CN117973786A - Space-earth resource sharing service platform, storage medium and computer device - Google Patents
Space-earth resource sharing service platform, storage medium and computer device Download PDFInfo
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Abstract
The invention relates to the fields of satellite ground equipment, advanced satellite platforms and the like in satellite and application industries, in particular to an air-space resource sharing service platform, a storage medium and a computer device. The space-space resource sharing service platform of the invention comprises: the ground resource management module is used for adding corresponding equipment into the equipment resource pool; the empty natural gift source management module is used for adding the corresponding empty natural gift source into an empty natural gift source pool; the demand acceptance matching module is used for receiving the resource demand input by the resource demand party, searching the equipment resources and/or the aerospace resources matched with the resource demand in the equipment resource pool and/or the aerospace resource pool, and feeding the information of the matched equipment resources and/or aerospace resources back to the resource demand party. The invention is characterized in that: and integrating various resources in the current commercial aerospace market, wherein a resource owner can obtain corresponding rewards by sharing the resources, and a resource user can complete satellite measurement, operation and control tasks with lower threshold and cost.
Description
Technical Field
The invention relates to the fields of satellite ground equipment, advanced satellite platforms and the like in satellite and application industries, in particular to an air-space resource sharing service platform, a storage medium and a computer device.
Background
The aerospace field in China is in a rapid development stage, a ground measurement and control system manages various on-orbit spacecrafts with total value of hundreds of billions, a national space laboratory with larger scale and long-term human participation is built, and multi-star networking operation of navigation constellation is realized. Along with the increase of the number of spacecrafts and the rapid increase of space data, the importance of solving the problems related to low space resource utilization rate, and mismatching of requirements and resources is increasingly remarkable.
Existing space resources (including satellite resources, equipment resources and data resources) are often scattered and distributed in various enterprises or individuals, and the situation that resources are idle or the utilization rate is not high can occur. And a resource requiring party really having the requirement of measurement and control cannot realize the requirement due to the lack of satellites or equipment. Therefore, a space resource service platform is needed to complete space resource integration and satellite measurement, operation and control demand acceptance.
Disclosure of Invention
First, the technical problem to be solved
The present invention is intended to solve at least partially one of the above technical problems.
(II) technical scheme
The first aspect of the present invention provides an air-space resource sharing service platform, comprising:
The ground resource management module is used for receiving the equipment information and the resource provider information input by the resource provider and adding corresponding equipment into the equipment resource pool;
The empty natural gift source management module is used for receiving empty natural gift source information and resource provider information input by a resource provider and adding a corresponding empty natural gift source into an empty natural gift source pool;
The demand acceptance matching module is used for receiving the resource demand input by the resource demand party, searching equipment resources and/or space resources matched with the resource demand in the equipment resource pool and/or space resource pool, and feeding the information of the matched equipment resources and/or space resources back to the resource demand party;
and the demand transaction module is used for receiving the confirmation information of the resource demand party and locking the corresponding equipment resources and/or space resources.
In some embodiments of the present invention, the device information and the null natural gift source information each include: resource interface information.
In some embodiments of the present invention, the device information and the null natural gift source information each include: available time period information; in the demand acceptance matching module, the resource demand includes: demand period information; and the demand transaction module is used for receiving the confirmation of the resource demand party, locking the corresponding time period of the corresponding equipment resource and/or the space resource, and updating the available time period information in the equipment resource pool and/or the space resource pool.
In some embodiments of the invention, further comprising: the data resource management module is used for receiving the data resource information and the resource provider information input by the resource provider and adding corresponding data resources into the data resource pool; the demand acceptance matching module is further used for receiving the resource demand input by the resource demand party, searching the data resources matched with the resource demand in the data resource pool, and feeding the information of the matched data resources back to the resource demand party.
In some embodiments of the invention, the resource provider information includes: vendor name, contact means.
In some embodiments of the present invention, the device information, the null natural gift source information, and the data resource information all include: charging mode information and/or charging standard information.
In some embodiments of the invention, in the demand acceptance matching module, retrieving the match includes: automatic matching and manual selection by the resource demander.
In some embodiments of the invention, further comprising: the contract management module is used for receiving and storing electronic version contracts uploaded by the platform provider, wherein the electronic version contracts are contracts signed by the platform provider and the resource provider and are used for standardizing rights obligations of the platform provider and the resource provider; before contract signing, corresponding equipment in the equipment resource pool, corresponding space resources in the space natural gift source pool and corresponding data in the data resource pool are in non-retrievable matching states; the ground resource management module is used for updating corresponding equipment in the equipment resource pool into a state which can be searched and matched by the supply and demand acceptance module after the contract is signed; the blank natural gift source management module is used for updating corresponding blank natural gift sources in the blank natural gift source pool into a state which can be searched and matched by the demand acceptance module after the contract is signed; and the data resource management module is used for updating corresponding data in the data resource pool into a state which can be searched and matched by the supply and demand acceptance module after the contract is signed.
