KR20160073114A - Method and System for Processing Satellite Image - Google Patents

Abstract

The present invention relates to a method and a system for processing a satellite image. The method according to the present invention includes a step of receiving satellite data, a step of converting the received satellite data into predetermined user data format, and a step of distributing the converted satellite data to a user terminal. According to the present invention, the satellite image data from a satellite is quickly and accurately processed so that it can be distributed to domestic and foreign users.

Description

TECHNICAL FIELD [0001] The present invention relates to a satellite image processing method and system,

The present invention relates to a satellite image processing method and system, and more particularly, to a satellite image processing method and system capable of quickly and accurately receiving and processing satellite image data from satellites and distributing the satellite image data to users at home and abroad.

In general, satellites are classified into low orbit orbit, satellite orbiting satellite and geostationary orbit satellite depending on the orbit around the Earth. Of these, geostationary satellites are located at 36,000 km above the equator, You can observe the weather on the earth by revolving around the earth. Geostationary satellites can always observe the same place on the earth, and geostationary satellite reception antennas are always fixed in the same direction, and can be used to monitor and predict the change of weather by continuously observing cloud movements and weather conditions. have.

Satellite images observed from geostationary satellites can be used as inputs for various research activities after preprocessing.

However, since satellite images include three-dimensional spatial information, there is a great difficulty in providing a convenient monitoring image to a user due to the fact that the capacity of data is very large.

In addition, there are many limitations in the method of analyzing and distributing satellite images, and there is a problem that ordinary users can not access and utilize them.

Korean Patent Publication No. 2004-0017604 (published on Feb. 27, 2004)

Accordingly, an object of the present invention is to provide a satellite image processing method and system capable of quickly and accurately receiving and processing satellite image data from satellites and distributing the satellite image data to domestic and foreign users.

Further, the present invention includes other objects that can be achieved from the construction of the present invention described later, in addition to the objects explicitly mentioned.

According to an aspect of the present invention, there is provided a satellite image processing method including receiving satellite image data, converting the received satellite image data into a predetermined user data format, And causing the video data to be distributed to the user terminal.

The converting of the received satellite image data into a predetermined user data format may include dividing the received satellite image data into segment file units, and transmitting the divided satellite image data to a Low Rate Information Transmission (LRIT) Or a High Rate Information Transmission (HRIT) format.

Wherein the step of distributing the converted satellite image data to a user terminal includes the steps of causing the satellite image data to be transmitted to a plurality of receiving stations via a satellite, and transmitting the satellite image data to the user terminal To be distributed.

The step of causing the plurality of receiving stations to distribute the satellite image data to the user terminal includes dividing the plurality of receiving stations into at least one group according to a predetermined service level, And distributing the satellite image data to the user terminal according to a multicasting method.

And compressing the converted satellite image data.

The satellite image data may be compressed with lossy or lossless image compression techniques.

And encoding the converted satellite image data.

The satellite image data may be encrypted with a data encryption technique.

Meanwhile, the satellite image processing system according to an embodiment of the present invention receives satellite image data, converts the received satellite image data into a predetermined user data format, and distributes the converted satellite image data to a user terminal And a satellite image distributing device.

The satellite image distribution apparatus divides the received satellite image data into segment file units and transmits the divided satellite image data to a low rate data transmission (LRIT) or a high rate data transmission (HRIT: High Rate Information Transmission) format . ≪ / RTI >

The satellite image distribution apparatus may cause the converted satellite image data to be transmitted to a plurality of reception stations via a satellite and distribute the satellite image data to the user terminals at the plurality of reception stations.

Wherein the satellite image distribution apparatus divides the plurality of receiving stations into at least one group according to a predetermined service level and distributes the satellite image data to the user terminal according to a multicasting method corresponding to at least one group divided .

The satellite image distribution apparatus can compress the converted satellite image data.

The satellite image distribution apparatus can encrypt the converted satellite image data.

As described above, according to the satellite image processing method and system according to the embodiment of the present invention, it is possible to quickly and accurately receive and process satellite image data from satellites and distribute it to users at home and abroad.

More specifically, the satellite image data is converted into a user data format suitable for distribution, and it can be continuously transmitted to domestic and foreign users 24 hours a day, 365 days a year. The satellite image data is divided into segment file units, There is an advantage that it can be transmitted to the user quickly.

In addition, there is an advantage that the satellite image data can be selectively compressed to transmit large-capacity satellite image data, and the RF resources can be efficiently used.

