KR101052037B1 - Tactical multiband multirole radio equipment and method of setting up master/slave for tactical multiband multirole radio docking the tactical multiband multirole radio equipment - Google Patents

Abstract

PURPOSE: A master/slave operation between a portable TMMR(Tactical Multiband Multirole Radio) method of docking on a TMMR cradle and the TMMR cradle are provided to operate on one TMMR by docking more than one portable TMMR on a TMMR cradle. CONSTITUTION: A first portable TMMR receives a master mode signal through a docked first connector from a TMMR cradle. The first portable TMMR is converted to a master mode(220). The first portable TMMR transmits the message of a master mode changeover to a second portable TMMR(230). The second portable TMMR receives the message of master mode changeover from the first portable TMMR. The second portable TMMR is converted to a slave mode(240). The first portable TMMR controls the operation of the second portable TMMR(250).

Description

 Tactical Multiband Multirole Radio Equipment and Method of Setting up Master / Slave for Tactical Multiband Multirole Radio Docking The Tactical Multiband Multirole Radio Equipment}

The present invention relates to a master / slave operation method between a TMMR apparatus stand and a portable TMMR docked to the TMMR apparatus stand. More particularly, two or more portable TMMRs are docked to a TMMR apparatus stand to operate as a single TMMR. The present invention relates to a master / slave operation method between a TMMR apparatus stand and a portable TMMR docked to the TMMR apparatus stand so that a high-performance vehicle TMMR or a ship TMMR can be operated only by a combination of the portable TMMRs without separately manufacturing a TMMR or a ship TMMR. .

The battlefield environment of the future is capable of overcoming the temporal and spatial constraints of combat power management, and the warfare pattern is shifting to a network that can maximize combat efficiency. In order to enable real-time combat command and battlefield management in this future battlefield environment, the Korean military is actively developing Tactical Information Communication Networks (TICN).

TICN is a tactical communication infrastructure that is connected to each other by wire and wireless, such as command control and weapon systems, to maximize combat capability through advanced network. When the TICN environment is established, the battlefield environment is rapidly expanding and expanding in space to develop into a three-dimensional warfare situation. In the future, dynamic battlefield information is collected accurately and accurately from the lowest combatant to the commander of the highest altar. You can lead.

Overall, the TICN operating environment is divided into hierarchical nodes such as Tactical Multiband Multirole Radio (TMMR), which is mobile, and MSAP (Multi-Service Access Platform), which is a node of a higher layer that locally binds them. Typically, TMMR is implemented with AN / PRC-148 radios, PRC-999K radios, etc. given to general soldiers.

As such, the TMMR may be generally implemented as a radio that soldiers carry, or may be implemented as a separate radio such as a vehicle or a ship. However, since the vehicle TMMR and the ship TMMR require high performance such as a higher output multi-channel than the portable TMMR, they are manufactured in a separate radio form different from the portable TMMR. Thus, even if a separate vehicle TMMR or a ship TMMR is not manufactured, development of a technology capable of realizing a high performance multi-channel high performance vehicle TMMR or marine TMMR using a portable TMMR is required.

The present invention has been made to improve the prior art as described above, by allowing two or more portable TMMR to be docked to the TMMR apparatus stand to operate as a single TMMR, without the need to manufacture a vehicle TMMR or a ship TMMR separately with a combination of portable TMMR It is an object of the present invention to provide a master / slave operation method between a TMMR apparatus stage that enables a higher performance vehicle TMMR or a marine TMMR, and a portable TMMR docked to the TMMR apparatus stage.

In order to achieve the above object and solve the problems of the prior art, the master / slave operation method between two or more portable TMMR docked in the TMMR apparatus stand according to an embodiment of the present invention, the first portable TMMR of the two or more portable TMMR When the TMMR dock is docked at the master connector of the TMMR rack and the second portable TMMR docked at the slave connector of the TMMR rack, transmitting the master mode signal to the first portable TMMR through the master connector; When the first portable TMMR receives the master mode signal from the TMMR device post via the docked master connector, switching to a master mode and sending a master mode switch message to the second portable TMMR; When the second portable TMMR receives the master mode switch message from the first portable TMMR, switching to slave mode; And controlling, by the first portable TMMR, the operation of the second portable TMMR.

In addition, the TMMR apparatus unit according to an embodiment of the present invention, the connector unit including one master connector and one or more slave connectors; A signal transmitter for transmitting a master mode signal to the first portable TMMR through the master connector when a first portable TMMR is docked at the master connector and a second portable TMMR is docked at the slave connector; An Ethernet connection unit controlling an Ethernet connection between the master connector and the one or more slave connectors; An amplifier for amplifying a signal transmitted from each portable TMMR docked to said master connector and said at least one slave connector via said Ethernet connection; And an antenna unit configured to propagate a signal output from each of the portable TMMRs and amplified and output through the amplifier.