In some embodiments of the invention, further comprising; progress prompt module for: ① Prompting progress information of a pooling process and/or contract signing to a resource provider, and sending information of progress change and current stage to the resource provider when the progress change occurs; ② And prompting the progress information of demand acceptance matching and/or demand bargaining to the resource demand party, and sending the progress change and the current-stage information to the resource demand party when the progress change occurs.
In some embodiments of the present invention, the ground resource management module is configured to receive an instruction of revocation or information modification of a device input by a resource provider, and perform a corresponding operation on a corresponding device in the device resource pool if the corresponding device is not locked.
In some embodiments of the present invention, the null natural gift source management module is configured to receive a revocation or information modification instruction of a null resource input by a resource provider, and execute a corresponding operation on a corresponding null natural gift source in the null resource pool when the null resource is not locked.
In some embodiments of the present invention, the data resource management module is configured to receive an instruction of revocation of a data resource or modification of information input by a resource provider, and perform a corresponding operation on a corresponding data resource in the data resource pool.
In some embodiments of the present invention, in the data resource management module, the data resource is one or more of: telemetry data, data transfer files, non-cooperative target data, track root data, wherein: when the data is telemetry data, the data resource information includes one or more of the following: satellite name, satellite Norad number, telemetry start time, telemetry end time; when data is data, the data resource information comprises one or more of the following: satellite name, satellite Norad number, load start working time, load end working time, remote sensing target, resolution; when the data is non-cooperative target data, the data resource information includes one or more of the following: data home company, satellite name, satellite Norad number, observation start time, observation end time; when the data is track root data, the data resource information comprises one or more of the following: the data attribution company, the satellite name, the satellite Norad number, the epoch time and the satellite orbit number; in the demand acceptance matching module, the resource demand related to the resource demand of the data resource comprises one or more of the following: demand name, data type, data range, whether to pay, satellite Norad number.
In some embodiments of the present invention, in the air natural gift source management module, the air-to-air resources are one or more of: satellite, unmanned aerial vehicle and airship; when the space resource is a satellite, the space natural gift source information includes one or more of the following: satellite name, satellite picture or satellite model, satellite Norad number, satellite emission time, satellite design life, satellite function, satellite-to-ground communication frequency band, satellite-to-ground communication protocol; when the aerospace resource is an unmanned aerial vehicle or an airship, the air natural gift source information comprises one or more of the following: name, resource picture or model, communication protocol, design life; and/or in the demand acceptance matching module, the resource demand of the resource demander about the aerospace resource comprises one or more of the following: demand name, demand level, task type, demand type, wherein: the demand level is divided into: the common level, the importance level and the highest level correspond to different charging standards; for satellites, the task types include: telemetry tasks, remote control tasks and data transmission tasks, wherein each task provides a hosting mode and a transparent transmission mode for a resource demander to select, and in the hosting mode, services of telemetry analysis and instruction processing are provided on a service platform; for an unmanned aerial vehicle or airship, the task types include: telemetry tasks, investigation tasks, formation flight tasks; the demand types include: and managing the demand and the use demand, wherein when the resource demand party selects the management demand, the selection range is all empty natural gift sources of the resource demand party, and when the resource demand party selects the use demand, the selection range is all empty space resources.
In some embodiments of the invention, in the ground resource management module, the device is a radar device or an optical device, wherein: when the device is a radar device, the device information includes one or more of the following: radar equipment name, frequency band, radar equipment picture or model, radar equipment caliber, interface protocol, available period; when the device is an optical device, the device information includes one or more of the following: observing the track type, vertical half angle, horizontal half angle, azimuth angle, pitch angle, longitude and latitude height, field height, whether a lens is fixed or not, and the available time period; in the demand acceptance matching module, the demand of the resource demand party on the ground resource comprises one or more of the following: demand name, demand level, constraint, wherein: the demand level is divided into: general level, emergency level and very emergency level, and different levels correspond to different charging standards; constraints include one or more of the following: solar altitude, cloud cover, resolution, acquisition time period and longitude and latitude height of a target.
A second aspect of the present invention provides a computer-readable storage medium storing computer instructions that, when executed by a processor, implement an air-to-ground resource sharing service platform as above.
A second aspect of the present invention provides a computer apparatus comprising: a memory; and a processor, electrically coupled to the memory, configured to execute instructions stored in the memory, implementing the space-time resource sharing service platform as described above.
(III) beneficial effects
As can be seen from the technical scheme, compared with the prior art, the invention has at least one of the following beneficial effects:
(1) Before contract signing, the corresponding equipment in the equipment resource pool, the corresponding space resources in the space natural gift source pool and the corresponding data in the data resource pool are in an irretrievable matching state. After the contract is signed, the corresponding equipment, the space resources and the data resources are updated to be in a state that the corresponding equipment, the space resources and the data resources can be searched and matched by the demand acceptance module. Through the measures, on one hand, the resource suppliers are prompted to truly, accurately and fully enter the resource information, and on the other hand, the basis is provided for the subsequent disputes. In this embodiment, the platform side and the resource provider need to sign corresponding contracts, and the platform side can display corresponding resources to the outside to solicit resource demand sides.
