CN110580749A - Timing and pigeonry management equipment for carrier pigeon competition - Google Patents

Abstract

the invention provides timing and pigeonry management equipment for a carrier pigeon competition, which comprises an ultrahigh frequency electronic pigeon ring, a timing and management module and a timing and management module, wherein the ultrahigh frequency electronic pigeon ring is worn on the legs of a carrier pigeon to mark the carrier pigeon; and the first scanning component is configured on the carrier pigeon flying vehicle and used for determining the starting time of carrier pigeon flying through scanning the pigeon ring and providing longitude and latitude coordinates of the starting position. The line-passing scanning timing mode is a fair timing mode for improving carrier pigeon racing games, the accuracy of carrier pigeon racing results is improved, the defect that the traditional low-high frequency is induced by a touch panel is completely overcome, and the problem that the carrier pigeons are difficult to count and train and release implementation records in the prior art is solved due to the far-end reading characteristic of the ultrahigh radio frequency tag in the pigeonry management of the carrier pigeons.

Description

Timing and pigeonry management equipment for carrier pigeon competition

Technical Field

The invention relates to an accurate timing system for carrier pigeon competition, in particular to timing and pigeonry management equipment for carrier pigeon competition.

Background

The homing pigeon is one of the earliest ways for people to remotely transmit information, and the remote transmission information is replaced by radio as the era progresses, but the homing pigeon can be used as a sports competition by the people and is ranked according to the flying time of the homing pigeon, and the competition taking the homing pigeon as a sportsman needs a timing system for accurately distinguishing the time.

in the early stage, a mechanical mode is used, after a homing pigeon flies back to a touch pressure plate, time points are determined in a mechanical mode, the ranking is carried out according to the time points, when the number of the homing pigeons is huge, the manual timing mode cannot quickly and accurately reflect huge data, so that a timing system using a low-frequency radio frequency tag (LF RFID) for electronic induction (low frequency accounts for 90 percent and high frequency accounts for about 10 percent) is required to be used at present, the timing mode starts to become a main timing mode in all homing pigeon competitions, the timing system is limited by the induction mode, the reaction speed, the communication encryption protocol, the collision prevention algorithm … and the like of the timing system for the low-frequency radio frequency tag for years, the timing system is most importantly not fair, a large number of homing pigeons in the releasing competition fly out of the releasing cage, the flying time of the preceding and the succeeding homing pigeons is delayed to a certain extent, but the timing system for the low-frequency radio frequency tag, therefore, the timing of the takeoff of the singing gun is unified, which is very unfair, and needs to be improved in a better and fair way, and in addition to the technological progress, a plurality of new electronic cheating and competition cheating (cheating) often occur, so that a more accurate, fair and cheat-proof system is required to solve various problems in competition and pigeon training management.

The homing pigeons are trained in two modes, one is a private shed system, the other is a public shed system, the private shed system is small-scale domestication, most individuals are used as units, during a competition race, the homing pigeons are collected, ordered and recorded by people and then are caged, then the homing pigeons are transported in a long distance to a designated common pigeon placing place, the homing pigeons are placed in flight under the environmental condition that the homing pigeons can be placed in flight at a designated time, and each pigeon flies back to the original pigeonry to conduct timing race to determine the victory or defeat of the rank. The public shed system is the concept of professional competition, everyone gives own homing pigeons to a professional public shed in a centralized manner, the professional trainees are used for training in a unified manner, when the training is up to the standard and competition can be carried out, everyone is launched by a public shed owner to compete, the pigeons are also transported in a long distance to a designated place for flying, but the difference is that the homing pigeons fly back to the public shed together in a unified manner, so the private shed system is not comparable in number and scale, at present, more than 80% of competitions are almost used in public shed competitions, a low-frequency and high-frequency timing system is adopted in the past, so that problems are fascinated, the homing pigeons are remotely scanned by a low-frequency and high-frequency method from the links of collecting the pigeons, ordering, caging and transporting, the defects are fascinated, and the opened flying cages are uniformly used for starting time points of everyone when flying, so that the pigeons are extremely unfairrational and need to be reformed and solved.

disclosure of Invention

the invention provides timing and pigeon house management equipment for a carrier pigeon competition, and provides equipment capable of accurately recording the starting time, the position, the ending time and the position of the carrier pigeon flight.

