CN107291751A - A kind of chronometer data information processing method and device - Google Patents

Abstract

The invention discloses a kind of chronometer data information processing method and device, its method includes：According to the inquiry request of user terminal, the chronometer data information that radio telescope is collected is obtained；According to the first preset algorithm, coded treatment is carried out to chronometer data information and obtains target data；Target data is sent to user terminal, so that user terminal carries out decoding process according to the second preset algorithm to target data obtains corresponding chronometer data information.The data processing centre of observatory is according to the inquiry request of user terminal in the present invention, sent after the chronometer data information coding that radio telescope is collected to user terminal, and then user terminal decodes it display, allow users to observe astronomical dynamic whenever and wherever possible, make the function of user terminal more diversified, Consumer's Experience is met to a certain extent.

Description

Astronomical data information processing method and device

Technical Field

The present invention relates to the field of communications, and in particular, to a method and an apparatus for processing astronomical data information.

Background

Along with the increasing development of scientific technology and the increasing living standard of people, the demands of people on the functions of mobile phones and other services are more and more abundant, astronomical fans are full of curious and strong desire for knowing the universe, and the vast universe space 'star-turning movement' can be observed at any time like astronomical experts. However, since the astronomical telescope is generally arranged at a special geographical position, when a user far away from the setting point of the astronomical telescope wants to watch an astronomical scene, the user can immediately go to the position where the astronomical telescope is located or the astronomical museum with certain difficulty. Therefore, the requirement that users watch astronomical scenes anytime and anywhere becomes a difficult problem to be solved in the prior art.

Disclosure of Invention

The invention provides an astronomical data information processing method and device, and solves the problem that astronomical scenes cannot be watched anytime and anywhere in the prior art.

According to an aspect of the present invention, there is provided an astronomical data information processing method, comprising:

acquiring astronomical data information acquired by a radio telescope according to a query request of a user terminal;

encoding astronomical data information according to a first preset algorithm to obtain target data;

and sending the target data to the user terminal so that the user terminal decodes the target data according to a second preset algorithm to obtain corresponding astronomical data information.

Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

The method for acquiring the astronomical data information collected by the radio telescope according to the query request of the user terminal comprises the following steps:

receiving a query request sent by a user terminal;

and acquiring astronomical data information acquired by the radio telescope within corresponding time according to the query time in the query request.

The method comprises the following steps of acquiring astronomical data information collected by the radio telescope within corresponding time according to query time in a query request, wherein the steps comprise:

when the query time in the query request is real-time, acquiring real-time astronomical data information acquired by the radio telescope in real time; or,

and when the query time in the query request is a historical time period, acquiring historical astronomical data information acquired by the radio telescope in the corresponding historical time period.

According to still another aspect of the present invention, there is also provided an astronomical data information processing method, comprising:

sending an inquiry request to an astronomical data processing center so that the astronomical data processing center acquires astronomical data information acquired by the radio telescope according to the inquiry request;

receiving target data sent by an astronomical data processing center; the target data is obtained by encoding astronomical data information by an astronomical data processing center according to a first preset algorithm;

and decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information.

Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

The method for receiving the target data sent by the astronomical phenomena data processing center comprises the following steps:

when the query time in the query request is real-time, the receiving astronomical data processing center carries out coding processing on real-time astronomical data information acquired by the radio telescope in real time according to a first preset algorithm to obtain and send target data; or,

and when the query time in the query request is a historical time period, the receiving astronomical data processing center performs coding processing on historical astronomical data information acquired by the radio telescope in the corresponding historical time period according to a first preset algorithm to obtain and send target data.

The step of decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information comprises the following steps:

and decoding the target data according to a second preset algorithm to obtain and display corresponding astronomical data information in real time.

According to still another aspect of the present invention, there is also provided an astronomical data information processing apparatus comprising:

the acquisition module is used for acquiring astronomical data information acquired by the radio telescope according to the query request of the user terminal;

the first processing module is used for coding the astronomical data information according to a first preset algorithm to obtain target data;

and the first sending module is used for sending the target data to the user terminal so that the user terminal decodes the target data according to a second preset algorithm to obtain corresponding astronomical data information.

Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

Wherein, the acquisition module includes:

a receiving unit, configured to receive an inquiry request sent by a user terminal;

and the acquisition unit is used for acquiring the astronomical data information acquired by the radio telescope within the corresponding time according to the query time in the query request.