(2) Through resource sharing, each party realizes mutual benefit win-win: ① The resource provider can share the resources through the platform, so that own idle resources can obtain real benefits, and economic benefits are improved; ② Resource users can use resources through the platform, so that satellite measurement, operation and control tasks can be completed with lower threshold and cost, and the cost is reduced; ③ In the whole shared ecological system, the sharing utilization of resources is realized, the social cost is reduced, and the social welfare is improved.
(3) The invention provides filling of various resource interfaces in the resource pool entering stage, and the background completes the adaptation according to the access mode filled by the resource demand party, thereby ensuring the smooth use of the resources and enabling the platform to operate smoothly.
(4) In the demand acceptance matching module, the resource demand includes: demand period information; and the demand transaction module is used for receiving the confirmation of the resource demand party, locking the corresponding time period of the corresponding equipment resource and/or the space resource, and updating the available time period information in the equipment resource pool and/or the space resource pool. Through the measures, the resource demander is ensured to be capable of completing the work task.
(5) In conclusion, the space-earth resource sharing service platform can improve the space resource utilization rate, and a resource demand party can complete satellite measurement, operation and control tasks with lower threshold and cost. The platform supports various requirements of various resource demanders, opens up differential interfaces among different resources, and realizes the reciprocal sharing of aerospace resources.
Drawings
Fig. 1 is a schematic structural diagram of an air-ground resource sharing service platform according to an embodiment of the present invention.
FIG. 2 is a schematic diagram of a computer readable storage medium according to an embodiment of the invention.
FIG. 3 is a schematic diagram of a computer device according to an embodiment of the invention.
Detailed Description
The invention is characterized in that: various resources (including ground station equipment resources, satellite resources, unmanned aerial vehicle/airship resources, data resources and the like) in the current commercial aerospace market are integrated, a resource owner can obtain corresponding rewards by sharing the resources, and a resource user can complete satellite measurement, operation and control tasks with lower threshold and cost.
The present invention will be further described in detail below with reference to the accompanying drawings in order to make the objects, technical solutions and advantages of the present invention more apparent.
The first aspect of the invention provides an air-space resource sharing service platform. Fig. 1 is a schematic structural diagram of an air-ground resource sharing service platform according to an embodiment of the present invention. As shown in fig. 1, the space-to-ground resource sharing service platform of the present embodiment includes:
The ground resource management module 102 is configured to receive device information and resource provider information input by a resource provider, and add corresponding devices to the device resource pool;
the empty natural gift source management module 104 is configured to receive empty natural gift source information and resource provider information input by a resource provider, and add a corresponding empty natural gift source into an empty natural gift source pool;
a data resource management module 106, configured to receive data resource information and resource provider information input by a resource provider, and add corresponding data resources to the data resource pool;
The demand acceptance matching module 108 is configured to receive a resource demand input by a resource demand party, retrieve equipment resources, space resources and data matching the resource demand in the equipment resource pool, space resources pool and data resource pool, and feed back information of the matched equipment resources, space resources and data resources to the resource demand party;
The demand transaction module 110 is configured to receive acknowledgement information of a resource demander, and lock corresponding equipment resources, space resources, and data resources;
A contract management module 112, configured to receive and store an electronic version contract uploaded by a platform provider, where the electronic version contract is a contract made by the platform provider and a resource provider, and is used to normalize rights obligations of the two;
Progress prompt module 114 for: ① Prompting progress information of a pooling process and/or contract signing to a resource provider, and sending information of progress change and current stage to the resource provider when the progress change occurs; ② And prompting the progress information of demand acceptance matching and/or demand bargaining to the resource demand party, and sending the progress change and the current-stage information to the resource demand party when the progress change occurs.
In the present embodiment, three types of resources are involved, respectively:
① Ground resources, mainly ground station equipment, such as: radar devices, optical devices, etc.;
② Space-borne resources, mainly air resources, such as: satellite, unmanned aerial vehicle, airship, etc.;
③ Data resources, such as: telemetry data, data transfer files, non-cooperative target data, track root data, etc.
It should be noted that, in this embodiment, the ground resource, the null natural gift source and the data resource are related, and the application range is wider, but in other embodiments of the present invention, the data resource may not be included, only the ground resource and the null natural gift source may be included, and the present invention may be implemented as well, and is also within the protection scope of the present invention.
The following describes each component of the space-to-earth resource sharing service platform in this embodiment in detail.
Taking the device resource as an example, in the process of entering the resource into the pool, the resource provider needs to enter two aspects of contents: device information and vendor information. Wherein:
(1) The device information is used for matching the use requirement of the resource requiring party and judging whether the device can achieve the purpose of the device.
(2) The supplier information is used for contacting the platform side and the resource demand side with the resource provider under the condition that the equipment meets the demand of the resource demand side, negotiating business matters, and further enabling details of the equipment to be engaged in depth.