In one possible implementation, a timing and pigeonhole management apparatus for a carrier pigeon race comprises: the ultrahigh frequency electronic pigeon ring is worn on the leg of a carrier pigeon to mark the carrier pigeon; and the first scanning component is configured on the carrier pigeon flying vehicle and used for determining the starting time of carrier pigeon flying through scanning the pigeon ring and providing longitude and latitude coordinates of the starting position.

In a possible implementation, a second scanning component is provided at the pigeon house for determining the end time of the carrier pigeon flight by scanning the pigeon loop and providing the latitude and longitude coordinates of the end entrance position.

In one possible implementation, the pigeon loops are configured with ultra high frequency radio frequency tags (UHF RFID).

in one possible implementation, the pigeon rings are configured with high frequency and ultra high frequency dual frequency radio frequency tags (HF & UHF RFID).

in a possible implementation manner, the system further comprises an industrial personal computer terminal, wherein the industrial personal computer terminal comprises: the system comprises a communication module, a high-precision satellite navigation module, a high-precision satellite time service module, an ultrahigh frequency radio frequency chip reader-writer and a central processing unit, wherein the communication module, the high-precision satellite navigation module, the high-precision satellite time service module and the ultrahigh frequency radio frequency chip reader-writer are respectively connected with the central processing unit and are subjected to management control; the high-precision satellite navigation module is used for acquiring the positioning of a caging transport vehicle, a flying vehicle and/or a pigeon house terminal point entrance, namely the longitude and latitude coordinates of the positioning; the high-precision satellite time service module is used for providing a high-precision time source for the system and correcting the time error of the system; the ultrahigh frequency radio frequency chip reader-writer is used for identifying and reading identification carrier pigeon information sent by the ultrahigh frequency electronic pigeon ring, calibrating a starting timestamp of carrier pigeon flight and an ending timestamp of carrier pigeon flight; the communication module is used for communicating with the far-end cloud distribution platform and sending the positioning longitude and latitude coordinates, the identification carrier pigeon information, the carrier pigeon flight starting time and the carrier pigeon flight ending time acquired by the first scanning component and the second scanning component to the cloud distribution platform.

In one possible implementation, the first scanning component and the second scanning component include scanning antennas.

In a possible implementation manner, the second scanning component further includes a plurality of short antennas with fixed lengths, the short antennas are arranged at the top end of the pigeon house wall, and the short antennas are arranged at fixed intervals; and the second scanning component determines the indoor positioning and the operation track description of the carrier pigeon house by scanning the ultrahigh frequency electronic pigeon ring.

According to the timing and pigeonry management equipment for the carrier pigeon competition, disclosed by the embodiment of the invention, the equipment is configured on the first scanning component of the carrier pigeon flying vehicle, the scanning pigeon ring determines the flying starting time and flying starting point coordinates of the carrier pigeon, the line passing timing mode is adopted to improve the fair timing mode of carrier pigeon competition and flying competition, and the accuracy of carrier pigeon competition and flying competition results is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

Figure 1 shows a block diagram 1 of a carrier pigeon competition timing and pigeonry management apparatus according to an embodiment of the invention;

fig. 2 shows a schematic view 1 of a scene of a timing and pigeonry management apparatus for a carrier pigeon competition according to an embodiment of the invention;

figure 3 shows a block diagram 2 of a carrier pigeon competition timing and pigsty management apparatus according to an embodiment of the invention;

Fig. 4 shows a schematic view of a scene 2 of a timing and pigsty management device for a carrier pigeon competition according to an embodiment of the invention.

