KR20160138662A - smart USN wearable appratus for multi sensor customizing of plug and play - Google Patents

Abstract

The present invention relates to a ubiquitous sensor network wearable device for plug-and-play type multi-sensor customization, and more particularly to a ubiquitous sensor network wearable device for plug-and-play type multi-sensor customization, capable of utilizing sensors having desired functions only if a user inserts the sensors into a base station, thereby easily realizing device scalability as sensors, such as an environmental sensor and a bio-sensor, having functions required by a user are combined and integrated. According to the present invention, power and networks of sensors having mutually different functions are standardized, the development of useful platforms, and individual sensors are packaged and utilized at a proper place. Therefore, a user who is significantly interested in home environment manages the home environment using desired functions related to illuminance, CO_2, gas, temperature, or humidity, and a user who is interested in healthy care couples a bio-sensor (pulse, or the like) to an environmental sensor (dust, CO_2) so that the user can utilize sensors having desired functions. Accordingly, an individual can freely and easily mount or remove the sensors having the desired functions.

Description

[0001] The present invention relates to a smart ubiquitous sensor network wearable device capable of customizing a plug-and-play type multi-sensor,

The present invention relates to a smart ubiquitous sensor network wearable device capable of plug-and-play type multi-sensor customization, and more particularly, to a smart ubiquitous sensor network wearable device capable of customizing a plug- The present invention relates to a smart ubiquitous sensor network wearable device capable of customizing a plug-and-play type multi-sensor capable of utilizing a sensor having a desired function by simply inserting a sensor into the base station.

Currently, environmental sensors and biosensor platforms are manufactured separately for each product, and the function is to perform only the application function for one kind of sensor.

Therefore, when the user desires to sense other factors other than the basic function, it is necessary to separately purchase or re-purchase the sensor.

MEMS-based acceleration, gyro sensor, etc. are manufactured faithfully to the original function, and it is difficult to use the biosensor when it is desired to use biosensors in addition to environmental sensors and health care in future.

With the recent development of MEMS technology, sensor miniaturization is progressing, and various application programs are being developed through smart devices equipped with ultra-small sensors.

Typical examples are MEMS type acceleration sensors and the like, and they are used in various applications such as theft prevention, health care, and device control.

As a result of such low power consumption and miniaturization of sensors, various expectations of living environment are being measured to increase the quality of life. In reality, products equipped with sensors are manufactured faithfully only with functions using inherent sensors, If there is a part, the sensing must be performed through separate purchase, which is inconvenient in terms of scalability and convenience.

That is, the present wearable device has a problem that it is not easy to add or remove a sensor having a function other than the sensor mounted on the base.

KR 10-2014-0062892 A

The present invention has been made in order to solve such a problem. Basically, in addition to the sensors mounted on the wearable device, the user can easily install the sensors by adding necessary sensors. The present invention provides a smart ubiquitous sensor network wearable device capable of customizing a plug-and-play type multi-sensor that can be used.

According to an aspect of the present invention, there is provided a smart ubiquitous sensor network wearable device capable of customizing a multi-sensor plug-and-play type according to the present invention. The smart ubiquitous sensor network wearable device includes a plurality of multi- A sensor, a multi-sensor recognition unit for recognizing the plurality of multi-sensors performing the different sensing functions in a plug-and-plug manner, a communication network for multi-sensors recognized by the multi-sensor recognition unit, A multisensor integrated platform for managing power supply to the multisensor, and a display for displaying a communication network status with the multisensor controlled by the multisensor integrated platform and a power supply management status of the multisensor in real time .

According to the present invention, it is possible to provide a plug-and-play type wearable device that can be utilized in a proper place by developing a platform capable of using power and network of sensors having different functions and packaging individual sensors, (Eg, pulse waves) and environmental sensors (dust, co2, etc.) are used for users who are interested in healthcare, while users who are interested in healthcare manage the home environment by using desired functions such as illumination, co2, gas, It is possible to freely and easily mount and remove the sensor of the function desired by the user.

In addition, the multi-sensor customizing wearable device of the present invention has an advantage that a user can select and use a sensor having a desired function.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a configuration of a Smart Ubiquitous Sensor Network (USN) wearable device capable of customizing a plug-and-play type multi-sensor according to an embodiment of the present invention.
Fig. 2 is a diagram showing the configuration of a multi-sensor integrated platform in Fig. 1; Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a diagram showing a configuration of a Smart Ubiquitous Sensor Network (USN) wearable device capable of customizing a plug-and-play type multi-sensor according to an embodiment of the present invention.

As shown in the figure, the Smart Ubiquitous Sensor Network (USN) wearable device according to the present invention is a plug-and-play type multi-sensor customizable capable of largely including a plurality of multi-sensors 10, a multi-sensor recognition unit 20, A platform 30, and a display 40.

A plurality of multi-sensors 10 perform different sensing functions and operate in a plug-and-play manner.

The multi-sensor recognition unit 20 recognizes a plurality of multi-sensors 10 performing different sensing functions in a plug-and-plug manner.

The multisensor integrated platform 30 manages the communication network with the multisensor 10 recognized by the multisensor recognition unit 20 in a plug-and-play manner and the power supply to the multisensor 10.

The display 40 displays the state of the communication network with the multisensor 10 controlled by the multisensor integrated platform 30 and the power supply management status of the multisensor 10 in real time.

FIG. 2 is a view showing a configuration of a multi-sensor integrated platform in FIG.

The multisensor integrated platform of the present invention includes a multisensor communication network integrated management unit 31, a multisensor power management unit 32, a multisensor integrated control unit 33, a multisensor mode setting unit 34, And a smart device interlocking unit 35. [

The multisensor communication network integrated management unit 31 integrally manages a communication network for performing communication with the multisensor 10 recognized through the multisensor recognition unit 20.

