KR20130100815A - Apparatus of controlling animal biometric information - Google Patents

Abstract

PURPOSE: An animal bio-information controller is provided to execute a corresponding event by determining states of an animal. CONSTITUTION: An animal bio-information controller comprises a blood sugar measuring unit (110), a calories measuring unit (120), a bio-information determination unit (130), a feeding controller (140), a feeding container (141), an electromyogram (EMG) measuring unit (150), a defecation environment controller (160), a defecation stand(161), and a house (101).

Description

Animal bioinformation control device {APPARATUS OF CONTROLLING ANIMAL BIOMETRIC INFORMATION}

The present invention relates to an apparatus for controlling animal bioinformation, and more particularly, by determining an animal's appetite state, bowel movement state, and health state by measuring blood sugar, calorie consumption, and muscle muscle electromyography waveform of an animal. The present invention relates to an animal biological information control apparatus for performing an event.

Ubiquitous technology can be applied to all areas of human life. In particular, because of the well-being phenomenon, ubiquitous health care (U-HealthCare) has been in the spotlight as a noteworthy technology field. Ubiquitous healthcare refers to ubiquitous technology that enables people to receive medical care anytime, anywhere by installing medical services and related tube chips or sensors throughout the human living space. According to the ubiquitous health care, it is possible to process medical activities that were performed only in the hospital, such as various medical examinations, disease management, emergency management, and meeting with doctors, without going to the hospital.

For example, a diabetic patient may wear a blood sugar management belt equipped with a blood sugar management program. The blood glucose sensor attached to the belt may check the blood sugar of the diabetic patient from time to time and calculate an appropriate amount of insulin. If the blood sugar level of the diabetic patient is rapidly lowered or increased, the blood sugar information may be provided to the attending physician through a wireless communication network, and the attending physician who receives the blood sugar information may take the optimal prescription or measure according to the emergency. have.

As an example of such ubiquitous health care, a portable biosignal measuring apparatus for measuring a biosignal of a user through an optical sensor is commercially used and widely used. Such a portable biosignal measuring apparatus can be said to be a device which can highlight the advantages of ubiquitous health care as a user can always carry it and measure various biosignals in advance to prepare for an emergency situation.

As such, the ubiquitous healthcare industry has been developed and commercialized day by day based on human life. However, this is only intended for humans, it does not apply to pets such as dogs. Recently, as part of u-healthcare, technologies such as judging the emotional state of an animal through the sound of an animal and feeding or walking the animal accordingly are being developed. However, this is only the sound of the animal to determine the emotion or desire of the animal has the disadvantage that it is virtually difficult to detect the exact information about the animal.

Like humans, the emotional state of animals can affect their autonomic nervous system (consisting of sympathetic and parasympathetic). Accordingly, there is a demand for the development of a technology that can detect various bio-signals of animals and thereby more accurately determine the emotions or desires of animals and provide events accordingly.

The present invention has been made to improve the prior art as described above, by measuring the blood sugar, calorie consumption, and muscle muscle electromyography waveform of the animal to determine the appetite state, bowel movement state, health state corresponding to An object of the present invention is to provide an animal bioinformation control device that performs an event.

In order to achieve the above object and solve the problems of the prior art, the animal biological information control apparatus according to an embodiment of the present invention, blood sugar measuring means for measuring the blood sugar of the animal; Calorie measuring means for measuring calorie consumption of the animal; And biometric information determination means for determining biometric information of the animal through at least one of the measured blood sugar and calorie consumption.

In addition, the blood sugar measuring means of the animal biological information control apparatus according to an embodiment of the present invention, a strap-shaped strap (strap) attached to the leg of the animal; A light irradiation unit installed on a first inner surface of the strap and irradiating infrared rays to the legs of the animal; A light receiver configured to be installed on a second inner surface facing the first inner surface when the strap is attached to the leg of the animal, and to receive light transmitted from the infrared irradiation unit and transmitted through the leg of the animal; And a blood sugar calculating unit calculating a glucose concentration in the blood in the animal leg through the received amount of light.

In addition, the calorie measuring means of the animal biological information control apparatus according to an embodiment of the present invention, the acceleration sensor unit is attached to the animal and outputs an acceleration signal according to the movement of the animal; A slope setting unit configured to set a slope value corresponding to the activity pattern of the animal through the acceleration signal; A heart rate sensor unit attached to the animal and measuring a heart rate of the animal; And a calorie consumption calculator configured to calculate the calorie consumption of the animal by multiplying the set slope value by a value obtained by subtracting the animal's normal heart rate from the measured heart rate, and then adding the animal's usual calorie consumption.