Detailed Description

Various exemplary embodiments, features and aspects of the present invention will be described in detail below with reference to the accompanying drawings. In the drawings, like reference numbers can indicate functionally identical or similar elements. While the various aspects of the embodiments are presented in drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used exclusively herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

the term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the term "at least one" herein means any one of a plurality or any combination of at least two of a plurality, for example, including at least one of A, B, C, and may mean including any one or more elements selected from the group consisting of A, B and C.

furthermore, in the following detailed description, numerous specific details are set forth in order to provide a better understanding of the present invention. It will be understood by those skilled in the art that the present invention may be practiced without some of these specific details. In some instances, methods, procedures, components, and circuits that are well known to those skilled in the art have not been described in detail so as not to obscure the present invention.

Fig. 1 shows a block diagram 1 of a timing and pigeonry management apparatus for a carrier pigeon competition according to an embodiment of the invention. As shown in fig. 1, the timing and pigeonhole management apparatus for a carrier pigeon race comprises: the ultrahigh frequency electronic pigeon ring 110 is worn on the leg of a carrier pigeon to mark the carrier pigeon; a first scanning component 120 configured to be placed on the carrier pigeon flying car for determining the starting time of the carrier pigeon flying by scanning the pigeon loop and providing the longitude and latitude coordinates of the starting position.

In this implementation, the pigeon ring may be worn on the foot of the carrier pigeon for recording the information of the carrier pigeon, and the information of the carrier pigeon may include the identification information of the carrier pigeon and the number of the carrier pigeon, that is, the identification information of each carrier pigeon and the number of the carrier pigeon are recorded during the competition of the carrier pigeon, and the starting time of the carrier pigeon in flight.

In one possible implementation, the first scanning component 120 and the second scanning component 130 include scanning antennas. In a specific use process, the scanning antenna can be installed on the side surface of the flying cage 21, and can scan left and right in a working process, when a homing pigeon passes through the exit of the flying cage 21, the first scanning component 120 can acquire the pigeon ring identifier configured on the foot of the homing pigeon, and further acquire the identity and number of the homing pigeon and the starting time of the homing pigeon flying.

The scanning antenna can be arranged at the top end of the entrance of the pigeon house 22 and can scan downwards in the working process so as to determine the state of the entrance of the pigeon house 22, namely whether a carrier pigeon flies back to the pigeon house; the second scanning unit 130, which is disposed at the pigeon house 22, scans the pigeon loop to determine the time when the carrier pigeon flies.

in one possible implementation, the uhf electronic pigeon loop is configured with an uhf radio frequency tag.

In the implementation mode, the far-end reading characteristic of an ultrahigh frequency radio frequency tag (UHF RFID) is utilized, so that the problem that the homing pigeons are difficult to count and train and play in the pigeon house to implement the management requirement of recording is solved, each homing pigeon in the pigeon house can be scanned and identified, the number is accurate, and the information of each homing pigeon can be distinguished, because the pigeon house entrance scanning mode is adopted, the training and playing implementation of the homing pigeons not only has the number but also has the individual display and record of the scores, and meanwhile, the real-time condition can be sent to the owner of the homing pigeons through the distribution platform 23 so as to conveniently and timely know the conditions of raising, training and playing.

In the implementation mode, the timing of the homing pigeon competition and the pigeon house management equipment completely adopt a line-crossing scanning timing mode, the defect that the traditional low and high frequencies are sensed by a touch panel is completely overcome, and the management requirement problem that the homing pigeons in the pigeon houses are difficult to count and perform training and releasing implementation record in the prior art is solved because the far-end reading characteristic of the ultra-high frequency radio frequency tags (UHFRFID) is adopted in the management of the homing pigeons.

in one possible implementation, the uhf electronic pigeon loop is configured with a high-frequency and an uhf radio-frequency dual-frequency tag.

