JP2023102737A - Cloud alcohol detection system and authentication method for cloud data device - Google Patents

Abstract

To provide a cloud alcohol detection system and an authentication method for a cloud data device, which solve a problem that even if a person drives drunk, no report is made to a company and the person is hardly subject to social sanctions.SOLUTION: A cloud alcohol detection system includes an alcohol detection device 1, a mobile device 2, a cloud data device 3, and a sensing device 9. A computing module of the mobile device uses personal identification data and alcohol detection data to perform the computational determination, thereby generating identity identification data, and causing a mobile display module to display the identity identification data. The cloud data device receives the identity identification data uploaded by a network module and records the received data in the cloud data device.SELECTED DRAWING: Figure 1

Description

The present invention relates to a cloud alcohol detection system and a cloud data device authentication method, and more particularly to a cloud alcohol detection system and a cloud data device authentication method that solves the problem of not being able to contact a company even if one drives drunk and is not likely to receive social sanctions.

Due to the increasing number of drunk driving accidents in recent years, drunk driving is strictly prohibited in many countries around the world. Also, alcohol detection devices sold in various countries generally do not have Internet access functions, and in the case of such alcohol detection devices, they simply determine whether it is permissible to continue driving based on the amount of alcohol detected.

Here, one of the problems is that when a person who is caught driving under the influence of alcohol is an individual, it does not affect the reputation of the company to which the person belongs.

However, if a person whose occupation is to drive a vehicle, such as a driver of a carrier or a company, hides behind the company and drives after drinking alcohol, or does not record the results of the alcohol detection, there is a risk that even if the person is actually caught by the police, points are deducted, and the driver's license is suspended, etc., the company cannot regulate the driver for drunk driving because there is no way to know it, and depending on the type of job, the driver may not be able to perform his/her duties. In addition, if it is discovered later, the company that employs the employee may lose reputation and credibility due to the drunk driving of the employee, which is a problem not only for each company but also for governments around the world.

However, existing alcohol detection devices generally do not have network functions, their management procedures are complicated, and they tend to involve a lot of manual work, and they may not be able to achieve the goals of company management and the prevention and control of drunk driving.

The first problem is that the alcohol detection device does not have an Internet access function, or even if it can connect to the Internet, it only records the alcohol detection results in a cloud database, so the purpose of centralized control of substations cannot be achieved.

The second problem is that the company cannot immediately confirm the result of alcohol detection or does not have a real-time monitoring system, so it is difficult to clarify the responsibility later if the drunk driving is overlooked due to the negligence of the manager of the company to which the person who committed the drunk driving belongs.

The third problem is that there are many loopholes in management, and drivers who take advantage of opportunities to act impulsively tend to drink and drive, which may affect the reputation of the company and may lead to penalties.

The fourth problem is that some alcohol detectors have Bluetooth function, but even if they have Bluetooth function, most of them can only log into mobile APP, and do not have cloud database, alcohol detector, cloud real-time management function.

In order to solve the above problems, the present invention has the following configuration. Namely
A cloud alcohol detection system for use with a biometric, comprising an alcohol detection device, a mobile device, and a cloud data device, comprising:
the alcohol detection device receiving an activation signal to generate alcohol detection data;
the mobile device includes a mobile display module, a capture module, a computing module, a communication module, a network module and a boot module;
the activation module generating the activation signal and the communication module receiving the alcohol detection data;
the capture module captures to the biometric to generate personal identification data;
the computing module uses the personal identification data and the alcohol detection data to make computational decisions to generate identification data, and the mobile display module displays the identification data;
The cloud alcohol detection system, wherein the cloud data device receives and records the identification data uploaded by the network module in the cloud data device.

The cloud alcohol detection system of claim 1, wherein the computing module uses face recognition algorithm or fingerprint recognition algorithm.

The cloud alcohol detection system of claim 1, wherein the capture module is a video camera.

The cloud alcohol detection system of claim 1, wherein the capture module is a fingerprint sensor or a touch panel.

further comprising a sensing device;
The cloud alcohol detection system of claim 1, wherein the sensing device is used to sense heartbeat information, blood oxygen information, body temperature information, or blood pressure information, and these information are transmitted to the mobile device.