In addition, the animal information determining means of the animal biometric information control apparatus according to an embodiment of the present invention, if the blood sugar value measured for the animal falls within a threshold range selected based on the lowest blood sugar value in a steady state, the animal The appetite of the state is characterized by judging the feeling of hunger.

In addition, the biometric information determining means of the animal biometric information control device according to an embodiment of the present invention, if the accumulated calorie consumption continuously measured after the first time the food is supplied to the animal is more than a predetermined value, Appetite is characterized in that it is determined to be a state of hunger.

In addition, the biometric information determining means of the animal biometric information control apparatus according to an embodiment of the present invention belongs to a threshold range in which the blood sugar value measured for the animal is selected based on the lowest blood sugar value in a steady state, and the animal If the cumulative calorie consumption continuously measured after the first time the food is supplied to the predetermined value or more, it is characterized in that the appetite state of the animal is determined to be hungry.

In addition, the biological information determining means of the animal bio information control device according to an embodiment of the present invention, the blood sugar value measured for the animal is less than the minimum blood sugar value of the normal state or exceeds the maximum blood sugar value of the normal state, When the cumulative calorie consumption continuously measured after the first time point to feed the animal is less than the selected threshold value, characterized in that it is determined that the blood glucose system of the animal is in an abnormal state.

In addition, the animal biometric information control device according to an embodiment of the present invention, when the biological information determining means determines that the animal feels hungry, food supply control means for controlling the supply of food to the animal It includes more.

In addition, the animal biometric information control apparatus according to an embodiment of the present invention, EMG measuring means for measuring the EMG waveform of the muscles near the anus of the animal and transmits to the biometric information determination means; And when the bio-information determining means determines that the animal is in a state of feeling the bowel movement through the EMG waveform analysis, and further comprising a control means for controlling the conversion of the composition of the transformation mirror for the animal.

According to the animal bioinformation control device of the present invention, by detecting the animal's appetite state more accurately through biosignal analysis such as blood sugar or calorie consumption of the animal, it is possible to efficiently and efficiently supply food to the animal. You can get it.

In addition, according to the animal bioinformation control apparatus of the present invention, it is possible to obtain an effect that can more accurately detect the bowel movement state of the animal through the biosignal analysis, such as the EMG waveform of the anal muscle of the animal to form a transforming mirror.

In addition, according to the animal bioinformation control device of the present invention, by automatically controlling the food supply and embryo transformation and consistency for the animal based on the animal's biological signal, even if humans do not care directly for the animal to create an optimal living environment for the animal The effect can be obtained.

1 is a view showing an example of a dog house including an animal bio information control device according to an embodiment of the present invention.
2 is a view showing blood sugar measuring means of the animal bio information control device according to an embodiment of the present invention.
Figure 3 is a block diagram showing the configuration of a calorie measuring means according to an embodiment of the present invention.
4 is a graph showing a correlation between calorie consumption and heart rate according to an embodiment of the present invention.
5 is a graph showing the EMG waveform of the animal anal muscle according to an embodiment of the present invention.

The apparatus for controlling animal bioinformation according to the present invention includes biological information obtaining means for acquiring biometric information of an animal, animal state determining means for determining an emotional state or a desire state of the animal based on the obtained biometric information, and the determined animal state. It may be implemented to include an event control means for controlling the performance of a predetermined event corresponding to the. The animal bio information control device may be implemented in various forms. For example, the biometric information acquiring means, the animal state determining means, and the event control means may be embodied as some components of the house where the animal resides. In addition, the biometric information acquisition means may be implemented in the form of clothing worn by the animal, the animal state determination means and the event control means may be implemented in the form of a manager terminal, such as a PC, laptop, smartphone of the animal manager.

As described above, each component of the apparatus for controlling animal biological information according to the present invention may be implemented in various forms according to the judgment of those skilled in the art. However, in the present specification, for convenience of description, as shown in FIG. 1, the animal biometric information control apparatus is implemented as a part of a pet dog house, and the example will be described to control the performance of the event according to the biometric information of the pet dog. However, it will be apparent to those skilled in the art that the configuration of the present invention is not limited to these examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an example of a dog house including an animal bio information control device according to an embodiment of the present invention.

