one:

Refer to Fig. 1 to Fig. 3, the one that first embodiment of the invention provides is breathed and sleep characteristics monitoring object wearing device 100, comprises and dresses carrier 11, fabric strain sensors 12, data acquisition and analysis module 13,3-axis acceleration sensor.Dress the upper body that carrier 11 can be worn on wearer; Fabric strain sensors 12 is installed on to be dressed on carrier 11, for monitoring breath signal; 3-axis acceleration sensor is for gathering the body posture change information of wearer; Data acquisition and analysis module 13 are electrically connected on fabric strain sensors 12 and described 3-axis acceleration sensor, to gather and analytical data.

In the present embodiment, it is banded for dressing carrier 11, the wearable chest in wearer or abdominal part.The one end of dressing carrier 11 is connected to one end of fabric strain sensors 12, and data acquisition and analysis module 13 are connected to the other end of fabric strain sensors 12; And data acquisition and analysis module 13 are connected with the other end dressing carrier 11 is detachable.Respiration monitoring control object wearing device entirety is banded, when the two ends of respiration monitoring control object wearing device link together, namely when data acquisition and analysis module 13 link together with the other end dressing carrier 11, respiration monitoring control object wearing device in the form of a ring, wearer can be placed on chest or abdominal part, or respectively puts breathing described in one and sleep characteristics monitoring object wearing device at abdominal part and chest.

Fabric strain sensors 12 comprises elastic fabric matrix and conductive layer, and conductive layer is arranged on elastic fabric matrix; Fabric strain sensors 12 can be breathed with wearer and produce length variations, to change the electric conductivity of conductive layer, when the length of fabric strain sensors 12 changes, resistance/the change in voltage of conductive layer can be caused, and this variable signal is passed to data acquisition and analysis module 13 to gather.

Dress carrier 11 to make for elastic fabric.Described elastic fabric matrix can be dress the part of carrier 11, and namely the two one weaving, also can be that described elastic fabric carrier is another elastic fabric, itself and described wearing carrier 11 by sewing, the mode such as bonding is connected.When processing preparation, elastic fabric first can be utilized to prepare and dress carrier 11, conductive layer to be arranged on elastic fabric matrix thus to form fabric strain sensors 12, is connected as one further by this fabric strain sensors 12 with wearing carrier 11.

Conductive layer can be arranged on elastic fabric matrix by modes such as coating, printing, silk screen printing, lamination, bonding coating, foam application, melting coating, filling or extruding.Conductive layer can be made up of conductive particle or conductive fiber.Elastic fabric matrix can have braiding or knitted structure, and it can by natural rubber, and the material such as silicone rubber or polysulfide is made, to make it have good elastic performance.

Data acquisition and analysis module 13 are electrically connected on conductive layer, for gathering the electric conductivity variable signal of conductive layer.As shown in Figure 2 and Figure 3, data acquisition and analysis module 13 comprise housing 131, pcb board 132, processing module (not shown) and battery 133; Pcb board 132, processing module and battery 133 is all arranged in housing 131, and battery 133 is electrically connected on described processing module, and processing module is arranged on pcb board 132, and is electrically connected on described fabric strain sensors 12 by FPC.Utilize housing 131 can form protection to internal component, avoid sweat etc. to cause corrosion etc. to it.Battery 133 can be powered, so that image data to processing module and fabric strain sensors 12.Housing 131 comprises the first half shell 131a and the second half shell 131b, and the first half shell 131a are fixedly connected with the second half shell 131b, and pcb board 132, processing module and battery 133 is arranged between the first half shell 131a and the second half shell 131b, so that assembly connection.

Data acquisition and analysis module 13 comprise memorizer (not shown) further, and memorizer is arranged at pcb board 132, and is electrically connected on processing module, with the data of storage of collected.Herein, as other embodiment, also can not memorizer be set, data acquisition and analysis module 13 also comprise wireless communication module, wireless communication module is electrically connected on processing module, bluetooth can be utilized, smart mobile phone that the data of collection are sent to wearer by the wireless communication mode such as infrared, PDA, flat board, computer or high in the clouds etc., for use in checking subsequently.

Described 3-axis acceleration sensor can be arranged on described pcb board 132, also can be installed on the position be applicable to of dressing carrier 11.

