TW399375B - Space-based communication systems - Google Patents

Abstract

In a space-based communication system (10), a first satellite (22) orbits earth at a first altitude, while a second satellite (20) is coupled to the first satellite (22) via a telecommunication link and orbits the earth at a second altitude different than the first altitude. The first satellite (22) and the second satellite (22) communicate satellite control information to each other when the second satellite (20) is in view of the first satellite (20). When there are multiple second satellites (20), the cross-links between the second satellites (20) use all the available bandwidth to transfer voice and data information to each other.

Description

A7 A7 Printed by the Consumer Standards Cooperative of the Central Bureau of Standards of the Dist. 5. Description of the Invention (1) Reference Documents of Previous Applications This application has been filed in the US Patent Application No. 0/753463, dated January 1996 25 said. TECHNICAL FIELD The present invention relates to telecommunication systems generally based on space. More specifically, the present invention relates to the communication of satellite control messages between satellites in different orbits. BACKGROUND OF THE INVENTION Some conventional satellite televisions have the ability to communicate with satellites that share the same orbit with their neighbors. This connection between satellites is called mutual and can carry voice and data from one satellite to another satellite. If a base station on the ground transmits a control message to a destination satellite but not the first received satellite, the control message may go through many mutual paths before the selected satellite is actually received. This kind of data or message relay from one satellite to another is generally called " jumping ". Jumping consumes valuable energy and bandwidth, especially control messages relayed by many different satellites. Therefore, there is a clear need for how satellite telecommunications systems can reduce the number of hops before satellite control messages or instructions are received by the destination satellite. In addition, satellite control messages can be used to carry interactive bandwidth that can generate traffic to Egypt. Such profitable traffic includes (without limitation) voice, data, or messaging. There is a clear need for a satellite telecommunications system that allows satellites carried on each other to control traffic to a minimum while maximizing the available bandwidth of traffic that can generate revenue. Brief Description of the Drawings Figure 1 shows a satellite telecommunications system according to a preferred embodiment of the present invention (please read the precautions on the back before filling out this page) AI .—---- Order ---- ^ --- ---

Λ 1 ^ 1 — ^ 1 The Central Bureau of Standards of the Ministry of Economic Affairs, the Consumers ’Cooperative Co-operative Society printed a lot of printed, invention descriptions (two-layer block diagrams; and Figure 2 shows a highly simplified block diagram example of a satellite. A description of a better example of this The purpose of the moon is to allow the satellite network between the geosynchronous orbit and the satellite orbit of low earth orbit C to transmit satellite control information through the geosynchronous satellite and to avoid the mutual interference of low earth orbit. Transmission ... Base σ (ie, satellite control equipment) directly communicates with geosynchronous satellites and then directly transfers to individual low- or medium-altitude earth orbit satellites. The view of a geosynchronous satellite can directly communicate with several low-earth orbit satellites simultaneously 'By connecting three or four geosynchronous satellites, any one of the I LEO satellite arrangements can be seen. Figure 1 shows a highly simplified diagram of a satellite telecommunications system 10, as shown in the figure! The telecommunications system 10 includes at least two satellites 20 and 22, any number of subscriber units 30, and at least one base station 40. Generally speaking, the satellites 2 of the telecommunications system 10. 22 and the subscriber unit 30 and the base station 40 can be regarded as nodes of the network. All nodes in the telecommunications system 10 can communicate with other nodes in the telecommunications system = 10 via telecommunication connections. In addition, all of the telecommunications system 10 ρ ”can be used for data sealing with its b distributed in the world's public switched telephone network and / or traditional ground communications equipment coupled to pSTN via traditional ground base stations. Satellites referred to herein refer to man-made objects or orbits around the earth The state satellite map shows that multiple satellites arranged in orbit can provide part or all of the coverage of the earth (such as wireless communication, distant sensing, etc.). One satellite setup generally contains multiple mounts ( Or surface) satellites and each plane can have the same number of satellites, please read the back note first

I page order Wei-5- This paper size applies to Chinese National Standard (CNS) Α4 ^ 5Γ (210X297 / ^ A7 B7) It is printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs, and the description of the invention is not necessary. The invention may Applied to a space-based telecommunications system i 0, to designate a specific cell on the earth in a specific region of the earth, especially a system 10 that can move on the surface of the earth. The satellite 20 may be a separate satellite 20 or more satellites placed in earth orbit. The present invention can also be applied to the satellite-based telecommunication system i 〇, which contains satellites 2 〇 Earth orbit can be any angle of inclination including polar angles, equator Included angle, dip angle, etc. or other orbital forms. The present invention is applied to the system 10 where all coverage on the ground is unreachable (that is, there are holes in the telecommunication coverage provided by the satellite arrangement) and the system 10 needs to cover multiple on the ground Area (that is, more than one satellite can be seen at a specific point on the ground). In a preferred embodiment of the present invention, satellite 20 is a low earth orbit satellite and satellite 22 is an earth Satellite; in another example, satellite 20 may be a medium-Earth orbit satellite and satellite 22 is an Earth-time orbit satellite; in another example, 'satellite 2G may be a low-Earth orbit satellite and satellite 22 may be a medium-Earth orbit satellite There can be more than one satellite 22 serving satellites and these satellites 22 also have communication links with each other. The low altitude orbit satellite's general high altitude fan garden is 700 ~ 1400 kilometers (about ~ 80 miles, the height of the middle ground orbital guard house is about 10.000 kilometers (6200 miles), Nynuma women producing 36,000 kilometers (23,000 miles) of geostationary satellites. Each satellite 20 communicates with Zheng Jin's satellite 2 () via mutual communication, and these mutual communication forms A space-based mobile telecommunications system-a user's communication or phone call, including (unrestricted) words such as: 'Cause: Close to anything on the surface of the earth — point location: User unit 3g