According to the master / slave operation method between the TMMR stand of the present invention and the portable TMMR docked to the TMMR stand, even if a separate vehicle TMMR or a ship TMMR is not manufactured, a high-performance multi-channel high-performance vehicle TMMR using a portable TMMR or The effect of implementing the TMMR for ships can be obtained.

1 is a diagram showing the configuration of a TMMR apparatus stand according to an embodiment of the present invention.
Figure 2 is a flow chart showing the flow of the master / slave operation method between the portable TMMR docked to the TMMR apparatus stand in accordance with an embodiment of the present invention.
3 is a flowchart illustrating a method of performing master and slave integration control between a master TMMR and a slave TMMR according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing the configuration of a TMMR apparatus stand according to an embodiment of the present invention.

TMMR apparatus 100 according to an embodiment of the present invention includes a connector unit 110 and 120, voltage applying unit 130, Ethernet connection unit 140, amplifier 150, and antenna unit 160. .

The connector unit according to an embodiment of the present invention includes two or more connectors (first connector to M-th connector). In the present specification, for convenience of description, a case in which the connector unit includes the first connector 110 and the second connector 120 will be described as an example.

The first connector 110 includes a first-first pin hole 111, a first-second pin hole 112, and a first-three pin hole 113. The second connector 120 includes a 2-1 pin hole 121, a 2-2 pin hole 122, and a 2-3 pin hole 123. The first portable TMMR 170 includes a first-first pin 171, a first-second pin 172, and a first-three pin 173. The second portable TMMR 180 includes a 2-1 pin 181, a 2-2 pin 182, and a 2-3 pin 183.

The first portable TMMR 170 may be docked in the first connector 110, and the second portable TMMR 180 may be docked in the second connector 120. That is, the first connector 110 of the first-first pin 171, the first-second pin 172, and the first-third pin 173 of the first portable TMMR 170 are respectively the first-first pin. The first portable TMMR 170 may be docked to the first connector 110 by being inserted into the hole 111, the 1-2 pin hole 112, and the 1-3 pin hole 113. In addition, the 2-1 pin 181, the 2-2 pin 182, and the 2-3 pin 183 of the second portable TMMR 180 are the 2-1 pin holes of the second connector 120. The second portable TMMR 180 may be docked to the second connector 120 by being inserted into the 121, the second-2 pin holes 122, and the second-3 pin holes 123.

According to an embodiment of the present invention, the first connector 110 may be implemented as a master connector, and the second connector 120 may be implemented as a slave connector. The distinction between the master connector and the slave connector may be implemented through connection with the signal transmitter 130.

The first connector 110, which is implemented as a master connector, is configured to receive the master mode signal transmitted from the signal transmitter 130 by connecting the first to third pin holes 113 to the signal transmitter 130. Can be. The second connector 120, which is implemented as a slave connector, may not be connected to the signal transmitter 130 and thus may not receive the master mode signal. That is, the user may implement a connector desired by the master connector by controlling whether the signal transmitter 130 and the connector are electrically connected.

When the first portable TMMR 170 receives the master mode signal from the signal transmitter 130, the first portable TMMR 170 recognizes that it is set as the master TMMR and switches to the master mode. The first portable TMMR 170 transmits a master mode switch message to the second portable TMMR 180 docked at the second connector 120 together with the switching of the master mode.

As the second portable TMMR 180 receives the master mode switch message from the first portable TMMR 170, the second portable TMMR 170 recognizes that the first portable TMMR 170 is set to the master TMMR and is set to the slave TMMR, and the slave Switch to mode. Thereafter, the first portable TMMR 170 that has switched to the master mode may control the operation of the second portable TMMR 180 that has switched to the slave mode.

The Ethernet connection 140 controls the Ethernet connection between the first portable TMMR 170 docked at the first connector 110 and the second portable TMMR 180 docked at the second connector 120. That is, the first portable TMMR 170 docked at the first connector 110 and the second portable TMMR 180 docked at the second connector 120 are connected to each other via the Ethernet connection unit 140 to perform communication. can do.

The amplifier 150 amplifies and outputs signals transmitted from the first portable TMMR 170 and the second portable TMMR 180 through the Ethernet connection 140. The antenna unit 140 may propagate a signal output from the first portable TMMR 170 and the second portable TMMR 180 and amplified through the amplifier 150 to the outside. Anternabu 140 may be implemented in the internal configuration of the TMMR apparatus stage 100, or may be implemented in a separate configuration from the TMMR apparatus stage 100.

