KR20180033321A - Directional Signaling Device Including a Directional Antenna - Google Patents

Abstract

The present invention relates to a directional signal device including a directional antenna and, more specifically, to a signal device which is installed in a specific direction at a designated height of a designated position. The directional signal device including the directional antenna comprises the directional antenna, a first signal module, and a second signal module. The directional antenna selectively receives a wireless signal within a designated incident angle range of short distance wireless signals transmitted from a moving signal device of the designated specific direction. The first signal module confirms signal information and signal receiving intensity of the wireless signals by reading the short distance wireless signals received from the specific direction through the directional antenna. The omnidirectional antenna transmits or receives the short distance wireless signals in all directions. The second signal module transmits the short distance wireless signal including processing information based on the signal information and the signal receiving intensity, which are confirmed through the first signal module, at a short distance in all directions through the omnidirectional antenna. The present invention can provide a service by selectively recognizing a position where a moving body stops.

Description

TECHNICAL FIELD [0001] The present invention relates to a directional signaling device including a directional antenna,

The present invention is directed to a directional signal device installed at a specified height at a specified position and oriented in a specific direction, and a directional antenna for selectively receiving a short-distance radio signal incident within a specified incident angle range among radio signals transmitted from a mobile signal device in a specific direction And a non-directional antenna for transmitting and receiving a radio signal in all directions, wherein the radio signal transmitted from the mobile signal device in a specific direction through the directional antenna and received within a specified angle of incidence range is selectively received or read, A first signal module for acquiring information related to a mobile signal device and a second signal module for transmitting a short distance wireless signal including information related to the mobile signal device through the omnidirectional antenna, On the side that provided the relevant information Within the given range of the directional signal specific direction by the directional antenna of the device directed to the recognition process that the signal the mobile device exists.

Generally, in order to recognize the position of a moving object by using a radio signal, at least three base stations (or satellites) for transmitting and receiving a radio signal with respect to the moving object are required. The position of the moving object can be recognized by triangulation using at least one of Angle of Arrival (AOA), Time of Arrival (TOA), and Time Difference of Arrival (TDOA) And expensive equipment that can precisely sense the angle of arrival and time of the signal.

On the other hand, the location recognition using the conventional triangulation method based on the wireless signal is relatively easy to locate the approximate position in the outdoor, while the obstacle obstructing the transmission of the wireless signal is detected in a narrow space such as a room or a gas station It is technically difficult to precisely recognize the position of the moving object.

On the other hand, if a service provided to a mobile object is not provided while the mobile object is moving but is provided while the mobile object is stopped, it is possible to selectively recognize the stop position of the mobile object, However, the triangulation method, which is conventionally designed to locate the moving position, has a problem in that it is technically difficult to precisely recognize the position of the moving object in a narrow space where the obstacle is unspecifically arranged.

An object of the present invention to overcome the above problems is to provide a signal device which is directed to a specific direction at a specified height at a designated position and which is incident on a signal device within a specified range of incident angles among short- A directional antenna for selectively receiving a radio signal and obtaining a non-directional antenna for transmitting and receiving a radio signal in a short distance in all directions, A first signal module for selectively receiving or reading a radio signal of the mobile signal device to obtain information related to the mobile signal device, and a second signal module for transmitting a radio signal of a short distance including information related to the mobile signal device through the omnidirectional antenna 2 signal module, the first A processing module for generating processing information corresponding to the signal information confirmed by the signal module, transmitting a near-field radio signal including the processing information in all directions in the near direction through the omnidirectional antenna, The present invention provides a directional signal device having a directional antenna for processing a mobile signal device that is present within a specified range of a specific direction in which the directional antenna of the directional signal device is oriented.

A directional signal device having a directional antenna according to the present invention is a signal device installed in a specific direction at a specified height at a designated position in a specific direction, A directional antenna for receiving a radio signal incident on the directional antenna; a directional antenna for receiving a radio signal received from a specific direction through the directional antenna to confirm signal information and confirming signal reception intensity of the radio signal; A wireless communication system comprising a signal module, an omnidirectional antenna for transmitting or receiving a radio signal in a short distance in all directions, and a short distance radio signal including processing information configured based on signal information confirmed through the first signal module and signal reception strength Directional antenna through the omni-directional antenna And a second module for signal Li.

According to the present invention, the directional antenna is capable of selectively asynchronously receiving a radio signal that is received within a specified range of incident angles of nearby radio signals asynchronously transmitted from a mobile signal device in a specified direction.

According to the present invention, the omnidirectional antenna can perform asynchronous transmission or asynchronous reception of a short distance wireless signal in a short distance.

According to the present invention, the asynchronous transmission may include at least one of transmitting a radio signal at the transmitting side without pre-pairing between the transmitting side and the receiving side, or broadcasting the radio signal at the transmitting side without specifying the receiving side have.

According to the present invention, the asynchronous reception is performed by receiving and processing the radio signal transmitted from the transmission side without pre-pairing between the transmission side and the reception side, or receiving the radio signal broadcasted without specifying the reception side on the transmission side And receiving and processing the received data.

According to the present invention, the first signal module can selectively and asynchronously receive a radio signal incident within a specified range of incident angles among short-distance radio signals asynchronously transmitted from a mobile signal device in a specific direction specified through the directional antenna .

According to the present invention, the first signal module can validate the signal information that reads the radio signal when the signal reception strength of the radio signal received through the directional antenna is equal to or higher than a specified reference strength.

According to the present invention, the first signal module is interlocked with the second signal module, and includes at least one information included in the signal information when the signal reception intensity is equal to or higher than a specified reference intensity or a change over a specified variation amount Processing information may be configured and provided to the second signal module.

According to the present invention, the first signal module, in conjunction with the second signal module, constitutes processing information including at least one information included in the signal information and information for discriminating the signal reception intensity, Signal module.

According to the present invention, the first signal module is interlocked with the second signal module, and when at least one of the information included in the signal information and the signal Processing information including information for determining the reception strength can be configured and provided to the second signal module.

According to the present invention, the second signal module is interlocked with the first signal module, receives the signal information from the first signal module, and constructs processing information including at least one information included in the signal information The device being characterized by the fact that the device is a device.

According to the present invention, the second signal module is interlocked with the first signal module, and receives the signal information and the received signal strength from the first signal module, and when the signal reception strength is equal to or higher than a specified reference intensity, Wherein the processing information comprises at least one piece of information included in the signal information when the information is changed.

According to the present invention, the second signal module is interlocked with the first signal module, and receives the signal information and the received signal strength from the first signal module, receives at least one information included in the signal information, Processing information including information for determining the reception strength can be configured.

According to the present invention, the second signal module is interlocked with the first signal module, and receives the signal information and the received signal strength from the first signal module, and when the signal reception strength is equal to or higher than a specified reference intensity, Processing information including at least one information included in the signal information and information for discriminating the signal reception strength can be configured.

According to the present invention, the directional signal device receives the signal information and the signal reception intensity from the first signal module, and transmits the signal information and the signal reception intensity to the directional signal device through a process And a control module configured to provide information to the second signal module.

According to the present invention, the processing information includes at least one of device identification information included in the first signal module, device identification information included in the second signal module, device identification information assigned to identify the first signal module, 2 signal module, device identification information set to identify the directional signal device having the first signal module, device identification information set to identify the directional signal device having the second signal module The device identification information may include at least one of the device identification information.

