KR20190115865A - Intelligence implementation system of electric bicycle and service method using the same - Google Patents

Intelligence implementation system of electric bicycle and service method using the same

Info

Publication number
KR20190115865A
KR20190115865A KR1020180039092A KR20180039092A KR20190115865A KR 20190115865 A KR20190115865 A KR 20190115865A KR 1020180039092 A KR1020180039092 A KR 1020180039092A KR 20180039092 A KR20180039092 A KR 20180039092A KR 20190115865 A KR20190115865 A KR 20190115865A
Authority
KR
South Korea
Prior art keywords
information
sensor
step
bicycle
server
Prior art date
Application number
KR1020180039092A
Other languages
Korean (ko)
Inventor
이옥근
진용옥
곽재근
정재순
Original Assignee
(주)베스코
이옥근
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by (주)베스코, 이옥근 filed Critical (주)베스코
Priority to KR1020180039092A priority Critical patent/KR20190115865A/en
Publication of KR20190115865A publication Critical patent/KR20190115865A/en

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Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
    • G06Q50/30Transportation; Communications
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
    • G06Q50/10Services

Abstract

An electric bicycle intelligent implementation service method according to the present invention includes a data collection step of collecting biometric information of a bicycle occupant, traffic information around a bicycle path, and weather information; A data transmission step of transmitting the information collected in the data collection step from a transmitting terminal to a server through an internet network; An analysis processing step of analyzing and processing data input to the server through the data transmission step to calculate information to be provided to the user; Including the information providing step of providing the information calculated through the analysis processing step to the terminal used by the user, to realize the intelligentization of the electric bicycle, and to build a traffic, weather, reports, healthcare information system through a mobile phone app Therefore, the quality of life of the people can be improved by reinforcing the safety of users as well as by the contents of activities in every corner of the country.

Description

Intelligence implementation system of electric bicycle and service method using the same}

The present invention relates to an intelligent implementation system and an intelligent implementation service method of an electric bicycle.

The population of bicycles is on the rise due to the distribution of bicycles and the construction of bicycles. Bicycles are widely used, and there are statistics that there are about 10 million bicycle populations. Recently, bicycles are equipped with batteries to use electricity as an auxiliary power source. The spread of electric bicycles is also active.

In particular, the revised electric bicycle law (Act on the Activation of Bicycle Use) is expected to revitalize the use of electric bicycles that can supply energy. There is a demand for development of technology capable of realizing intelligence.

Korea Patent Publication No. 10-2016-0100810 Korean Patent Publication No. 10-2017-0143393

The present invention has been made to solve the above problems, to realize the intelligentization of the electric bicycle equipped with a radar, gyroscope, personal communication base station, etc., and to build a traffic, weather, reports, healthcare information system through a mobile phone app It aims to provide an electric bicycle intelligentization system and service method that can improve the quality of life of the people by reinforcing the safety of users as well as the contents of activities in every corner of the country.

An electric bicycle intelligent implementation service method according to the present invention for realizing the above object comprises: a data collection step of collecting biometric information of a bicycle occupant, traffic information around a bicycle path, and weather information; A data transmission step of transmitting the information collected in the data collection step from a transmitting terminal to a server through an internet network; An analysis processing step of analyzing and processing data input to the server through the data transmission step to calculate information to be provided to the user; And an information providing step of providing the information calculated through the analysis processing step to a terminal used by the user.

The data collection step may include an acceleration sensor, a temperature sensor, an acoustic sensor, an imaging sensor, a heart rate sensor, a pulse sensor, a blood sugar sensor, a gyroscope, a rescue signal generating device, a fragrance providing device, and 3 provided in a bicycle or a passenger's wear. It is desirable to collect information using at least one or more of the functional integrated radar.

Electric bicycle intelligent implementation system according to the present invention for realizing the above object, the sensor observation means configured on the bike or the wearer's wear to collect the biometric information of the bike occupant, traffic information and weather information around the bike path and; A transmitting terminal for transmitting the information collected by the sensor observing means through an internet network; A server connected to the Internet network to input information transmitted through the transmission and reception terminal, and to analyze and process the input data to calculate information to be provided to the user; And a receiving terminal receiving the information calculated by the server through the internet network.

The sensor observing means preferably comprises a three-function integrated radar incorporating a radar observer (RADAR), a rider observer (LIDAR), and an infrared observer (IRDAR).

The transmitting terminal or the receiving terminal is composed of a smart phone, it is preferable that the information provided from the server through the smart phone app is configured to appear.

The main problem solving means of the present invention as described above, will be described in more detail and clearly through examples such as 'details for the implementation of the invention', or the accompanying 'drawings' to be described below, wherein In addition to the main problem solving means as described above, various problem solving means according to the present invention will be further presented and described.