Dress the other end of carrier 11 and be provided with butt hook 110, data acquisition and analysis module 13 are provided with the connecting hole 130 matched with butt hook, utilize coordinating of butt hook 110 and connecting hole 130, can be convenient to the wearing of wearer, convenient to use.More specifically, connecting hole is arranged on the housing 131 of data acquisition and analysis module 13.Certainly, herein as other embodiment, the other end dressing carrier 11 can removably be connected to data acquisition and analysis module 13 by modes such as buckle, elastic buckles, detachable connecting parts.

embodiment two:

As Fig. 4, the one that second embodiment of the invention provides is breathed and sleep characteristics monitoring object wearing device 200, comprises and dresses carrier 21, fabric strain sensors 22, data acquisition and analysis module 23 and 3-axis acceleration sensor.Dress the upper body that carrier 21 can be worn on wearer; Fabric strain sensors 22 is installed on to be dressed on carrier 21, for monitoring breath signal; 3-axis acceleration sensor is for responding to the body posture change information of wearer; Data acquisition and analysis module 23 are electrically connected on fabric strain sensors 22 and 3-axis acceleration sensor, to gather and analytical data.

Fabric strain sensors 22 comprises elastic fabric matrix and conductive layer, and conductive layer is arranged on elastic fabric matrix; Fabric strain sensors 22 can be breathed with wearer and produce length variations, to change the electric conductivity of conductive layer, when the length of fabric strain sensors 22 changes, resistance/the change in voltage of conductive layer can be caused, and this variable signal is passed to data acquisition and analysis module 23 to gather.

Dressing carrier 21 is jacket, and as Fig. 4, in this example, object wearing device can be vest, and fabric strain sensors 22 is arranged on the chest place of jacket.Fabric strain sensors 22 is two, and the left and right sides place of jacket chest is respectively provided with a fabric strain sensors 22, can improve data accuracy by two, left and right fabric strain sensors 22.

Dress carrier 21 to make for elastic fabric, elastic fabric matrix is a part of dressing carrier 21, and fabric strain sensors 22 can be made to be integral type structure with dressing carrier 21.When processing preparation, elastic fabric first can be utilized to prepare and dress carrier 21, conductive layer is arranged on the position, two, left and right of dressing carrier 21 chest, thus forms two fabric strain sensors 22 at the chest place of dressing carrier 21, to simplify structure, be convenient to processing preparation simultaneously.

Data acquisition and analysis module 23 are electrically connected on conductive layer by wire 24, and data acquisition and analysis module 23 are arranged on the bottom place of dressing carrier 21, to avoid impacting wearer activity.Data acquisition and analysis module 23 comprise housing, processing module, pcb board and battery.Pcb board, processing module and battery are all arranged in the housing, and battery is electrically connected on described processing module, and processing module is arranged on pcb board, and are electrically connected on described fabric strain sensors 22 by wire 24.Utilize housing 231 can form protection to internal component, avoid sweat etc. to cause corrosion etc. to it.Battery can be powered, so that image data to processing module and fabric strain sensors 22.The data of data acquisition and analysis module 23 can store on a memory, are also sent on the electronic equipment such as smart mobile phone, PDA, panel computer of wearer by wireless communication module.

Described 3-axis acceleration sensor can be arranged on described pcb board 232, also can be installed on the position be applicable to of dressing carrier 21.

As shown in Figure 5, housing is provided with clip 231, and clip is fixedly connected with the bottom clamping dressing carrier 21, dresses on carrier 21 data acquisition and analysis module 23 to be fixed on, and can take off from wearing carrier 21 easily.

Data acquisition and detachablely between analysis module 23 with wire 24 to be electrically connected, such as, be electrically connected by modes such as grafting, buckle, contact or magnetic attractions, carries out sub data transmission analyse data acquisition and analysis module 23 to be taken off.Wire 24 can by weave or the mode such as sewing is fixed on and dresses on carrier 21.

embodiment three:

As shown in Figure 6, a kind of respiration monitoring control object wearing device 300 that third embodiment of the invention provides, comprises and dresses carrier 31, fabric strain sensors 32,3-axis acceleration sensor and data acquisition and analysis module 33.Dress the upper body that carrier 31 can be worn on wearer; Fabric strain sensors 32 is installed on to be dressed on carrier 31, for monitoring breath signal; 3-axis acceleration sensor is for gathering the body posture change information of wearer; Data acquisition and analysis module 33 are electrically connected on fabric strain sensors 32 and described 3-axis acceleration sensor, to gather and analytical data.