According to the present invention, the processing information may further include orientation information that identifies at least one of a position, a height, and a direction at which the directional antenna receives a wireless signal in a short distance.

According to the present invention, the second signal module can control the asynchronous transmission of the near-field radio signal through the omnidirectional antenna in all directions at a short distance.

According to the present invention, the directional signal device may further include a first signal module, a second signal module, a directional antenna, and a battery part supplying operating power to the omni-directional antenna.

According to the present invention, the signal information includes one or more designated mobile identification information that uniquely identifies the mobile signal device, and the processing information may include at least one specified mobile identification information of the information included in the signal information have.

According to the present invention, the mobile identification information includes fixed identification information included in the mobile signal device, unique identification information uniquely set (or assigned) to the mobile signal device, dynamic identification information (Or generated) dynamic identification information.

According to the present invention, the omnidirectional antenna receives a short-distance wireless signal transmitted from a network interlocking signaling device provided in a short distance, and the second signaling module transmits a short- And the first signal module reads the radio signal in the short distance and transmits the radio signal to the mobile station in a specific direction through the directional antenna using the reception information confirmed through the second signal module, It is possible to control (or set) the operation of receiving the signal.

According to the present invention, the directional antenna is capable of transmitting a wireless signal in a short distance in a specified direction, and the omnidirectional antenna receives a short distance wireless signal transmitted from a network interlocking signal device provided in a short distance, Wherein the module reads the radio signal in the short distance received from the nearby network interlocking signaling device through the omnidirectional antenna and confirms reception information, and the first signaling module, based on the reception information confirmed through the second signaling module It is possible to constitute provision information to be transmitted in a specific direction through the directional antenna and to transmit a short distance wireless signal including the providing information in a specific direction designated through the directional antenna.

According to the present invention, the signal information includes designated mobile identification information that uniquely identifies the mobile signal device, and the provided information includes mobile identification information of the mobile signal device as a receiver identifier of the transmitted radio signal .

According to the present invention, the directional antenna is capable of transmitting a wireless signal in a short distance in a specified direction, and the omnidirectional antenna receives a short distance wireless signal transmitted from a network interlocking signal device provided in a short distance, The module reads a radio signal of a short distance received from a nearby network interworking signal device through the omnidirectional antenna to confirm reception information and transmits the radio signal to the mobile signal device through the omnidirectional antenna based on the confirmed reception information And transmit the short distance wireless signal including the providing information to the mobile signal device through the omnidirectional antenna.

According to the present invention, the signal information includes designated mobile identification information that uniquely identifies the mobile signal device, and the provided information includes mobile identification information of the mobile signal device as a receiver identifier of the transmitted radio signal .

Generally, in order to recognize the position of a moving object by using a radio signal, at least three base stations (or satellites) for transmitting and receiving a radio signal with respect to the moving object are required. The position of the moving object can be recognized by triangulation using at least one of Angle of Arrival (AOA), Time of Arrival (TOA), and Time Difference of Arrival (TDOA) And expensive equipment that can precisely sense the angle of arrival and time of the signal.

On the other hand, the location recognition using the conventional triangulation method based on the wireless signal is relatively easy to locate the approximate position in the outdoor, while the obstacle obstructing the transmission of the wireless signal is detected in a narrow space such as a room or a gas station It is technically difficult to precisely recognize the position of the moving object.

On the other hand, if a service provided to a mobile object is not provided while the mobile object is moving but is provided while the mobile object is stopped, it is possible to selectively recognize the stop position of the mobile object, However, the triangulation method, which is conventionally designed to locate the moving position, has a problem in that it is technically difficult to precisely recognize the position of the moving object in a narrow space where the obstacle is unspecifically arranged.

1 is a diagram showing a configuration of a directional signal device having a directional antenna according to an embodiment of the present invention.
2 is a diagram illustrating a process in which a directional signal device selectively receives a radio signal transmitted from a mobile signal device through a directional antenna and provides the radio signal to a near network interworking signal device through an omnidirectional antenna according to an embodiment of the present invention to be.
3 is a diagram illustrating a process of transmitting / receiving a radio signal between signal devices according to a first embodiment of the present invention.
4 is a diagram illustrating a process of transmitting / receiving a radio signal between signal devices according to a second embodiment of the present invention.
5 is a diagram illustrating a process of transmitting / receiving a radio signal between signal devices according to a third embodiment of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In other words, the following embodiments correspond to the preferred embodiment of the preferred embodiment of the present invention. In the following embodiments, a specific configuration (or step) is omitted, or a specific configuration (or step) (Or steps), or an embodiment that incorporates functions implemented in more than one configuration (or step) into any one configuration (or step), a particular configuration (or step) It will be apparent that the present invention is not limited to the embodiments described below. Therefore, it should be clearly stated that various embodiments corresponding to subsets or combinations based on the following embodiments can be subdivided based on the filing date of the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention. For example, in the following description, the prefixes such as 'first' and 'second' are named to effectively distinguish the equivalent components, and the technical idea of the present invention is not limited by these prefixes.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely means for effectively explaining the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs Only.

1 is a diagram showing a configuration of a directional signal device 100 having a directional antenna 105 according to an embodiment of the present invention.

More specifically, FIG. 1 shows a schematic diagram of a directional signal device 100 installed in a specific direction at a designated height at a designated position and a short distance signal of a short range of a radio signal transmitted from a mobile signal device 170 in a specific direction, (110) having a directional antenna (105) for selectively receiving a radio signal and transmitting and receiving a radio signal in all directions, wherein the directional antenna (105) A first signal module 120 for selectively receiving or reading a short distance wireless signal transmitted from the mobile terminal 100 to obtain information related to the mobile signal device 170, And a second signal module 140 for transmitting a short-distance wireless signal including information related to the mobile signal device 170 through the second signal module 140 The portable signal device 170 recognizes that the mobile signal device 170 is present within a specified range of a specific direction directed by the directional antenna 105 of the directional signal device 100 The directional directional signal device 100 according to the present invention will be described with reference to FIG. 1 and / or modified by those skilled in the art. It is to be understood that the invention may be practiced otherwise than as specifically described herein, but the invention may be practiced otherwise than as specifically described herein, The technical features thereof are not limited only by the method of implementation.

The directional signal device 100 of the present invention is a collective term for a device which is installed at a specified height at a designated position and which is oriented in a specific direction and which transmits and receives short range wireless signals according to a specified signal standard. And a device for transmitting / receiving a Bluetooth-based wireless signal. However, it is obvious that the wireless signal of the short distance to be transmitted and received by the directional signal device 100 is not limited to the Bluetooth-based wireless signal and that any wireless signal is included in the right scope of the present invention I will reveal.

Referring to FIG. 1, the directional signal device 100 includes a directional antenna 105 (see FIG. 1) for selectively receiving a radio signal that is incident within a specified range of incident angles among short-range wireless signals transmitted from a mobile signal device 170 in a specified direction, An omnidirectional antenna 110 for transmitting or receiving a radio signal in a short distance in all directions, and an omnidirectional antenna 110 for receiving radio signals in a specific direction from the directional antenna 105, A first signal module 120 for confirming the signal reception strength of the radio signal, a short range radio signal including processing information configured based on the signal information confirmed through the first signal module 120 and the signal reception intensity, And a second signal module (140) for processing the first signal module (120) and the second signal module (120) in a forward direction through the omnidirectional antenna (110) And a battery unit 115 for supplying operating power to the module 140 and the directional antenna 105 and the omnidirectional antenna 110 (E.g., a power supply unit for supplying the first signal module 120 and the second signal module 140 to the directional antenna 105 and the omni-directional antenna 110) And a control module (165) for controlling the control module.