Similar to this, the explanation will not be repeated for the null natural gift source and data resource. The following describes the emphasis of the device information and the provider information in the present invention:
1. Contract with a user
In order to ensure proper operation of the platform, the rights obligation relation of each party needs to be clarified.
In this embodiment, the space-to-ground resource sharing service platform further includes: the contract management module is used for receiving and storing electronic version contracts uploaded by the platform provider, wherein the electronic version contracts are contracts signed by the platform provider and the resource provider and are used for standardizing rights obligations of the platform provider and the resource provider;
Before contract signing, the corresponding equipment in the equipment resource pool, the corresponding space resources in the space natural gift source pool and the corresponding data in the data resource pool are in an irretrievable matching state. And the ground resource management module is used for updating corresponding equipment in the equipment resource pool into a state which can be searched and matched by the supply and demand acceptance module after the contract is signed. And the blank natural gift source management module is used for updating the corresponding blank natural gift source in the blank natural gift source pool into a state which can be searched and matched by the demand accepting module after the contract is signed. And the data resource management module is used for updating corresponding data in the data resource pool into a state which can be searched and matched by the supply and demand acceptance module after the contract is signed.
Through the measures, on one hand, the resource suppliers are prompted to truly, accurately and fully enter the resource information, and on the other hand, the basis is provided for the subsequent disputes. In this embodiment, the platform side and the resource provider need to sign corresponding contracts, and the platform side can display corresponding resources to the outside to solicit resource demand sides.
It should be understood by those skilled in the art that, although the right obligation relation of each party is defined by using the contract in the present embodiment to avoid legal risk and ensure the normal operation of the platform, in other embodiments of the present invention, the contract management module may be omitted, and the present invention may still be implemented, except that the legal risk is slightly higher.
2. Charging information
In this embodiment, the device information, the null natural gift source information, and the data resource information all include: charging mode information and/or charging standard information. Through the charging information, the resource demander can pay the resource provider to introduce external resources to obtain the use right of the corresponding resources.
It should be noted that the resource provider and the resource demander are separate entities, which are not administrative or business affiliated. For each party, the other party is external. For the resource provider of ground resources and empty natural gift sources, the resource provider owns certain resources, but when a special task is executed, the resource provider is insufficient, and the cost for acquiring the required resources is high; in addition, the self-owned resources are not saturated in workload except for executing the work content, so that the resources are idle. While for data resources, some resource providers already have some resources, but the value of these resources is not fully realized, other resource requesters can better exploit the remaining value of these resources.
The invention aims at: ① The resource provider can share the resources through the platform, so that own idle resources can obtain real benefits, and economic benefits are improved; ② Resource users can use resources through the platform, so that satellite measurement, operation and control tasks can be completed with lower threshold and cost, and the cost is reduced; ③ In the whole shared ecological system, the sharing utilization of resources is realized, the social cost is reduced, and the social welfare is improved.
3. Interface information
In this embodiment, the device information and the null natural gift source information include: resource interface information.
The invention aims at integrating various resources in the market and can relate to the access problem of various resource interfaces. The invention provides filling of various resource interfaces in the resource pool entering stage, and the background completes the adaptation according to the access mode filled by the resource demand party, thereby ensuring the smooth use of the resources and enabling the platform to operate smoothly.
4. Available time period for device resources and space resources
For ground resources and aerospace resources, it involves the problem of a usable period. In other words, the resource needs to meet its own needs preferentially, and can be taken out for sharing in exchange for economic value. In addition, after the previous device demander occupies a certain period of time, this period of time cannot be provided to other resource demanders. Therefore, in this embodiment, the device information and the null natural gift source information include: available time period information.
In this embodiment, in the demand acceptance matching module, the resource demands include: demand period information; and the demand transaction module is used for receiving the confirmation of the resource demand party, locking the corresponding time period of the corresponding equipment resource and/or the space resource, and updating the available time period information in the equipment resource pool and/or the space resource pool. Through the measures, the resource demander is ensured to be capable of completing the work task.
5. Pooling of device resources
As described above, the device may be a radar device or an optical device.
When the device is a radar device, the device information further includes one or more of the following: radar device name, frequency band, radar device picture or model, radar device caliber, interface protocol, available time period
When the device is an optical device, the device information includes one or more of the following: observing orbit type, vertical half angle, horizontal half angle, azimuth angle, pitch angle, longitude and latitude height, field of view height, whether lens is fixed or not, available time period
The resource provider needs to fill in the interface protocol accessed by the device. The resource pool supports multiple access modes and can be adapted according to specific conditions of a resource provider. Meanwhile, the platform supports a remote monitoring interface function and is used for adapting equipment with the remote monitoring function.
The resource provider fills out the available device idle time period (single or multiple) according to the actual situation of the resource provider, and the device can be used for a resource pool in the time period after filling out. If the latter resource pool occupies a certain time period of the device to execute the task, the resource provider cannot modify the time period within 24 hours from the task execution;
after the equipment resource is initially input, a manager of the platform contacts a resource provider to verify the condition, corresponding quotation and contract signing are carried out after the verification is correct, then equipment interface docking is carried out, and finally the equipment resource is put into a pool. The platform provides progress bar display and message notification through the progress prompt module 114 during the entire pooling process, and the resource provider can acquire the equipment resource pooling progress at the first time.