In the implementation mode, a pigeon ring of the timing and pigeon house management equipment for the homing pigeon competition adopts a high-frequency and ultrahigh-frequency dual-frequency radio frequency tag (HF & UHF RFID), so that when a pigeon is collected, checked and recorded and caged before the competition, customized scanning encryption equipment is not needed, the pigeon can be completed only by using a smart phone, the existing smart phone is almost provided with a Near Field Communication (NFC) system in a standard mode, and a communication protocol used by the NFC is compatible with the high-frequency radio frequency tag, so that the near field communication system of the mobile phone can read the information of the dual-frequency pigeon ring, the pigeon can be completed only by using the smart phone without using customized equipment in the pigeon collecting, checking and recording and caging processes, and the usability of the timing and pigeon house management equipment for the homing pigeon competition is greatly improved by the system; therefore, in the aspects of timing systems and pigeon house management, the ultrahigh frequency radio frequency chip is adopted to partially scan, the usability of the system is greatly improved, and the popularization of the ultrahigh frequency radio frequency timing system is easier.

fig. 2 shows a schematic view of a scene of a timing and pigeonry management apparatus for a carrier pigeon competition according to an embodiment of the invention; as shown in fig. 2, the flying vehicle 24 is loaded with a plurality of flying cages 21 for loading the homing pigeons and transporting the homing pigeons to the position of the flight starting point, the exit of the flying cage 21 is provided with a scanning antenna, the starting time of each homing pigeon can be recorded when the homing pigeons fly out of the flying cage through the exit, the ending time of each homing pigeon can be recorded when the homing pigeons finish flying and fly back to the pigeon house 22 of the terminal point through the entrance, and the flight time can be determined according to the starting time and the ending time. In another implementation, both the launch vehicle 24 and the terminal pigeon house 22 are equipped with an industrial personal computer terminal 140 for communication, positioning, timing, distance, and speed calculations.

in a possible implementation manner, the timing device for pigeon racing configured to put the flying car 24 further includes an industrial personal computer terminal 140, where the industrial personal computer terminal 140 includes: the system comprises a communication module, a high-precision satellite navigation module, a high-precision satellite time service module, an ultrahigh frequency radio frequency chip reader-writer and a central processing unit, wherein the communication module, the high-precision satellite navigation module, the high-precision satellite time service module and the ultrahigh frequency radio frequency chip reader-writer are respectively connected with the central processing unit and are subjected to management control;

The high-precision satellite navigation module is used for acquiring the positioning of a caging transport vehicle, a flying vehicle and/or a pigeon house terminal point entrance, namely the longitude and latitude coordinates of the positioning;

The high-precision satellite time service module is used for providing a high-precision time source for the system and correcting the time error of the system;

The ultrahigh frequency radio frequency chip reader-writer is used for identifying and reading identification carrier pigeon information sent by the ultrahigh frequency electronic pigeon ring, calibrating a starting timestamp of carrier pigeon flight and an ending timestamp of carrier pigeon flight;

The communication module is used for communicating with the far-end cloud distribution platform and sending the positioning longitude and latitude coordinates, the identification carrier pigeon information, the carrier pigeon flight starting time and the carrier pigeon flight ending time acquired by the first scanning component and the second scanning component to the cloud distribution platform.

in this implementation manner, fig. 3 shows a block diagram 2 of the timing and pigeon house management device for the homing pigeon competition according to the embodiment of the present invention, as shown in fig. 3, the industrial personal computer terminal 140 may be used for the caging transportation and flying car 24 part, and communicates with the main racing field and the background cloud at the far end in a wireless manner by using the communication module, so as to transmit the information of the homing pigeon (i.e. the identity and number of the homing pigeon), the high-positioning longitude and latitude coordinates and the accurate time of the flying line passing through to the cloud distribution platform for distribution, display, encrypted storage, and transmit the competition control encryption key to write in and check various states of the racing pigeon.

The high-precision satellite time service module provides a high-precision time source for the system, so that the time error of the system is corrected within a high-precision range, the precise time source ensures the time fairness and the precision when the line inductance is passed, the core foundation of the whole timing competition system is the core significance of the patent, the inaccurate unfair timing competition system for the traditional singing gun running is completely changed, each vehicle does not need to be simultaneously released, the vehicles can be released in batches, and the situation that the competition score is influenced due to the fact that the vehicles are simultaneously released in large batches is avoided.