The mobile signal device 170 is a device for transmitting a radio signal in a short distance to be received by the directional antenna 105 of the directional signal device 100. The mobile signal device 170 is preferably installed in a vehicle or installed in a vehicle, In this case, it is possible to transmit a radio signal in a short distance while moving along with the movement of the vehicle. Alternatively, the mobile signal device 170 may include a device for transmitting a wireless signal at a short distance while the user is present and moving with the user, and thus the present invention is not limited thereto. Preferably, the mobile signal device 170 is capable of asynchronously transmitting a radio signal in a short distance to be received by the directional antenna 105 of the directional signal device 100.

In the present invention, asynchronous transmission of a radio signal means that a radio signal is transmitted from the transmission side without pre-pairing between the transmission side and the reception side, and / or a radio signal is transmitted from the transmission side without specifying the reception side At least one of them. Since asynchronous transmission is normally one-way transmission, it is not possible to confirm which reception side the radio signal was received at the same time as (or immediately after) the transmission. Accordingly, the transmitting side can repeatedly transmit the same radio signal including the same information for a predetermined time (or more than a designated number of times), and continuously transmit the same radio signal including the same information until other information is included according to the method can do. That is, the mobile signal device 170 asynchronously transmits a radio signal in a short distance to the directional signal device 100 without pre-pairing with the directional signal device 100 that receives the short- , And / or the mobile signal device 170 does not specify the receiving side and broadcasts the near-field wireless signal. .

The directional signal device 100 is fixedly installed at a specified height at a designated height in a specific direction and the directional antenna 105 of the directional signal device 100 is oriented in a specific direction toward which the directional signal device 100 is directed It is possible to receive a short-distance radio signal transmitted from the mobile signal device 170 of the mobile communication terminal. On the other hand, the height h of the directional signal device 100 is set such that the height (h < 0) below the ground surface, the ground surface (h = 0) And a constant height (h > 0) on the surface of the earth, and thus the present invention is not limited thereto.

According to an embodiment of the present invention, the directional antenna 105 receives a short distance wireless signal transmitted from the mobile signal device 170 in the specific direction, The mobile station can be designed and manufactured to selectively receive a radio signal of a short distance from a radio signal within a specified range of incident angles. For example, the directional antenna 105 may be designed to selectively receive near-field radio signals incident at an incident angle of 30 degrees or less with respect to a normal line of the antenna surface. According to an embodiment of the present invention, the directional antenna 105 includes a material for transmitting a radio signal in a specific direction for effectively receiving a radio signal to selectively receive a radio signal incident within a specified incident angle range, And parts other than the incident angle may be made of a material for blocking the radio signal. For example, the directional antenna 105 has a polygonal or circular surface wider than the antenna surface in a specific direction for receiving a radio signal with respect to a normal line of the antenna surface, and has a narrower surface than a specific directional surface in the opposite direction And a slope of an oblique plane connecting a narrow side of the specific direction and a narrow side opposite to the specific direction is disposed in a housing made to correspond to the specified incident angle, wherein a material for transmitting a radio signal is provided in a specific direction of the housing Alternatively, a wireless signal may be formed on a surface opposite to the oblique plane with a material for blocking (or absorbing) a wireless signal. Thus, among wireless signals transmitted in the specific direction, Signal can be selectively received.

According to an embodiment of the present invention, the directional signal device 100 specifies a direction in which a nearby radio signal is to be received via the directional antenna 105, and at the same time, By specifying (or limiting) the range of incident angles to be received, the mobile signal device 170 that transmits the radio signal

If the mobile signal device 170 for asynchronously transmitting radio signals in a short distance in a state in which the directional signal device 100 is installed in a specific direction at a specified height at a designated position is located in a specific direction of the directional antenna 105 Or moves (or holds) a specific directional area of the directional antenna 105 while the mobile signal device 170 is moving, the directional antenna 105 is moved from the mobile signal device 170 in the specific direction asynchronously It is possible to asynchronously receive a radio signal of a short distance to be transmitted. The directional antenna 105 may selectively receive asynchronously a short distance wireless signal that is received within a predetermined incident angle range of a short distance wireless signal asynchronously transmitted from the mobile signal device 170 in the specific direction.

On the other hand, in the present invention, asynchronous reception of a radio signal means that a radio signal transmitted from the transmission side is received and processed on the reception side without pre-pairing between the transmission side and the reception side, and / And receiving and processing the broadcasted radio signal on the receiving side. The asynchronous transmission is one-way transmission, and the transmitting side of the present invention can repeatedly transmit the same radio signal including the same information for a predetermined time (or more than a specified number of times). Accordingly, the receiving side can asynchronously receive (= repeatedly receive) the same radio signal repeatedly transmitted from the same transmitting side, and can acquire (or recognize) information contained in any one of the radio signals asynchronously received have. On the other hand, the receiver side can confirm the signal reception strength of the same radio signal including the same information for a predetermined time. The directional antenna 105 asynchronously receives a radio signal in a short distance means that the directional signal device 100 including the directional antenna 105 is not moved to the mobile signal device 170 without pre- Or recognizes and uses various types of information included in the radio signal, and / or receives a radio signal in a short distance broadcasted by the mobile signal device 170 without specifying the receiving side And reading and using various information included in the radio signal to recognize and use the information.

According to an embodiment of the present invention, the mobile signal device 170 asynchronously transmits a radio signal in a short distance and the directional signal device 100 transmits asynchronous transmission from the mobile signal device 170 through the directional antenna 105 The directional signal device 100 can pre-pair a plurality of mobile signal devices 170 and use the asynchronous reception of asynchronous signals from as many non-random mobile signal devices 170 as possible And can receive and read the transmitted wireless signal of the short distance and recognize various information included in the wireless signal. For example, in the case of Bluetooth pairing, the number of the mobile signal devices 170 that can be synchronously communicated by the directional signal device 100 by pre-pairing with the mobile signal device 170 is limited to a maximum of eight. In the meantime, the present invention transmits a short distance radio signal asynchronously and transmits a short distance radio signal asynchronously transmitted from the mobile signal device 170 to the directional signal device 100 without limitation of the number of communicable devices or complex pre- The directional antenna 105 of FIG.

The directional signal device 100 includes an omnidirectional antenna 110 that emits near-field radio signals in all directions and / or receives near-field radio signals from all directions. The omnidirectional antenna 110 of the directional signal device 100 is received by the network interworking signal device 180 located within a predetermined distance of the directional signal device 100 (for example, a valid range of a radio signal) And the radio signals transmitted through the omnidirectional antenna 110 are received by M (M &gt; = 1) interworking signal devices 180 located in close proximity to each other.