Wherein, the acquisition unit includes:

the first acquisition subunit is used for acquiring real-time astronomical data information acquired by the radio telescope in real time when the query time in the query request is real-time; or,

and the second acquisition subunit is used for acquiring historical astronomical data information acquired by the radio telescope in the corresponding historical time period when the query time in the query request is the historical time period.

According to still another aspect of the present invention, there is also provided an astronomical data information processing apparatus comprising:

the second sending module is used for sending an inquiry request to the astronomical data processing center so that the astronomical data processing center can obtain astronomical data information collected by the radio telescope according to the inquiry request;

the receiving module is used for receiving target data sent by the astronomical phenomena data processing center; the target data is obtained by encoding astronomical data information by an astronomical data processing center according to a first preset algorithm;

and the second processing module is used for decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information.

Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

Wherein, the receiving module includes:

the first receiving unit is used for receiving target data which is obtained by coding and transmitted real-time astronomical data information acquired by the radio telescope in real time by the astronomical data processing center according to a first preset algorithm when the query time in the query request is real-time; or,

and the second receiving unit is used for receiving target data which is obtained by coding and processing historical astronomical data information acquired by the radio telescope in the corresponding historical time period by the astronomical data processing center according to a first preset algorithm and is sent when the query time in the query request is the historical time period.

Wherein, the second processing module includes:

and the processing unit is used for decoding the target data according to a second preset algorithm to obtain and display corresponding astronomical data information in real time.

The embodiment of the invention has the beneficial effects that:

the data processing center of the astronomical table encodes astronomical data information collected by the radio telescope according to an inquiry request of the user terminal and then sends the encoded astronomical data information to the user terminal, and then the user terminal decodes and displays the encoded astronomical data information, so that a user can observe astronomical dynamics at any time and any place, functions of the user terminal are diversified, and user experience is met to a certain extent.

Drawings

FIG. 1 is a flow chart of a method for processing astronomical data information according to a first embodiment of the present invention;

FIG. 2 is a schematic diagram of a network architecture of the present invention;

FIG. 3 is a flowchart of an astronomical data information processing method according to a third embodiment of the present invention;

FIG. 4 is a block diagram of an astronomical data information processing apparatus according to a fourth embodiment of the present invention;

fig. 5 is a block diagram of an astronomical data information processing apparatus according to a fifth embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Example one

As shown in fig. 1, an embodiment of the present invention provides an astronomical data information processing method, which specifically includes:

step 11: acquiring astronomical data information acquired by the radio telescope according to the query request of the user terminal.

When the user terminal side needs to inquire and watch astronomical dynamics, an inquiry request can be sent to a data processing center of the astronomical stage, and the data processing center can acquire corresponding astronomical data information acquired by the radio telescope according to the inquiry request. The data processing center is located at a national relevant astronomical table and at a signal output end of the radio telescope, the data processing center is an entity with a processing function such as a processor or a server, an image processing device, special integrated hardware and software are arranged in the data processing center, and an authority gateway is arranged in the data processing center, so that astronomical data information can be transmitted to a user terminal, and real-time transmission is realized. Radio telescope (radio telescope) is a basic device for observing and researching radio waves from a celestial body, and can measure parameters such as radio intensity, frequency spectrum and polarization of the celestial body. The radio telescope includes: directional antenna for collecting radio wave, high-sensitivity receiver for amplifying radio wave signal, data information recording, processing and displaying system, etc. From the radio telescope to the data processing center is ultra-wideband information transmission.

Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation. The astronomical data information is four-dimensional information, the radio telescope can automatically generate trillion real-time images of four-dimensional constellations and transmit the images to the data processing center in real time, and the data processing center stores the data into a database according to time intervals for subsequent query and calling. The astronomical data information comprises three-dimensional image information of a real-time celestial body acquired by the radio telescope and time dimension information of acquisition time, so that the confidentiality, uniqueness and exclusivity of the astronomical data information are improved.

Step 12: and according to a first preset algorithm, encoding the astronomical data information to obtain target data.

Because the data volume collected by the radio telescope is very large, in order to ensure that the data can be quickly transmitted and provide the real-time performance of the whole system, the data processing center needs to encode and compress the data to be transmitted before the data transmission, which can also be called as encryption processing. It is noted that any algorithm capable of encoding and compressing astronomical data information can be applied to the present embodiment.

Step 13: and sending the target data to the user terminal.

