CN113920444B - Block chain management system for action triggering - Google Patents

Abstract

The invention relates to a block chain management system for action triggering, which comprises: the bottom aerial view mechanism is arranged at the bottom of the cruise aircraft and used for completing one-time overhead shooting operation on the lower off-road track when the received current flight height is equal to the set flight height and the information matching signal is received so as to obtain a bottom aerial view image; and an identification detection means for detecting segment identification targets of the respective off-road tracks within the bottom bird's-eye view image and performing a segmentation operation on the bottom bird's-eye view image based on the positions of the respective segment identification targets in the bottom bird's-eye view image to obtain respective imaged sprites. By the method and the system, the current personnel number of each segmented track of the field large-scale event can be detected on site, and the dynamic flexible allocation of a fixed number of managers in different segmented tracks is realized on the basis of the total personnel number in each segmented track, so that the dynamic calling of event managers is realized.

Description

Block chain management system for action triggering

Technical Field

The present invention relates to the field of blockchain management, and in particular, to a blockchain management system for action triggering.

Background

Is restricted by the current concept, system and law. The characteristics of centralization, self-management and collective maintenance of the block chain are adopted, so that the production and living modes of people are overturned, the national and supervision concepts are diluted, and the current legal arrangement is impacted. For these, there is a complete lack of theoretical preparations and institutional studies throughout the world. Even the most mature bitcoin is applied to the block chain, the attitudes of different countries are different, and the application and development of the block chain technology are inevitably hindered. To solve this type of problem, it is obvious that there is a long way to go.

At the technical level, the block chain needs to be developed in a breakthrough manner. Block chain applications are still in the laboratory initiative development stage, and there are no intuitively available mature products. Compared with the internet technology, people can use specific application programs such as a browser and an APP to browse, transfer, exchange and apply information, but a block chain obviously lacks such breakthrough application programs and faces a high technical threshold barrier. For another example, in the block capacity problem, since a block chain needs to carry all information generated before copying, and the information amount of the next block is greater than that of the previous block, the block write information will increase indefinitely after transfer, and the information storage, verification, and capacity problems caused by the increase remain to be solved. In the prior art, for large field events such as off-road events, management is always a complicated and complicated matter, and carelessness causes great potential safety hazards, and particularly, deployment of managers for different segmental tracks is very important.

Disclosure of Invention

In order to solve the technical problems in the prior art, the invention provides a block chain management system for action triggering, which can carry out field detection on the current number of personnel in each segmented track of a large field event and realize dynamic and flexible allocation of the management personnel with the fixed number in different segmented tracks based on the total number of the personnel in each segmented track, thereby providing motion guarantee for the sporters in each segmented track as far as possible.

Compared with the prior art, the invention has at least the following prominent substantive characteristics:

(1) The number of the staff in each segmented track is visually detected, and the number of the staff allocated to the segmented track is judged based on the detection result, so that the dynamic allocation of limited staff in different segmented tracks of the same off-road track is realized;

(2) And detecting the segmented identification targets of all the cross-country tracks in the down-shot picture based on the edge contour of the segmented identification targets of the cross-country tracks, and finishing segmentation processing of imaging areas of all the segmented tracks in the down-shot picture based on the segmented identification targets of all the cross-country tracks.

According to an aspect of the present invention, there is provided a blockchain management system for action triggering, the system comprising:

and the bottom aerial view mechanism is arranged at the bottom of the cruising aircraft and is used for completing one-time overhead shooting operation on the lower off-road track when the received current flight height is equal to the set flight height and the information matching signal is received so as to obtain a bottom aerial view image.

More specifically, in the block chain management system for action triggering, the method further includes:

and the mark detection device is connected with the bottom aerial view mechanism and used for detecting the segmented mark targets of all the off-road tracks in the bottom aerial view image and performing segmented operation on the bottom aerial view image based on the positions of all the segmented mark targets in the bottom aerial view image so as to obtain all the imaging sub-pictures respectively corresponding to all the segmented tracks of the off-road tracks in the bottom aerial view image.