Meanwhile, the network interworking signal device 180 may include a wireless LAN module for interworking with the network, and a signal module for transmitting and receiving a wireless signal at a short distance. The wireless signal transmitted through the omnidirectional antenna 110 of the directional signal device 100 may be received or read by the signal module of the network interrogator 180. In this case, the omnidirectional antenna 110 of the directional signal device 100 transmits a radio signal in a short distance from the network interlocking signal device 180 to receive the radio signal.

According to an embodiment of the present invention, the directional signal device 100 can transmit asynchronous radio signals in a short distance through the omnidirectional antenna 110, The wireless signal asynchronously transmitted asynchronously to the directional signal device 100 may be asynchronously received by at least M network interrogators 180 located near the directional signal device 100. Preferably, the directional signal device 100 transmits a short distance wireless signal through the omnidirectional antenna 110 without pre-pairing with the network interworking signal device 180 to receive a short distance wireless signal, and / At least M network interworking signal devices 180 located in the vicinity of the directional signaling device 100 are connected to the directional signaling device 100 It is possible to recognize and use various information included in the wireless signal by receiving or reading a wireless signal of a short distance transmitted asynchronously.

Meanwhile, the network interworking signal device 180 may also transmit asynchronous radio signals in a short distance through the signal module, and the directional signal device 100 may transmit the wireless interfering signal through the non- The device 180 can receive or read a wireless signal of a short distance asynchronously, and can recognize and use various information included in the wireless signal.

The first signal module 120 is connected to the directional antenna 105 and outputs a short distance radio signal transmitted from the mobile signal device 170 in a specific direction and received and received within a specified incident angle range of the directional antenna 105 And transmits the radio signal through the directional antenna 105. The directional antenna 105 receives the radio signal through the directional antenna 105 and confirms the received signal strength. It is possible to configure the processing information to be transmitted in the short distance. The first signal module 120 may be directly coupled to the second signal module 140 or may be coupled to the second signal module 140 via a separate control module 165. [ can do.

The second signal module 140 is connected to the omnidirectional antenna 110 and transmits a short distance radio signal including the processing information to the short distance interworking signal device 180 through the omni directional antenna 110, According to an embodiment of the present invention, it is possible to configure the processing information to be transmitted in the short distance through the wireless signal based on the signal information and the signal reception strength. The second signal module 140 may be directly coupled to the first signal module 120 or may be coupled to the first signal module 120 via a separate control module 165. [ can do.

The control module 165 collectively refers to a module for interlocking and controlling operation of the first signal module 120 and the second signal module 140. The control module 165 controls the operation of the first signal module 120 and the second signal module 140, And provides processing information to be transmitted to the second signal module 140 through the wireless signal based on the received signal information and the received signal strength, .

Referring to FIG. 1, the first signal module 120 is connected to the directional antenna 105 and is emitted from a mobile signal device 170 in a specific direction and is incident on the directional antenna 105 within a specified angle of incidence A directional control unit 125 that controls the directional control unit 125 to selectively receive a radio signal in a short distance from the mobile signal device 170 in a specific direction designated through the directional antenna 105, A direction strength receiving unit 130 for confirming signal information transmitted from the apparatus 170 and a reception strength confirmation unit 135 for confirming a signal reception strength for receiving a short distance radio signal through the directional antenna 105 Respectively. The directional control unit 125 and / or the reception strength confirmation unit 135 may be provided on the side of the directional antenna 105 according to the embodiment, and thus the present invention is not limited thereto.

The directional controller 125 is connected to the directional antenna 105 and receives signals from a mobile signal device 170 in a specific direction directed by the directional signal device 100 (or a specific direction directed by the directional antenna 105) The reception strength verification unit 135 controls the reception strength verification unit 135 to receive a short distance radio signal that is incident on the short distance radio signal within a predetermined incident angle range of the directional antenna 105, The signal reception strength of the radio signal of the mobile station is checked. For example, the directivity control unit 125 may confirm the signal reception strength for at least a certain period of time through the reception strength confirmation unit 135 and / or transmit the near-by radio signal received through the directional antenna 105 A pattern in which the signal reception intensity over a predetermined period of time in the radio signals received through the directional antenna 105 is constant or increases within a tolerance range exceeding a predetermined reference intensity, And can effectively receive and process a radio signal having a pattern in which a noise or a peak value of a radio signal received for a predetermined period of time is maintained at a predetermined level or decreases. The directional controller 125 controls the directional antenna 105 such that the directional antenna 105 is positioned within a predetermined angle of incidence of the directional antenna 105. In this case, To selectively receive asynchronously the radio signal of the mobile station.

The directional receiving unit 130 is connected to the directional antenna 105. The directional receiving unit 130 receives the directional antenna 105 from the directional antenna 105, And confirms the signal information transmitted from the mobile signal device 170 through the radio signal.

According to an embodiment of the present invention, the directional receiving unit 130 confirms signal reception strength for at least a predetermined time for a radio signal corresponding to the signal information through the reception strength confirmation unit 135, It is possible to validate the read signal information of the radio signal when the signal reception strength of the radio signal is equal to or higher than a specified reference strength. Here, the reference strength may be set to the same as the directivity control unit 125 and the directivity receiving unit 130 (for example, validity of the signal information of the radio signal that has been effectively received via the directivity antenna 105) 130) may be set higher (e.g., selectively validating some signal information of the received radio signals via the directional antenna 105). Meanwhile, when the mobile signal device 170 asynchronously transmits a radio signal in a short distance, the directional receiving unit 130 reads the asynchronously received near-field radio signal within the specified angle of incidence of the directional antenna 105, It is possible to confirm the information asynchronously (for example, to validate reception information of one of the same wireless signals repeatedly received).

According to an embodiment of the present invention, the signal information may include one or more designated mobile identification information that uniquely identifies the mobile signal device 170. [ Preferably, the movement identification information includes fixed identification information (e.g., fixed ID information, fixed MAC address, etc. stored in the memory of the mobile signal device 170) included in the mobile signal device 170, (E.g., unique ID information that is assigned (and registered at the same time as the assigned server) after the mobile signaling device 170 is provided to the user), the mobile signaling device 170, (Or includes) one or more of the dynamic identification information (e.g., fixed identification information or unique identification information of the mobile signal device 170) dynamically determined (or generated) , A time value and / or a random number value, etc.), a dynamic MAC address, and the like).

According to the embodiment of the present invention, the signal information may include, in addition to the mobile identification information that uniquely identifies the mobile signal device 170, And may further include at least one piece of information. For example, the signal information may further include a disposable authentication code or a disposable password generated in the mobile signal device 170 for one-time authentication.

According to an embodiment of the present invention, the directional receiving unit 130 reads the radio signal and processes the signal information to be provided to the information configuration unit 145 described below. The information configuration unit 145 may be implemented in the first signal module 120, in the second signal module 140, or in a separate control module 165, The present invention is not limited thereto. Hereinafter, the features of the present invention will be described with reference to an embodiment in which the information configuration unit 145 is implemented in the second signal module 140. FIG.

Referring to FIG. 1, the second signal module 140 reads a radio signal from the first signal module 120 and confirms the checked signal information, The information configuration unit 145 may use the signal information based on the signal reception strength of the radio signal corresponding to the signal information according to an embodiment of the present invention. So that processing information to be transmitted at a short distance can be configured.

