KR101155644B1 - Smart anntena beam forming method in wiress communication and system of thereof - Google Patents

Abstract

The disclosed technique generally relates to a method of using a smart antenna, in which a wireless communication system forms a smart antenna beam, comprising: a scanning step of scanning the antenna beam to search for a new user and an existing user; Detecting a presence of the new user and a change in the location of the existing user; And a search time adjusting step of decreasing the search time when the new user does not exist and there is no change in the position of the existing user as a result of the detection. In addition, when the wireless communication system forms a smart antenna beam, a search unit scans the antenna beam to search for a new user and a location of an existing user; A sensing unit for sensing a presence of the new user and a change in the position of the existing user; And a search time adjuster for reducing the search time when the new user does not exist and there is no change in the position of the existing user. Setting an initial search time and setting an initial data communication execution time; Scanning the antenna beam for the set initial search time to search for a user; Setting a re-search time when a change in the position of the user is detected, and searching the user by scanning the antenna beam for the set re-search time; And if the change in the position of the user is not detected, the re-search time is compared with a preset minimum search time to reduce the re-search time.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart antenna beam forming method and apparatus for a wireless communication system,

The disclosed technique relates to a method of using a smart antenna, and more particularly, to a method of searching for a user by forming a beam pattern in a desired direction of beam scanning of an antenna.

A smart antenna is an antenna that can transmit and receive signals in a specific direction by forming a beam pattern in a desired direction. There are various methods for forming a directional beam. Generally, a method of arranging several antennas and connecting them to each other is mainly used. Such an antenna is referred to as an array antenna, and the same performance as a single large antenna having a directional radiation pattern can be obtained by using many small antennas in one array. The antenna beam scanning can be electrically controlled instead of the rotation of the mechanical antenna. The radiation pattern of the array can be determined according to the shape of each element, their direction, the position in space, the amplitude and phase of the feed current, and an adaptive array antenna (Adaptive Array Antenna) Switching Beam Array Antennas are widely used to select antennas with the best transmission / reception signal among several antennas.

SUMMARY OF THE INVENTION The present invention provides a method and apparatus for securing a data communication time of an existing user by adaptively adjusting a search time of a new user and a search time of a location change of an existing user and a data communication time of the wireless communication system have.

According to a first aspect of the present invention, there is provided a method of searching for a new user and a location of an existing user by scanning the antenna beam to form a smart antenna beam, Detecting a presence of the new user and a change in the location of the existing user; And a search time adjusting step of decreasing the search time when the new user does not exist and there is no change in the position of the existing user as a result of the detection.

According to a second aspect of the present invention, there is provided a mobile communication system including a search unit for forming a smart antenna beam, the search unit scanning a new user and searching for a location of an existing user by scanning the antenna beam; A sensing unit for sensing a presence of the new user and a change in the position of the existing user; And a search time adjuster for reducing the search time when the new user does not exist and there is no change in the position of the existing user as a result of the detection.

According to a third aspect of the disclosed technology, there is provided a method of setting an initial search time and setting an initial data communication execution time; Scanning the antenna beam for the set initial search time to search for a user; Setting a re-search time when a change in the position of the user is detected, and searching the user by scanning the antenna beam for the set re-search time; And to reduce the re-search time by comparing the re-search time with a predetermined minimum search time when the change of the user's position is not detected.

Embodiments of the disclosed technique may have effects that include the following advantages. It should be understood, however, that the scope of the disclosed technology is not to be construed as limited thereby, since the embodiments of the disclosed technology are not meant to include all such embodiments.

According to an embodiment of the disclosed technology, it is possible to increase the data communication time with the existing user by adjusting the search time of the new user and the search of the location change of the existing user. Therefore, there is an advantage that a higher quality communication service can be provided to existing users.