A7 B7 Printed by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs -7- V. Description of the invention (4 Routed to a practically any other point on the ground by the placement configuration of the satellite 20 'Communication can be routed to the ground via other satellites The user unit 30 of the satellite 20. The physical communication between the satellite 20 and the user unit 30 and the base station 40 (such as spread spectrum technology) is generally known in this respect. When the satellite 20 is within the horizon of the satellite 22, the satellite 20 is Communicates with satellite 22 via mutual communication. Satellite 20 is not always in the horizon of satellite 22, but only in the horizon of satellite 22 for some time in its orbit around the earth. In another example, there are multiple satellites 2 2, and each satellite 20 can communicate with one of the satellites 22 at any position in its orbit around the earth, and each satellite 22 can even communicate with neighboring satellites 22. Between satellites 20 and 22 The satellite control messages carried by each other include (unrestricted) satellite instructions, telecommunications, traffic routing vectors, traffic connection establishment, release information, cell channel frequency, satellite orbit change instructions, and cell closure Schedule and other satellite control information can also include telephone connection management information such as beam on / off table with time, wireless channel related information with time such as wireless resource placement and delocation, and attached There is time to broadcast information about the channel. Satellite 22 receives control information of one or more satellites from base station 40 and communicates with Shida's satellite 20, because satellite 22 and satellite 20 carry satellite control messages. For communication, the 20 satellites only carry user information (such as voice, transmission, and data) from one user unit 30 to another user unit 30. The user unit 30 may be located on the ground. Any location or in the earth ’s atmosphere. The mobile telecommunications system can accommodate any number of user units 30, and the user paper size is applicable to the Chinese National Standard (CNS) 8.4 Miscellaneous (2) χ297 mm (please read the back first) Note: Please fill in this page again.) Printed by the Central Standards Bureau of the Ministry of Economic Affairs, printed by the Shellfish Consumer Cooperative, A7, B7. 5. Description of the invention (5) ~ Unit 30 should be able to receive speech from satellite 20 and / or ground station 40. The audio or data communication device, for example, the user unit 30 may be a portable mobile satellite cell phone that can adaptively receive and transmit transmissions from the satellite 20 and / or the base station 40; in addition, the user unit 30 may also It is a computer that can send e-mail messages, video signals or messaging, etc., but only a few examples are given above. How the subscriber unit 30 physically transmits voice and / or data and receives voice and / or data from the satellite 20 Data is a familiar technique in this field. In the preferred embodiment of the present invention, the communication between the user unit 30 and the satellite 20 can use the limited electromagnetic spectrum divided into several channels, which may be L_band, κ_band, s- The frequency band or the combination of the above may be frequency division multidirectional access iFDMA) and / or time division multidirectional access (TDMA) and / or code division multidirectional access (cdma; and any combination of communication methods, familiar with Those of ordinary skill in this regard may use other methods. Base station 40 is controlled by satellite 22 and communicates with satellite 20. There may be multiple base stations 40 in different areas on the ground. For example, there may be one base station in Honolulu, one base station in Luoshanji, and the other The base station is located in Washington, DC. The base station 40 may provide satellite signal commands to the satellite 22 to keep the satellites 22 and 20 in position with each other in orbit to perform other necessary housekeeping tasks. The base station 40 can also receive voice and / or data from the satellite 20, how does the base station 40 physically communicate with the satellite 22; and the wind 20 and / or the user unit 30 (such as spread spectrum method) is Known techniques are known in the art. Figure 2 shows an example of a block diagram of a highly simplified satellite 20 or 22. Satellite + Paper Standard Common Chinese National Standard (CNS) A4 Specification (210_ > ^ · 7mm) --- ^-Γ1 ------- (Read the notes on the back before filling this page) Order β, printed by the Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs A7 B7 V. Description of Invention (6) 20 contains at least two transceivers 30, a processor 34 and a memory 36. Some transceivers 30 of the satellite 20 can send and receive satellite control messages from the satellite 22 ', while other transceivers 30 can send and receive user messages from other nearby satellites 20', the user unit 30, and the base station 40. (Such as voice, transmission and information). Some transceivers 30 of the satellite 22 can send and receive satellite control messages from the satellite 22 and from the base station 40. The processor 34 controls all operations of the satellites 20, 22 and is also responsible for the execution of software applications. The memory 36 stores software programs executed by the processor 34, although FIG. 2 only shows a processor 34 and a memory 3t > 'Persons familiar with this technology can understand that there can be more than one processor and memory Within the satellites 20 and 22, the number of processors and the size of the memory are not important to the present invention. The advantage of the present invention is to eliminate the use of mutual control information provided by low earth orbit satellites. Need. Another advantage is that only one step is required to transmit the communication satellite control message from satellite 22 to satellite 20, so satellite control can more quickly reach the designated low earth orbital satellite. The other benefit is that the bandwidth previously used to control the message can now be used by satellite 2, which allows more profitable recitation bandwidth. From the foregoing, the scope of the patent application attached hereafter is intended to cover all modifications of the invention without departing from its spirit and scope. For example, the following combinations are possible: the geostationary satellite 22 communicates with a medium or low earth orbit satellite 20, or the medium earth orbit satellite 22 communicates with a low orbit satellite 20. -9-This paper size applies to Chinese National Standard (CNS) (210X297mm) (Please read the precautions on the back before filling this page)