In present embodiment, dressing carrier 31 is jacket, be specially T-shirt, fabric strain sensors 32 is three, wherein two are positioned at two positions about the chest dressing carrier 31, and another fabric strain sensors 32 is mounted to dresses the abdominal region place of carrier 31, and the action of wearer respiratory midriff can be utilized to obtain breath data, other parts of the present embodiment are identical with the second embodiment, do not repeating herein.

In embodiment one to three, it is banded for dressing carrier, vest, T-shirt, it should be noted that, dress carrier and be not limited to above-mentioned embodiment, in other implementations, dress the overcoat that carrier can also be nearly body, or tights etc., as tight underwear, the bra of Ms's dress, or even the diaper of child or old man's dress is (because the waist of diaper is often long, the abdominal part of wearer can be wrapped, thus sense that abdominal part is by breathing the fluctuating caused), as long as can reflect that wearer chest/abdominal part encloses the clothing of long change, can as wearing carrier.And the position of the setting of concrete fabric strain sensors, according to dress carrier concrete shape, wear position and dress be accustomed to and determine.Such as: wearing carrier is bra, fabric strain sensors can be 2 or 4, can be arranged at two cup places of bra respectively, also can all arrange one in the both sides of each cup of bra; And for example, wearing carrier is diaper, and fabric strain sensors is applicable to being arranged at the position that waist top covers abdominal part.

In the above-described embodiment, fabric strain sensors can be arranged on the chest dressing carrier, also all can arrange fabric strain sensors at chest and abdominal part, certainly, as other embodiment, fabric strain sensors also can be arranged on separately the abdominal region dressing carrier.The number of fabric strain sensors is also not limited to above-mentioned embodiment, can arrange multiple fabric strain sensors, being beneficial to and also can arranging two fabric strain sensors at abdominal part to improve monitoring accuracy.

Respiration monitoring control object wearing device provided by the invention, take fabric strain sensors as core parts, be built in different wearing carrier, correctly embodying the dress ornaments such as the chest that produces because of breathing and/or abdominal expansion contraction as belt, vest, T-shirt etc., carrying out monitoring of respiration by straining the electric conductivity changes such as the resistance/change in voltage of the fabric strain sensors caused.Due to wearer chest and/regular change can be there is along with breathing in abdomen circumference, cause length and the resistance variations of fabric strain sensors used, thus the speed etc. the frequency of breathing, number of times, the depth can monitored and exhale and inhale, gained respiratory characteristic signal may be used for different fields, as professional medical, sports, individual loosen.

embodiment four:

The present embodiment provides a kind of method for supervising of respiration monitoring control object wearing device, and as shown in Figure 8, it comprises the following steps:

Induction wearer breathes the perimeter change information of chest and/or the abdominal part caused, and the body posture change information of wearer;

Described perimeter change information is converted to the electric conductivity change information of electric conductor: preferably, described electric conductor is conductive layer, described conductive layer with described chest and/or abdominal part perimeter change and there is deformation, thus change its electric conductivity;

Gather and analyze the electric conductivity change information of described electric conductor and the body posture change information of wearer: the object of monitoring is the data information of the long breathing situation in order to collect wearer, thus be used for the treatment of or keep healthy, therefore, need limit monitoring, induction, limit image data, finally form data pool.

Preferably, after the electric conductivity change information of the described electric conductor of described collection, also comprise: described electric conductivity change information is stored.The object of such design is: the data not only collecting all breathing situations, and to these data analysis, thus obtain variation tendency, the direction of the breathing situation of wearer, the health status of wearer can be shown effectively, intuitively, be convenient to carry out timely wearer, treat accurately or give its care plans.

Preferably, after the electric conductivity change information of the described electric conductor of described collection, can also comprise: by wireless network by described electric conductivity change information and body posture change information, and/or the statistics of carrying out described electric conductivity change information and body posture change information, the result of analysis are sent to the information processing platform of needs.The described information processing platform can be the server of hospital, also can be the computer of family, can also be the server at community health center.The object of such design is, makes operator or the supervisor of the described information processing platform, can recognize the breath state of each wearer in real time, is more convenient to monitoring, is convenient to propose counte-rplan.

embodiment five:

The present embodiment provides a kind of monitoring system of the respiration monitoring control object wearing device for realizing the method described in embodiment four, and it comprises:

Induction module, it breathes the perimeter change information of chest and/or the abdominal part caused for responding to wearer;

Electric conductor, it is for being converted to electric conductivity change information by described perimeter change information: preferably, and described electric conductor is conductive layer, described conductive layer with described chest and/or abdominal part perimeter change and there is deformation, thus change its electric conductivity;

3-axis acceleration sensor, it is for responding to the change information of the body posture of wearer;

Data acquisition and analysis module, it is for the body posture change information of the electric conductivity change information and wearer that gather and analyze described electric conductor.