It should be noted that, the ground resource management module is further configured to receive an instruction of revocation or information modification of a device input by a resource provider, and execute a corresponding operation on a corresponding device in the device resource pool when the corresponding device is not locked. The exception is that the device resources are occupied by the resource pool to execute the task, so the resources do not leave the pool within 24 hours after the occupation of the resources and before the execution of the task.
6. Demand entry and matching of ground resources
For equipment resources, the resource-requiring party's demand for terrestrial resources includes one or more of the following: demand name, demand level, constraint.
The demand level is generally classified into a general level, an emergency level and a very emergency level, and different levels correspond to different charging standards.
Taking remote sensing equipment as an example, a resource demand party fills in related constraint conditions including solar altitude, cloud cover, resolution, acquisition time period, longitude and latitude height of a target and the like. The longitude and latitude of each point in the drawing area can be automatically filled by directly clicking the point target on the map interface, and the area target can draw the target area by lines automatically; the resource demand party needs to select a satellite and equipment (optional) for specific execution tasks, the satellite and the equipment support manual selection and automatic matching, and the satellite resources and the equipment resources in the resource pool can be called;
And completing the demand submission by the resource demand party, and then carrying out resource matching on the demand by the platform, wherein if no resource can be matched, the resource demand party needs to modify the resubmitted demand. The whole acceptance process platform can have progress bar display and message notification through the progress prompt module 114, and the resource demand party can acquire the demand acceptance progress at the first time.
7. Pool entry of aerospace resources
Space-borne resources, mainly air resources, such as: satellite, unmanned aerial vehicle, airship, etc.
In the prior art, the space resources are all satellites, but in the invention, the space resources also comprise unmanned aerial vehicles and airships, wherein the unmanned aerial vehicles/airships can independently complete work tasks and can also complete work tasks together with related satellites.
7-1 Satellite
When the space resource is a satellite, the satellite information further comprises one or more of the following: satellite name, satellite picture or satellite model, satellite Norad number, satellite transmission time, satellite design life, satellite function, satellite-to-ground communication frequency band, satellite-to-ground communication protocol, satellite affiliation company, contact information, etc
During the process of entering the satellite resources into the pool, the resource provider needs to fill in satellite functions for the resource pool to use, including a telemetry function, a remote control function and a data transmission function (optional). Filling out related functions and uploading matched reference files, such as telemetry data processing outline, remote control instruction large table and the like. Meanwhile, satellite-ground communication frequency bands and communication protocols are required to be noted, so that satellite resources are convenient to use; the resource provider fills in the available satellite idle time period (single or multiple) according to the actual situation of the resource provider, and the satellites can be used for the resource pool in the time period after filling. If the latter resource pool occupies a certain time period of the satellite to execute the task, the resource provider cannot modify the time period within 24 hours from the task execution;
After the preliminary input of the satellite resources is completed, a manager of the platform contacts a resource provider to verify the condition, and after the verification, corresponding quotation and contract signing are carried out, and finally the entering of the satellite resources into a pool is completed. The platform can provide progress bar display and message notification through the progress prompt module 114 in the whole process of entering the pool, and the resource provider can acquire the satellite resource entering progress at the first time.
7-2 Unmanned aerial vehicle
When the aerospace resource is an unmanned aerial vehicle or an airship, the air natural gift source information comprises one or more of the following: name, resource picture or model, communication protocol, design life.
The considerations in the unmanned aerial vehicle resource pooling process are similar to the satellite resource pooling process and will not be repeated here.
It should be noted that, the null natural gift source management module is configured to receive a revocation or information modification instruction of the null resources input by the resource provider, and execute a corresponding operation on a corresponding null natural gift source in the null resource pool when the null resources are not locked. It is particularly noted that satellite resources or unmanned/airship resources are occupied by a pool of resources to perform a task, so that the resources do not leave the pool within 24 hours after the occupancy of the resources and before the task execution.
8. Demand entry and matching of aerospace resources
In the demand acceptance matching module, the resource demand of the resource demand party about the space-sky resource comprises one or more of the following: demand name, demand level, task type, demand type.
The resource demander fills in the basic information of the demand, including satellite use time period, demand name and demand level (different levels produce different quotations, and the different levels are classified into a common level, an important level and a highest level).
For satellites, the task types include: telemetry tasks, remote control tasks, data transmission tasks (optional). For an unmanned aerial vehicle or airship, the task types include: telemetry tasks, investigation tasks, formation flight tasks. Wherein each task type may select a managed mode or a transparent transmission mode. The managed mode platform can help to complete the services of telemetry analysis, instruction processing and the like, and the transparent transmission mode does not provide additional services. After the resource demand party determines the task type, the corresponding interface mode needs to be filled in, so that data transmission in the task process is facilitated.