The information constructing unit 145 identifies the signal information confirmed through the directivity receiving unit 130 of the first signal module 120 and processes at least the mobile identification information among the various information included in the signal information The information should be configured to determine if it should be sent to near distance. For example, when the signal reception strength of the radio signal corresponding to the specific signal information is equal to or higher than a specified reference strength, or when the amount of change in the signal reception intensity during a predetermined period of time changes by a specified amount or more, It is possible to construct processing information corresponding to the information and decide to send it to the near side. Alternatively, when the new signal information is confirmed or the signal information received less than the specified number of times is confirmed, the information constructing unit 145 may determine to send out the processed information corresponding to the signal information and send it to the near side.

According to the first information configuration example of the present invention, the information configuration unit 145 confirms the signal reception strength of a radio signal corresponding to specific signal information through the reception strength confirmation unit 135, The processing information may include at least one piece of information included in the signal information when the amount of change in the signal reception intensity during a predetermined period of time is equal to or greater than a specified reference intensity.

If the first signal module 120 is provided with the information constructing unit 145, the information constructing unit 145 may include the information constructing unit 145 in the signal information when the signal receiving strength is greater than or equal to a specified reference strength And provides the processed information to the second signal module 140. [0050] Or the information structure unit 145 is provided in the second signal module 140. The information structure unit 145 may receive the signal from the first signal module 120 in cooperation with the first signal module 120, And process information including at least one information included in the signal information may be configured. Or the information structure unit 145 is provided in the second signal module 140. The information structure unit 145 may receive the signal from the first signal module 120 in cooperation with the first signal module 120, And processing information including at least one information included in the signal information when the signal reception strength is equal to or greater than a specified reference strength or changes more than a specified variation amount.

According to the second information configuration example of the present invention, the information configuration unit 145 confirms the signal reception strength of the radio signal corresponding to the specific signal information through the reception strength confirmation unit 135, Processing information including at least one information included and information for determining the signal reception strength of the radio signal can be configured.

If the first signal module 120 includes the information configuration unit 145, the information configuration unit 145 may include at least one information included in the signal information and information for determining the signal reception strength And provide the processed information to the second signal module 140. Or the information structure unit 145 is provided in the second signal module 140. The information structure unit 145 may receive the signal from the first signal module 120 in cooperation with the first signal module 120, And processing information including information for discriminating at least one information included in the signal information and the signal reception intensity.

According to the third information configuration example of the present invention, the information configuration unit 145 confirms the signal reception strength of a radio signal corresponding to specific signal information through the reception strength confirmation unit 135, Comprising at least one information included in the signal information and information for discriminating the signal reception intensity of the radio signal when the variation of the signal reception intensity for a predetermined period of time is equal to or greater than a specified reference intensity .

If the first signal module 120 is provided with the information constructing unit 145, the information constructing unit 145 may include the information constructing unit 145 in the signal information when the signal receiving strength is greater than or equal to a specified reference strength And to provide the processed information to the second signal module 140. The second signal module 140 may be configured to generate the processed information. Or the information structure unit 145 is provided in the second signal module 140. The information structure unit 145 may receive the signal from the first signal module 120 in cooperation with the first signal module 120, Information including information for discriminating at least one information included in the signal information and the signal reception intensity when the signal reception intensity is equal to or higher than a specified reference intensity or a change over a specified variation amount, .

According to an embodiment of the present invention, the information constructing unit 145 constructs processing information including at least one piece of information (for example, movement identification information) included in the signal information, The information on the signal reception strength of the radio signal or the information on the signal reception strength may be included in the processing information.

According to an embodiment of the present invention, the information constructing unit 145 adds the device identification information (for example, device identification information) included in the first signal module 120 to the process information configured according to the first to third information configuration examples The identification information previously stored in the memory of the first signal module 120), the device identification information (e.g., the identification information previously stored in the memory of the second signal module 140) included in the second signal module 140, (E.g., identification information assigned to the signal module in accordance with a designated procedure after the first signal module 120 starts operating) allocated to identify the first signal module 120, (E.g., identification information assigned to the signal module in accordance with a designated procedure after the second signal module 140 starts operating) assigned to identify the first signal module 140, Device identification information (e.g., directional) that is set to identify one directional signal device 100 The identification information assigned to the first signal module 120 at one point in time before, during, and after the signal device 100 is installed at a specified height at a designated position in a specific direction), and the second signal module 140 (E.g., at one point in time before, during, after, and after installation of the directional signal device 100 in a specific direction at a specified height at a specified location) (E.g., identification information assigned to the terminal 140), and configure the processing information.

According to the embodiment of the present invention, the information constructing unit 145 may add the processing information configured according to the first to third information constructing examples to a location where the directional antenna 105 receives the near- Height, and direction of the object to be processed. The directional information may be provided to at least one of the first signal module 120, the second signal module 140, and the control module 165 according to a procedure designated during the installation of the directional signal device 100 have.

Referring to FIG. 1, the second signal module 140 is connected to the omnidirectional antenna 110 to transmit a short-distance radio signal including the processing information through the omni- And a signal transmission unit 150 for controlling the transmission of the signal to the base station.

The signal transmitting unit 150 is connected to the omnidirectional antenna 110 and identifies the processing information configured through the information forming unit 145 and transmits the processing information including the processing information through the omnidirectional antenna 110 And controls to transmit a wireless signal in a short distance in all directions at a short distance. Preferably, the signal transmitting unit 150 may control the asynchronous transmission of the near-field radio signal including the processing information through the omnidirectional antenna 110 in all directions at a short distance. For example, the signal transmitting unit 150 may control the short distance wireless signal to be transmitted over a predetermined time (or a specified number of times) through the omnidirectional antenna 110.

According to an embodiment of the present invention, a short distance wireless signal transmitted through the signal transmitting unit 150 may be received by another signal device installed near the directional signal device 100, And may be received by the mobile signal device 170 located in the vicinity of the directional signal device 100. [ The network interworking signal device 180 may receive the radio signal of the short distance, and other signal devices may invalidate the radio signal.

Referring to FIG. 1, the second signal module 140 is connected to the omnidirectional antenna 110 and is connected to the omnidirectional antenna 110 via the omnidirectional antenna 110, A signal receiving unit 155 for receiving a radio signal received from a nearby network interrogator 180 via the omnidirectional antenna 110 and reading the radio signal received from the near field network through the omnidirectional antenna 110, (180) to receive a radio signal of a short distance transmitted from the mobile signal device (170) in a specific direction via the directional antenna (105) by using the reception information confirmed through the nearby radio signal received from the device And a signal processing unit 160 for controlling (or processing) at least one of the information included in the reception information (or setting) and / or the reception information to be transmitted to the mobile signal device 170.

At least one of the network interworking signal apparatuses 180 of the nearby network interworking signal apparatuses 180 receiving the radio signal including the processing information configured through the information constructing unit 145 transmits the device identification information (For example, asynchronously transmitting) a radio signal of a short distance including the reception information in all directions, and transmits the radio signal including the reception information to a signal receiving unit (not shown) of the second signal module 140 155 controls the reception of a radio signal of a short distance transmitted from the nearby interworking signal device 180 through the omnidirectional antenna 110 to receive (for example, asynchronous reception) And reads the radio signal of the short distance received from the network interlocking signal device 180 of the mobile communication terminal 100 to confirm the reception information. The signal receiving unit 155 confirms the device identification information corresponding to the receiving side identifier included in the received information, and the verified device identification information is transmitted to the second signal module 140 having the signal receiving unit 155 Or the directional signaling device 100) of the mobile device. If the device identification information corresponding to the reception-side identifier of the reception information does not match the self-device identification information, the reception information is not received by the self, the signal reception unit 155 discards the reception information . On the other hand, when the device identification information corresponding to the reception-side identifier of the reception information is matched with the magnetic-device identification information, the signal reception unit 155 treats the reception information as being effectively received.