2. The cloud alcohol detection system of claim 1, wherein the capture module is used to capture punch information.

the cloud data device includes a company information module, an inquiry module and a database module;
said company information module receiving said identifying data and generating personal database information;
the query module receives the personal database information and generates query data;
The cloud alcohol detection system, wherein the database module receives the inquiry data and generates database information.

further comprising a WEB interface device and a company background WEB site device;
the web interface device receives the database information and generates application interface data;
8. The cloud alcohol detection system of claim 7, wherein the company background website device receives the application interface data and generates viewable information.

further comprising a website conversion data device and a company website device;
the website conversion data device receives the database information and generates website display information;
8. The cloud alcohol detection system according to claim 7, wherein the company website device receives the website display information and displays the website information.

further comprising management software that receives the real-time database information and returns application user data to the cloud data device;
wherein the cloud data device is used to replace a driver name in test subject scheduling data recorded in the cloud data device;
The cloud alcohol detection system according to claim 7, characterized in that:

A method of authenticating a cloud data device, including a mobile device and a cloud data device, comprising:
the mobile device receiving an operational command to log into the mobile device and launch an alcohol detection program;
the alcohol detection program on the mobile device sending an activation signal to activate an alcohol detection device;
The alcohol detection device measures alcohol detection data,
the mobile device generates identification data by capturing biometrics and the alcohol sensing data;
A cloud data device, wherein the cloud device receives and stores the identification data.

As described above, existing alcohol detection devices have many problems, so the present application provides a cloud alcohol detection system with the function of biometric authentication. And this cloud alcohol detection system monitors test IDs (identifying data that can identify you) in real time.

That is, when the driver takes the alcohol detection test, the mobile device performs biometric authentication. Here, the identification data includes fingerprint identification, face identification, expiratory pressure model, input password, etc., so as to correctly identify the person taking the alcohol detection test and manage the alcohol test.

1 is a first functional block diagram of a cloud alcohol detection system of the present invention; FIG. Fig. 2 is a second functional block diagram of the cloud alcohol detection system of the present invention; 3 is a third functional block diagram of the cloud alcohol detection system of the present invention; FIG. FIG. 4 is a fourth functional block diagram of the cloud alcohol detection system of the present invention; 1 is the signal flow of the cloud alcohol detection system of the present invention;

FIG. 1 is a first functional block diagram of the cloud alcohol detection system of the present invention, which is used to perform biometric authentication on a subject to be biometrically authenticated (hereinafter also referred to as a “subject” or “biometric authentication object”), and includes an alcohol detection device 1, a mobile device 2, a cloud data device 3, and a sensing device 9.

The process of the present invention involves the subject exhaling into the alcohol sensing device 1, which then generates alcohol sensing data indicating how much alcohol is in this exhaled breath (in short, the amount of alcohol concentration in exhaled breath).

The alcohol detection device 1 has a display unit (not shown) capable of displaying breath conditions and results, and a communication unit (not shown) for transmitting alcohol detection data to the mobile device 2 .

The mobile device 2 is a smart phone or tablet PC or other smart display with communication capabilities. The mobile device 2 includes a mobile display module 21 , a communication module 22 , a computing module 23 , a capture module 24 , a network module 25 and an activation module 26 . Here, the communication module 22 has a wired or wireless communication function.

Activation module 26 has a human-machine interface that receives subject commands and generates activation signals. It should be noted that the human-machine mutual interface can be implemented in hardware, software, or a combination of both hardware and software. The alcohol detection device 1 performs an alcohol detection test based on the activation signal.

Capture module 24 captures the biometric to generate personal identification data. The computing module 23 uses the personal identification data and the alcohol detection data to make computational decisions and generate identification data. Here, the identity identification data specifically refers to identifying the identity of the data that can identify an individual, integrating the contents of the alcohol detection data, and generating the identity identification data.

The identification data is received by the cloud data device 3 and stored (recorded) as a personalized database, transforming the data into digital evidence and data. In addition, these numerical grounds and data are used to calculate the time it takes for the alcohol in the body to be eliminated, so the subject can rest and wait until the alcohol level drops below a predetermined amount, or ask for a substitute driver.

In this embodiment, the capture module 24 has a function of capturing biometric features, so that when the subject logs in after the identification process, the subject can quickly complete the identification process and log in, thereby improving convenience for the subject. Sensing device 9 is used to sense physiological characteristics such as heart rate information, body temperature information, blood pressure information and transmit them to mobile device 2 .

The alcohol detection device 1, the sensing device 9, and the mobile device 2 can integrate sensing, data acquisition, data identification, communication functions, and the computing module 23 by a highly integrated computing module 23, and directly upload data to the cloud data device 3 via the network module 25. Network module 25 supports mobile communications, Ethernet and/or wireless networks.

