KR19980029476A - Power redundancy control device and method for radio call data transmission system - Google Patents

Abstract

The present invention implements regional diversity by using a duplex structure of a central earth station and an uplink power control method of a radio call data transmission earth station system using a Mugunghwa satellite to wirelessly control transmission power transmitted from a central earth station to a terminal earth station. An apparatus and method for controlling power redundancy of a paging data transmission system, the method comprising: a first process of determining whether to transfer a transmission link from a main central earth station to a preliminary central earth station or from a preliminary central earth station to a main central earth station; After performing the process, the second process of selecting whether to switch the transmission link manually or automatically, and the transfer of the transmission link from the main center earth station to the preliminary center earth station manually in the first process and the second process The main central earth station and the reserve central earth station A third process in which the transmission link is switched between the main central earth station and the preliminary central earth station according to the state; and in case the transmission link is automatically switched from the main central earth station to the preliminary central earth station in the first and second processes, the preliminary central earth station The fourth process of switching the transmission link from the preliminary center earth station to the main center earth station according to the state of the state; and in the first and second processes, if the transmission link is manually switched from the preliminary center earth station to the main center earth station, the main center A fifth process in which the transmission link is switched between the main center station and the preliminary center earth station according to the state of the earth station and the preliminary center earth station, and in the first and second processes, the transfer link is transferred from the preliminary center station station to the main center earth station. If done automatically, it is better to compare the state of the main and reserve central earth stations. In the sixth process, the transmission link is transferred to a central earth station which maintains the state. Therefore, if a communication failure such as a heavy rain occurs due to the installation of a spare central earth station in another area besides the main central earth station, the uplink power control method is used. Improving the data transmission efficiency of the satellite communication system by implementing the regional diversity switching transmission link from the main center earth station to the preliminary center earth station has an excellent performance and quality of the system.

Description

Power redundancy control device and method for radio call data transmission system

1 is a system block diagram for controlling the power of a radio call data transmission system according to the present invention.

2 is a flowchart illustrating a redundant transmission link switching for power control of a wireless paging data transmission system according to the present invention.

Explanation of symbols for the main parts of the drawings

10: State Central Earth Station

20: Reserved Central Earth Station

1, 21: satellite antenna

2, 22: OMT

3, 23: low noise frequency converter

4, 24: Beacon Receiver

5 baseband signal generator

6, 26: modulator

7, 27: uplink power control device

8, 28: high power amplifier and high frequency converter

9, 25: network management system

11: ground leased line for subscriber information transmission

12: Ground leased line for communication between network management systems

In the satellite communication system using satellites, regional diversity is realized by using a duplex structure and an uplink power control method of a central earth station of a pagersat earth station (PAGES) system using Mungung and satellite. The present invention relates to a power redundancy control apparatus and method for a radio call data transmission system for effectively controlling transmission power transmitted from a central earth station to a terminal earth station.

In general, a radio call data transmission earth station communication system using a geostationary satellite includes a pagersat central earth station (PCES), a pagersat remote earth station (PRES) and a network of a radio call data transmission earth station. It consists of a Network Management System (NMS).

In the radio call data transmission earth station system, the central earth station receives subscription information from the satellite and transmits one-way to the terminal earth station.

In a system in which a unidirectional transmission from a central earth station to a terminal earth station is performed, when a communication failure occurs due to various factors such as heavy rainfall in a specific area, it is severely affected in performing a communication service.

Conventionally, in order to solve the above problems, the fixed high output is used to control uplink transmission power, or to adjust the transmission power according to rainfall, and to further control the transmission power by providing one auxiliary central earth station having the same system. It was.

However, in the above method, if the heavy rain continues to increase the transmission power indefinitely, the possibility of the satellite link breaking becomes very high, and the communication of the system may be cut off. In case of using the secondary central earth station, the entire system is used for regional diversity, which is very expensive.

Therefore, the present invention was devised to solve the above problems, and for this purpose, a method of controlling uplink power and regional diversity with a preliminary central earth station having only the IF / RF device of the central earth station in a different position in addition to the central earth station. The present invention provides a device and a method for controlling power redundancy of a radio call data transmission earth station system in which a transmission link between the main center earth station and a preliminary center earth station can be switched in case of communication failure.