In addition, it is possible to transmit the satellite image data of the same kind to all the receiving stations through the encryption scheme, and to provide the differential service by dividing the receiving stations into groups.

Also, based on the scheduling, the satellite image data can be automatically distributed without the administrator's intervention, and the administrator can support the monitoring of the operation status of the satellite image processing system in real time through the distribution status and the real- .

On the other hand, the effects of the present invention are not limited to those described above, and other effects that can be derived from the constitution of the present invention described below are also included in the effects of the present invention.

1 is a block diagram of a satellite image processing system according to an embodiment of the present invention.
2 is a flowchart illustrating a satellite image processing process according to an exemplary embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

1 is a block diagram of a satellite image processing system according to an embodiment of the present invention.

1, the satellite image processing system 1 includes a satellite transmission / reception device 100, a preprocessing device 200, and a satellite image distribution device 300. As shown in FIG.

The satellite transceiver apparatus 100 includes an antenna, an up / down converter, a modem / BB, a signal amplifier (SSPA), and the like, and is capable of transmitting / receiving various information and data to / have.

More specifically, the satellite transmission / reception device 100 receives the raw image data observed from the weather and ocean payload of the satellite 10 and transmits the raw image data to the preprocessing device 200, To the satellite 10 for distribution to domestic and international users.

The preprocessing apparatus 200 can generate satellite image data by correcting the raw image data.

More specifically, the preprocessing apparatus 200 receives the original image data from the satellite transceiver 100 and performs copy correction, and can correct the radiation-corrected original image data by geometric correction. Radiation correction is the conversion of observed data from meteorological and maritime payloads into quantitative physical quantities that can be used for actual research and can be used to identify the electrical signals (Digital Count or Digital Number) Radiance is the process of turning. Geometric Calibration compensates for distorted data due to a variety of causes, such as the position of the satellite 10 located above the equator, the spherical Earth's surface, satellite thermal deformation, or satellite attitude control characteristics to match the original latitude and longitude coordinates .

In this way, the preprocessing apparatus 200 can generate the satellite image data (Level 1B) by combining the auxiliary image data with the original image data subjected to the radiation correction and the geometric correction.

The satellite image distribution apparatus 300 can convert the satellite image data generated by the preprocessing apparatus 200 into a predetermined user data format.

More specifically, the satellite image distributing apparatus 300 divides the large-capacity satellite image data being generated in real time into segment file units in order to quickly distribute the generated satellite image data to the user, and distributes the divided satellite image data to the LRIT (Low Rate Information Transmission) or High Rate Information Transmission (HRIT) format. For example, according to the capacity of the satellite image data and the purpose of use, the satellite image data of all the high-resolution channels are converted into the HRIT format at a high speed of about 6 Mbps, and the satellite image data, numerical forecast model, typhoon information, Additional information such as operational messages can be converted to an LRIT format at a low rate of approximately 512 kbps.

In this way, the satellite image distributing apparatus 300 converts the satellite image data and the additional information into a user data format suitable for image distribution according to schedule, image quality, etc., Distribution.

The satellite image distributing apparatus 300 may selectively compress or encrypt the satellite image data.

More specifically, the satellite image distribution apparatus 300 may selectively perform an uncompressed, lossless, or lossless image compression scheme according to a predetermined distribution service policy in order to quickly transmit large-capacity satellite image data and efficiently use the RF resources . Here, the lossy image compression technique is a compression method that does not match the original data before loss of compression due to loss of some data when the compressed data is decompressed again. The lossy image compression technique is used for intentionally damaging the data to increase the compression rate The lossy image compression technique is used to restore the original state without damaging the data when the compressed data is reconstructed again. It is mainly used to reduce the size of the file and to facilitate storage and movement.

The lossy or lossless image compression technique can be performed based on JPEG (Joint Photographic Experts Group) or JPEG2000. JPEG is one of the international standards for still image compression and decompression. JPEG2000 is a still and moving image compression technique. It is a high resolution image compression technology that compresses pixels approximately 10 times smaller than the resolution of existing digital images. It says.

The satellite image distribution apparatus 300 can compress the satellite image data using a data encryption technique.