The resource demand party needs to select the satellite and equipment for specific execution tasks, the management requirement on a satellite platform only supports the resource demand party to select own satellite, the use requirement on satellite load is supported, the resource management can select own satellite, the available satellites in a resource pool can also be automatically matched, the equipment demand supports manual selection and automatic matching, and the automatic matching can call other idle equipment in the resource pool
By completing the demand submission, the platform then performs resource matching on the demand, and if there is no matching resource, the resource demander needs to modify the resubmitted demand. The whole acceptance process platform can provide progress bar display and message notification through the progress prompt module 114, and the resource demand party can acquire the demand acceptance progress at the first time.
9. Pooling of data resources
The data resources are one or more of the following: telemetry data, data transfer files, non-cooperative target data, track root data, wherein:
telemetry data main parameters: data home company, satellite name, satellite Norad number, telemetry start time, telemetry end time, contact, etc.
Data transmission file main parameters: the data attribution company, satellite name, satellite Norad number, load start working time and load end working time, and for remote sensing satellite, remote sensing target, resolution, contact information and the like are also required to be filled in.
The main parameters of the non-cooperative target data include a data attribution company, a satellite name, a satellite Norad number, an observation start time, an observation end time, a contact mode and the like.
The main parameters of the orbit root data comprise a data attribution company, a satellite name, a satellite Norad number, epoch time, satellite orbit root number, contact information and the like;
The resource supplier can select free data or charge when uploading data resource, if the charge needs to fill in specific price, the corresponding charge needs to be paid when other resource demander downloads data; after the above, the resource demander needs to upload the data file, and then the data file is displayed in the data hall for other resource demanders to download.
10. Demand entry and matching of data resources
In the demand acceptance matching module, the resource demand of the resource demand party about the data resource comprises one or more of the following: demand name, data type, data range, whether to pay, satellite Norad number, data home company.
It should be noted that, the data resource management module is configured to receive an instruction of canceling a data resource or modifying information input by a resource provider, and perform a corresponding operation on a corresponding data resource in the data resource pool. Unlike empty natural gift sources and ground resources, there is no out-of-pool limit for data resources and the resource demand can optionally withdraw itself uploaded resources.
Thus, the description of the present embodiment is completed. As can be seen from the above description, the space-earth resource sharing service platform of the embodiment can improve the space resource utilization rate, and the resource demander can complete the satellite measurement, operation and control task with lower threshold and cost. The platform supports various requirements of various resource demanders, opens up differential interfaces among different resources, and realizes the reciprocal sharing of aerospace resources.
The second aspect of the present invention also provides a computer-readable storage medium. FIG. 2 is a schematic diagram of a computer readable storage medium according to an embodiment of the invention. As shown in fig. 2, in this embodiment, the computer readable storage medium stores computer instructions that, when executed by a processor, implement the space-to-ground resource sharing service platform of the above embodiment.
The third aspect of the present invention also provides a computer-readable device. FIG. 3 is a schematic diagram of a computer device according to an embodiment of the invention. As shown in fig. 3, in the present embodiment, the computer apparatus includes: a memory; and a processor, electrically coupled to the memory, configured to execute instructions stored in the memory, implementing the space-to-ground resource sharing service platform as above.
Thus, various embodiments of the present invention have been described. The present invention should be clearly recognized by those skilled in the art in light of the above description.
The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. Various component embodiments of the invention may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Physical implementations of hardware structures include, but are not limited to, physical devices including, but not limited to, transistors, memristors, DNA computers, singlechips, microprocessors, or Digital Signal Processors (DSPs).
The present invention can also be implemented as an apparatus or device program (e.g., a computer program and a computer program product) for performing a portion or all of the methods described herein. Such a program embodying the present invention may be stored on a computer readable medium, or may have the form of one or more signals. Such signals may be downloaded from an internet website, provided on a carrier signal, or provided in any other form.
The algorithms and displays presented herein are not related to any particular computer, virtual system, or other inherent device. Various general-purpose systems may also be used with the teachings herein. The required structure for a construction of such a system is apparent from the description above. In addition, the present invention is not directed to any particular programming language. It should be appreciated that the present invention can be implemented in a variety of programming languages, and the particular languages are described herein to provide a preferred embodiment of the invention.
It will be understood by those within the art that the word "comprising" does not exclude the presence of elements (or steps) not listed in a claim in the claims and in the description of the invention. The word "a" or "an" preceding an element (or step) does not exclude the presence of a plurality of such elements (or steps).
For some implementations, if not critical to the invention and well known to those of ordinary skill in the art, the detailed description is not provided in the drawings or text of the specification, as will be understood with reference to the related art. Moreover, the foregoing embodiments are provided merely for the purpose of illustrating the invention and are not to be construed as limiting the embodiments set forth herein. Furthermore, the above definitions of the elements and methods are not limited to the specific structures, shapes or modes mentioned in the embodiments, and may be simply modified or replaced by those of ordinary skill in the art.
Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure. However, the method of the invention should not be interpreted as reflecting the intention: the claimed invention requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. In addition, the embodiments can be mixed and matched with each other or other embodiments based on design and reliability, i.e. the technical features of different embodiments can be freely combined to form more embodiments. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.
