CN110715658A - Cheating detection method and device applied to wearable equipment and monitoring system - Google Patents

Abstract

The invention discloses a cheating detection method, a cheating detection device and a cheating detection monitoring system applied to wearable equipment, wherein the method comprises the following steps: acquiring acceleration motion tracks of a plurality of wearable devices; comparing the acceleration motion tracks of any two wearable devices; obtaining an acceleration motion track comparison result; judging whether the motion trends of any two wearable devices are consistent or not according to the comparison result of the acceleration motion tracks; if the motion trends of the two wearable devices are consistent, the two wearable devices are worn on the same person, and the processing result is determined to be cheating. The invention has the beneficial effects that: whether a plurality of monitoring terminals are worn by one person at the same time can be detected by the matching and comparing method of the acceleration running tracks, so that the cheating phenomena are avoided, the safety management is improved, and the safety of personnel is guaranteed.

Description

Cheating detection method and device applied to wearable equipment and monitoring system

Technical Field

The invention relates to the field of positioning monitoring, in particular to a cheating detection method, a cheating detection device and a cheating detection monitoring system which are applied to wearable equipment.

Background

In the field of petroleum and petrochemical refining and other refining fields, and in dangerous places such as construction sites and the like, in order to improve safety management, the current position and state information of workers need to be known in real time. Therefore, when a worker is in a dry state, the worker is often equipped with a wearable device with a positioning function such as a GPS and a state monitoring function, and such a device is called a monitoring terminal for short.

However, workers sometimes do not understand the importance of such monitoring terminals, do not want the psychology of being monitored or lazy or even absenteeism, and then give the wearable device to other workers to help wear to avoid background monitoring. A conventional monitoring terminal only positions and judges whether a worker moves or not, and whether the monitoring equipment is worn on the same person or not cannot be judged, so that the phenomenon that some workers are likely to be lazy or even absenteese is caused.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the utility model provides a cheating detection method, a cheating detection device and a cheating monitoring system applied to wearable equipment, and aims to solve the problem of how to prevent one person from wearing a plurality of pieces of equipment at the same time, thereby avoiding cheating.

In order to solve the technical problems, the invention adopts the technical scheme that:

a first aspect of embodiments of the present application provides a cheating detection method applied to a wearable device, including the following steps:

acquiring acceleration motion tracks of a plurality of wearable devices;

comparing the acceleration motion tracks of any two wearable devices; obtaining an acceleration motion track comparison result;

judging whether the motion trends of any two wearable devices are consistent or not according to the comparison result of the acceleration motion tracks;

if the motion trends of the two wearable devices are consistent, the two wearable devices are worn on the same person, and the processing result is determined to be cheating.

A second aspect of the embodiments of the present application provides a cheating detection device applied to a wearable device, including the following steps:

the acquisition module is used for acquiring the motion track of the wearable equipment;

the comparison module is used for comparing the acceleration motion tracks of every two wearable devices;

the judging module is used for judging whether the motion trends of every two wearable devices are consistent or not according to the comparison result;

and the transmission processing module is used for transmitting the processing result of the cheating according to the judgment.

A third aspect of the embodiments of the present application provides a cheat detection system applied to a wearable device, including the following steps:

the acceleration acquisition device is used for acquiring an acceleration motion track;

the network transmission device is used for transmitting the acceleration motion trail information;

the algorithm server is used for processing the acceleration motion trail information;

query output means for outputting the processing result;

the algorithm server is the cheating detection device applied to the wearable equipment.

Therefore, whether a plurality of monitoring terminals are worn by one person at the same time or not can be detected according to the acquired motion track of the wearable device and the matching comparison method of the acceleration motion track, so that the cheating phenomenon is avoided, safety management is improved, and the safety of personnel is guaranteed.

Drawings

The detailed structure of the invention is described in detail below with reference to the accompanying drawings

Fig. 1 is a flowchart of a cheat detection method applied to a wearable device according to an embodiment of the present invention.

Fig. 2 is an acceleration trajectory diagram of different persons of the cheat detection method applied to a wearable device according to an embodiment of the invention.