More specifically, the satellite image distributing apparatus 300 can compress satellite image data using a DES (Data Encryption Standard) scheme or a Triple DES (TDES) scheme. Here, the DES or Triple DES (TDES) technique is based on ECB (Electronic Codebook). ECB mode is a basic usage mode in which message data of a plaintext is independently encrypted for each block. The encryption method is divided into blocks and each of them is encrypted. DES is a block cipher adopted by the US Bureau of Standards in 1977 as a standard. Each block of the plaintext is 64 bits long, the key is 64 bits, the cipher text is 64 bits encryption, and the Triple DES technique is a 64 bit block , Encrypting the result again with a second key, and encrypting the result with a first key or a completely different key.

The satellite image distribution apparatus 300 allows all the receiving stations to receive the same kind of satellite image data with an encryption key configuration according to a predetermined distribution service policy.

The satellite image distribution apparatus 300 can distribute the converted satellite image data to the plurality of user terminals 50a to 50n.

More specifically, the satellite image distributing apparatus 300 allows the converted satellite image data to be transmitted to the plurality of receiving stations 30a to 30n via the satellite 10, and transmits satellite image data from the plurality of receiving stations 30a- Data can be distributed to the plurality of user terminals 50a to 50n. At this time, if the plurality of receiving stations 30a to 30n transmit the satellite image data to a plurality of transmitting stations (not shown), the plurality of transmitting stations transmit the satellite image data to the corresponding user terminals 50a to 50n .

The satellite image distributing apparatus 300 divides a plurality of receiving stations 30a to 30n into at least one group according to a predetermined service level and distributes the satellite image data to the user 300 according to a multicasting method corresponding to at least one divided group. And distributed to the terminals 50a to 50n. That is, the satellite image distribution apparatus 300 can divide a plurality of receiving stations 30a to 30n into first to n-th groups and multicast to provide differentiated services according to the first to n-th divided groups . For example, in the first group, one satellite image data may be transmitted to a plurality of user terminals per 10 seconds, and in the second group, one satellite image data may be transmitted to a plurality of user terminals per minute.

The satellite image distribution apparatus 300 can distribute the satellite image data to the plurality of user terminals 50a to 50n through the communication network 70. [ The network 70 may be a local area network (LAN), a metropolitan area network (MAN), a wide area network (WAN), the Internet, a 2G, 3G, 4G mobile communication network, And the like. That is, when the satellite image distributing apparatus 300 converts the satellite image data into the JPEG system, the satellite image data can be distributed to the plurality of user terminals 50a through 50n through the communication network 70. [ The satellite image distributing apparatus 300 transmits and stores the satellite image data to the service server 90 through the communication network 70 and connects to the service server 90 in the plurality of user terminals 50a to 50n, Image data can be provided.

The satellite image distributing apparatus 300 can distribute the satellite image data automatically without the intervention of the manager on the basis of the scheduling, and can display the distribution status and the satellite image data distributed in real- It can support to monitor the status in real time.

Hereinafter, a satellite image processing method according to an embodiment of the present invention will be described.

2 is a flowchart illustrating a satellite image processing process according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the satellite image data may be received (S200).

More specifically, the satellite transmission / reception device 100 receives raw image data observed from the wake-up and sea payloads of the satellite 10 and transmits the raw image data to the preprocessing device 200. The preprocessing device 200 corrects the raw image data And transmit the generated satellite image data to the satellite image distribution apparatus 300.

Then, the received satellite image data can be converted into a predetermined user data format (S210).

More specifically, the satellite image distributing apparatus 300 divides the large-capacity satellite image data being generated in real time into segment file units in order to quickly distribute the generated satellite image data to the user, and distributes the divided satellite image data to the LRIT (Low Rate Information Transmission) or High Rate Information Transmission (HRIT) format.

The satellite image distributing apparatus 300 may selectively compress or encrypt the satellite image data.

More specifically, the satellite image distribution apparatus 300 may selectively perform an uncompressed, lossless, or lossless image compression scheme according to a predetermined distribution service policy in order to quickly transmit large-capacity satellite image data and efficiently use the RF resources . Here, the lossy or lossless image compression technique can be performed based on JPEG (Joint Photographic Experts Group) or JPEG2000.

The satellite image distribution apparatus 300 can compress the satellite image data using a data encryption technique. Here, the data encryption scheme may include DES (Data Encryption Standard) scheme based on ECB (Electronic Codebook) or Triple DES (TDES) scheme.

Next, the converted satellite image data may be distributed to the plurality of user terminals 50a to 50n (S220).