Animal biological information control apparatus according to an embodiment of the present invention, blood sugar measuring means 110, calorie measuring means 120, biometric information determining means 130, food supply control means 140, food supply container 141 ), The EMG measuring means 150, the displacement mirror control means 160, the bowel movement 161, and the house 101. Blood sugar measuring means 110 measures the blood sugar of the animal. Blood sugar measuring means 110 according to an embodiment of the present invention can measure the blood sugar of the animal through a non-invasive method. This will be described in detail with reference to FIG. 2.

2 is a view showing blood sugar measuring means of the animal bio information control device according to an embodiment of the present invention.

Blood sugar measuring means 110 according to an embodiment of the present invention may be implemented in a non-invasive manner. The blood sugar measuring unit 110 includes a strap 210, a light irradiation unit 220, a light receiving unit 230, and a blood sugar calculating unit 240.

Strap 210 is implemented in the form of a band can be worn on the animal's leg. The light irradiation part 220 may be installed on the first inner surface of the strap 210. The light irradiator 220 irradiates infrared rays to the legs of the animal. The light irradiator 220 may irradiate light that is continuously finely divided near infrared light having a wavelength range of 0.8-2.5 μm emitted from the laser diode.

The medium of the acoustooptic variable vibration filter consists of birefringent crystal spectroscopy. In the acoustooptic variable vibration filter, when the acoustic vibration is applied to the birefringent crystal, a periodic density change occurs, and a change in the refractive index according to the density change propagates wavewise in the acoustic vibration direction. Therefore, when light is incident thereon, some rays are reflected according to the refractive index of each wavefront. Differences in the length of each stroke occur and are designed to output near infrared light. The birefringent crystal spectral material is not particularly limited and can be selected arbitrarily. For the measurement of blood glucose, a birefringent crystal spectral material capable of outputting finely divided irradiation light having a wavelength range of 0.8 to 2.5 μm may be selected. For example, tellurium dioxide (TeO 2), lithium niobate (LiNbO 3), lithium thalliumate (LiTaO 3), gallium phosphide (GaP), lead molybdate (PbMoO 4), germanium (Ge), indium phosphide (InP), selenium Arsenic thallium (Ti3 AsSe3), quartz glass (SiO 2), calcite (CaCO 3), water (H 2 O), and the like, and the like. It is preferable to control, and tellurium dioxide is especially preferable.

By absorbing near-infrared light obtained by using such a birefringent crystal spectroscopic material, an absorbance spectrum effective for calculating the concentration of glucose can be formed. The preferred acoustooptic variable wavelength filter used to measure the blood glucose level of the present invention may be implemented, for example, by an ultrasonic optical tunable filter (AOTF) described in US Pat. No. 5,120,961 and Japanese Patent Publication No. 10-512678. .

The light obtained by continuously dividing the near infrared light wavelength in the wavelength range of 0.8 to 2.5 μm irradiated to the object to be measured is a fine spectral having a resolution of 0.001 μm or less, and may be implemented to have a wavelength resolution of 1 nm or less. By using the finely divided light as the irradiation light, multi-point measurement is possible, and it is possible to capture various blood glucoses, which exist as several modified bodies due to the binding form of protein and glucose, and each of which causes absorption by different wavelengths. .

The light receiver 230 is installed on a second inner surface facing the first inner surface. The light receiver 230 receives light transmitted from the light emitter 220 and transmitted through the leg of the animal. The light receiver 230 outputs a detection signal having an absorbance spectrum by a photoelectric conversion process. For example, the light receiving unit 230 may be used as a polycrystalline film on a ceramic substrate. It is preferable to employ | adopt the thing of the material which can collect the said transmitted light efficiently as a light receiving material, For example, Pbs, In-Ga-As, etc. can be used.

The blood sugar calculator 240 calculates a glucose concentration in the blood in the animal leg through the received light amount. The blood sugar calculator 240 may analyze and calculate an absorbance spectrum and convert the glucose into a glucose concentration. The blood sugar calculator 240 may include an operation electronic circuit and an analysis electronic circuit. The blood sugar calculating unit 240 may obtain a measurement result of blood glucose concentration from the corresponding by contrasting and contrasting the spectrum data according to the blood glucose concentration contained therein through the selected blood spectrum data.

In addition, the blood sugar calculation unit 240 may include a wired or wireless communication module, it may transmit the blood sugar information of the animal measured by the biometric information determination means.

