KR20060016491A - Power control method of a marine repeater system - Google Patents

Abstract

The present invention relates to a power control method of a ship relay system, in order to provide a mobile communication service in a long-distance sea to receive a signal transmitted from the sea base station dedicated to the sea to adjust the power of the ship repeater relayed in the ship to use the ship The user's mobile station is handed off to the coast base station at sea and off to the ship repeater at sea, thereby providing the advantages of high quality mobile communication services at sea and at sea.

Repeater, Repeater, Ship, Nautical, Coastal, Handoff, Power Control, GPS

Description

Power control method of ship relay system {POWER CONTROL METHOD OF A MARINE REPEATER SYSTEM}             

1 shows the positional relationship of a base station for explaining handoff.

2 shows a change in the handoff signal level of a mobile station for explaining the hard handoff area between different CDMA frequencies.

Figure 3 is a block diagram showing a general marine relay system.

4 is a flowchart illustrating a power control method of a marine relay system according to an embodiment of the present invention.

5 is a flowchart illustrating a power control method of a marine relay system according to another embodiment of the present invention.

   -Explanation of symbols for the main parts of the drawings-

10: maritime base station 20: coastal base station

30: ship repeater

The present invention relates to a power control method of a ship repeater system, and more particularly, to control the power of a ship repeater relaying in a ship by receiving a signal transmitted from a sea base station dedicated to the sea to provide a mobile communication service in a remote sea. Thus, the present invention relates to a power control method of a marine relay system that enables a mobile station of a user using a ship to be handed off to a coastal base station at seashore and to a ship repeater at sea, thereby providing high quality mobile communication services at sea and at sea. .

One of the biggest features of the mobile communication system is to guarantee the mobility of the subscriber station. The technologies required to ensure mobility are location registration technology and handoff technology. Hand off means handover of the communication channel between the mobile station and the base station so that the user can continue the call even if the user leaves the service area of the base station or sector currently receiving the service. .

As shown in FIG. 1, the cell areas covered by the base station overlap each other, and handoff occurs toward the side having a better reception sensitivity by the base station's decision. The use of a directional antenna only interferes with co-channel base stations in the radiating direction of the antenna, thereby reducing co-channel interference, thereby improving frequency reuse efficiency. Usually a sector of 120 ° or 180 ° is used.

The channel is disconnected for a very short time (150 ms) during handoff, and the handoff is delayed or the call is disconnected if no channel is available for the new cell. The conditions under which such a handoff occurs include signal reception strength between the mobile station and the base station, bit error rate, distance between the mobile station and the base station, and a service radius of the base station. The service radius of the base station is closely related to the handoff as well as the system capacity. The success of the handoff is also an important factor in determining the quality of service.

Handoffs include soft handoff, softer handoff, and hard handoff. The soft handoff is a handoff between adjacent base stations using the same CDMA frequency (FA) and a handoff in which the mobile station initiates communication with a new base station without breaking communication with the previous base station. The base station may instruct the mobile station to perform soft call transfer only if all forwarded call channels assigned to the mobile station have the same assigned frequency. The softer handoff is an intersectoral handoff in the same base station using the same CDMA frequency and a handoff in which the mobile station initiates communication with a new sector without breaking communication with the previous sector. Hard handoff refers to handoff between different CDMA frequencies or between exchanges (MSCs).

2 shows a change in the handoff signal level of a mobile station for explaining the hard handoff area between different CDMA frequencies.

As shown here, when there is a base station A and a base station B, the hatched portion is the handoff area. In more detail, in CDMA, when the call is initiated, the expected handoff target base station list and handoff thresholds are provided to the mobile station. In addition to the signal tracking of the relevant base station, the subscriber searches for the pilot signals of all base stations subject to handoff and keeps all the pilot signals superior to the threshold provided at the beginning of the call. This list is sent to the base station when this information is required, or when the pilot signal of the base station falls below the minimum required for call maintenance and handoff begins. As shown in FIG. 2, the handoff area is an area from the moment when the pilot signal of the new base station exceeds T_ADD to the time when the pilot signal of the currently serving base station falls below T_DROP.

On the other hand, since the coastal base station for the coastal or offshore service has a certain width limit in the service area, when the ship leaves the land more than a certain distance, the mobile station of the vessel cannot receive the mobile communication service.

Therefore, as shown in FIG. 3 for mobile communication service in a ship located at a remote sea, a coastal base station 20 for serving a coastal or offshore is installed as well as a dedicated maritime base station 10 for a ship. When the signal is transmitted to the ship in operation at sea, a ship repeater 30 is installed in the ship to receive and amplify the signal and provide a signal to the ship, so that the mobile communication service can be smoothly serviced even in a ship operating at a long distance. I can receive it.

As such, when the coast is provided with a signal by the coast base station 20 and the vessel receives a signal by the ship repeater 30, the mobile station located within the ship is out of the land for a predetermined distance when the vessel enters the sea from the offshore. For the mobile communication services of the (not shown), the signal of the ship repeater 30 must be handed off, and when the ship approaches offshore from the sea, the mobile stations located in or near the ship are connected to the ship repeater 30. The mobile communication service is possible only when the signal is handed off to the coastal base station 20 for the shore or the offshore, instead of the signal.