The electric bicycle intelligent implementation system and service method according to the present invention transmits the observed and collected big data to the cloud and its own server using near field communication (NFC) or a communication means of a mobile phone. Processing and providing information such as bicycle rider's health care, traffic, weather conditions, etc. can enhance the safety of users as well as improve the lives of people by contentizing activities of sports activities in every corner of the country.

That is, the present invention can realize the convergence of the technology related to the electric bicycle intelligentization, and various sensors in preparation for the activation of the use of the electric bicycle that can be supplied with energy by the revised electric bicycle related law (Act on the Activation of Bicycle Use). And the use of big data that observes and collects the occupant's living body as well as traffic and weather conditions through intelligent devices, and improves the user's quality of life by activating leisure activities at all bicycle locations. Can improve health.

In addition, the present invention realizes a convergence technology that promotes job creation, national income, and breakthrough development of leisure culture through the commercialization of a business model (BM), and various intelligent parts development projects and platforms for electric bicycles required for such systems. Promote development projects.

1 is a block diagram showing an electric bicycle intelligent implementation system according to an embodiment of the present invention.
2 is a flowchart illustrating an electric bicycle intelligent implementation service method according to an embodiment of the present invention.
3 is an implementation diagram showing an electric bicycle intelligent implementation service method according to an embodiment of the present invention.

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

1 is a block diagram showing an electric bicycle intelligent implementation system according to an embodiment of the present invention.

Referring to this, the electric bicycle intelligent implementation system according to an embodiment of the present invention, the observation of the sensor is configured on the bike or the wearer's wear to collect the biometric information of the bike occupant, traffic information and weather information around the bike path Means 10, a transmitting terminal 21 for transmitting the information collected through the sensor observing means 10 through the Internet network 30, and a connecting terminal 21 connected to the Internet network 30. A server 40 for inputting the transmitted information and analyzing and processing the input data to calculate information to be provided to the user, and a receiving terminal for receiving the information calculated by the server 40 through the Internet network 30 ( 25) is preferably included.

Here, the sensor observing means 10 may be configured to include a three-function integrated radar integrated with a radar observer (RADAR), a rider observer (LIDAR), an infrared observer (IRDAR).

In addition, the transmitting terminal 21 or the receiving terminal 25 may be formed of a terminal 20 such as a display terminal or a smartphone mounted on a bicycle, and information provided from the server 40 is displayed through an app installed in the terminal. It is preferably configured to.

2 and 3 are diagrams illustrating an electric bicycle intelligent implementation service method according to an embodiment of the present invention.

The electric bicycle intelligent implementation service method according to the present invention includes a data collection step (S1) for collecting biometric information of a bicycle occupant, traffic information around a bicycle path, and weather information, and information collected at this data collection step (S1). Data transmission step S2 for transmitting the data from the transmitting terminal 21 to the server 40 through the Internet network 30, and analyzing and processing the data input to the server 40 through the data transmission step S2. And an information processing step (S4) for calculating the information to be provided to the user, and an information providing step (S4) for providing the terminal 20 using the information calculated through the analysis processing step (S3). It is desirable to be.

In the electric bicycle intelligent implementation service method according to the present invention, the electric bicycle intelligent implementation system according to an embodiment of the present invention will be described with reference to each step as follows.

In the data collection step (S1), the living body, surrounding traffic and weather observation of the occupant is performed by using the sensor observing means (10), which basically consists of various sensors and observation equipment provided on the bicycle or the occupant's wear.

Sensor observation means 10 for this purpose include an acceleration sensor, a temperature sensor, an acoustic sensor, an imaging sensor, a heart rate sensor, a pulse sensor, a blood glucose sensor, a gyroscope, a rescue signal generator, a fragrance providing device, and a three-function integrated unit. Radar etc. can be used.

The sensor observing means 10 may be installed on a bicycle or mounted on a wearing means such as a garment or a hat worn by a passenger.

In addition, the surrounding traffic and weather observation may use information obtained from existing measurement or observation equipment away from the bicycle or the occupant.

Now, various sensors and observation equipment constituting the above-described sensor observation means 10 will be briefly described.

Accelerometer sensor (accelerometer sensor) is to measure the acceleration or impact of the moving object, it is preferable to be configured to measure the movement of the object by the value of the three axes (X, Y, Z).

Temperature sensor (Temperature sensor) measures the temperature of the body temperature or local area, it is preferable that the degree of Celsius or Fahrenheit is expressed in a numerical value or the like is configured to deliver the measurement results.

The acoustic sensor measures various types of sound waves and is preferably configured to convert specific frequencies from the measured sound wave signals into digital data after sampling.

Imaging sensor (Imaging sensor) is preferably configured to be able to digitally image the light reflected from the subject.