Claims (1)

And printed at its Central Standards Bureau Shellfish Consumer Cooperative in the Ministry of Economic Affairs Αδ Β8 C8 D8 patent application scope 1 · A space-based communication system includes: a first satellite orbiting the earth at the first degree; and The second satellite is coupled to the second satellite via a telecommunication link. The first satellite is different from the first altitude; the honing orbits the earth; the first satellite and the second satellite carry satellite control information to each other; . 2. The first satellite in a space-based communication system as described in item 1 of the patent application is a synchronous orbit around the earth. 3. The space-based communication system, such as the second patent application, where the second satellite is located in the mid-Earth orbit around the earth. 4. For example, the space-based communication system of the patent application Fanyuan No. 2 in which the second satellite is located in the low earth orbit around the earth. 5. For the space-based communication system under item 丨 of the patent application scope, the telecommunication link is a radio frequency link. 6. For the space-based communication system of the first patent application, the telecommunication connection is an optical link. 7. For example, the space-based communication system of the first patent application park further includes: a base station capable of transmitting and receiving the first plurality of radio frequency signals; and at least one user unit capable of transmitting and receiving the second plurality of radio frequency signals. Individual radio frequency signals; and the first satellite includes a first transceiver capable of receiving and transmitting the first radio frequency signals to the base station; and 10. This paper standard is applicable to the national standard (CNS) A4 specification ( 210X297 mm) (Please read the notes on the back before filling this page) A8 B8 C8 D8 A second transceiver capable of receiving and transmitting a third plurality of radio frequency signals to the second satellite; and wherein the second satellite includes, a first transceiver capable of receiving and transmitting the third radio frequency signals to the first satellite; And a second transceiver capable of receiving and transmitting the second radio frequency signals to the subscriber unit. 8. For example, the space-based communication system of the patent application Fanyuan, further comprising: a base station capable of transmitting and receiving the first plurality of radio frequency signals; and at least one subscriber unit 'capable of transmitting and receiving the second multiple Radio frequency signals; and wherein the first satellite includes a first transceiver capable of receiving and transmitting a plurality of radio frequency signals to the base station; and a second transceiver capable of receiving and transmitting a plurality of optical signals to the second Satellite; and the second satellite contains, printed by the Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs (please read the precautions on the back before filling out this page) The first transceiver 'can receive and send these optical signals to the first A satellite; and a second transceiver 'capable of receiving and transmitting the second radio frequency signals to the dream subscriber unit. 9. If the space-based communication system in item 1 of the patent application scope further includes: -11 This paper size applies to China National Standards (CNS) A4 specifications (210X297 gong). Printed A8 B8 C8 D8 VI. Patent application scope A base station capable of transmitting and receiving multiple optical signals; and at least one subscriber unit capable of transmitting and receiving a first plurality of radio frequency signals; and the first satellite includes, a A transceiver capable of receiving and transmitting the optical signals to the base station; and a second transceiver capable of receiving and transmitting a second plurality of radio frequency signals to the second satellite; and the second satellite includes, a first transceiver A receiver capable of receiving and transmitting the second radio frequency signals to the first satellite; and a second transceiver capable of receiving and transmitting the first radio frequency signals to the subscriber unit. 10. The space-based communication system according to item 1 of the patent application scope, further comprising: a base station capable of transmitting and receiving the first plurality of optical signals; and at least one user unit capable of transmitting and receiving multiple radio frequencies And the first satellite includes: a first transceiver capable of receiving and transmitting a first optical signal to the base station; and a second transceiver capable of receiving and transmitting a second optical signal to the second satellite; and The second satellite includes a first transceiver capable of receiving and transmitting a plurality of second optical signals to the first _-12-_ This paper size applies to the Chinese National Standard (CNS) A4 specification (210X297 mm) ---- ----- J__ (Please read the notes on the back before filling in this education): ΤΓ- A8 B8 C8 D8 VI. Patent application Fanyuanyi Satellite; and a second transceiver that can receive and transmit these RF signals to This user order π 0 (Please read the notes on the back before filling this page) Order -til Printed by the Staff Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs-13- This paper size applies to the Chinese National Standard (CNS) A4 specification (210X297 mm) )