As an example, in the use scenario where the industrial personal computer terminal 140 is used for raising and managing homing pigeons, the communication module can be used to communicate with the near-end main racing field (and large screen display system) and the background cloud in a wireless or wired manner to transmit the information of the homing pigeons (i.e. the identities and numbers of the homing pigeons) and the accurate time of passing the lines and entering the shelter to the background distribution platform 23 for distribution, display, encrypted storage, and transmit the competition control encryption keys to write in and check various states of the racing pigeons and perform remote encryption, more importantly, it provides no dead angle scanning in the pigeons, so that the number, information, indoor positions and indoor movement tracks of the homing pigeons during the training period can be identified at any time and recorded and distributed, and this set of system provides complete data of all the achievements and states during the training period, not only can each pigeon owner can completely and instantly master the full-disc situation of self-raising (including self-raising) through the distribution system, and through big data analysis of the cloud, training analysis can be conducted to guide, even early screening can be conducted, and carrier pigeons which do not reach the standard are eliminated, so that resource and money waste is avoided, the training and management mode of the carrier pigeons is completely changed, training becomes transparent, physicochemical, datamation and scientific, and the long-term training of the carrier pigeons is thoroughly reformed and updated. The high-precision satellite time service module provides a high-precision time source for the system, so that the time error of the system is corrected within a high-precision range, the precise time source ensures the time fairness and the precision when the passing line is sensed in the shed, and the precise time source required by indoor positioning is provided to complete positioning calculation. The high-precision satellite navigation module in the industrial control machine terminal 140 in the implementation mode can adopt an external high-precision satellite navigation module with a USB interface, so that the pigeon house entrance can be positioned and locked independently without a host.

In the implementation mode, the pigeon rings can be worn on the feet of the homing pigeons, because the system adopts an ultrahigh frequency and/or high frequency radio frequency tag (UHF & HF RFID) communication technology, the information of the homing pigeons is written into the radio frequency tags of the homing pigeons, each radio frequency tag of the homing pigeons corresponds to a unique ID code, and the radio frequency tags of the homing pigeons are attached to the pigeon rings or are arranged in the body of the pigeon rings, so that the tracking and the management of the homing pigeons are realized, and the information recorded by the pigeon rings is used as the basis in the management and the match of pigeon houses of the homing pigeons.

In a possible implementation manner, the second scanning component further includes several short antennas 131 with fixed length, the short antennas 131 are disposed at the top end of the wall of the pigeon house 22, and the short antennas 131 are disposed at fixed intervals; the second scanning component 130 determines the indoor location and trajectory of the pigeon house 22 by scanning the uhf electron pigeon loop 110. Fig. 4 is a schematic view of a scene 2 of a timing and pigeonry management device for a pigeon racing game according to an embodiment of the present invention, as shown in fig. 4, short antennas 131 with fixed lengths are laid indoors along the top of the wall of each pigeonry 22, the length and the distance of each short antenna 131 are fixed, so that the plane coordinates of each short antenna 131 can be marked (X, Y), any uhf electronic pigeon ring 110 in the pigeonry 22 can be set to L1 or L2, the uhf electronic pigeon ring L1 or L2 is scanned by any three short antennas 131, and a time difference such as t1 can be obtained through any three short antennas 131 through very precise time service message calculation; t 2; t3 or t 4; t 5; t6, therefore, three lengths can be calculated, so that the coordinate of the UHF electronic pigeon ring L1 or L2 can be calculated, the higher the time precision is, the higher the positioning precision is, so that the plane position of each UHF electronic pigeon ring can be calibrated, the change of each position is connected to trace points, the running plane track can be displayed, the track of the indoor motion of each homing pigeon where each homing pigeon is located can be very easily found, the living state of each homing pigeon can be intelligently analyzed after a large amount of data are recorded, the reference is provided for the main feeding of the pigeons, and the searching work of each famous homing pigeon after the homing competition of the homing pigeons is solved, thereby saving a large amount of manpower and time.

