KR100245162B1 - Call handling apparatus of satellite communication system having control function of reservation packet assignment according to traffic - Google Patents

Abstract

The present invention relates to a call processing apparatus of a satellite communication system having a reservation packet allocation adjustment function according to a call amount, which enables to actively adjust the number of reserved packets for call setup request allocated to each base station based on the call amount. In the satellite communication system having a central control station for allocating and controlling a usable communication channel for a base station with a call request, the central control station controls the entire system, in particular a processor for controlling call processing between base stations A program storage unit configured to store the first, second and third threshold values for the operation program and the call volume determination of the processor, a base station information storage unit for storing state information of each base station obtained by the polling operation, and use of a communication channel. Channel information storage unit for storing the status, each base station to store the number of communication channels allocated to each base station as data On the basis of the number of channels used by each base station stored in the current channel storage unit, the reserved packet allocation information storage unit storing the reserved packet allocation state of the S / A channel allocated to each base station as data, and the allocation channel storage unit for each base station And a reservation packet assignment calculation unit for calculating the number of reservation packets to be allocated to each base station.

Description

Call processing device of satellite communication system with reservation packet allocation adjustment function according to call volume

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a satellite communication system, and in particular, a satellite having a reservation packet allocation adjustment function according to a call volume, which enables to actively adjust the number of reserved packets for call setup request allocated to each base station based on the call volume. A call processing apparatus of a communication system.

In the DSS-1000, a DAMA-SCPC type satellite communication system, a service data network (SDN) consisting of one TDM channel and up to four slotted aloha (S / A) channels for control signal transmission between a base station and a central station I'm using.

The service data network (SDN) forms a star network structure in which one central station and a plurality of base stations are connected, and the plurality of base stations share a random S / A for communication with one central station. Use multiple communication protocols.

The central station transmits a control signal to each base station through a TDM (Time Division Multiplexing) channel, and each base station allocates the control signal and channel to the central station through one S / A channel assigned to the local station among four S / A channels. Send request message, etc.

The S / A channel frame is divided into a random packet and a reserved packet. The random packet is mainly used to transmit a message related to a voice call, and the reservation packet is related to network operation and maintenance. Used when sending a message.

Meanwhile, since the reserved packet allocates an available reserved packet by assigning a frame number to the base station and a slot number to be used by the base station as needed, packet collision with another base station does not occur. Since random packets are shared by multiple base stations without time-divided slots, when channel allocation requests are made from multiple base stations at the same time for the same S / A channel, packet collisions occur between base stations, which makes it difficult to efficiently operate networks. Will be placed.

Considering the above, a method of allocating a reserved packet 1: 1 for each base station may be considered. However, in this case, since the packets are distributed evenly regardless of the call volume, the subscriber of the base station having a low call volume may request a call setup. The subscriber of the base station having a large amount of time while using the time channel but having a large amount of call increases the call-related message, resulting in delayed call setup time.

The present invention has been made in view of the above circumstances, and based on the call volume, the reservation packet allocation adjustment function according to the call volume is enabled to actively adjust the number of reserved packets for call setup request allocated to each base station. The purpose is to provide a call processing device of a satellite communication system equipped.

1 is a block diagram showing an internal configuration of a reservation packet allocation adjustment function satellite communication system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: antenna 20: RF transceiver

21: Orthogonal Mode Transducer (OMT)

22: RF receiver 23: RF transmitter

30: IF processing stage 31: intermediate frequency combination / distribution unit

32,33: SCPC channel unit 40: network control

41: processor 42: service channel controller (SCC)

43: DP RAM 44: Program Storage

45: base station information storage unit 46: channel information storage unit

47: allocated channel storage unit for each base station 48: reserved packet allocation information storage unit

49: reservation packet assignment calculation unit 50: network management system

A call processing apparatus of a satellite communication system according to the present invention for realizing the above object is a satellite communication system having a central control station for allocating and controlling a call channel usable for a base station having a call request. A processor for controlling the whole system and controlling call processing between base stations, and a program storage unit having first, second, and third threshold values for determining an operating program and a call volume of the processor, and each obtained by a polling operation. Base station information storage unit for storing the status information of the base station, channel information storage unit for storing the use state of the communication channel, allocation channel storage unit for each base station for storing the number of communication channels allocated to each base station, allocation to each base station Reserved packet allocation information storage unit for storing the reserved packet allocation state of the S / A channel as a data, and the allocation channel for each base station On the basis of the number of use of each channel the base station is set to the storage unit to include a reservation packet assignment calculation for estimating the number of the reservation packet be assigned to each base station characterized in that configured.

That is, according to the present invention having the above-described configuration, it is possible to actively adjust the number of reserved packet for call setup request allocated to each base station based on the call volume state of each base station.

Hereinafter, with reference to the accompanying drawings will be described an embodiment according to the present invention.

1 is a block diagram showing an internal configuration of a reservation packet allocation adjustment function satellite communication system according to an embodiment of the present invention. In FIG. 1, reference numeral 10 denotes an uplink transmitted to a satellite (not shown). An antenna for transmitting and receiving downlink signals transmitted from signals and satellites, 20 converts a downlink signal of an ultra-high frequency band received by the antenna 10 into an intermediate frequency (IF) signal and simultaneously Conversely, the uplink signal is an RF transceiver for converting and outputting an intermediate frequency (IF) signal in the 70 MHz band into an RF signal in an ultrahigh frequency band. The RF transceiver 20 uses the polarization property of the frequency to provide the antenna ( 1, which is input separately by an orthogonal mode transducer (OMT) 21 and the orthogonal mode converter 21 for inputting and separating the uplink and downlink signals transmitted and received through 10). An RF receiver 22 for amplifying a downlink frequency signal of 2.25 to 12.75 GHz to a predetermined level and converting the amplified signal into an intermediate frequency (IF) signal of 70 MHz, and an intermediate frequency (IF) of 70 MHz to be transmitted to the satellite side. The RF transmitter 23 converts the signal into microwaves of 14.0 to 14.5 GHz and amplifies the signal to a predetermined level to generate an uplink frequency signal.