1 is a diagram illustrating an array antenna according to one embodiment of the disclosed technique.
2 is a system block diagram of a wireless communication system according to an embodiment.
3 is a block diagram of an algorithm module according to one embodiment.
4 is a flowchart illustrating an antenna beamforming method performed in an algorithm module according to an embodiment disclosed herein.
5 is a flowchart illustrating an antenna beam forming method according to another embodiment of the disclosed technique.
FIG. 6 is a time chart showing search time according to the embodiment of FIG. 5;

The description of the disclosed technique is merely an example for structural or functional explanation and the scope of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the disclosed technology should be understood to include equivalents capable of realizing technical ideas.

Meanwhile, the meaning of the terms described in the present application should be understood as follows.

The terms " first, " " second, " and the like are used to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected to the other element, but there may be other elements in between. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

It should be understood that the singular " include " or " have " are to be construed as including a stated feature, number, step, operation, component, It is to be understood that the combination is intended to specify that it is present and not to preclude the presence or addition of one or more other features, numbers, steps, operations, components, parts or combinations thereof.

Each step may take place differently from the stated order unless explicitly stated in a specific order in the context. That is, each step may occur in the same order as described, may be performed substantially concurrently, or may be performed in reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the disclosed technology belongs, unless otherwise defined. Terms defined in commonly used dictionaries should be interpreted to be consistent with meaning in the context of the relevant art and can not be construed as having ideal or overly formal meaning unless expressly defined in the present application.

1 is a diagram illustrating an array antenna according to one embodiment of the disclosed technique. The antenna shown in FIG. 1A is an array antenna 100a, and is composed of several small antennas 110a as shown in FIG. Each antenna 110a is connected to the variable phase shifter 130a and the attenuator 140a. The radio waves received by each of the antennas 110a adjust their phases and amplitudes and enter the receiver 160a via the adder 150a. By adjusting the amplitude and phase, the antenna beam can be formed in the desired direction by reflecting or pulling the wave.

1B shows an antenna arrangement according to another embodiment. The switched parasitic array (SPA) antenna 100b includes a ground plane 110b connected to the powered monopole 120b, a parasitic element 130b and a ground plane 110b, And an RF switch 140b for connecting the parasitic element 130b. The powered monopole 120b is surrounded by parasitic elements 130b having a specific impedance and these parasitic elements 130b are shorted to the ground plane 110b and opened by a radio frequency (RF) switch 140b . If the RF switch 140b connects the parasitic elements 130b to the ground plane 110b, the parasitic elements 130b operate as reflectors that reflect the radio waves, and conversely when opened with the ground plane 110b, (130b) act as a director to attract radio waves. By controlling these parasitic elements 130b, it is possible to reflect or draw the radio waves of the powered monopole 120b to form an antenna beam in a desired direction.

2 is a system block diagram of a wireless communication system according to an embodiment. The wireless communication system 200 includes a smart antenna 230, a beam control unit 240, an algorithm module 250 for controlling a beam control unit, a transmission / reception unit 260, and a modem 270. The smart antenna 230 controls the direction of the antenna beam by the beam controller 240 to perform radio wave transmission and reception with a user (not shown). The beam control unit is controlled by the algorithm module 250. The algorithm module 250 operates by analyzing signals transmitted and received by the transmitter / receiver 260. The signal transmitted / received by the transmission / reception unit 260 enters the modem 270.