More specifically, in the block chain management system for action triggering, the method further includes:

the personnel extraction device is connected with the identification detection device and used for detecting the quantity of personnel in the imaging sub-picture corresponding to each segmented track of the off-road track in the bottom aerial view image to serve as a real-time analysis number;

the numerical analysis device is connected with the personnel extraction device and used for accumulating the real-time analysis number corresponding to each segmented track of the off-road track in the bottom bird's-eye view image to serve as an accumulated personnel number, and determining the quantity of the workers distributed to each segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated personnel number;

the automatic driving component is arranged on the cruise aircraft, is respectively connected with the field navigation component and the block chain management component, and is used for determining the current flight strategy of the cruise aircraft based on the difference value between the real-time navigation data and the preset navigation data so as to reduce the difference value between the real-time navigation data and the preset navigation data;

the content transceiving interface is arranged on the cruise aircraft, is in wireless connection with the ground control station of the off-road track, and is used for wirelessly transmitting the number of the workers distributed to each segmented track of the off-road track to the ground control station of the off-road track;

the field navigation component is arranged on the cruise aircraft and used for providing navigation information of the current position of the cruise aircraft to the cruise aircraft in real time to serve as real-time navigation data to be output;

the block chain management component is arranged at the wireless network end and used for pre-storing navigation information of the central position of the cross-country track as preset navigation data;

the parameter measuring component is arranged on the cruise aircraft, is connected with the bottom aerial view mechanism and is used for detecting the current flight height of the cruise aircraft;

the matching judgment mechanism is respectively connected with the bottom aerial view mechanism, the field navigation component and the block chain management component and is used for sending an information matching signal when the real-time navigation data is matched with the preset navigation data;

wherein, for each segmented track, determining the number of workers allocated to the segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated number of workers comprises: for each segmented track, the higher the proportion of the corresponding real-time analysis number occupying the accumulated staff number is, the more the determined staff number allocated to the segmented track is;

wherein, for each segmented track, determining the number of workers allocated to the segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated number of workers comprises: the total number of the workers respectively distributed to each segmented track is fixed;

wherein detecting segment identification targets of each off-road course in the bottom bird's-eye view image, and performing a segmentation operation on the bottom bird's-eye view image based on the position of each segment identification target in the bottom bird's-eye view image to obtain each imaged sprite corresponding to each segment course of the off-road course in the bottom bird's-eye view image comprises: and detecting the segmented identification targets of all off-road racing tracks in the bottom aerial view image based on the edge profiles of the segmented identification targets of the off-road racing tracks, and performing segmented operation on the bottom aerial view image based on the positions of the segmented identification targets in the bottom aerial view image to obtain imaging sub-pictures respectively corresponding to all the segmented racing tracks of the off-road racing tracks in the bottom aerial view image.

Drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram illustrating a blockchain management system for action triggering according to an embodiment of the present invention.

Detailed Description

An embodiment of the blockchain management system for action triggering according to the present invention will be described in detail with reference to the accompanying drawings.

The difference between the geographic position coordinates of the user and the actual geographic position coordinates measured by the navigation satellite is called positioning error, and the positioning error is the most important performance index of a satellite navigation system. The positioning precision is mainly determined by the track forecasting precision, the navigation parameter measuring precision, the geometric amplification factor of the navigation parameter measuring precision and the user dynamic characteristic measuring precision. The orbit prediction precision is mainly influenced by an earth gravitational field model and other orbit perturbation forces; the measurement accuracy of the navigation parameters is mainly influenced by the performance of satellites and user equipment, signal refraction in an ionosphere, a troposphere, multipath and other error factors, and the geometric amplification factor of the navigation parameters is determined by a geometric relation graph between the satellites and the user positions during positioning; the dynamic characteristic measurement accuracy of the user refers to the measurement accuracy of the heading, the navigational speed and the antenna height of the user during positioning.