The data processing center transmits the encoded target data to the user terminal, and specifically, the data processing center may transmit the target data to the user terminal through a relay station such as an operator core network or other service providing network, and a specific network architecture is shown in fig. 2. After receiving the target data, the user terminal decodes the target data according to a second preset algorithm to obtain corresponding astronomical data information, so that the user can watch astronomical dynamics at any time and any place, user requirements are met, and user experience is improved.

Example two

Based on the first embodiment, the following embodiment further introduces the astronomical data information processing method of the present invention with reference to specific application scenarios.

Specifically, step 11 specifically includes: receiving a query request sent by a user terminal; and acquiring astronomical data information acquired by the radio telescope within corresponding time according to the query time in the query request.

Here, the query request sent by the user terminal carries the astronomical dynamic time that the user desires to query, that is, the user can set the query time range according to the user's own needs. Specifically, when the query time in the query request is real-time, acquiring real-time astronomical data information acquired by a radio telescope in real time; namely, when the user terminal does not input specific time or inputs the current time, the data processing center forwards the currently received real-time astronomical data information collected by the radio telescope to the user terminal. Or when the query time in the query request is a historical time period, acquiring historical astronomical data information acquired by the radio telescope in the corresponding historical time period; that is, when the user terminal inputs a specific time range, the data processing center searches for corresponding historical astronomical data information according to the time range and forwards the historical astronomical data information to the user terminal, for example: and inquiring the celestial body motion state corresponding to three points in the afternoon of March ten to five points in the afternoon of March ten, so that the data processing center can search the astronomical data information required by the user more pertinently and send the astronomical data information to the user terminal.

In conclusion, the data processing center can acquire astronomical data information in a corresponding time period according to the specific query time of the user terminal and send the astronomical data information to the user terminal, so that a user can check the corresponding celestial body motion state according to the need of the user, and the user experience is improved.

EXAMPLE III

The above first embodiment and the second embodiment describe the astronomical data information processing method of the present invention from the data processing center side, and the following embodiment further describes the astronomical data information processing method at the user terminal side with reference to the accompanying drawings and specific application scenarios.

As shown in fig. 3, the astronomical data information processing method comprises:

step 31: and sending a query request to the data processing center of the astronomical table.

When the user terminal side needs to inquire and watch astronomical dynamics, an inquiry request can be sent to a data processing center of an astronomical stage, so that the data processing center can acquire corresponding astronomical data information acquired by the radio telescope according to the inquiry request. Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation. The astronomical data information is four-dimensional information, the radio telescope can automatically generate trillion real-time images of four-dimensional constellations and transmit the images to the data processing center in real time, and the data processing center stores the data into a database according to time intervals for subsequent query and calling. The astronomical data information comprises three-dimensional image information of a real-time state of an astronomical body acquired by a radio telescope and time dimension information of acquisition time, and system identification can be carried out in a mode of a response verification code in a permitted crown interacted between a user terminal and a data processing center so as to improve confidentiality, uniqueness and exclusivity of the system.

Step 32: and receiving target data sent by the astronomical data processing center.

The target data is obtained by encoding astronomical data information by the astronomical data processing center according to a first preset algorithm. The data processing center transmits the encoded target data to the user terminal, and specifically, the data processing center may transmit the target data to the user terminal through a relay station such as an operator core network or other service providing network.

Step 33: and decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information.

And decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information, and displaying the astronomical data information in real time so that a user can watch the corresponding celestial motion state at any time. Because the data volume collected by the radio telescope is very large, in order to ensure that the data can be quickly transmitted and provide the real-time performance of the whole system, the data processing center needs to encode and compress the data to be transmitted before the data transmission, which can also be called as encryption processing. Therefore, the target data received by the user terminal is a piece of encoded data, which cannot be used directly, and therefore, it is necessary to perform decoding processing on the encoded data to generate corresponding astronomical data information. It is worth pointing out that the second predetermined algorithm is the inverse of the first predetermined algorithm.

Specifically, step 32 specifically includes: when the query time in the query request is real-time, the receiving astronomical data processing center carries out coding processing on real-time astronomical data information acquired by the radio telescope in real time according to a first preset algorithm to obtain and send target data; or when the query time in the query request is a historical time period, the receiving astronomical data processing center encodes historical astronomical data information collected by the radio telescope in the corresponding historical time period according to a first preset algorithm to obtain and transmits target data. When the user terminal does not input specific time or inputs the current time, the data processing center forwards the currently received real-time astronomical data information collected by the radio telescope to the user terminal; when the user terminal inputs a specific time range, the data processing center searches for corresponding historical astronomical data information according to the time range and forwards the historical astronomical data information to the user terminal, for example: and inquiring the celestial body motion state corresponding to three points in the afternoon of March ten to five points in the afternoon of March ten, so that the data processing center can search the astronomical data information required by the user more pertinently and send the astronomical data information to the user terminal.