More specifically, the satellite image distributing apparatus 300 allows the converted satellite image data to be transmitted to the plurality of receiving stations 30a to 30n via the satellite 10, and transmits satellite image data from the plurality of receiving stations 30a- Data can be distributed to the plurality of user terminals 50a to 50n. At this time, if the plurality of receiving stations 30a to 30n transmit the satellite image data to a plurality of transmitting stations (not shown), the plurality of transmitting stations transmit the satellite image data to the corresponding user terminals 50a to 50n .

The satellite image distributing apparatus 300 divides a plurality of receiving stations 30a to 30n into at least one group according to a predetermined service level and distributes the satellite image data to the user 300 according to a multicasting method corresponding to at least one divided group. And distributed to the terminals 50a to 50n. That is, the satellite image distribution apparatus 300 can divide a plurality of receiving stations 30a to 30n into first to n-th groups and multicast to provide differentiated services according to the first to n-th divided groups . For example, in the first group, one satellite image data may be transmitted to a plurality of user terminals per 10 seconds, and in the second group, one satellite image data may be transmitted to a plurality of user terminals per minute.

The satellite image distribution apparatus 300 can distribute the satellite image data to the plurality of user terminals 50a to 50n through the communication network 70. [

Embodiments of the present invention include a computer-readable medium having program instructions for performing various computer-implemented operations. This medium records a program for executing the above-described satellite image processing method. The medium may include program instructions, data files, data structures, etc., alone or in combination. Examples of such media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD and DVD, programmed instructions such as floptical disk and magneto-optical media, ROM, RAM, And a hardware device configured to store and execute the program. Or such medium may be a transmission medium, such as optical or metal lines, waveguides, etc., including a carrier wave that transmits a signal specifying a program command, data structure, or the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

1: Satellite image processing system
100: satellite transmitting / receiving device
200: Pretreatment device
300: satellite image distribution device

Claims (16)

Receiving satellite image data,
Converting the received satellite image data into a predetermined user data format, and
And causing the converted satellite image data to be distributed to a user terminal
And a satellite image processing method. The method of claim 1,
Wherein the converting the received satellite image data into a predetermined user data format comprises:
Dividing the received satellite image data into segment file units, and
And converting the divided satellite image data into a Low Rate Information Transmission (LRIT) or a High Rate Information Transmission (HRIT) format. The method of claim 1,
And distributing the converted satellite image data to a user terminal,
Causing the converted satellite image data to be transmitted to a plurality of receiving stations via satellites, and
And causing the plurality of receiving stations to distribute the satellite image data to the user terminal. 4. The method of claim 3,
Wherein the step of causing the plurality of receiving stations to distribute the satellite image data to the user terminal comprises:
Dividing the plurality of receiving stations into at least one group according to a predetermined service level, and
And distributing the satellite image data to the user terminal according to a multicasting method corresponding to at least one group divided into the plurality of groups. The method of claim 1,
And compressing the converted satellite image data. The method of claim 5,
The satellite image data includes:
A method of processing satellite images compressed by lossy or lossless image compression techniques. The method of claim 1,
And encrypting the converted satellite image data. 8. The method of claim 7,
The satellite image data includes:
A method of satellite image processing which is encrypted by data encryption technique. A satellite image distribution device for receiving satellite image data, converting the received satellite image data into a predetermined user data format, and distributing the converted satellite image data to a user terminal,
And a satellite image processing system. The method of claim 9,
The satellite image distribution apparatus includes:
A satellite image processing unit for dividing the received satellite image data into segment file units and converting the divided satellite image data into low rate information transmission (LRIT) or high rate data transmission (HRIT: High Rate Information Transmission) system. The method of claim 9,
The satellite image distribution apparatus includes:
Wherein the converted satellite image data is transmitted to a plurality of receiving stations through a satellite, and the satellite image data is distributed to the user terminal at the plurality of receiving stations. 12. The method of claim 11,
The satellite image distribution apparatus includes:
A satellite image processing system for dividing the plurality of receiving stations into at least one group according to a predetermined service level and distributing the satellite image data to the user terminal according to a multicasting method corresponding to at least one divided group, . The method of claim 9,
The satellite image distribution apparatus includes:
And converting the converted satellite image data. The method of claim 13,
The satellite image data includes:
A satellite image processing system compressed by lossy or lossy image compression technique. The method of claim 9,
The satellite image distribution apparatus includes:
And converting the converted satellite image data. 16. The method of claim 15,
The satellite image data includes:
Satellite Image Processing System Encrypted with Data Encryption Technique.

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