3 is a block diagram of an algorithm module according to one embodiment. Referring to FIG. 3, the algorithm module 300 includes a search unit 310, a sensing unit 320, and a search time adjustment unit 330. According to one embodiment, the search unit 310 scans an antenna beam to search for a user. The user corresponds to a mobile terminal such as a cellular phone. More specifically, the search unit 310 scans an antenna beam in each direction to search for the location of a new user and an existing user. In this case, the existing user refers to the user who has been searched in the preceding search cycle when one search cycle of the antenna beam scanning for searching the user is repeated, and the new user refers to the user newly searched by antenna beam scanning. According to one embodiment, the algorithm module 300 may further include a user location store (not shown) for storing the location of new users and existing users discovered by antenna beam scanning. The detection unit 320 detects the presence of a new user and a change in position of an existing user when the search is performed again. At this time, the position change detection of the new user and the existing user can detect the position change by comparing the user position value stored in the storage unit (not shown) with the user position value stored in the previous search cycle. The search time adjustment unit 330 reduces the search time when there is no new user as a result of the detection by the sensing unit 320 and there is no change in the location of existing users. As the search time decreases, that is, the time required for user search decreases, the data communication time with users increases. Here, the user is an expression including a new user and an existing user. The communication quality is improved due to an increase in data communication execution time with users. On the other hand, the search time adjusting unit 330 increases the search time when there is a new user as a result of sensing by the sensing unit 320 or when there is a change in the position of the existing user. As the time required for user search increases, the data communication time with users decreases. However, an increase in seek time allows the wireless communication system to respond faster to sensing new users and changing location of existing users. At this time, the search time adjuster 330 increases or decreases the search time in the search time spent in the previous step when the search time is increased or decreased. According to one embodiment, it is desirable to increase or decrease by a time proportional to the exponential function. In a wireless communication system, the location change of users tends to follow the principle of locality. The principle of locality means an experimental phenomenon that users are close in time or space. Based on the principle of locality, the time required for searching for new users and searching for changes in existing users is maintained at the previous time and interval, and when the change is not detected, search frequency and time are reduced in proportion to the exponential function. If the change is detected, the search frequency and time are increased in proportion to the exponential function. When the search time is reduced through the above-described method, communication quality is improved due to an increase in data communication execution time with users. Also, if the search time is increased, the wireless communication system can respond more quickly to detection of a new new user and change of the position of an existing user.

4 is a flowchart illustrating an antenna beamforming method performed in an algorithm module according to an embodiment disclosed herein. An antenna beam forming method will be described as follows. In addition, even when the algorithm module of FIG. 3 is implemented in a time-series manner, the description of the search unit 310, the sensing unit 320, and the search time adjustment unit 330, .

The antenna beam forming method according to an exemplary embodiment is performed in the order of a searching step S410, a sensing step S420, and a search time adjusting step S430.

In operation S410, the search unit 310 searches for a user by scanning the antenna beam in the wireless communication system. The user corresponds to a mobile terminal such as a cellular phone. More specifically, the search unit 310 scans an antenna beam in each direction to search for the location of a new user and an existing user. In this case, the existing user refers to the user who has been searched in the preceding search cycle when one search cycle of the antenna beam scanning for searching the user is repeated, and the new user refers to the user newly searched by antenna beam scanning. According to one embodiment, the algorithm module 300 may further include a user location store (not shown) for storing the location of new users and existing users discovered by antenna beam scanning.

In step S420, the sensing unit 320 detects the presence of a new user and a change in position of an existing user when the search is performed again. At this time, the position change detection of the new user and the existing user can detect the position change by comparing the user position value stored in the storage unit (not shown) with the user position value stored in the previous search cycle.

In step S430, the search time adjustment unit 330 decreases the search time when there is no new user as a result of the detection by the sensing unit 320 and there is no change in the location of existing users. As the search time decreases, that is, the time required for user search decreases, the data communication time with users increases. Here, the user is an expression including a new user and an existing user. The communication quality is improved due to an increase in data communication execution time with users. On the other hand, the search time adjusting unit 330 increases the search time when there is a new user as a result of sensing by the sensing unit 320 or when there is a change in the position of the existing user. As the time required for user search increases, the data communication time with users decreases. However, an increase in seek time allows the wireless communication system to respond faster to sensing new users and changing location of existing users. At this time, the search time adjuster 330 increases or decreases the search time in the search time spent in the previous step when the search time is increased or decreased. According to one embodiment, it is desirable to increase or decrease by a time proportional to the exponential function. In a wireless communication system, the location change of users tends to follow the principle of locality. The principle of locality means an experimental phenomenon that users are close in time or space. Based on the principle of locality, the time required for searching for new users and searching for changes in existing users is maintained at the previous time and interval, and when the change is not detected, search frequency and time are reduced in proportion to the exponential function. If the change is detected, the search frequency and time are increased in proportion to the exponential function. When the search time is reduced through the above-described method, communication quality is improved due to an increase in data communication execution time with users. Also, if the search time is increased, the wireless communication system can respond more quickly to detection of a new new user and change of the position of an existing user.