The transmission power redundancy control apparatus and control method of the present invention for achieving the above object, when transmitting data to the terminal station by the uplink power control device of the main center earth station in case of a communication failure such as heavy rain, spare with the main center earth station. The network management system between the central earth stations transmits a communication failure alert to the preliminary center earth station, and when a new transmission link is formed at the preliminary center earth station, data can be transmitted to the terminal station through the transmission link.

That is, in case of a communication failure, it is determined whether to manually or automatically switch the transmission link from the main central station to the preliminary central earth station or from the preliminary central earth station to the main center earth station, so that the link switching from the main center earth station to the preliminary center earth station is automatic. In this case, the transmission link is transferred according to the state of the preliminary central earth station, and if the link switching is automatically performed from the preliminary center earth station to the main center station, the transmission link is transferred according to the state of the main center earth station. Do it.

Hereinafter, an apparatus and a method for controlling power redundancy of a radio call data transmission system of the present invention will be described in detail with reference to the accompanying drawings.

1 is a system block diagram for controlling the power of a radio call data transmission center earth station system according to the present invention. As shown therein, the main center earth station 10 receives a beacon signal from a satellite (not shown) or A satellite antenna 1 for transmitting the modulated information data, an Ortho-Mode-Transducer (OMT) 2 for receiving a beacon signal from the satellite antenna 1, and a beacon transmitted through the OMT 2 A low noise frequency converter 3 for converting the signal to a low IF frequency, a beacon receiver 4 for converting the beacon signal of the IF frequency of the low noise frequency converter 3 to DC, and a baseband signal for generating a baseband signal Generator 5, modulator 6 for modulating the baseband signal of baseband signal generator 5, and uplink power controller 7 for controlling the strength of the signal modulated by intermodulator 6; And the modulation A high power amplifier and a high frequency converter 8 for converting the modulated signal of the uplink power control device 7 outputted through the device 6 into a high frequency of 14 kHz and amplifying it with high power, and a network management system for controlling the entire system. It consists of (9).

When the uplink power control of the main center earth station 10 reaches its limit, the preliminary center earth station 20 for performing power control for reserve is a satellite antenna 21, an OMT 22, and a low noise frequency converter. 23), beacon receiver 24, modulator 26, uplink power control device 27, high power amplifier and high frequency converter 28 and network management system 25, the baseband signal is the main central earth station ( 10) Separated at the front end of the modulator 6 and simultaneously applied to the modulator 26 of the preliminary central earth station 20 via the ground leased line 11.

Further, the network management system 9 of the main central earth station 10 communicates with each other via the network management system 25 of the preliminary central earth station 10 and the ground leased line 12.

In the main center earth station 10 and the preliminary center earth station 20 configured as described above, the uplink power control method converts the DC signal to DC since the intensity of the beacon signal received from the satellite changes with the rainfall. By compensating for the attenuation difference, the uplink power control devices 7 and 27 are controlled to automatically compensate the strength of the transmission signal according to the rainfall.

In the power control method according to the present invention, when uplink power control of the main center earth station 10 reaches a limit, the transmission link is automatically or manually switched to the preliminary center earth station 20, wherein the uplink The alarm state of the power control device 7 is achieved by monitoring in the network management system 9 of the main central earth station 10.

If the uplink power control device 7 of the main center earth station 10 reports the power control limit caused by the heavy rain to the network management system 9, the main center earth station 10 to the preliminary center earth station 10. Requires the transmission link to be switched.

Then, the network management system 9 commands the high power amplifier and the high frequency converter 28 and the modulator 26 of the preliminary central station 20 through the terrestrial dedicated line 12 to manage the network of the preliminary central earth station 20. Transmitted to the system 25, and then the network management system 25 executes the operation commands of the high power amplifier and the high frequency converter 28 and the modulator 26.

Subsequently, the network management system 25 of the preliminary central earth station 20 executes an operation command, reports the command completion response to the network management system 9 of the main central earth station 10, and then issues the main central earth station 10. Network management system 19 receives the response signal and mutes the high power amplifier, high frequency converter 8 and modulator 6 of the main central earth station 10 to complete the switching.

The transfer of the transmission link from the preliminary central earth station 20 to the main central earth station 10 is performed in the reverse order of the procedure.

The above-described rough switching procedure of the transmission link, that is, the power control method of the radio call data transmission earth station system of the present invention will be described in more detail with reference to the redundant transmission link switching flowchart for power control of FIG. .

First, when the transfer process of the transmission link is from the main center earth station 10 to the preliminary center earth station 20, the EB center earth station 20 is transferred from the preliminary center earth station 20 to the main center earth station 10. In this case, the transfer process starts with selecting the main central earth station (10).