The heart rate sensor (Electrocardiog ram sensor) measures the heart rate of the occupant, and is preferably configured to quantify and deliver BPM (heart rate per minute).

Pulse sensor (Pulse Oximeter sensor) is to measure the oxygen saturation in the blood, it is preferable to be configured to measure the state of hemoglobin in the blood by using an optical signal using a complex light source.

Blood glucose sensor (Glucose sensor) measures the blood sugar in the blood flow of the human body, it is preferable to be configured to measure the blood glucose level using the absorbance of light after irradiating the skin with infrared rays.

The gyroscope is preferably configured to maintain the balance of the bicycle to prevent falls and the like.

The distress signal generating equipment is preferably configured to generate distress signals such as SOS distress signals using LED lights and sound. For example, by attaching lighting devices such as LEDs and weapons EL to buoyant clothing worn by the passengers, it is possible to easily identify the rescue requester at a long distance and to promptly transmit a request for rescue request by a signal blinker. have. It can be configured by attaching a lighting device that emits a color that can be easily identified from a long distance, or by attaching a signal system such as Morse code and a structural sound device such as a miracle sound.

The perfume providing device is preferably configured to be attached to the garment to optimize the physical condition. For example, by attaching a device that can release beneficial natural fragrances from clothing, the physical condition can be optimized to enhance the function of normal human activity. That is, the fragrance providing device for discharging natural fragrances such as pine, cypress and aroma, which are beneficial to the body, may be attached to clothing worn by the occupant.

The integrated three-function radar preferably includes a radar observer (RADAR: RADIO DETECTING AND RANGING), a rider observer (LIDAR: LIGHT DETECTION AND RANGING), and an infrared observer (IRDAR: INFRARED DETECTION AND RANGING).

Here, the necessity of a trifunctional integrated radar will be described.

First, the characteristics of the radar observer, using a radio wave or centimeter wave of the MHz frequency and generally applied to 6 to 10 GHz, 17 to 24 GHz, 35 GHz, 77 GHz, 94 GHz radio frequency to the distance, size, direction of movement And speed. In particular, 24 GHz, 77 GHz radio frequencies are used a lot. Such radar observer can be used in both day and night and climate change environment by using electric wave which is electric wavelength, and it has the advantage of relatively good permeability of radio wave and effective in identifying moving situation and tracking of object. The disadvantages are low and opaque results.

Next, look at the characteristics of the rider observer, using a light having a very narrow wavelength, can operate at a very high frequency to apply a laser of the MHz frequency, typically a blue laser of 414 nm wavelength, 630 nm wavelength A red laser can be applied, and a CCD camera is used when using a wavelength of 380-750 nm. These rider observers have the advantage of being mainly used in video cameras because of the high resolution because they use visible light, but they are vulnerable to bad weather such as rain, snow, fog, etc. There is this.

Finally, the characteristics of the infrared observer, using infrared light with a wavelength of 0.75 um to 15 um, Near-infrared light (IR-A) of 0.75-1.4um wavelength is applied to optical communication and NIGHT VISION, 1.4-3 um Short-wave infrared (IR-B) wavelengths are used for long-distance telecommunications, and medium-wave infrared (IR-C) wavelengths of 3-8 um are used for heat tracking of missiles, and long-wave infrared (IR-B) wavelengths of 8-15 um. C) is applied to an infrared camera or the like as a temperature image area. Such an infrared observer has an advantage that the resolution (sharpness) is excellent and can be used at both day and night, but is weak in bad weather such as snow and fog, and particularly, is vulnerable to temperature changes and has low transmittance.

Each radar including the radar, the rider, and the infrared (IR) radar as described above may be mounted on a moving means such as a bicycle to simultaneously operate several systems in the application and the same area in a moving state. In addition, each radar observer has a slight difference in applications due to characteristics such as advantages and disadvantages of the frequencies used. In general, a radar uses one same antenna, and transmits a pulse signal from an active transmitter, and a receiver activated by switching receives a pulse signal reflected from an object through the same antenna, and then processes the signal. By calculating and displaying the size of the object, the distance to the object and the direction of movement.

As described above, each radar needs a switching device for transmission and reception, and the switching device is expensive, the switching noise is generated, and the speed and accuracy of the overall signal processing are deteriorated.

Therefore, the integrated three-function radar is applied to each of the advantages of radar, rider, and IR-radar to enable high-resolution surveillance during the day, night, and all weather, while reducing the overall cost and increasing the accuracy and speed of signal processing. You can implement the system.

In other words, even in bad weather or long distances such as daytime, heavy rain, heavy snow, fog, etc. BASE can strengthen the ability to formulate effective safety policies and forecast for everyone.

In addition, as the presence and location of arbitrary objects can be more clearly detected, national safety is increased by proactively responding to and performing accurate concealment of possible concealment of emergent situations and accurate appearance of any obscured objects. It can also be applied to the development of related industries.