The multi-sensor communication network integrated management unit 31 configures an integrated network by using any one of 12C communication, SPI communication, and Bluetooth communication with the multi-sensor 10.

The multi-sensor power management unit 32 manages the supply of power to the multi-sensors 10 recognized by the multi-sensor recognition unit 20.

The multisensor integrated control unit 33 sets the sensing environment of the multisensor 10 recognized by the multisensor recognition unit 20 and receives the signals sensed and transmitted by the multisensor 20, 10).

The multi-sensor mode setting unit 34 sets the specific mode requested according to the signal input by the user, and provides sensing information sensed by the multi-sensor operated in the set mode.

The multi-sensor mode setting unit 34 sets one of a health management mode, a harmful environment mode, an interlayer noise measurement mode, a security mode, and a motion mode according to a signal input by the user. That is, as described below, a synergy effect can be expected by interlocking the sensors according to the user for each user, and the programming suitable for the basic purpose can be changed according to the user's convenience.

The multi-sensor mode setting unit 34 provides the environment information detected by the acceleration sensor, the gyro sensor, and the sensor for measuring the carbon dioxide (CO2), dust, temperature, humidity, pulse wave and electrocardiogram in the health management mode.

The multi-sensor mode setting unit 34 detects the multi-sensor mode set by the interlocking of sensors for measuring gas, volatile organic compounds (VOCS), nitrogen dioxide (NO2), carbon dioxide (CO2), pulse waves, radioactivity, temperature, humidity, Provide harmful environment information.

The multi-sensor mode setting unit 34 provides the inter-layer noise information detected by the interlocking of the acceleration sensor and the acoustic sensor in the inter-layer noise measurement mode.

The multi-sensor mode setting unit 34 provides a user authentication system such as payment and door lock by linking all the authentication means available in the platform such as a pulse wave sensor, a near field wireless communication module (NFC), a human body communication,

The multi-sensor mode setting unit 34 provides motion capture information and exercise amount information sensed by interlocking of a gyro sensor, an acceleration sensor, a pulse wave, and a sensor for measuring carbon dioxide (CO2) in a motion mode.

The smart device interlocking unit 35 interlocks with the smart device 50 via the communication network and transmits sensing information sensed by the multi-sensor operated in the mode set by the multi-sensor mode setting unit 34 to the smart device 50 to provide.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

10: Multi-sensor
20: Multi-sensor recognition unit
30: Multi-sensor integrated platform
31: Multi-sensor communication network integrated management department
32: Multi-sensor power management unit
33: Multi-sensor integrated control unit
34: Multi-sensor mode setting section
35: Smart device interworking part
40: Display
50: Smart devices

Claims (5)

As a smart ubiquitous sensor network wearable device capable of plug-and-play multi-sensor customization,
A plurality of multi-sensors that perform different sensing functions and operate in a plug-and-play manner;
A multi-sensor recognition unit for recognizing a plurality of multi-sensors which perform the different sensing functions, respectively, in a plug-and-plug manner;
A multisensor integrated platform for managing a power supply to the multisensor and a communication network with the multisensor recognized by the multisensor recognition unit in a plug-and-play manner; And
And a display for displaying in real time a communication network state with the multisensor controlled by the multisensor integrated platform and a power supply management state of the multisensor, and a smart ubiquitous sensor network Wearable device.
The method according to claim 1,
The multi-sensor integrated platform includes:
A multi-sensor communication network integrated management unit for integrally managing a communication network for performing communication with the multi-sensors recognized by the multi-sensor recognition unit;
A multi-sensor power management unit for managing power supply to the multi-sensors recognized by the multi-sensor recognition unit;
A multisensor integrated controller for setting a sensing environment of the multisensor recognized by the multisensor recognition unit and receiving signals transmitted and sensed by the multisensor, respectively, to integrally control the multisensor;
A multi-sensor mode setting unit for setting a specific mode requested according to a signal input by a user and providing sensing information sensed by a multi-sensor operated in a set mode; And
And a smart device interfacing part interfacing with the smart device through a communication network and providing the sensing information sensed by the multi-sensor operated in the mode set by the multi-sensor mode setting part to the smart device. Smart ubiquitous sensor network wearable device capable of customizable multi - sensor type of play.
The method of claim 2,
Wherein the multi-sensor communication network integrated management unit configures an integrated network using any one of 12C communication, SPI communication, and Bluetooth communication with the multi-sensor. The multi-sensor communication network integrated management unit includes a smart ubiquitous sensor Network wearable device.
The method of claim 2,
Wherein the multi-sensor mode setting unit sets one of a health management mode, a harmful environment mode, an interlayer noise measurement mode, a security mode, and a motion mode according to a signal input by the user. Smart ubiquitous sensor network wearable device capable of multi - sensor customization.
The method of claim 4,
The multisensor mode setting unit provides surrounding environment information sensed by an acceleration sensor, a gyro sensor, and a sensor for measuring carbon dioxide (CO2), dust, temperature, humidity, pulse waves and electrocardiogram in the health management mode, The present invention provides harmful environmental information sensed by interlocking sensors for measuring gas, volatile organic compounds (VOCS), nitrogen dioxide (NO2), carbon dioxide (CO2), pulse waves, radioactivity, temperature, humidity and altitude in the environmental mode, In the security mode, it provides all the authentication means that the platform can utilize, such as pulse wave sensor, short range wireless communication module (NFC), human body communication, card, etc. A gyro sensor, an acceleration sensor, a pulse wave, and carbon dioxide (CO2) are measured in the exercise mode. And provides motion capture and momentum information sensed by interlocking of the sensor. The smart ubiquitous sensor network wearable device is capable of customizing the plug-and-play type multi-sensor.

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