In the prior art, for large field events such as off-road events, management is always a complicated and complicated matter, and carelessness causes great potential safety hazards, and particularly, deployment of managers for different segmental tracks is very important.

In order to overcome the defects, the invention builds a block chain management system for action triggering, and can effectively solve the corresponding technical problem.

Fig. 1 is a schematic structural diagram of a blockchain management system for action triggering according to an embodiment of the present invention, where the system includes:

and the bottom aerial view mechanism is arranged at the bottom of the cruising aircraft and is used for completing one-time overhead shooting operation on the lower off-road track when the received current flight height is equal to the set flight height and the information matching signal is received so as to obtain a bottom aerial view image.

Next, a further description of a specific structure of the block chain management system for action triggering according to the present invention is continued.

In the block chain management system for action triggering, further comprising:

and the mark detection device is connected with the bottom aerial view mechanism and used for detecting the segmented mark targets of all the off-road tracks in the bottom aerial view image and performing segmented operation on the bottom aerial view image based on the positions of all the segmented mark targets in the bottom aerial view image so as to obtain all the imaging sub-pictures respectively corresponding to all the segmented tracks of the off-road tracks in the bottom aerial view image.

In the block chain management system for action triggering, the method further includes:

the personnel extraction device is connected with the identification detection device and used for detecting the quantity of personnel in the imaging sub-picture corresponding to each segmented track of the off-road track in the bottom aerial view image to serve as a real-time analysis number;

the numerical analysis device is connected with the personnel extraction device and used for accumulating the real-time analysis number corresponding to each segmented track of the off-road track in the bottom aerial view image to serve as an accumulated personnel number, and determining the quantity of workers distributed to each segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated personnel number;

the automatic driving component is arranged on the cruise aircraft, is respectively connected with the field navigation component and the block chain management component, and is used for determining the current flight strategy of the cruise aircraft based on the difference value between the real-time navigation data and the preset navigation data so as to reduce the difference value between the real-time navigation data and the preset navigation data;

the content transceiving interface is arranged on the cruise aircraft, is in wireless connection with the ground control station of the off-road track, and is used for wirelessly transmitting the number of the workers distributed to each segmented track of the off-road track to the ground control station of the off-road track;

the field navigation component is arranged on the cruise aircraft and used for providing navigation information of the current position of the cruise aircraft to the cruise aircraft in real time to serve as real-time navigation data to be output;

the block chain management component is arranged at the wireless network end and used for pre-storing navigation information of the central position of the cross-country track as preset navigation data;

the parameter measuring component is arranged on the cruise aircraft, is connected with the bottom aerial view mechanism and is used for detecting the current flight height of the cruise aircraft;

the matching judgment mechanism is respectively connected with the bottom aerial view mechanism, the field navigation component and the block chain management component and is used for sending an information matching signal when the real-time navigation data is matched with the preset navigation data;

wherein, for each segmented track, determining the number of workers allocated to the segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated number of workers comprises: for each segmented track, the higher the proportion of the corresponding real-time analysis number occupying the accumulated staff number is, the more the determined staff number allocated to the segmented track is;

wherein, for each segmented track, determining the number of workers allocated to the segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated number of workers comprises: the total number of the workers respectively distributed to each segmented track is fixed;

wherein detecting segment identification targets of the respective off-road tracks in the bottom bird's-eye view image, and performing segment operation on the bottom bird's-eye view image based on the positions of the respective segment identification targets in the bottom bird's-eye view image to obtain respective imaging sprites corresponding to the respective segment tracks of the off-road tracks in the bottom bird's-eye view image comprises: and detecting the segmented identification targets of all off-road racing tracks in the bottom aerial view image based on the edge profiles of the segmented identification targets of the off-road racing tracks, and performing segmented operation on the bottom aerial view image based on the positions of the segmented identification targets in the bottom aerial view image to obtain imaging sub-pictures respectively corresponding to all the segmented racing tracks of the off-road racing tracks in the bottom aerial view image.