Fig. 3 is an acceleration trace diagram of the same person with different devices, which is applied to the cheat detection method of the wearable device according to an embodiment of the present invention.

Fig. 4 is a system flowchart of a cheating detection method, a cheating detection device and a monitoring system applied to a wearable device according to an embodiment of the invention.

Fig. 5 is a block diagram of a cheating detection apparatus applied to a wearable device according to an embodiment of the present invention.

Fig. 6 is a system block diagram of a cheating detection method, a cheating detection device and a monitoring system applied to a wearable device according to an embodiment of the invention.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

In order to solve the problem that one person is prevented from wearing a plurality of devices at the same time, and therefore the phenomenon of cheating is avoided, the embodiment of the application provides a cheating detection method applied to wearable devices in a first aspect. As shown in fig. 1 and 3, the cheating detection method applied to the wearable device includes the following steps:

step S1, acquiring acceleration motion tracks of a plurality of wearable devices;

step S2, comparing the acceleration motion tracks of any two wearable devices; obtaining an acceleration motion track comparison result;

step S3, judging whether the motion trends of any two wearable devices are consistent according to the comparison result of the acceleration motion tracks;

and step S4, if the movement trends of the two wearable devices are consistent, the two wearable devices are worn on the same person, and the processing result is determined to be cheating.

Specifically, the acceleration is determined to increase or decrease through the slope search, tracking and detection to determine the related movement trend, and when a lot of workers or a lot of monitoring devices exist, it is impossible to compare all acceleration tracks, so that the workload is large, and therefore, the acceleration tracks of the monitoring terminals can be compared when the GPS positioning routes of the terminals are basically consistent.

Further, comparing the acceleration motion tracks of any two wearable devices; the step of obtaining the comparison result of the acceleration motion trail specifically comprises the following steps:

finding out terminals with close acceleration motion tracks;

and comparing the acceleration trends of the two acceleration motion tracks.

Specifically, according to the trajectory diagram of the acceleration, the phenomenon of fluctuation is presented, that is, when a person walks, the person accelerates, decelerates and stops, and different states represent different conditions of the acceleration, so that whether the actions of the person are consistent or not is judged by using the variation trend of the acceleration.

Further, referring to fig. 2, after comparing the acceleration motion trajectories of each two wearable devices, the method further includes the following steps:

when the trends are inconsistent, the two wearable devices are worn on the non-identical person, and the processing result is determined to be not cheating.

Specifically, the slope is searched, tracked and monitored, the slope represents the acceleration, whether the acceleration is increased or decreased is judged to judge the related movement trend, different curve graphs represent acceleration track graphs of different people during movement, and the acceleration track graphs do not coincide or have inconsistent trends.

Further, after determining the processing result, the method further includes: and storing and displaying the determined processing result.

Specifically, the memory has a memory function for storing information such as data, instructions and operation results, and the display screen device displays the information.

Further, as shown in fig. 5, the apparatus includes:

the acquiring module 10 is used for acquiring a motion track of the wearable device;

the comparison module 20 is used for comparing the acceleration motion tracks of every two wearable devices;

the judging module 30 is used for judging whether the motion trends of every two wearable devices are consistent according to the comparison result;

and the transmission processing module 40 is used for transmitting the processing result of the cheating according to the judgment.

Specifically, the acceleration is determined to increase or decrease through the slope search, tracking and detection to determine the related movement trend, and when a lot of workers or a lot of monitoring devices exist, it is impossible to compare all acceleration tracks, so that the workload is large, and therefore, the acceleration tracks of the monitoring terminals can be compared when the GPS positioning routes of the terminals are basically consistent.

Further, the comparison module specifically includes:

the query unit is used for finding out terminals with similar tracks;

and the comparison unit is used for comparing the acceleration trends pairwise.

Specifically, the query unit is a PC, and includes a display screen and an operation device; the transmitted information is operated through the operation equipment through the display screen; and the algorithm server performs comparison.

Further, the apparatus comprises:

and the transmission processing module is also used for outputting a non-cheating result according to the judgment.

Specifically, when the system clock signal of the slave device starts to be input and the slave device receives the data transmission signal sent by the master device, the slave device immediately outputs the corresponding data.