Referring back to FIG. 1, the calorie measuring unit 120 measures calorie consumption of the animal. The calorie measuring unit 120 may calculate the calorie consumption by measuring the heart rate of the animal, which will be described in detail with reference to FIGS. 3 and 4.

Figure 3 is a block diagram showing the configuration of a calorie measuring means according to an embodiment of the present invention. 4 is a graph showing a correlation between calorie consumption and heart rate according to an embodiment of the present invention.

Calorie measuring means 300 according to an embodiment of the present invention is the acceleration sensor 310, heart rate sensor 320, tilt setting unit 330, calorie consumption calculation unit 340, and communication module 350 It includes.

The acceleration sensor unit 310 is attached to the animal and outputs an acceleration signal according to the movement of the animal. The acceleration sensor unit 310 may include an accelerometer, a fluxgate sensor, and a gyroscope. The accelerometer may generate an acceleration signal with respect to vibration in three directions (X, Y, Z) according to a user's movement. In addition, the acceleration sensor unit 310 may further generate an external acceleration signal such as gravity.

Heart rate sensor unit 320 is attached to the animal to measure the heart rate of the animal. In order to measure the heart rate, the heart rate sensor unit 320 may include one or more piezoelectric sensors or photoelectric sensors that may be generally used in the heart rate measurement field.

The slope setting unit 330 sets a slope value corresponding to the activity pattern of the animal through the acceleration signal. In order to explain the setting of the slope value, an understanding of the principle of calorie consumption calculation method according to the relationship between heart rate and calorie consumption should be preceded first.

Animal heart rate and calorie consumption are proportional to each other. As the intensity of the exercise increases, the heart rate increases and thus the calories consumed increases. Therefore, the heart rate and calorie consumption can be displayed to have a linear relationship on the graph. However, this may be applicable only when the animal performs the exercise, and in normal times when the user does not exercise, the relationship between the heart rate and calorie consumption may be defined according to the physical characteristics of each user.

In addition, since the rate of increase in heart rate varies according to the type of exercise, the type of exercise may be one variable in the calorie consumption calculation. As shown in Figure 4, even if they have the same normal heart rate, it is obvious that the exercise performed by the animal is higher in calorie consumption than in the case of walking. This can act as a variable.

According to this principle, the calorie consumption calculator 340 multiplies the set slope value by the value obtained by subtracting the normal heart rate of the animal from the measured heart rate, and then adds the calorie consumption of the animal to the calorie consumption of the animal. Can be calculated. That is, the normal heart rate and the usual calorie consumption can be measured first, the heart rate of the animal at the time to measure the calorie consumption can be measured, and the calorie consumption can be calculated by setting the slope value according to the exercise state of the animal. The calorie consumption measured by the calorie consumption calculator 340 may be transmitted to the biometric information determining unit 130 through the communication module 350.

Referring back to FIG. 1, the biometric information determining unit 130 determines the biometric information of the animal through at least one of the measured blood sugar and calorie consumption. The biological information determining unit 130 may determine that the animal's appetite is hungry when the blood glucose value measured for the animal falls within a threshold range selected based on the lowest blood sugar value in the normal state. .

In addition, the biometric information determining means 130 may determine that the appetite state of the animal is hungry when the calorie cumulative consumption continuously measured after the first time of feeding the animal is equal to or greater than a predetermined value. have. In addition, the biological information determining means 130 is a blood glucose value measured for the animal belongs to the threshold range selected on the basis of the lowest blood sugar value in a steady state, and continues to measure after the first time the food is supplied to the animal When the accumulated calorie consumption is more than the selected value, it can be determined that the appetite state of the animal is a state of hunger.

In addition, the biological information determining means 130 is a blood sugar value measured for the animal is less than the minimum blood sugar value in the normal state or exceeds the maximum blood sugar value in the normal state, and continues after the first time point to feed the animal When the measured calorie consumption is less than the predetermined threshold value, it may be determined that the blood glucose system of the animal is in an abnormal state.

The food supply control unit 140 may control the supply of food to the animal when the biological information determining unit 130 determines that the animal feels hungry. The food supply control unit 140 may control the amount of food in response to the degree of hunger of the animal (for example, steps 1 to 5) determined by the biometric information determining unit 130. The food supply control unit 140 may control the food supply by controlling the movement of the food supply container 141.