Preferably, described system also comprises memory module, and it is for storing described electric conductivity change information.

Preferably, described system also comprises wireless signal sending module, its for by wireless network by described electric conductivity change information and body posture change information, and/or the statistics of carrying out described electric conductivity change information and body posture change information, the result of analysis are sent to the information processing platform of needs.

Be more than the preferred embodiment of the present invention, it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention, can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (10)

1. breathe and a sleep characteristics monitoring object wearing device, it is characterized in that:

Comprise and dress carrier, elastic fabric strain transducer, data acquisition and analysis module and 3-axis acceleration sensor;

Described wearing carrier is for being worn on the upper body of wearer;

Described fabric strain sensors is installed on described wearing carrier, and for monitoring breath signal, it comprises elastic fabric matrix and conductive layer, and described conductive layer is arranged on described elastic fabric matrix; Described fabric strain sensors can be breathed with wearer and produce length variations, to change the electric conductivity of conductive layer;

Described 3-axis acceleration sensor is arranged in described data acquisition and analysis module or is installed on described wearing carrier, for gathering the body posture change information of wearer;

Described data acquisition and analysis module are connected with described conductive layer and described 3-axis acceleration sensor, for the body posture change information of the electric conductivity variable signal and wearer that gather and analyze described conductive layer.

2. device according to claim 1, is characterized in that: described wearing carrier is for banded, and its one end is connected to one end of described fabric strain sensors, and described data acquisition and analysis module are connected to the other end of described fabric strain sensors; And described data acquisition and analysis module are connected with the other end of described wearing carrier is detachable; The two ends of described wearing carrier can link becomes ring-type.

3. device according to claim 1, is characterized in that: described wearing carrier is jacket, and described fabric strain sensors is one or more, its respectively or concentrated setting in the chest of described jacket and/or abdominal region.

4. breathe and sleep and also just monitoring a method for supervising for object wearing device, it is characterized in that: it comprises the following steps:

Induction wearer breathes the perimeter change information of chest and/or the abdominal part caused, and the body posture change information of wearer;

Described perimeter change information is converted to the electric conductivity change information of electric conductor;

Gather and analyze the electric conductivity change information of described electric conductor and the body posture change information of wearer.

5. method according to claim 4, it is characterized in that: described electric conductor is conductive layer, the described electric conductivity change information described perimeter change information being converted to electric conductor, specifically comprises: described conductive layer changes electric conductivity with described perimeter change information.

6. method according to claim 4, is characterized in that: described collection and after analyzing the electric conductivity change information of described electric conductor and the body posture change information of wearer, also comprises: stored by described electric conductivity change information.

7. method according to claim 4, is characterized in that: after the electric conductivity change information of the described electric conductor of described collection, also comprise: the information processing platform by wireless network, described electric conductivity change information being sent to needs.

8. a monitoring system for breathing and sleep characteristics monitoring object wearing device, is characterized in that: it comprises:

Induction module, it breathes the perimeter change information of chest and/or the abdominal part caused for responding to wearer;

Electric conductor, it is for being converted to electric conductivity change information by described perimeter change information;

3-axis acceleration sensor, it is for responding to the change information of the body posture of wearer;

Data acquisition and analysis module, it is for the body posture change information of the electric conductivity change information and wearer that gather and analyze described electric conductor.

9. system according to claim 8, is characterized in that: described electric conductor is the conductive layer be coated on elastic fabric, can produce the change of electric conductivity with the perimeter change information of described chest and/or abdominal part.

10. system according to claim 8, is characterized in that: described system also comprises memory module, and it is for storing the induction information of described electric conductivity change information and 3-axis acceleration sensor; Or, described system also comprises wireless signal sending module simultaneously, its for by wireless network by described electric conductivity change information and body posture change information, and/or the statistics of carrying out described electric conductivity change information and body posture change information, the result of analysis are sent to the information processing platform of needs.