When the preliminary center station 20 is selected to transfer the transmission link from the main center earth station 10 to the preliminary center station 20, it is determined whether the transfer link of the transmission link is manual or automatic, and the manual switching process is selected. When the earth station 10 is switched from the preliminary center earth station 20, the state of the high power amplifier, the high frequency converter 28, the modulator 26, and the like of the preliminary center earth station 20 is determined.

If the state of the high power amplifier and the high frequency converter 28 and the modulator 26 is normal, the high power amplifier and the high frequency converter 28 and the modulator 26 operate and the high power amplifier and the high frequency converter of the main central station 10 ( 8) and the modulator 6 are muted to complete the transmission link transfer from the main center earth station 10 to the reserve center earth station 20.

In the case of switching from the preliminary center earth station 20 to the main center earth station 10 in the manual switching process, the high power amplifier, the high frequency converter 8 and the modulator 6 of the main center earth station 10 Operation and muting of the high power amplifier and high frequency converter 28 and the modulator 26 of the preliminary center earth station 20 completes the transmission link transfer from the preliminary center earth station 20 to the main center earth station 10.

When the switching process of the transmission link is automatic in the preliminary center earth station 20, the state of the preliminary center earth station 20 is read, and if the device in the earth station is normal, the state of the uplink power control device 27 is read. If there is a problem, report the abnormal state, and if normal, operate the high power amplifier, the high frequency converter 8, and the modulator 6 of the main center earth station 10 from the preliminary center earth station 20 to the main center earth station 10. Alter the transmission link.

On the other hand, in the case of selecting the main center earth station in the first earth station selection process, it is determined whether the transfer link is manual or automatic, and if the manual transfer process is selected, the main center earth station 10 reserves the preliminary center as in the above process. In the case of switching to the earth station 20, the high power amplifier and the high frequency converter 28 and the modulator 26 of the preliminary center station 20 operate, and the high power amplifier and the high frequency converter 8 and the modulator of the main center earth station 10 ( 6) is muted so that the transmission link is switched from the main central earth station 10 to the preliminary central earth station 20, and even in the case of the transition from the preliminary central earth station 20 to the main central earth station 10. The high power amplifier and the high frequency converter 8 and the modulator 6 of 10 are operated and the high power amplifier and the high frequency converter 28 and the modulator 26 of the preliminary center earth station 10 are muted to make the preliminary center earth station 20 Transmission link to the main central earth station 10 is performed.

When the switching process of the transmission link is automatic in the main center earth station 10, the state of the main center station 10 is read, and when the device in the earth station is normal, the state of the uplink power control device 7 is read. Read and report the abnormal state if there is an abnormal state, and if it is normal, compare the state of the main central station 10 and the preliminary central earth station 20 and transfer the transmission link to the central earth station which maintains a better state. Do it.

That is, the difference between the signal attenuation level L _M of the uplink power control device 7 detected by the network management system 9 of the main central earth station 10 and the signal attenuation level L _c due to the optimum state ( When U _LM ) is less than 2, it is determined that the state of the main center earth station 10 is good, and the transfer from the preliminary center earth station 20 to the main center earth station 10 is performed.

If the level difference U _LM is 2 or more, the signal attenuation level L _s of the uplink power control device 27 and the main central earth station read through the network management system 25 of the preliminary central earth station 20. Compare the signal attenuation level L _M of the uplink power control device 7 of (10), and if the difference U _Ms is 4 or more, transmit from the preliminary center earth station 20 to the main center station 10. Link switching takes place.

In this case, in order to maintain an optimal transmission state in the transmission link switching process by the comparison process, the link switching is performed until the transmission state of the main center earth station improves after the transmission link is transferred to the preliminary center earth station in the case of heavy rain. Do not lose.

As described above, the present invention transfers a transmission link from the main center earth station to the preliminary center earth station by using an uplink power control method in the event of a communication failure such as a heavy rain by installing a preliminary center earth station in another region in addition to the main center earth station. By implementing local diversity, the data transmission efficiency of the satellite communication system is improved, thereby improving the performance and quality of the system.