In the blockchain management system for action triggering:

the field display device, the personnel extraction device and the numerical analysis device are integrated on one integrated circuit board.

In the block chain management system for action triggering, the method further includes:

the video communication equipment is used for wirelessly sending a field image obtained by image acquisition of the environment where the personnel extraction device is located, and comprises a compression coding device used for carrying out MPEG-4 standard compression on the field image to obtain a compressed image.

In the block chain management system for action triggering, further comprising:

and the audio acquisition mechanism is positioned near the personnel extraction device and used for acquiring real-time audio data of the environment where the personnel extraction device is positioned in real time.

In the block chain management system for action triggering, further comprising:

and the radio frequency receiving mechanism is connected with the personnel extraction device and is used for receiving various operating parameters configured for the personnel extraction device.

In the blockchain management system for action triggering:

and the radio frequency receiving mechanism wirelessly receives various operating parameters configured for the personnel extraction device from a remote configuration server through a wireless communication link.

In the block chain management system for action triggering, the method further includes:

the HDMI transmission interface is arranged in the numerical analysis device and used for transmitting the internal data of the numerical analysis device to HDMI equipment connected with the HDMI transmission interface.

In the blockchain management system for action triggering:

the HDMI transmission interface inside the numerical analysis device includes a clock transmission line, a data transmission line, and a command transmission line.

In addition, in the block chain management system for action triggering, when the real-time navigation data matches the preset navigation data, sending an information matching signal includes: when the real-time navigation data is equal to or close to the preset navigation data, sending an information matching signal;

the matching judgment mechanism is further used for sending an information mismatch signal when the real-time navigation data is not matched with the preset navigation data;

wherein, the matching judgment mechanism is further configured to send an information mismatch signal when the real-time navigation data is not matched with the preset navigation data, and the information mismatch signal includes: the matching judgment mechanism is also used for sending an information mismatch signal when the real-time navigation data is far away from the preset navigation data.

By adopting the block chain management system for action triggering, aiming at the technical problem that the field large-scale events in the prior art cannot realize the fine control of each segmented track manager, the current personnel number of each segmented track of the field large-scale events can be detected on site, and the dynamic flexible allocation of a fixed number of managers in different segmented tracks is realized based on the total personnel number in each segmented track, so that the utilization rate of the event managers is improved.

The foregoing description of the exemplary embodiments of the invention has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations will become apparent to practitioners skilled in the art. The exemplary embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to understand the invention for various embodiments and with various modifications as are suited to the particular use contemplated. The scope of the invention is defined by the following claims and their equivalents.

Claims (8)

1. A blockchain management system for action triggering, the system comprising:

the bottom aerial view mechanism is arranged at the bottom of the cruise aircraft and used for completing one-time overhead shooting operation on the lower off-road track when the received current flight height is equal to the set flight height and the information matching signal is received so as to obtain a bottom aerial view image;

the identification detection device is connected with the bottom aerial view mechanism and is used for detecting segmented identification targets of all off-road tracks in the bottom aerial view image and performing segmented operation on the bottom aerial view image based on the positions of all the segmented identification targets in the bottom aerial view image so as to obtain imaging sub-pictures respectively corresponding to all the segmented tracks of the off-road tracks in the bottom aerial view image;

the personnel extraction device is connected with the identification detection device and used for detecting the quantity of personnel in the imaging sub-picture corresponding to each segmented track of the off-road track in the bottom aerial view image to serve as a real-time analysis number;

the numerical analysis device is connected with the personnel extraction device and used for accumulating the real-time analysis number corresponding to each segmented track of the off-road track in the bottom bird's-eye view image to serve as an accumulated personnel number, and determining the quantity of the workers distributed to each segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated personnel number;