The communication module 22 receives data and parameters returned by the alcohol detection device 1 . where the data is alcohol sensing data and the parameters are alcohol sensing device parameters sent from an external calibration system. The computing module 23 is able to calculate an accurate alcohol detection result by using an algorithm that can be remotely updated based on the parameters of the alcohol detection and the data of the alcohol detection device 1 .

The computing module 23 also performs a function of identification, for example, by identifying the signal from the lamp of the alcohol detection device 1 or the behavior of the subject, to identify the subject in action and the alcohol detection device 1 to confirm that there is no fraudulent activity.

Alternatively, biometrics such as fingerprint identification and facial identification on mobile phones can be used in combination with the pneumatic breath model (breath alcohol concentration detection model) of the alcohol detection device 1 to help determine whether the subject is a correct and legitimate person.

Here, the alcohol detection device 1 has a built-in pneumatic breath model algorithm, and when the breath of the subject is acquired, the alcohol detection device 1 uses the pneumatic breath model algorithm built into the alcohol detection device 1 to identify the characteristics of the pneumatic breath (i.e., the breath alcohol concentration), generate alcohol detection data, and transmit it to the communication module 22 of the mobile device 2.

Capture module 24 captures the biometric to generate personal identification data, and communication module 22 receives alcohol detection data.

The computing module 23 uses the personal identification data and the alcohol detection data to make calculation judgments to generate identification data, and the mobile display module 21 displays the identification data. The cloud data device 3 receives the identification data and records it in the cloud data device 3 .

Here, the capture module 24 may comprise a camera for capturing the subject's face, or the capture module 24 may include a touch panel or fingerprint sensor. Here, the fingerprint sensor can be used as a device for fingerprint identification data. The touch panel allows the subject to log into the mobile device 2 by manually pressing a key.

The computing module 23 adopts a face recognition algorithm or a fingerprint recognition algorithm. Here, the facial recognition algorithm or fingerprint recognition algorithm captures the image data by the capture module 24 of the mobile device 2 .

The face recognition algorithm or fingerprint recognition algorithm is then processed again by the computing module 23, which may be processed by a third party database or external computing module.

Subsequently obtained facial recognition or fingerprint recognition feature values are transmitted to and recorded in the database module 33 (hereinafter also simply referred to as "database") of the cloud data device 3 of the present invention, or are compared with the subject's feature values to establish a code (personal identification data) to which the subject corresponds.

Here, if the communication quality of the network system is not good, the computing module 23 will calculate the communication quality and decide whether to send the data to the cloud data device 3 .

Mobile device 2 achieves more accurate positioning and area marking via local communication devices such as WiFi or Bluetooth beacon positioning. Mobile device 2 may also scan QR codes with a camera for more accurate positioning and identification capabilities.

The QR code carries a specific identification code, and the database module 33 in the cloud stores the specific identification code and the corresponding location information, so that the mobile device 2 can refer to the database module 33 to obtain the location information based on the specific identification code.

Alternatively, the QR code may contain the location information directly, and the mobile device 2 obtains the location information by reading the QR code.

The capture module 24 of the present invention can be applied to measure physiological signals such as GPS check-in, body temperature, blood pressure, heart rate, blood oxygen. The capture module 24 also cooperates with the mobile device 2 and the sensing device 9 . When punching in, the capture module 24 of the mobile device 2 is used to capture the punch information.

Capture module 24 includes a camera lens, a GPS module, and a system clock to capture punch-in information such as photos, location information, time information, and the like. A thermometer can be incorporated into the alcohol sensing device 1 to measure breath temperature and measure body temperature. Alternatively, the sensing device 9 may include a thermometer (for example, a Bluetooth thermometer) for acquiring body temperature information. The communication module 22 acquires body temperature information transmitted by the sensing device 9 .

Sensing device 9 includes a sphygmomanometer (eg, a Bluetooth sphygmomanometer). The communication module 22 acquires blood pressure information transmitted by the sensing device 9 . The sensing device 9 may include a heart rate blood oxygen acquisition device capable of acquiring heart rate and blood oxygen information. The communication module 22 acquires heartbeat and blood oxygen information transmitted by the sensing device 9 .

Although the above-described embodiments use Bluetooth, the present invention does not limit the communication type, and may be implemented using other wireless communication technologies such as WiFi or other wired communication technologies.