In addition, in the permission gateway where the user terminal interacts with the data processing center, a payment service mechanism can be added, for example, astronomical data information of some important areas or time periods is used as charging information, and when the user terminal needs to check the information, payment is needed according to an agreed charging mechanism.

In conclusion, the user terminal sends an inquiry request to the data processing center of the astronomical table according to the self requirement, the data processing center codes the corresponding astronomical data information collected by the radio telescope according to the inquiry request and then sends the coded astronomical data information to the user terminal, and then the user terminal decodes and displays the coded astronomical data information, so that a user can observe astronomical dynamics at any time and any place, the functions of the user terminal are diversified, and the user experience is met to a certain extent.

Example four

As shown in fig. 4, according to still another aspect of the embodiments of the present invention, there is also provided an astronomical data information processing apparatus, including:

an obtaining module 41, configured to obtain, according to a query request of a user terminal, astronomical data information acquired by a radio telescope;

the first processing module 42 is configured to perform encoding processing on the astronomical data information according to a first preset algorithm to obtain target data;

and the first sending module 43 is configured to send the target data to the user terminal, so that the user terminal decodes the target data according to a second preset algorithm to obtain corresponding astronomical data information.

Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

Wherein, the acquisition module includes:

a receiving unit, configured to receive an inquiry request sent by a user terminal;

and the acquisition unit is used for acquiring the astronomical data information acquired by the radio telescope within the corresponding time according to the query time in the query request.

Wherein, the acquisition unit includes:

the first acquisition subunit is used for acquiring real-time astronomical data information acquired by the radio telescope in real time when the query time in the query request is real-time; or,

and the second acquisition subunit is used for acquiring historical astronomical data information acquired by the radio telescope in the corresponding historical time period when the query time in the query request is the historical time period.

It should be noted that the apparatus is an apparatus corresponding to the above-mentioned astronomical data information processing method, and all implementation manners in the above-mentioned method embodiments are applicable to the embodiment of the apparatus, and the same technical effects can be achieved.

EXAMPLE five

As shown in fig. 5, according to still another aspect of the embodiments of the present invention, there is also provided an astronomical data information processing apparatus, including:

the second sending module 51 is configured to send an inquiry request to the astronomical data processing center, so that the astronomical data processing center obtains astronomical data information acquired by the radio telescope according to the inquiry request;

a receiving module 52, configured to receive target data sent by an astronomical data processing center; the target data is obtained by encoding astronomical data information by an astronomical data processing center according to a first preset algorithm;

and the second processing module 53 is configured to perform decoding processing on the target data according to a second preset algorithm to obtain corresponding astronomical data information.

Wherein, the astronomical data information at least comprises: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

Wherein, the receiving module includes:

the first receiving unit is used for receiving target data which is obtained by coding and transmitted real-time astronomical data information acquired by the radio telescope in real time by the astronomical data processing center according to a first preset algorithm when the query time in the query request is real-time; or,

and the second receiving unit is used for receiving target data which is obtained by coding and processing historical astronomical data information acquired by the radio telescope in the corresponding historical time period by the astronomical data processing center according to a first preset algorithm and is sent when the query time in the query request is the historical time period.

Wherein, the second processing module includes:

and the processing unit is used for decoding the target data according to a second preset algorithm to obtain and display corresponding astronomical data information in real time.

It should be noted that the apparatus is an apparatus corresponding to the above-mentioned astronomical data information processing method, and all implementation manners in the above-mentioned method embodiments are applicable to the embodiment of the apparatus, and the same technical effects can be achieved.

While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims.

Claims (16)

1. An astronomical data information processing method, comprising:

acquiring astronomical data information acquired by a radio telescope according to a query request of a user terminal;

according to a first preset algorithm, encoding the astronomical data information to obtain target data;

and sending the target data to the user terminal so that the user terminal decodes the target data according to a second preset algorithm to obtain corresponding astronomical data information.