The above embodiments are provided to illustrate the objects, technical means and advantageous effects of the present invention in detail, and it should be understood that the detailed description is intended to more clearly understand the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included in the scope of the present invention.
Claims (12)
1. An air-space resource sharing service platform, comprising:
The ground resource management module is used for receiving the equipment information and the resource provider information input by the resource provider and adding corresponding equipment into the equipment resource pool;
The empty natural gift source management module is used for receiving empty natural gift source information and resource provider information input by a resource provider and adding a corresponding empty natural gift source into an empty natural gift source pool;
The demand acceptance matching module is used for receiving the resource demand input by the resource demand party, searching equipment resources and/or space resources matched with the resource demand in the equipment resource pool and/or space resource pool, and feeding the information of the matched equipment resources and/or space resources back to the resource demand party;
and the demand transaction module is used for receiving the confirmation information of the resource demand party and locking the corresponding equipment resources and/or space resources.
2. The space-to-ground resource sharing service platform of claim 1, wherein,
The device information and the null natural gift source information each include: resource interface information; and/or
The device information and the null natural gift source information each include: available time period information; in the demand acceptance matching module, the resource demand includes: demand period information; the demand transaction module is used for receiving confirmation of the resource demand party, locking corresponding time periods of corresponding equipment resources and/or space resources, and updating available time period information in the equipment resource pool and/or space resource pool.
3. The space-to-ground resource sharing service platform of claim 1, wherein,
Further comprises: the data resource management module is used for receiving the data resource information and the resource provider information input by the resource provider and adding corresponding data resources into the data resource pool;
The demand acceptance matching module is further used for receiving the resource demand input by the resource demand party, searching the data resource matched with the resource demand in the data resource pool, and feeding the information of the matched data resource back to the resource demand party.
4. The space-time resource sharing service platform as claimed in claim 3, wherein,
The resource provider information includes: vendor name, contact means; and/or
The device information, the null natural gift source information and the data resource information all comprise: charging mode information and/or charging standard information; and/or
In the demand acceptance matching module, the search matching includes: automatic matching and manual selection by the resource demander.
5. The space-time resource sharing service platform as claimed in claim 3, wherein,
Further comprises: the contract management module is used for receiving and storing electronic version contracts uploaded by the platform provider, wherein the electronic version contracts are contracts signed by the platform provider and the resource provider and are used for standardizing rights obligations of the platform provider and the resource provider;
before contract signing, corresponding equipment in the equipment resource pool, corresponding space resources in the space natural gift source pool and corresponding data in the data resource pool are in an irretrievable matching state;
The ground resource management module is used for updating corresponding equipment in the equipment resource pool into a state which can be searched and matched by the supply and demand acceptance module after the contract is signed;
The blank natural gift source management module is used for updating corresponding blank natural gift sources in the blank natural gift source pool into a state which can be searched and matched by the demand acceptance module after the contract is signed;
and the data resource management module is used for updating corresponding data in the data resource pool into a state which can be searched and matched by the demand acceptance module after the contract is signed.
6. The space-time resource sharing service platform according to claim 3, further comprising;
Progress prompt module for:
① Prompting progress information of a pooling process and/or contract signing to a resource provider, and sending information of progress change and current stage to the resource provider when the progress change occurs;
② And prompting the progress information of demand acceptance matching and/or demand bargaining to the resource demand party, and sending the progress change and the current-stage information to the resource demand party when the progress change occurs.
7. The space-time resource sharing service platform as claimed in claim 3, wherein,
The ground resource management module is used for receiving an instruction of canceling equipment or modifying information input by a resource provider, and executing corresponding operation on corresponding equipment in the equipment resource pool under the condition that the corresponding equipment is not locked; and/or
The empty natural gift source management module is configured to receive an empty resource revocation or information modification instruction input by a resource provider, and execute a corresponding operation on a corresponding empty natural gift source in an empty resource pool under the condition that the empty resource is not locked; and/or
The data resource management module is used for receiving the instruction of canceling the data resource or modifying the information input by the resource provider, and executing corresponding operation on the corresponding data resource in the data resource pool.
8. The space-time resource sharing service platform as claimed in claim 3, wherein,
In the data resource management module, the data resource is one or more of the following: telemetry data, data transfer files, non-cooperative target data, track root data, wherein:
When the data is telemetry data, the data resource information includes one or more of the following: satellite name, satellite Norad number, telemetry start time, telemetry end time;
When the data is data transmission data, the data resource information comprises one or more of the following: satellite name, satellite Norad number, load start working time, load end working time, remote sensing target, resolution;
when the data is non-cooperative target data, the data resource information comprises one or more of the following: data home company, satellite name, satellite Norad number, observation start time, observation end time;
When the data is track root data, the data resource information comprises one or more of the following: the data attribution company, the satellite name, the satellite Norad number, the epoch time and the satellite orbit number;
in the demand acceptance matching module, the resource demand related to the resource demand of the data resource comprises one or more of the following: demand name, data type, data range, whether to pay, satellite Norad number.