The cloud data device 3 includes a company data module 31 (company information module 31 ), an inquiry module 32 and a database module 33 . The company data module 31 receives identification data for generating personal database data, including management company data, administrator data and authority, test subject data and scheduling data. The company data module 31 includes management company data, administrator data, administrator authority, test subject data, and test subject scheduling data. The company data module 31 also receives identification data for generating personal database data.

A query module 32 receives personal database data and generates a data query index. The database module 33 is also capable of categorizing company, subject, administrator, test data, and various parameter data, receiving query data, and listing personal identification data.

Here, the company overview module 31 includes Web pages such as a company list, site list, alcohol detection device list, alcohol detection management, management authority table, subject list, and inquiry record.

The company list has agency and sales agency information, and the site list has locations where the alcohol detection device 1 is used. Alcohol sensing devices represent mobile phones or smart connected devices used. Management software program 8 can see the number of people using alcohol detection device 1 .

Next, the management authority table represents the management level of the company and the authority that the company has. This privilege limits the scope of what an administrator can view or control, such as manageable sites and manageable driver lists.

For example, manageable sites, manageable driver list, and subject list represent driver information. Recording an inquiry means that the data resulting from using the alcohol detection device 1 or other sensing device 9 is stored in the database module 33 .

Query module 32 can be used to query or query data in database module 33 when there is more than one data. The cloud alcohol detection system can also achieve the purpose of data query and comparison through data indication.

Description will be made with reference to FIG. Here, the cloud alcohol detection system further includes a WEB interface device 4 and a company background WEB site device 5 (company background WEB site device 5). The WEB interface device 4 receives database information and generates application interface data.

A company background web site device receives application interface data and generates viewable data. The WEB interface device 4 of the present invention provides an API and a data conversion interface, and the data conversion interface is an API interface program that allows each backend platform to connect with each other.

The API interface program has a function of converting the data format, and the company background WEB site device (not shown) of another company can be directly connected to this WEB interface device 4 . Therefore, with the ability to convert this data format, alcohol detection values, time, area, cards, biometrics, logs, and other information can be displayed.

Description will be made with reference to FIG. Here, the cloud alcohol detection system further includes a website conversion data device 6 and a company website device 7 (first company website device 71 and second company website device 72).

The cloud alcohol detection system of the present invention can manage many alcohol detection devices 1, and some bus companies need help to set up alcohol detection web pages.

Therefore, the cloud data device 3 can generate database data for the WEB site conversion data device 6, and the WEB site conversion data device 6 receives the database data and generates WEB site display information.

One or more company website devices 7 (first company website device 71 and second company website device 72 in this example) receive the website display information and display the website display information.

Here, the WEB site display information includes WEB pages such as a company list, a site list, an alcohol detection device list, alcohol detection management, a management authority table, a test subject list, and a record of inquiries.

The verification steps of the alcohol detection device 1 and the biometric identification system are as follows. The mobile device 2 activates the capture module 24 to receive the biometric identification data and the computing module 23 generates personal identification data.

The alcohol sensing device 1 receives breath input by the subject and generates wine test data for the mobile device 2 . The cloud data device 3 then receives the alcohol detection data and the biometric identification data and stores them in the cloud database.

Description will be made with reference to FIG. Management software 8 can be executed by the administrator's electronic device (cell phone, computer, etc.) to receive real-time database data. The management software 8 returns (responses) the application user data to be updated in the database to the cloud data device 3 .

In general, the administrator cannot display the contents of the cloud data device 3 in real time. In contrast, the present invention provides a management software program 8 (APP) so that real-time data (such as alcohol detection values) can be displayed by the management software 8 that runs remotely and can respond to messages to the cloud data device 3 in a timely manner.

The management software program (APP) adopts hierarchical management of administrators and displays the messages that administrators need to receive according to the authority and scope of administrators. And if an abnormal event occurs, managers at all levels involved can immediately see the status change, thus achieving the goal of being able to intervene immediately in multi-administrator collaboration and management.

The management software 8 can check the driver's alcohol detection value. If the alcohol detection value of the driver exceeds the standard, the manager of the company can use this management software 8 to search for a substitute driver and have the substitute driver drive in place of the drunk driver in the time zone in which the drunk driver should be in charge. That means you can shift shifts and find another driver to take your place so you don't end up drunk driving.