According to the first signal processing embodiment of the present invention, the reception information that is transmitted (for example, asynchronously transmitted) from the nearby network interworking signal transmitter 180 and received effectively through the signal receiver 155 is received by the directional antenna 105, (For example, asynchronous reception) of a radio signal transmitted (e.g., asynchronously transmitted) from the mobile signal device 170 in a specific direction via the directional signal device 170 or the directional signal device 100, In this case, the signal processing unit 160 may check valid reception information received through the signal receiver 155, and may use the received reception information The directional antenna 105 can control (or set) the operation of receiving the Bluetooth-based radio signal transmitted from the mobile signal device 170 in a specific direction.

According to the second signal processing embodiment of the present invention, the reception information that is transmitted (for example, asynchronously transmitted) from the near-network interworking signal apparatus 180 and received effectively through the signal receiving unit 155 is received by the directional antenna 105, May include control information transmitted to the mobile signal device 170 in a specific direction of the mobile signal device 170 to control operation of the mobile signal device 170 or setting information for setting the operation of the mobile signal device 170, The reception information may further include movement identification information of the mobile signal device 170 to finally receive the control information (or setting information). On the other hand, the signal processing unit 160 confirms the reception information received validly through the signal receiving unit 155 and constructs the providing information to be transmitted in a specific direction through the directional antenna 105 based on the confirmed reception information (For example, asynchronous transmission) of a wireless signal including the providing information to the mobile signal device 170 in a specific direction designated through the directional antenna 105 in cooperation with the directivity control unit 125 can do. Preferably, the providing information includes movement identification information (e.g., movement identification information included in a radio signal received through the directional reception unit 130 or movement identification information included in the reception information) of the mobile signal device 170, May be included as a receiver identifier of the transmitted radio signal.

Meanwhile, the mobile signal apparatus 170 of the second signal processing embodiment receives (for example, asynchronous reception) a short distance wireless signal transmitted (for example, asynchronously) through the directional antenna 105 of the directional signal apparatus 100, Reads out the received radio signal, confirms the provided information, and checks whether the mobile identification information included in the provided information matches with the mobile movement identification information. If the mobile identification information is matched, the control information included in the received provided information (Or setting) the operation of transmitting the wireless signal in the short distance from the mobile signal device 170 using the wireless signal (or setting information).

According to the third signal processing embodiment of the present invention, the reception information effectively received through the signal receiving unit 155 is transmitted to the mobile signal device 170 in a specific direction similar to the second signal processing embodiment, And may include control information for controlling the operation of the mobile signal device 170 or setting information for setting the operation of the mobile signal device 170. The received information may include control information (or setting information) And the mobile identification information of the mobile signal device 170 to be finally received. Meanwhile, the signal processor 160 confirms valid reception information received through the signal receiver 155 and transmits the received reception information to the mobile signal device 170 through the omnidirectional antenna 110 based on the received reception information (For example, asynchronously transmitting) a radio signal of a short distance including the provided information to the mobile signal device 170 through the omnidirectional antenna 110. The mobile communication device 170 may be a mobile communication device. Preferably, the providing information includes movement identification information (e.g., movement identification information included in a radio signal received through the directional reception unit 130 or movement identification information included in the reception information) of the mobile signal device 170, In the case where the mobile signal device 170 is out of a specific direction (i.e., a specified incident angle range) of the directional antenna 105, And can be delivered to the mobile signal device 170.

Meanwhile, the mobile signal device 170 of the third signal processing embodiment receives (for example, asynchronously transmitted) short-distance radio signals transmitted in all directions through the omni-directional antenna 110 of the directional signal device 100 , Asynchronous reception), reads the received radio signal, confirms the provided information, and checks whether the mobile identification information included in the provided information matches with the mobile movement identification information, It is possible to control (or set) the operation of transmitting the wireless signal at a short distance from the mobile signal device 170 using the included control information (or setting information).

2 illustrates an exemplary embodiment of a directional signal device 100 according to an embodiment of the present invention that selectively receives a radio signal transmitted from a mobile signal device 170 via a directional antenna 105, To the network interworking signal device 180 according to an embodiment of the present invention.

2 is a block diagram of a directional signal device 100 according to an embodiment of the present invention. Referring to FIG. 2, a directional signal device 100 selectively receives a radio signal within a specified range of incident angles, Directional antenna 105, and transmits the processed information to the near-site through the omnidirectional antenna 110. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Those skilled in the art will be able to refer to and / or modify FIG. 2 to infer various implementations of the process (e.g., omitting some steps or changing the order) It should be understood, however, that the present invention includes all such contemplated embodiments, and that the technical features of the present invention, It is not limited.

Referring to FIG. 2, the mobile signal device 170 transmits (for example, asynchronously transmits) a radio signal of a short distance including signal information and transmits the directional signal device 100 installed in a specific direction at a specified height, (205) whether or not a short-distance wireless signal that is incident within a specified incident angle range from a specific direction to which the directional antenna 105 is directed is received. If a short distance wireless signal received within a specified angle of incidence from the specific direction is received, the directional signal device 100 reads the short distance wireless signal received from the specific direction through the directional antenna 105, The controller 170 confirms the signal information transmitted from the device 170 and confirms the received signal strength of the received radio signal (210).

Based on the signal information and the signal reception strength, the directional signaling apparatus 100 constructs (215) processing information for transmitting the muxing-oriented antenna to the nearby network interworking signal apparatus 180, (For example, asynchronous transmission) a radio signal of a short distance including the processing information through all directions (220).

The near-network interworking signal device 180 confirms whether the forward direction radio signal is received from the directional signal device 100 (225). If the wireless signal is received, the network interworking signal transmitter 180 determines a wireless signal in a short distance and confirms the process information 230, and transmits the wireless signal to the directional signal device 100 in a specific direction Directional signaling device 100 located in the mobile directional signaling device 100 and signal information transmitted from the mobile directional signaling device 100 (step 235).

3 is a diagram illustrating a process of transmitting / receiving a radio signal between signal devices according to a first embodiment of the present invention.

3, the network interlocking signal device 180 receiving the radio signal transmitted in the forward direction in the directional signal device 100 constitutes reception information including predetermined control information (or setting information) When the directional signal device 100 transmits a radio signal transmitted from the interworking signal device 180 and controls / sets the operation of the directional signal device 100 based on the received information, It will be understood by those skilled in the art that reference is made to and / or modified with respect to FIG. 3 to illustrate various implementations of the process (e.g., some steps may be omitted, However, it should be understood that the present invention includes all of the above-described methods of practicing the invention, and the technical features thereof are limited only by the method shown in FIG. 3 It does.

Referring to FIG. 3, the short-distance network interworking signal device 180 identifies a specific directional signal device 100 to provide predetermined control information (or setting information) among the directional signal devices 100 that have transmitted processing information For example, the device identification information of the directional signaling device 100) (300). If the specific directional signal device 100 to be provided with the control information (or setting information) is identified, the network interlock signal device 180 includes the device identification information of the specific directional signal device 100 as a receiver identifier And configures reception information including the control information (or setting information) (305), and transmits a near-field radio signal including the reception information in all directions (310).