the timing and pigeon house management device for the carrier pigeon competition provided by the invention adopts a line-passing scanning timing mode to improve a fair timing mode of the carrier pigeon competition, improves the accuracy of the result of the carrier pigeon competition, completely eliminates the defect that the traditional low-high frequency touch panel is used for induction, solves the problem that the carrier pigeons are difficult to count and determine the positions of the carrier pigeons in the pigeon house and carry out training and playing recording management requirements due to the far-end reading characteristic of an ultrahigh-frequency radio frequency label in the management of the pigeon house, can scan and identify each carrier pigeon in the pigeon house and carry out positioning of the position in the pigeon house, is accurate in quantity and can distinguish the information, the position and the indoor action track of each carrier pigeon, and the training and playing implementation of the carrier pigeons has the display and recording of quantity and performance due to the adoption of a pigeon house entrance scanning mode.

The flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present invention. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of instructions, which comprises one or more executable instructions for implementing the specified logical function(s). In some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (7)

1. A timing and pigeonhole management apparatus for a carrier pigeon race, comprising:

The ultrahigh frequency electronic pigeon ring is worn on the leg of a carrier pigeon to mark the carrier pigeon;

And the first scanning component is configured on the carrier pigeon flying vehicle and used for determining the starting time of the carrier pigeon flying by scanning the ultrahigh frequency electronic pigeon loop and providing longitude and latitude coordinates of the starting position.

2. A timing and pigeonhole management apparatus for a carrier pigeon competition according to claim 1, further comprising:

And the second scanning component is configured at the pigeon house and used for determining the flight ending time of the carrier pigeon by scanning the ultrahigh frequency electronic pigeon ring and providing longitude and latitude coordinates of the destination entrance position.

3. a timing and pigeonhole management apparatus for a carrier pigeon competition according to claim 1,

The ultrahigh frequency electronic pigeon ring is provided with an ultrahigh frequency radio frequency tag.

4. The system of claim 1,

The ultrahigh frequency electronic pigeon ring is provided with a high-frequency and ultrahigh frequency dual-frequency radio frequency tag.

5. A timing and pigeon house management device for a carrier pigeon game according to any one of claims 1-4, further comprising an industrial computer terminal, wherein said industrial computer terminal comprises: the system comprises a communication module, a high-precision satellite navigation module, a high-precision satellite time service module, an ultrahigh frequency radio frequency chip reader-writer and a central processing unit, wherein the communication module, the high-precision satellite navigation module, the high-precision satellite time service module and the ultrahigh frequency radio frequency chip reader-writer are respectively connected with the central processing unit and are managed and controlled by the central processing unit;

The high-precision satellite navigation module is used for acquiring the positioning of a caging transport vehicle, a flying vehicle and/or a pigeon house terminal point entrance, namely the longitude and latitude coordinates of the positioning;

The high-precision satellite time service module is used for providing a high-precision time source for the system and correcting the time error of the system;

The ultrahigh frequency radio frequency chip reader-writer is used for identifying and reading identification carrier pigeon information sent by the ultrahigh frequency electronic pigeon ring, calibrating a starting timestamp of carrier pigeon flight and an ending timestamp of carrier pigeon flight;

The communication module is used for communicating with the far-end cloud distribution platform and sending the positioning longitude and latitude coordinates, the identification carrier pigeon information, the carrier pigeon flight starting time and the carrier pigeon flight ending time acquired by the first scanning component and the second scanning component to the cloud distribution platform.

6. A timing and pigeonry management apparatus for a carrier pigeon competition according to claim 1, characterised in that:

The first and second scanning components include scanning antennas.

7. a timing and pigeonry management apparatus for a carrier pigeon competition according to claim 1, characterised in that: the second scanning component also comprises a plurality of short antennas with fixed lengths, the short antennas are arranged at the top end of the pigeon house wall, and the short antennas are fixedly arranged at intervals;

And the second scanning component determines the indoor positioning and the operation track description of the carrier pigeon house by scanning the ultrahigh frequency electronic pigeon ring.