Further, the apparatus comprises:

and the storage module is used for storing the determined processing result.

Specifically, the memory has a memory function for storing information such as data, instructions, and operation results.

Further, as shown in fig. 6, the system includes an acceleration acquisition device 100, a network transmission device 200, an algorithm server 300, and a query output device 400.

The acceleration acquisition device 100 is used for acquiring an acceleration motion track;

the network transmission device 200 is used for transmitting the acceleration motion trail information;

the algorithm server 300 is used for processing the acceleration motion trail information;

query output means 400 for outputting the processing result;

the algorithm server is the cheating detection device applied to the wearable equipment.

Specifically, the monitoring terminal collects the acceleration value of the monitoring terminal and outputs a trend routing graph by utilizing the 4G network to transmit the acceleration value to the background algorithm server, and finally, pairwise comparison is carried out to judge whether the trends of the monitoring terminal are consistent or not, if yes, the wearable equipment is worn by the same wearable equipment.

In conclusion, the beneficial effects of the invention are as follows: whether a plurality of monitoring terminals are worn by one person at the same time can be detected by the matching and comparing method of the acceleration running tracks, so that the cheating phenomena are avoided, the safety management is improved, and the safety of personnel is guaranteed.

The first … … and the second … … are only used for name differentiation and do not represent how different the importance and position of the two are.

Here, the upper, lower, left, right, front, and rear merely represent relative positions thereof and do not represent absolute positions thereof

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. A cheating detection method applied to wearable equipment is characterized by comprising the following steps:

acquiring acceleration motion tracks of a plurality of wearable devices;

comparing the acceleration motion tracks of any two wearable devices; obtaining an acceleration motion track comparison result;

judging whether the motion trends of any two wearable devices are consistent or not according to the comparison result of the acceleration motion tracks;

if the motion trends of the two wearable devices are consistent, the two wearable devices are worn on the same person, and the processing result is determined to be cheating.

2. The cheat-detection method applied to wearable devices according to claim 1, wherein the acceleration motion tracks of any two wearable devices are compared; the step of obtaining the comparison result of the acceleration motion trail specifically comprises the following steps:

finding out terminals with close acceleration motion tracks;

and comparing the acceleration trends of the two acceleration motion tracks.

3. The cheat-detection method applied to wearable devices according to claim 2, wherein after comparing the acceleration motion trajectories of two wearable devices, the method further comprises the following steps:

when the trends are inconsistent, the two wearable devices are worn on the non-identical person, and the processing result is determined to be not cheating.

4. The cheat-detection method applied to a wearable device according to claim 3, further comprising, after determining the processing result: and storing and displaying the determined processing result.

5. The utility model provides a be applied to detection monitoring device that cheats of wearable equipment which characterized in that: the device comprises:

the acquisition module is used for acquiring the motion track of the wearable equipment;

the comparison module is used for comparing the acceleration motion tracks of every two wearable devices;

the judging module is used for judging whether the motion trends of every two wearable devices are consistent or not according to the comparison result;

and the transmission processing module is used for transmitting the processing result of the cheating according to the judgment.

6. The cheat-detection monitoring device applied to wearable equipment of claim 5, wherein: the comparison module specifically comprises:

the query unit is used for finding out terminals with similar tracks;

and the comparison unit is used for comparing the acceleration trends pairwise.

7. The cheat-detection monitoring device applied to wearable equipment of claim 6, wherein: the device comprises:

and the transmission processing module is also used for outputting a non-cheating result according to the judgment.

8. The cheat-detection monitoring device applied to wearable equipment of claim 7, wherein: the device comprises:

and the storage module is used for storing the determined processing result.

9. The utility model provides a be applied to wearable equipment's detection monitoring system that cheats which characterized in that: the system comprises an acceleration acquisition device, a network transmission device, an algorithm server and a query output device.

The acceleration acquisition device is used for acquiring an acceleration motion track;

the network transmission device is used for transmitting the acceleration motion trail information;

the algorithm server is used for processing the acceleration motion trail information;

query output means for outputting the processing result;

the algorithm server is the cheating detection device applied to the wearable equipment, and the cheating detection device is as claimed in any one of claims 5 to 8.

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