2 is a flowchart illustrating a method of operating a master / slave between portable TMMRs docked to a TMMR apparatus stand according to an embodiment of the present invention.

The master / slave operation method between the portable TMMR docked in the TMMR apparatus stand according to an embodiment of the present invention may be implemented through the TMMR apparatus stand, the first portable TMMR, and the second portable TMMR.

If the first portable TMMR is docked at the master connector of the TMMR rack and the second portable TMMR is docked at the slave connector of the TMMR rack, the TMMR rack sends a master mode signal to the first portable TMMR (step (210)).

When the first portable TMMR receives the master mode signal from the TMMR device post via the docked master connector, the first portable TMMR switches to master mode (step 220).

The first portable TMMR sends a master mode switch message to the second portable TMMR with the switch to the master mode (step 230). The second portable TMMR switches to slave mode when receiving the master mode switch message from the first portable TMMR (step 240).

According to the master mode switching and the slave switching of each of the portable TMMRs, the first portable TMMR controls the operation of the second portable TMMR (step 250). A detailed method of operation control of the second portable TMMR by the first portable TMMR will be described with reference to FIG. 3.

3 is a flowchart illustrating a method of performing master and slave integration control between a master TMMR and a slave TMMR according to an embodiment of the present invention.

According to an embodiment of the present invention, the first portable TMMR set as the master TMMR transmits a slave status confirmation message to the second portable TMMR set as the slave TMMR (step 311). The second portable TMMR confirms its operating state (step 312) and sends a slave status confirmation response message to the first portable TMMR (step 313).

The first portable TMMR sends a control right request message to the second portable TMMR (step 314). The second portable TMMR sends a control right request response message to the first portable TMMR (step 315).

The first portable TMMR takes over control of the second portable TMMR (step 316), and the second portable TMMR enters a control standby state (step 317), whereby the first portable TMMR is the first portable TMMR. 2 The operation of the portable TMMR may be performed via master and slave integration control (step 319).

The master / slave operation method between the portable TMMRs docked on the TMMR apparatus stand according to the present invention can be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, or the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

100: TMMR apparatus stand 110: first connector
111: 1-1 pin hole 112: 1-2 pin hole
113: 1-3 pin hole 120: second connector
121: 2-1 pin hole 122: 2-2 pin hole
123: 2-3 pin hole 130: signal transmitting unit
140: Ethernet connection 150: amplifier
160: antenna unit 170: first portable TMMR
171: 1-1 pin 172: 1-2 pin
173: 1-3 pin 180: second portable TMMR
181: 2-1 pin 182: 2-2 pin
183: 2-3 pin

Claims (6)

When the first portable TMMR of the portable TMMRs is docked at the first connector of the TMMR rack and the second portable TMMR is docked at the second connector of the TMMR rack, the TMMR rack is connected to the first portable TMMR through the first connector. Transmitting a master mode signal to the network;
When the first portable TMMR receives the master mode signal from the TMMR device post via the docked first connector, switching to a master mode and sending a master mode switch message to the second portable TMMR;
When the second portable TMMR receives the master mode switch message from the first portable TMMR, switching to slave mode; And
And controlling, by the first portable TMMR, operation of the second portable TMMR.
The first connector and the second connector is connected to each other via an Ethernet (Ethernet) is a master / slave operation method between the portable TMMR docked to the TMMR device characterized in that the communication. delete The display device of claim 1, wherein each of the first connector and the second connector comprises a first pin hole to an Nth pin hole,
The TMMR apparatus unit transmitting a master mode signal to the first portable TMMR through the first connector,
The TMMR device stage sends the master mode signal to the K-th pin hole among the first to N-th pin holes of the first connector, and to the K-th pin hole of the first to N-th pin holes of the second connector. And a master / slave operation method between portable TMMRs docked to a TMMR apparatus stage, wherein the master mode signal is not transmitted. The method of claim 1, wherein the controlling of the operation of the second portable TMMR by the first portable TMMR comprises:
Sending, by the first portable TMMR, a slave status confirmation message to the second portable TMMR;
Checking, by the second portable TMMR, its own operating state, and transmitting a slave status confirmation response message to the first portable TMMR;
Sending, by the first portable TMMR, a control right request message to the second portable TMMR;
Sending, by the second portable TMMR, a control right request response message to the first portable TMMR; And
And the first portable TMMR takes over the control right of the second portable TMMR, the second portable TMMR enters a control standby state, and the first portable TMMR controls the operation of the second portable TMMR. Master / slave operation method between the portable TMMR docked to the TMMR device stage characterized in that. A computer-readable recording medium having recorded thereon a program for executing the method of claim 1. delete

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