However, if the power relayed from the ship repeater 30 is always constant, even if the ship approaches the water and anchored on the land, the power of the ship repeater 30 is strong so that the handoff is not performed to the coastal base station 20. There is a problem that does not occur smoothly.

The present invention has been made to solve the above problems, and an object of the present invention is to receive a signal transmitted from a sea base station dedicated to the sea to provide a mobile communication service at a long distance, the power of the ship repeater relayed in the ship The power control method of the ship relay system for providing a high quality mobile communication service at sea and at sea by handing off the mobile station of the user using the ship by handing off to the coast base station at sea and off to the ship repeater at sea. In providing.

The present invention for realizing the above object in the marine relay system consisting of the instrument of the vessel to receive a signal from the marine base station dedicated to the sea for the mobile communication service on the sea, to determine the current position of the vessel And adjusting the power of the ship repeater according to the identified current position.

In this case, the present invention is characterized in that to increase the power when the current position is determined to deviate by a certain distance, and to decrease the power when approaching a certain distance.

In addition, the present invention is a marine repeater system consisting of a ship repeater for receiving a signal from the marine base station dedicated to the sea for mobile communication service in the sea, the step of detecting a signal of the coast base station for servicing the shore and And adjusting the power of the ship repeater according to the detected strength of the signal of the coast base station.

In this case, the present invention is characterized in that the power is increased when the signal strength of the coast base station is small, and the power is decreased when the signal strength of the coast base station is large.

The present invention made as described above is close to the shore, or when the signal of the coast base station is close to the shore so that the hand-off with the ship repeater and the coast base station of the vessel receiving and relaying the signal of the sea base station is handed off to the coast base station to coast Decrease the output of the ship repeater to receive the signal from the base station, and increase the output of the ship repeater so that it can be handed off to the ship repeater and receive the signal from the ship repeater when it is far from the shore or the signal of the coast base station is weakened. To ensure quality service.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only and the same parts as in the conventional configuration using the same reference numerals and names.

4 is a flowchart illustrating a power control method of a marine relay system according to an embodiment of the present invention.

As shown here, the position of the ship is first determined through GPS at step S10. That is, the position of the ship repeater 30 is grasped.

By determining the current location and the distance from the seaside determined in this way it is determined whether the deviation is more than a certain distance (S20).

Therefore, when the deviation is more than a certain distance to increase the output of the ship repeater 30 to hand off from the coastal base station 20 to the ship repeater 30 to receive a mobile communication service through the signal of the ship repeater 30 (S14).

However, if the deviation is not more than a certain distance or when entering the coast and approach within a certain distance, the output of the ship repeater 30 is reduced to hand off from the ship repeater 30 to the coastal base station 20 to the coast base station 20 The mobile communication service can be received through the signal (S16).

As such, the power of the ship repeater 30 is controlled to selectively receive the signals of the ship repeater 30 and the coast base station 20 according to the position of the ship, so that smooth handoff and high quality mobile communication service can be provided. Make sure

5 is a flowchart illustrating a power control method of a marine relay system according to another embodiment of the present invention.

As shown here, first, the signal of the coast base station 20 received from the ship is detected (S20).

The strength of the coast base station 20 detected as described above is compared with the reference strength for the handoff between the ship repeater 30 and the coast base station 20 or less (S22).

At this time, when the strength of the coast base station 20 is greater than the reference strength, the output of the ship repeater 30 is reduced to be handed off to the coast base station 20 to receive a mobile communication service through the signal of the coast base station 20. (S24).

However, when the strength of the coast base station 20 is less than the reference strength, the output of the ship repeater 30 is increased to be handed off to the ship repeater 30 to receive a mobile communication service through the signal of the ship repeater 30. (S26).

As such, the power of the ship repeater 30 is controlled to selectively receive the signals of the ship repeater 30 and the coast base station 20 according to the strength of the coast base station 20 received by the ship. To be provided with a mobile communication service.

As described above, the present invention adjusts the power of a ship repeater relayed in a ship by receiving a signal transmitted from a sea base station dedicated to providing a mobile communication service in a long distance sea, and the mobile station of the user who uses the ship is at sea coast. By handing off to the base station and being handed off to the ship repeater at sea, there is an advantage that can provide high quality mobile communication service at sea and coast.

Claims (4)

In the ship relay system consisting of a ship repeater for receiving a signal from the sea base station dedicated to the sea for the mobile communication service in the sea, Determining the current position of the vessel; Adjusting the power of the ship repeater according to the current position identified above; Power control method of the marine relay system, characterized in that consisting of. The power control method according to claim 1, wherein the power is increased when the current position determined above is out of a predetermined distance, and the power is decreased when the current position is approached by a predetermined distance. In the ship relay system consisting of a ship repeater for receiving a signal from the sea base station dedicated to the sea for the mobile communication service in the sea, Detecting a signal of a coast base station for serving the beach; Adjusting the power of the ship repeater according to the strength of the detected signal of the coast base station; Power control method of the marine relay system, characterized in that consisting of. 4. The method of claim 3, wherein the power is increased when the signal strength of the coast base station is small and the power is decreased when the signal strength of the coast base station is large.

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