the automatic driving component is arranged on the cruise aircraft, is respectively connected with the field navigation component and the block chain management component, and is used for determining the current flight strategy of the cruise aircraft based on the difference value between real-time navigation data and preset navigation data so as to reduce the difference value between the real-time navigation data and the preset navigation data;

the content transceiving interface is arranged on the cruise aircraft, is in wireless connection with the ground control station of the off-road track, and is used for wirelessly transmitting the number of the workers distributed to each segmented track of the off-road track to the ground control station of the off-road track;

the field navigation component is arranged on the cruise aircraft and used for providing navigation information of the current position of the cruise aircraft to the cruise aircraft in real time to serve as real-time navigation data to be output;

the block chain management component is arranged at the wireless network end and used for pre-storing navigation information of the central position of the cross-country track as preset navigation data;

the parameter measuring component is arranged on the cruise aircraft, is connected with the bottom aerial view mechanism and is used for detecting the current flying height of the cruise aircraft;

the matching judgment mechanism is respectively connected with the bottom aerial view mechanism, the field navigation component and the block chain management component and is used for sending an information matching signal when the real-time navigation data is matched with the preset navigation data;

wherein, for each segmented track, determining the number of workers allocated to the segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated number of workers comprises: for each segmented track, the higher the proportion of the corresponding real-time analysis number occupying the accumulated staff number is, the more the determined staff number allocated to the segmented track is;

wherein, for each segmented track, determining the number of workers allocated to the segmented track based on the proportion of the corresponding real-time analysis number occupying the accumulated number of workers comprises: the total number of the workers respectively distributed to each segmented track is fixed;

wherein detecting segment identification targets of each off-road course in the bottom bird's-eye view image, and performing a segmentation operation on the bottom bird's-eye view image based on the position of each segment identification target in the bottom bird's-eye view image to obtain each imaged sprite corresponding to each segment course of the off-road course in the bottom bird's-eye view image comprises: and detecting the segmented identification targets of all off-road tracks in the bottom aerial view image based on the edge profiles of the segmented identification targets of the off-road tracks, and performing segmentation operation on the bottom aerial view image based on the positions of the segmented identification targets in the bottom aerial view image so as to obtain imaging sub-pictures respectively corresponding to all the segmented tracks of the off-road tracks in the bottom aerial view image.

2. The blockchain management system for action triggering of claim 1 wherein:

the field display device, the personnel extraction device and the numerical analysis device are integrated on one integrated circuit board.

3. The blockchain management system for action triggering of claim 1, wherein the system further comprises:

the video communication equipment is used for wirelessly sending a field image obtained by image acquisition of the environment where the personnel extraction device is located, and comprises a compression coding device which is used for carrying out MPEG-4 standard compression on the field image to obtain a compressed image.

4. The blockchain management system for action triggering of claim 1, wherein the system further comprises:

and the audio acquisition mechanism is positioned near the personnel extraction device and is used for acquiring real-time audio data of the environment where the personnel extraction device is positioned in real time.

5. The blockchain management system for action triggering of claim 1, wherein the system further comprises:

and the radio frequency receiving mechanism is connected with the personnel extraction device and is used for receiving various operating parameters configured for the personnel extraction device.

6. The blockchain management system for action triggering of claim 5, wherein:

and the radio frequency receiving mechanism wirelessly receives various operating parameters configured for the personnel extraction device from a remote configuration server through a wireless communication link.

7. The blockchain management system for action triggering of claim 1, wherein the system further comprises:

the HDMI transmission interface is arranged in the numerical analysis device and used for transmitting the internal data of the numerical analysis device to HDMI equipment connected with the HDMI transmission interface.

8. The blockchain management system for action triggering of claim 7 wherein:

the internal HDMI transmission interface of the numerical analysis device comprises a clock transmission line, a data transmission line and a command transmission line.

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