Description will be made with reference to FIG. The test method for the alcohol detection device 1 and the biometric identification system is as follows. The mobile device 2 receives the operation command, logs in to the mobile device 2, and starts the alcohol detection program (s101).

The alcohol detection program of the mobile device 2 transmits an activation signal to activate the alcohol detection device (s102), and the alcohol detection device 1 measures the alcohol detection value (s103).

The mobile device 2 captures the biometric (s104), receives the alcohol sensing data (s105) of the alcohol sensing device, and generates identification data. Then, the cloud data device 3 receives the identification data and records the identification data (s106).

As described above, the present invention inputs the alcohol detection value and biometric identification data into the cloud database, and the cloud database records predetermined data such as time, alcohol value, and photo, so these alcohol detection values can be used to confirm whether the driver is secretly drinking alcohol.

In addition, the background staff (the person in charge of the company background WEB site device 5) can check the alcohol detection data in real time and judge whether the driver is secretly drinking.

In addition to these effects, another function of the present invention is that it has biometric authentication data such as fingerprint recognition, face recognition, or other authentication data to distinguish subjects, so that subjects can be easily distinguished.

Note that the above system is not limited to the cloud alcohol detection system. For example, the company's existing punch cards, blood pressure management, route management, shift management, heart rate, blood oxygen level, weight, body fat percentage, etc., are not necessarily limited to the alcohol detection system. Moreover, various peripherals can take full advantage of this architecture to manage multiple applications.

1 Alcohol detection device 2 Mobile device 21 Mobile display module 22 Communication module 23 Operation module 24 Capture module 25 Network module 26 Launch module 3 Cloud data device 31 Company data module 32 Inquiry module 33 Database module 4 WEB interface device 5 Company background WEB site device 6 WEB site conversion data device 71 First company WEB site device 72 Second company WEB site device 8 Management software 9 Sensing device

Claims (11)

A cloud alcohol detection system for use with a biometric, comprising an alcohol detection device, a mobile device, and a cloud data device, comprising:
the alcohol detection device receiving an activation signal to generate alcohol detection data;
the mobile device includes a mobile display module, a capture module, a computing module, a communication module, a network module and a boot module;
the activation module generating the activation signal and the communication module receiving the alcohol detection data;
the capture module captures to the biometric to generate personal identification data;
the computing module uses the personal identification data and the alcohol detection data to make computational decisions to generate identification data, and the mobile display module displays the identification data;
The cloud alcohol detection system, wherein the cloud data device receives the identification data uploaded by the network module and records it in the cloud data device. The cloud alcohol detection system of claim 1, wherein the computing module uses a face recognition algorithm or a fingerprint identification algorithm. The cloud alcohol detection system of claim 1, wherein the capture module is a video camera. The cloud alcohol detection system of claim 1, wherein the capture module is a fingerprint sensor or a touch panel. further comprising a sensing device;
The cloud alcohol detection system according to claim 1, wherein the sensing device is used to sense heartbeat information, blood oxygen information, body temperature information, or blood pressure information, and these information are transmitted to the mobile device. The cloud alcohol detection system of claim 1, wherein the capture module is used to capture punch information. the cloud data device includes a company information module, an inquiry module and a database module;
said company information module receiving said identifying data and generating personal database information;
the query module receives the personal database information and generates query data;
2. The cloud alcohol detection system of claim 1, wherein the database module receives the inquiry data and generates database information. further comprising a WEB interface device and a company background WEB site device;
the web interface device receives the database information and generates application interface data;
8. The cloud alcohol detection system of claim 7, wherein the company background website device receives the application interface data and generates viewable information. further comprising a website conversion data device and a company website device;
the website conversion data device receives the database information and generates website display information;
The cloud alcohol detection system according to claim 7, wherein the company website device receives the website display information and displays the website information. further comprising management software that receives the real-time database information and returns application user data to the cloud data device;
wherein the cloud data device is used to replace a driver name in test subject scheduling data recorded in the cloud data device;
The cloud alcohol detection system according to claim 7, characterized in that: A method of authenticating a cloud data device, including a mobile device and a cloud data device, comprising:
the mobile device receiving an operational command to log into the mobile device and launch an alcohol detection program;
the alcohol detection program on the mobile device sending an activation signal to activate an alcohol detection device;
The alcohol detection device measures alcohol detection data,
the mobile device generates identification data by capturing biometrics and the alcohol sensing data;
A cloud data device authentication method, wherein the cloud data device receives and stores the identification data.