Claims (6)

A radio call data transmission system composed of a central earth station, a network management system, and a terminal earth station, which communicates using a geostationary satellite, comprising: a satellite antenna (1), an OMT (2), a low noise frequency converter (3), and a beacon receiver (4). ), A central earth station (10) consisting of a modulator (6), an uplink power control device (7), a high power amplifier and a high frequency converter (8), and a network management system (9), and some devices in the center earth station (10). And a redundant central earth station (20) for switching transmission links in the event of a communication failure. According to claim 1, wherein the preliminary central earth station 20, the satellite antenna 21 for receiving a beacon signal from the satellite or transmits the modulated information data to the satellite, and receiving the beacon signal from the satellite antenna 21 Ortho-mode-transducer (OMT) 22, a low noise frequency converter 23 for converting a beacon signal transmitted through the OMT 22 to a low IF frequency, and an IF frequency of the low noise frequency converter 23 A modulator 26 for modulating the beacon signal of the baseband signal generator 5 of the main center earth station 10 through the beacon receiver 24 for converting the beacon signal into DC and the ground leased line 11; 26 converts the modulation signal of the uplink power control device 27 for controlling the strength of the signal modulated by the signal 26 and the uplink power control device 27 outputted through the modulator 26 to high frequency and amplifies it with high power. High power amplifier and high frequency side Group 28 and the power redundancy of the network management system characterized by a radio paging data transmission adapted to the system 25 for controlling the whole system controller. 2. The main center earth station 10 and the preliminary center earth station 20 according to claim 1, by communication between the network management system 9 of the main center earth station 10 and the network management system 25 of the preliminary center earth station 20. A wireless redundancy data transmission system is a power redundancy control device, characterized in that for controlling the status of all devices within the () and implements local diversity. In the power control method of a radio call data transmission system composed of a main center earth station and a preliminary center earth station to control uplink transmission power, the main center earth station 10 to the preliminary center earth station 20, or a preliminary center earth station ( A first step of determining whether to transfer a transmission link from the 20 to the main center earth station 10, and a step of selecting whether to manually or automatically switch the transmission link after performing the first step. In the second step and the first step and the second step, when the transmission link is manually changed from the main center earth station 10 to the preliminary center earth station 20, the main center earth station 10 and the preliminary center earth station 20 A third process in which the transmission link is switched between the main center earth station 10 and the preliminary center earth station 20 according to the state of the first state, and the preliminary center earth station at the main center earth station 10 in the first and second processes; 20) the fourth process of switching the transmission link from the preliminary center earth station 20 to the main center earth station 10 according to the state of the preliminary center earth station 20 when the transmission link is automatically switched to, and the first process. In the second process, when the transmission link is manually transferred from the preliminary central earth station 20 to the main central earth station 10, the main central earth station 10 may be changed according to the states of the main central earth station 10 and the preliminary central earth station 20. 5) the transmission link switching between the preliminary center earth station 20 and the preliminary center earth station 20, and the transfer link is automatically performed from the preliminary center earth station 20 to the main center earth station 10 in the first and second processes. In this case, the radio call data transmission is performed by comparing the states of the main central earth station 10 and the preliminary central earth station 20 with a sixth process of switching the transmission link to the central earth station maintaining a better state. Redundant power control method of the system. The high power amplifier and the high frequency converter of the preliminary center earth station 20 according to claim 4, wherein the third process and the fifth process are performed when the manual switching process is transferred from the main center earth station 10 to the preliminary center earth station 20. (28) and modulator 26 and muting the high power amplifier and high frequency converter 8 and modulator 6 of the main center earth station 10 from the main center earth station 10 to the reserve center earth station 20. In the case of switching from the preliminary center earth station 20 to the main center earth station 10, the high power amplifier and the high frequency converter 8 and the modulator 6 of the main center earth station 10 are operated, and the preliminary center earth station 20 is operated. Muting the high power amplifier and the high power amplifier and the high frequency converter 28 and the modulator 26 to transfer the transmission link from the preliminary center earth station 20 to the main center earth station 10. Power redundancy How language. 5. The method of claim 4, wherein the sixth process compares the signal attenuation level of the uplink power control device 7 of the main center earth station 10 with the signal attenuation level of the optimum state, and reserves the difference if the difference is less than two. Transmit the transmission link from the center earth station 20 to the main center earth station 10, and if the level difference is 2 or more, the signal attenuation level of the uplink power control device 27 of the preliminary center earth station 20 and the main center. Compare the signal attenuation level of the uplink power control device 7 of the earth station 10, and if the difference is 4 or more, the transmission link is switched from the preliminary center earth station 20 to the main center earth station 10. Power redundancy control method of wireless call data transmission system.