2. The astronomical data information processing method of claim 1, wherein said astronomical data information comprises at least: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

3. The astronomical data information processing method according to claim 1 or 2, wherein the step of acquiring the astronomical data information collected by the radio telescope according to the inquiry request of the user terminal comprises:

receiving a query request sent by a user terminal;

and acquiring astronomical data information acquired by the radio telescope within corresponding time according to the query time in the query request.

4. The astronomical data information processing method of claim 3, wherein the step of acquiring astronomical data information collected by the radio telescope within a corresponding time according to the query time in the query request comprises:

when the query time in the query request is real-time, acquiring real-time astronomical data information acquired by the radio telescope in real time; or,

and when the query time in the query request is a historical time period, acquiring historical astronomical data information acquired by the radio telescope in the corresponding historical time period.

5. An astronomical data information processing method, comprising:

sending an inquiry request to an astronomical data processing center so that the astronomical data processing center acquires astronomical data information acquired by a radio telescope according to the inquiry request;

receiving target data sent by the astronomical phenomena data processing center; the target data is obtained by the astronomical data processing center by coding the astronomical data information according to a first preset algorithm;

and decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information.

6. The astronomical data information processing method of claim 5, wherein said astronomical data information comprises at least: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

7. The astronomical data information processing method according to claim 5 or 6, wherein the step of receiving target data transmitted from the astronomical data processing center comprises:

when the query time in the query request is real-time, receiving target data obtained and sent by the astronomical data processing center through coding processing of real-time astronomical data information acquired by the radio telescope in real time according to a first preset algorithm; or,

and when the query time in the query request is a historical time period, receiving target data which is obtained by coding and processing historical astronomical data information acquired by the radio telescope in the corresponding historical time period by the astronomical data processing center according to a first preset algorithm and is sent.

8. The astronomical data information processing method of claim 7, wherein the step of decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information comprises:

and decoding the target data according to a second preset algorithm to obtain and display corresponding astronomical data information in real time.

9. An astronomical data information processing apparatus, comprising:

the acquisition module is used for acquiring astronomical data information acquired by the radio telescope according to the query request of the user terminal;

the first processing module is used for coding the astronomical data information according to a first preset algorithm to obtain target data;

and the first sending module is used for sending the target data to the user terminal so that the user terminal decodes the target data according to a second preset algorithm to obtain corresponding astronomical data information.

10. The astronomical data information processing apparatus according to claim 9, wherein said astronomical data information comprises at least: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

11. The astronomical data information processing apparatus according to claim 9 or 10, wherein the acquisition module comprises:

a receiving unit, configured to receive an inquiry request sent by a user terminal;

and the acquisition unit is used for acquiring the astronomical data information acquired by the radio telescope within the corresponding time according to the query time in the query request.

12. The astronomical data information processing apparatus according to claim 11, wherein said acquisition unit comprises:

the first acquisition subunit is used for acquiring real-time astronomical data information acquired by the radio telescope in real time when the query time in the query request is real-time; or,

and the second acquisition subunit is used for acquiring historical astronomical data information acquired by the radio telescope in the corresponding historical time period when the query time in the query request is the historical time period.

13. An astronomical data information processing apparatus, comprising:

the second sending module is used for sending an inquiry request to an astronomical data processing center so that the astronomical data processing center can obtain astronomical data information collected by the radio telescope according to the inquiry request;

the receiving module is used for receiving the target data sent by the astronomical data processing center; the target data is obtained by the astronomical data processing center by coding the astronomical data information according to a first preset algorithm;

and the second processing module is used for decoding the target data according to a second preset algorithm to obtain corresponding astronomical data information.

14. The astronomical data information processing apparatus according to claim 13, wherein said astronomical data information comprises at least: a three-dimensional stereo image of an astronomical constellation and a time of acquisition of the three-dimensional stereo image of the astronomical constellation.

15. The astronomical data information processing apparatus according to claim 13 or 14, wherein the reception module comprises:

the first receiving unit is used for receiving target data which is obtained by coding and transmitted real-time astronomical data information acquired by the astronomical data processing center in real time according to a first preset algorithm when the query time in the query request is real-time; or,

and the second receiving unit is used for receiving target data which is obtained by coding and processing historical astronomical data information acquired by the radio telescope in the corresponding historical time period by the astronomical data processing center according to a first preset algorithm and is sent when the query time in the query request is the historical time period.

16. The astronomical data information processing apparatus of claim 15, wherein said second processing module comprises:

and the processing unit is used for decoding the target data according to a second preset algorithm to obtain and display corresponding astronomical data information in real time.