The directional signaling device 100 confirms whether a short distance wireless signal transmitted from the network interlocking signal device 180 in the near direction is received (315). If the short distance wireless signal transmitted from the network interworking signal device 180 is received, the directional signal device 100 reads the received short distance wireless signal, and the network interworking signal device 180 transmits (320), and confirms whether the device identification information corresponding to the reception side identifier of the reception information matches the magnetic device identification information (325). If the device identification information is not matched, the received information is not received by the directional signaling device 100, and the directional signaling device 100 invalidates the received received information (330). On the other hand, if the device identification information is matched, the directional signaling device 100 processes the received information as being received effectively (335), and transmits the directional signal through the control information (or setting information) (Or sets) the operation of the device 100 (340).

4 is a diagram illustrating a process of transmitting / receiving a radio signal between signal devices according to a second embodiment of the present invention.

4, the network interlocking signal device 180 provided near the directional signal device 100 constitutes reception information including predetermined control information (or setting information) and transmits it via a nearby radio signal The directional signal device 100 receives a radio signal transmitted from the interworking signal device 180 and transmits a radio signal including control information (or setting information) of the received information to the directional antenna 105 through a directional antenna 105 Direction of the mobile signal device 170 in a specific direction and controls / sets the operation of the mobile signal device 170 in a specific direction. As a person skilled in the art, referring to FIG. 4 and / It will be appreciated that various embodiments of the process may be deduced (e.g., some steps may be omitted or procedures may be altered in order) And the technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 4, a near network interworking signaling device 180 confirms a specific directional signaling device 100 to provide predetermined control information (or setting information) among the directional signaling devices 100 that have transmitted processing information For example, the device identification information of the directional signal device 100 is checked (400). If the specific directional signal device 100 to be provided with the control information (or setting information) is identified, the network interlock signal device 180 includes the device identification information of the specific directional signal device 100 as a receiver identifier And configures reception information including the control information (or setting information) (Step 405), and transmits a short-distance radio signal including the reception information in all directions (Step 410).

The directional signaling device 100 checks whether a short distance wireless signal transmitted from the network interlocking signal device 180 in the near direction is received (step 415). If the short distance wireless signal transmitted from the network interworking signal device 180 is received, the directional signal device 100 reads the received short distance wireless signal, and the network interworking signal device 180 transmits (420), and confirms whether the device identification information corresponding to the reception side identifier of the reception information matches the magnetic device identification information (425). If the device identification information does not match, the directional signaling device 100 invalidates the received information (430) because the received information is not received by itself. If the device identification information is matched, the directional signal device 100 confirms the mobile identification information of the mobile signal device 170 to receive the control information (or setting information) of the received information, (440), and transmits the near-field wireless signal including the provided information through the directional antenna 105. The directional antenna 105 transmits the short- (445).

The mobile signaling device 170 determines whether a radio signal transmitted from the directional signaling device 100 is received (450). If the radio signal transmitted from the directional signal device 100 is received, the mobile signal device 170 reads the radio signal from the nearby radio signal and confirms the provided information transmitted by the directional signal device 100 (Step 455), and checks whether the mobile identification information corresponding to the reception-side identifier of the provided information matches the self-identification information (step 460). If the mobile identification information is not matched, the provisioning information is not received by itself, so the mobile signaling device 170 invalidates the received provisioning information (465). If the mobile identification information is matched, the mobile signal device 170 processes the provided information as being validly received (470), and transmits the received mobile information signal to the portable signal device 170 through control information (or setting information) (Or sets) the operation of the device 170 (475).

FIG. 5 is a diagram illustrating a process of transmitting / receiving a wireless signal between signal devices according to a third embodiment of the present invention.

5, the network interlocking signal device 180 provided in the vicinity of the directional signal device 100 constitutes reception information including predetermined control information (or setting information), and transmits it through a nearby radio signal The directional signal device 100 receives a radio signal transmitted from the network interworking signal device 180 and transmits a radio signal including control information (or setting information) of the received information to the omnidirectional antenna 110 And transmits / receives the signals to / from the mobile signal device 170 in the forward direction to control / set the operation of the mobile signal device 170. Those skilled in the art will be able to refer to and / It is to be understood that the invention may be practiced otherwise than as specifically described herein without departing from the scope of the invention as defined by the appended claims. Said, only by the embodiment method shown in the figure 5 is not limited that technical feature.

5, a near network interworking signaling device 180 confirms a specific directional signaling device 100 to provide predetermined control information (or setting information) among the directional signaling devices 100 that have transmitted processing information For example, the device identification information of the directional signal device 100 is checked (500). If the specific directional signal device 100 to be provided with the control information (or setting information) is identified, the network interlock signal device 180 includes the device identification information of the specific directional signal device 100 as a receiver identifier And configures reception information including the control information (or setting information) (step 505), and transmits a short-distance radio signal including the reception information in all directions (step 510).

The directional signaling device 100 confirms whether a short distance wireless signal transmitted from the network interlocking signal device 180 in the near direction is received (515). If the short distance wireless signal transmitted from the network interworking signal device 180 is received, the directional signal device 100 reads the received short distance wireless signal, and the network interworking signal device 180 transmits (520), and confirms whether the device identification information corresponding to the reception side identifier of the reception information matches the magnetic device identification information (525). If the device identification information does not match, the directional signaling device 100 invalidates the received information (530) because the received information is not received by itself. If the device identification information is matched, the directional signal device 100 confirms the mobile identification information of the mobile signal device 170 to receive the control information (or setting information) of the received information, (Or setting information) of the received information as the receiver identifier and configures the received information including the control information (or setting information) of the received information (540), and then transmits a short distance radio signal including the provided information through the omnidirectional antenna 110 (545).

The mobile signaling device 170 determines whether a radio signal transmitted from the directional signaling device 100 is received (550). If the radio signal transmitted from the directional signal device 100 is received, the mobile signal device 170 reads the radio signal from the nearby radio signal and confirms the provided information transmitted by the directional signal device 100 (Step 555), and checks whether the mobile identification information corresponding to the reception-side identifier of the provided information matches the self-identification information (step 560). If the mobile identification information is not matched, the provisioning information is not received by the mobile communication device 170, so that the mobile communication device 170 invalidates the received provision information (565). If the mobile identification information is matched, the mobile signal device 170 processes the provided information as being validly received (570), and transmits the provisional information to the portable signal device 170 through control information (or setting information) (Or sets) the operation of the device 170 (575).