In addition, since synchronization is already established between the radar signal transmitter and the object detection signal receiver, an object detection signal generated from the radar signal may be immediately received, thereby minimizing a signal loss rate and an error rate.

The data collection step (S1) as described above, by configuring a variety of sensors and observation equipment on the electric bicycle and the occupant's smart helmet or wear clothing, various information, including traffic and weather data of the movement route area of the electric bicycle It is possible to collect and, through this, to realize the intelligentization of the electric bicycle, to enhance the safety, to provide a variety of convenience to the occupants.

The data transmission step (S2), and transmits the various data collected in the data collection step (S1) to the server 40 via a terminal (or personal communication base station) 20, including a mobile phone.

Preferably, it is preferably configured to transmit data to the server 40 through the Internet network 30 by collecting or inputting information through an app provided in a smart phone.

Since the technology for transferring the collected information to the server 40 through the Internet network 30 using a smart phone or the like is a well-known technique, a detailed description thereof will be omitted.

On the other hand, in the case of integrating the information communication number used by the user, such as a smart phone, home phone, IP, etc. will be available in a variety of collection information in the home or other space as well as when using the electric bicycle.

The analysis processing step (S3) stores various information input to the server 40 through the data transmission step as big data, and analyzes the big data input information through a program built in the server 40, and then analyzes the big data input information. The processed information is processed to derive various information to be provided to the user.

The information providing step (S4) transmits the information derived in the analysis processing step (S3) through the Internet network 30 to a user, that is, a variety of content, including a smart phone app to the user.

Through this information provision step (S4) it is possible to converge the health and leisure culture content technology. That is, it is possible to use medical, rescue, and health system information by using the big data provided from the server 40, and provide various conveniences by analyzing and processing the traffic and weather data of the movement route area of the electric bicycle and delivering it to the demand destination. Will be.

On the other hand, in the case of providing through the user's smartphone app in the information providing step (S4), it is also possible to provide a fee if necessary.

As described above, the technical idea described in the embodiments of the present invention may be implemented independently, or may be implemented in combination with each other. In addition, the present invention has been described through the embodiments described in the drawings and the detailed description of the invention, which is merely exemplary, and those skilled in the art to which the present invention pertains various modifications and equivalent other embodiments therefrom It is possible. Therefore, the technical protection scope of the present invention will be defined by the appended claims.

10: sensor observation means 20: terminal
30: Internet Network 40: Server

Claims (5)

  1. A data collection step of collecting biometric information of a bicycle occupant, traffic information around a bicycle path, and weather information;
    A data transmission step of transmitting the information collected in the data collection step from a transmitting terminal to a server through an internet network;
    An analysis processing step of analyzing and processing data input to the server through the data transmission step to calculate information to be provided to the user;
    And an information providing step of providing the information calculated through the analysis processing step to a terminal used by the user.
  2. The method according to claim 1,
    The data collection step may include an acceleration sensor, a temperature sensor, an acoustic sensor, an imaging sensor, a heart rate sensor, a pulse sensor, a blood sugar sensor, a gyroscope, a rescue signal generating device, a fragrance providing device, and 3 provided in a bicycle or a passenger's wear. Electric bicycle intelligent implementation service method characterized in that for collecting information using at least one or more of the integrated functional radar.
  3. Sensor observing means configured on the bicycle or the rider's wear to collect biometric information of the cyclist, traffic information around the bicycle path, and weather information;
    A transmitting terminal for transmitting the information collected by the sensor observing means through an internet network;
    A server connected to the Internet network to input information transmitted through the transmission and reception terminal, and to analyze and process the input data to calculate information to be provided to the user;
    Electric bicycle intelligent implementation system characterized in that it comprises a receiving terminal for receiving the information calculated by the server through the Internet network.
  4. The method according to claim 3,
    The sensor observing means comprises a three-function integrated integrated radar integrated with a radar observer (RADAR), a rider observer (LIDAR), an infrared observer (IRDAR).
  5. The method according to claim 3,
    The transmitting terminal or the receiving terminal is a smart phone, the electric bicycle intelligent implementation system, characterized in that configured to display the information provided from the server via the smart phone app.
KR1020180039092A 2018-04-04 2018-04-04 Intelligence implementation system of electric bicycle and service method using the same KR20190115865A (en)

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20160100810A (en) 2015-02-16 2016-08-24 타우-정 수 Intelligent assisting system of bicycle
KR20170143393A (en) 2016-06-21 2017-12-29 유장석 Safety Riding Support System for Bicycle

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20160100810A (en) 2015-02-16 2016-08-24 타우-정 수 Intelligent assisting system of bicycle
KR20170143393A (en) 2016-06-21 2017-12-29 유장석 Safety Riding Support System for Bicycle

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