Further, reference numeral 30 denotes an IF processing stage for processing a transmission / reception intermediate frequency (IF) signal in a 70 MHz band, and the IF processing stage 30 receives an intermediate frequency (IF) signal applied from the RF receiver 22. Intermediate frequency combination / distribution unit for separating and outputting a plurality of intermediate frequency signals and outputting a combination of intermediate frequency signals applied from a single channel per carrier (SCP) channel unit (SCU) 33 to be described later. C / D) 31 and the first SCPC channel unit for demodulating, decoding and outputting the IF signal applied from the intermediate frequency combination / distributor 31 and the message output from the network controller 40 to be described later. It consists of a second SCPC channel unit 33 which is encoded, modulated and output.

Further, reference numeral 40 performs a polling function of checking the state of each base station based on a response message transmitted from the base station after transmitting a control message to each base station through the SCPC channel unit 33, and the polling process. It is a network controller that controls the channel assignment based on the information obtained from and executes network management for the user management network.

On the other hand, the network controller 40 extracts packet information from a message applied from the processor 41 and the SCPC channel unit 32, which controls the entire system and in particular, the call processing between the base stations. In addition, a service channel controller (SCC) 42 for generating and outputting a message of a time division multiplex (TDM) stream to the SCPC channel unit 33 and a service with the processor 41. Dual port RAM 43 for data transmission and reception between the channel controller 42, the program storage unit 44 in which the operation program of the processor 41 is stored, and the status information of each base station obtained by the above-described polling operation The base station information storage unit 45 to be stored, the channel information storage unit 46 storing the usage state of the communication channel and the number of communication channels allocated to each base station for each base station The allocated channel storage unit 47, the reserved packet allocation information storage unit 48 for storing the reserved packet allocation state of the S / A channel allocated to each base station as data, and the allocated channel storage unit 47 for each base station A reservation packet assignment calculation unit 49 calculates the number of reservation packets to be allocated to each base station based on the set number of channels used by each base station.

Reference numeral 50 is a network management system that allows the satellite network operation manager to monitor the overall network operation and to control the entire satellite system including the base station as necessary.

Next, the operation of the device having the above configuration will be described.

Since the number of available packets of the S / A channel, which is composed of up to 4 groups, can operate 18 reserved packets per group, therefore, in the case of a system having less than 72 base stations (4 × 18), the processor of the central station 41 allocates one reserved packet per base station to each base station in the initial stage of the initial satellite system, thereby receiving a call-related message.

On the other hand, the processor 41 of the central station allocates and controls one of the available communication channels to the call request from any subscriber base station as in the normal call setup control. The channel usage status of each base station is managed by updating the base station area data of the allocated channel storage unit 47.

Subsequently, the processor 41 reads out the data set in the allocation channel storage unit 947 for each base station at a predetermined time interval, and calculates the call volume of each base station based on this. Accordingly, the reserved packet allocation calculation unit 49 ), The number of reserved packets to be allocated to each base station is adjusted.

In other words, the processor 41 compares and determines the number of communication channels used by each base station based on the first, second, and third threshold values set in the program storage unit 44. The state of the call volume is divided into four stages, and the number of reserved packets to be allocated step by step for each base station is updated.

On the other hand, for example, when the number of channels used by any base station is less than the first threshold value set in the program storage unit 44, the processor 41 determines the call volume state of the base station as the first step and the number of reserved packets allocated to the base station. If the first threshold is exceeded, the call volume state of the base station is determined as the second step, and the number of reserved packets is increased to two and allocated.

The processor 41 allocates a reservation packet to each base station on the basis of the second and third threshold values in the same manner as described above, and transmits the reserved packet information to the reserved packet allocation information storage unit 48. By setting up the registration, the basis of S / A channel operation for the subordinate base station is provided. The reserved packet allocation information is transmitted to each base station through the TDM channel so that each base station can execute a call setup request through a contracted packet. Each base station is notified.

That is, according to the above embodiment, the call processing apparatus of the satellite communication system using the reservation packet which can actively adjust the number of reserved packets for call setup request allocated to each base station based on the call volume state can be realized. Will be.

On the other hand, the present invention is not limited to the above embodiments and can be modified in various ways without departing from the technical gist of the present invention.

As described above, according to the present invention, the number of call setup request reserved packets allocated to each base station can be actively adjusted based on the call volume state of each base station.

Claims (1)

A satellite communication system having a central control station that allocates and controls a usable call channel to a base station with a call request, The central control station, in addition to controlling the entire system, in particular the processor for controlling the call processing between the base station, A program storage unit configured to store operating programs of the processor and first, second, and third threshold values for determining a call amount; A base station information storage unit for storing state information of each base station obtained by a polling operation; Channel information storage unit for storing the use state of the communication channel, Assigned channel storage unit for each base station for storing the number of communication channels assigned to each base station as data, Reserved packet allocation information storage unit for storing the reserved packet allocation state of the S / A channel allocated to each base station, and Reserved packet allocation adjustment according to the call volume, characterized in that it comprises a reservation packet allocation calculation unit for calculating the number of reserved packets to be allocated to each base station based on the number of channels used by the base station stored in the allocation channel storage unit for each base station Call processing device for satellite communication system with functions.

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