9. The space-time resource sharing service platform according to any one of claim 1 to 8, wherein,
In the air natural gift source management module, the air space resources are one or more of the following: satellite, unmanned aerial vehicle and airship;
When the space resource is a satellite, the space natural gift source information includes one or more of the following: satellite name, satellite picture or satellite model, satellite Norad number, satellite emission time, satellite design life, satellite function, satellite-to-ground communication frequency band, satellite-to-ground communication protocol;
When the aerospace resource is an unmanned aerial vehicle or an airship, the air natural gift source information includes one or more of the following: name, resource picture or model, communication protocol, design life;
In the demand acceptance matching module, the resource demand of the resource demand party about the aerospace resource comprises one or more of the following: demand name, demand level, task type, demand type, wherein:
The demand level is divided into: the common level, the importance level and the highest level correspond to different charging standards;
For satellites, the task types include: telemetry tasks, remote control tasks and data transmission tasks, wherein each task provides a hosting mode and a transparent transmission mode for a resource demander to select, and in the hosting mode, services of telemetry analysis and instruction processing are provided on a service platform; for an unmanned aerial vehicle or airship, the task types include: telemetry tasks, investigation tasks, formation flight tasks;
the demand types include: and managing the demand and the use demand, wherein when the resource demand party selects the management demand, the selection range is all empty natural gift sources of the resource demand party, and when the resource demand party selects the use demand, the selection range is all empty space resources.
10. The space-time resource sharing service platform according to any one of claim 1 to 8, wherein,
In the ground resource management module, the equipment is radar equipment or optical equipment, wherein:
when the device is a radar device, the device information includes one or more of the following: radar equipment name, frequency band, radar equipment picture or model, radar equipment caliber, interface protocol, available period;
when the device is an optical device, the device information includes one or more of the following: observing the track type, vertical half angle, horizontal half angle, azimuth angle, pitch angle, longitude and latitude height, field height, whether a lens is fixed or not, and the available time period; in the demand acceptance matching module, the demand of the resource demand party on the ground resource comprises one or more of the following: demand name, demand level, constraint, wherein:
the demand level is divided into: general level, emergency level and very emergency level, and different levels correspond to different charging standards;
The constraints include one or more of the following: solar altitude, cloud cover, resolution, acquisition time period and longitude and latitude height of a target.
11. A computer readable storage medium storing computer instructions which, when executed by a processor, implement the space-to-earth resource sharing service platform of any one of claims 1 to 10.
12. A computer apparatus, comprising:
a memory; and
A processor, electrically coupled to the memory, configured to execute instructions stored in the memory, implementing the space-to-ground resource sharing service platform of any one of claims 1 to 10.
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090199192A1 (en) * | 2008-02-05 | 2009-08-06 | Robert Laithwaite | Resource scheduling apparatus and method |
US20150284109A1 (en) * | 2014-04-08 | 2015-10-08 | OMNI Consulting Solutions LLC | System and method for matching of space launch, satellite, and mission payload opportunities |
CN113157446A (en) * | 2021-04-09 | 2021-07-23 | 联通(广东)产业互联网有限公司 | Cloud edge cooperative resource allocation method, device, equipment and medium |
CN114219553A (en) * | 2021-11-18 | 2022-03-22 | 中国卫通集团股份有限公司 | Satellite transponder resource renting service platform system |
CN115879739A (en) * | 2023-02-02 | 2023-03-31 | 山东锋士信息技术有限公司 | Satellite remote sensing data resource customization service method and system |
-
2024
- 2024-02-04 CN CN202410153657.5A patent/CN117973786B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090199192A1 (en) * | 2008-02-05 | 2009-08-06 | Robert Laithwaite | Resource scheduling apparatus and method |
US20150284109A1 (en) * | 2014-04-08 | 2015-10-08 | OMNI Consulting Solutions LLC | System and method for matching of space launch, satellite, and mission payload opportunities |
CN113157446A (en) * | 2021-04-09 | 2021-07-23 | 联通(广东)产业互联网有限公司 | Cloud edge cooperative resource allocation method, device, equipment and medium |
CN114219553A (en) * | 2021-11-18 | 2022-03-22 | 中国卫通集团股份有限公司 | Satellite transponder resource renting service platform system |
CN115879739A (en) * | 2023-02-02 | 2023-03-31 | 山东锋士信息技术有限公司 | Satellite remote sensing data resource customization service method and system |
Non-Patent Citations (2)
Title |
---|
AL-BAYATI,等: "Partitioning and Selection of Data Consistency Mechanisms for Multicore Real-Time Systems", 《ACM TRANSACTIONS ON EMBEDDED COMPUTING SYSTEM》, vol. 18, no. 4, 31 August 2019 (2019-08-31), pages 35 * |
柴蓉,等: "基于效用优化的星地融合网络联合用户关联及资源块调度算法", 《电子学报》, vol. 51, no. 12, 31 December 2023 (2023-12-31), pages 3483 - 3495 * |
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