The EMG measuring means 150 measures the EMG waveform of the muscles near the anus of the animal and transmits the EMG waveform to the biological information determining means. To determine the animal's need for bowel movements, an electrode for measuring electromyography is attached to the muscle near the anus, and the magnitude of the electromyography is compared with the usual state to determine whether the muscle is strained to resist defecation. You can detect if there is a reference. It can be determined that the bowel movement occurs after a certain period of rest after the systolic period, the current state of the animal can be known through the waveform of the EMG of the muscles near the excretory organ of the animal.

As shown in FIG. 5, the basal electrical activity is seen at rest of the animal, and the electrical activity increases when the anal sphincter is contracted to withstand stools. As with bowel movements, applying force (fecal tension) relaxes the anal sphincter and reduces electrical activity. The magnitude of EMG can be easily obtained by one of ordinary skill in the art by an envelope detection method consisting of zero-clipping and smoothing processes.

When the bowel movement control means 160 determines that the animal feels a bowel movement through the analysis of the EMG waveform through the movement control of the bowel movement container 161, The composition of the double conversion mirror can be controlled.

The animal biometric information control method of the animal biometric information control apparatus according to the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, or the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

101: house
110: blood glucose measurement means
120: calorie measuring means
130: biological information determining means
140: food supply control means
141: feeding container
150: EMG measuring means
160: double conversion mirror control means
161: bowel pain

Claims (9)

Blood sugar measuring means for measuring blood sugar of an animal;
Calorie measuring means for measuring calorie consumption of the animal; And
Biometric information determination means for determining biometric information of the animal through at least one of the measured blood sugar and calorie consumption
Animal bio information control device comprising a. The method of claim 1,
The blood sugar measuring means,
A strap shaped strap attached to the leg of the animal;
A light irradiation unit installed on a first inner surface of the strap and irradiating infrared rays to the legs of the animal;
A light receiver configured to be installed on a second inner surface facing the first inner surface when the strap is attached to the leg of the animal and to receive light transmitted from the light irradiating portion and transmitted through the leg of the animal; And
Blood sugar calculation unit for calculating the concentration of glucose in the blood in the animal leg through the received light amount
Animal bio information control device comprising a. The method of claim 1,
The calorie measuring means,
An acceleration sensor unit attached to the animal and outputting an acceleration signal according to the movement of the animal;
A slope setting unit configured to set a slope value corresponding to the activity pattern of the animal through the acceleration signal;
A heart rate sensor unit attached to the animal and measuring a heart rate of the animal; And
A calorie consumption calculator for calculating the calorie consumption of the animal by multiplying the set slope value by the value obtained by subtracting the animal's normal heart rate from the measured heart rate, and then adding the animal's usual calorie consumption
Animal bio information control device comprising a. The method of claim 1,
The biological information determining means determines that the animal's appetite is hungry when the blood glucose value measured for the animal falls within a threshold range selected based on the lowest blood sugar value in a normal state. Animal biological information control device. The method of claim 1,
The animal information determining means determines that the appetite state of the animal is a state of hunger if the cumulative calorie consumption continuously measured after the first time point of feeding the animal is equal to or greater than a predetermined value. Biological information control device. The method of claim 1,
The bioinformation determining means includes a cumulative consumption amount of calories measured after the first time point at which the blood sugar value measured for the animal falls within a threshold range selected on the basis of the lowest blood sugar value in a normal state and is fed to the animal. When the animal is greater than or equal to the predetermined value, the animal bioinformation control device according to claim 1, wherein the animal's appetite state is determined to be hungry. The method of claim 1,
The bioinformation determining means accumulates calories measured continuously after the first time point at which the blood glucose value measured for the animal is less than the minimum blood sugar value in the normal state or exceeds the maximum blood sugar value in the normal state and the animal is fed food. And when the consumption amount is less than a predetermined threshold value, determining that the blood glucose system of the animal is in an abnormal state. The method of claim 1,
Food supply control means for controlling the supply of food to the animal when the biological information determining means determines that the animal feels hungry
Animal bio information control device further comprising. The method of claim 1,
EMG measuring means for measuring the EMG waveform of the muscles near the anal muscle of the animal and transmits to the biological information determination means; And
When the bio-information determining means determines that the animal is in a state of feeling the bowel movement through the analysis of the EMG waveform, the transformation pathoscope control means for controlling the composition of the transforming mirror for the animal
Animal bio information control device further comprising.

Images