100: directional signal device 105: directional antenna
110: Omnidirectional antenna 115: Battery
120: first signal module 125: directional control unit
130: directivity receiving unit 135: receiving strength checking unit
140: second signal module 145:
150: signal transmitting unit 155: signal receiving unit
160: signal processor 165: control module
170: mobile signaling device 180: network interlocking signaling device

Claims (26)

A signal device installed in a specific direction at a specified height at a designated position,
A directional antenna for selectively receiving a radio signal that is incident within a specified incident angle range among short-distance radio signals transmitted from a mobile signal device in a specified direction;
A first signal module for reading near-field radio signals received from a specific direction through the directional antenna to confirm signal information and confirming signal reception intensity of the radio signal;
An omnidirectional antenna for transmitting or receiving near-field radio signals in all directions; And
A second signal module for processing a short-distance radio signal including signal information confirmed through the first signal module and processing information configured based on the signal reception intensity to be transmitted in all directions in a short distance through the omni-directional antenna; Wherein the directional antenna is provided with a directional antenna.
The antenna according to claim 1, wherein the directional antenna comprises:
And selectively receives asynchronously a radio signal that is received within a specified range of incident angles among short-range radio signals asynchronously transmitted from a mobile signal device in a specified direction.
The antenna of claim 1, wherein the omni-directional antenna comprises:
Wherein the radio signal is asynchronously transmitted or asynchronously received at a short distance in a short distance.
The method as claimed in claim 2 or 3,
Wherein at least one of transmitting the radio signal at the transmitting end without pre-pairing between the transmitting end and the receiving end, or broadcasting the radio signal at the transmitting end without specifying the receiving end. Directional signal device.
4. The method as claimed in claim 2 or 3,
The reception side processes the radio signal transmitted from the transmission side without pre-pairing between the transmission side and the reception side, or receives and processes the radio signal broadcasted without specifying the reception side on the transmission side, Wherein the directional antenna comprises one of a first antenna and a second antenna.
2. The apparatus of claim 1, wherein the first signal module comprises:
Wherein the controller is configured to selectively and non-synchronously receive radio signals incident within a specified range of incident angles of nearby radio signals asynchronously transmitted from the mobile signal device in a specific direction designated through the directional antenna.
2. The apparatus of claim 1, wherein the first signal module comprises:
And validates the signal information in which the radio signal is read when the signal reception strength of the radio signal received through the directional antenna is equal to or higher than a specified reference strength.
2. The apparatus of claim 1, wherein the first signal module comprises:
Interlocking with the second signal module,
And provides the processed information to the second signal module by constructing processing information including at least one information included in the signal information when the signal reception strength is equal to or higher than a specified reference strength or by a specified variation or more. A directional signal device.
2. The apparatus of claim 1, wherein the first signal module comprises:
Interlocking with the second signal module,
Wherein the second signal module includes processing information including at least one information included in the signal information and information for determining the signal reception strength, and provides the processed information to the second signal module.
2. The apparatus of claim 1, wherein the first signal module comprises:
Interlocking with the second signal module,
Comprising processing information including at least one information included in the signal information and information for discriminating the signal reception intensity when the signal reception intensity is equal to or higher than a specified reference intensity or a change over a specified variation amount, Wherein the directional antenna is provided with a directional antenna.
2. The apparatus of claim 1, wherein the second signal module comprises:
Interlocking with the first signal module,
Wherein the first signal module receives the signal information from the first signal module and constructs processing information including at least one information included in the signal information.
2. The apparatus of claim 1, wherein the second signal module comprises:
Interlocking with the first signal module,
Receiving processing information including at least one information included in the signal information when the signal reception strength is equal to or higher than a specified reference strength or changes more than a specified variation amount, Wherein the directional antenna comprises a plurality of antennas.
2. The apparatus of claim 1, wherein the second signal module comprises:
Interlocking with the first signal module,
Wherein the first signal module is configured to receive the signal information and the received signal strength from the first signal module and to process information including at least one information included in the signal information and information for determining the signal reception intensity, &Lt; / RTI &gt;
2. The apparatus of claim 1, wherein the second signal module comprises:
Interlocking with the first signal module,
Receiving at least one of the signal information and the received signal strength from the first signal module and receiving at least one information included in the signal information and the signal reception intensity, Wherein the processing information comprises processing information including information for identifying the antenna.
The method according to claim 1,
Wherein the first signal module receives the signal information and the signal reception intensity and constructs processing information to be transmitted from the first signal module to the second signal module based on the received signal information and the signal reception intensity, And a control module for controlling the directional antenna.
16. The method according to any one of claims 1 to 15,
Device identification information included in the first signal module,
Device identification information included in the second signal module,
Device identification information assigned to identify the first signal module,
Device identification information assigned to identify the second signal module,
Device identification information configured to identify the directional signal device having the first signal module,
Further comprising at least one of device identification information set to identify the directional signal device having the second signal module. &Lt; Desc / Clms Page number 21 &gt;
16. The method according to any one of claims 1 to 15,
Wherein the directional antenna further comprises direction information for identifying at least one of a position, a height, and a direction at which the directional antenna receives the near-field radio signal.
2. The apparatus of claim 1, wherein the second signal module comprises:
And directs asynchronous transmission of the near-field radio signal in a short-distance direction all the way through the omnidirectional antenna.
The method according to claim 1,
Further comprising: a first signal module, a second signal module, and a battery unit for supplying operation power to the directional antenna and the omni-directional antenna.
The method according to claim 1,
Wherein the signal information comprises one or more designated mobile identification information that uniquely identifies the mobile signal device,
Wherein the processing information includes at least one specified mobile identification information of the information included in the signal information.
21. The method according to claim 20,
(Or assigned) unique identification information that is uniquely set (or assigned) to the mobile signal device, dynamic identification information dynamically determined (or generated) for identification of the mobile signal device by the mobile signal device Wherein the at least one identification information comprises at least one identification information.
The method according to claim 1,
The omnidirectional antenna receives near-field radio signals transmitted from a near-network interworking signal apparatus,
The second signal module reads a radio signal in a short distance received from a nearby network interlocking signal device through the omnidirectional antenna to confirm reception information,
The first signal module controls (or sets) an operation of receiving a short-distance radio signal transmitted from a mobile signal device in a specific direction through the directional antenna using reception information confirmed through the second signal module Wherein the directional antenna comprises a directional antenna.
The method according to claim 1,
Wherein the directional antenna is capable of transmitting a wireless signal in a short distance in a specified direction,
The omnidirectional antenna receives near-field radio signals transmitted from a near-network interworking signal apparatus,
The second signal module reads a radio signal in a short distance received from a nearby network interlocking signal device through the omnidirectional antenna to confirm reception information,
The first signal module configures provision information to be transmitted in a specific direction through the directional antenna based on reception information confirmed through the second signal module,
And to transmit a short-distance wireless signal including the providing information in a specific direction designated through the directional antenna.
24. The method of claim 23,
Wherein the signal information includes designated mobile identification information that uniquely identifies the mobile signal device,
Wherein the providing information includes movement identification information of the mobile signal device as a reception side identifier of the transmitted radio signal.
The method according to claim 1,
Wherein the directional antenna is capable of transmitting a wireless signal in a short distance in a specified direction,
The omnidirectional antenna receives near-field radio signals transmitted from a near-network interworking signal apparatus,
The second signal module reads a radio signal in a short distance received from a nearby network interlocking signal device through the omnidirectional antenna to confirm reception information,
Constructing provision information to be transmitted to the mobile signal device through the omni-directional antenna based on the confirmed reception information,
And a process for transmitting a short-distance wireless signal including the providing information to the mobile signal device through the omnidirectional antenna.
26. The method of claim 25,
Wherein the signal information includes designated mobile identification information that uniquely identifies the mobile signal device,
Wherein the providing information includes movement identification information of the mobile signal device as a reception side identifier of the transmitted radio signal.

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