5 is a flowchart illustrating an antenna beam forming method according to another embodiment of the disclosed technique. The method includes the steps of setting an initial search time and setting an initial data communication execution time at step S510, scanning the antenna beam at a set initial search time to search for a user at step S520, (S540), performing the search step again during the search time (S550), and transmitting the search result to the user A step S560 of detecting a change in position of the search time when the change is detected, setting a re-search time as an initial search time when a change is detected (S570) (S580) in which the re-search time is decreased when the search time is greater than the minimum search time.

In step S510, the wireless communication system sets an initial search time and sets an initial data communication execution time. According to one embodiment, an initial seek time value t _S , an initial data communication run time value t _D , is fetched from the store.

In S520 step, the wireless communication system to scan the antenna beam in each direction for t _S seconds navigate the user location and storing the direction information of the information and the user for the retrieved user identification. (S530) Here, the 'user' is 'New user' and 'existing user', and the new user of the previous cycle to the repetition of the search process corresponds to the existing user of the next cycle. The user's location change is an expression that includes detection of a new user and location detection of an existing user. On the other hand, when the same user is searched for in two or more directions due to reasons such as signal reflection, the information for user identification and the user's direction information are stored assuming that the user has a better signal characteristic.

In step S540, the wireless communication system performs data communication with each user for t _D seconds based on the information of the users stored in step S520. At this time, as the data transmission / reception time t _D is longer, the communication quality provided to each user can be improved.

In step S550, the wireless communication system scans the antenna beam in each direction for the re-search time to search for the location of the users.

In step S560, the wireless communication system detects a change in the position of the user. If a change is detected, the re-search time is set to a value of t _S (S570). If no change is detected, the re-search time is compared with the minimum search time t _M (S580) and the re-search time is reduced if the re-search time is greater than the minimum search time. Here, the minimum search time t _M means a minimum search time required for the user search when there is no change in the user's position. As the value of t _M is set larger, it is possible to respond quickly to the change of users' position, but the data transmission / reception time is reduced accordingly. According to an exemplary embodiment, when the user position change is not detected, the re-search time and the minimum search time t _M are compared (S580). If the re-search time is larger than the minimum search time t _M , it is decreased by t ₀ . Therefore, the data transmission time t _D is increased by t ₀ . If the user does not continuously detect the position change, the re-search time converges to t _M.

FIG. 6 is a time chart showing search time according to the embodiment of FIG. 5; In the initial stage, when the initial search time t _S (603) and the initial data transmission time t _D (604) are operated and there is no new user appearance or position change (601), the search time is reduced to t _S -t ₀ (605) The data transmission time is increased to t _D + t ₀ (606). If a new search 607 is performed again and there is no new user appearance or position change (601), the data transmission time is increased to t _D + 2t ₀ (608). If there is no new user entry or position change (601), this process is repeated, and the search time converges to t _M (609) and the data transmission time converges to t _D + t ₀ -t _M (610) . In addition, the frequency of searches will eventually decrease. If new user appearance or position change detection 602 occurs at a time when there is no new user appearance or position change (601), the search time returns to the initial t _S (611) and the data transmission time also becomes t _D (612).

Although the disclosed method and apparatus have been described with reference to the embodiments shown in the drawings for illustrative purposes, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. I will understand that. Accordingly, the true scope of protection of the disclosed technology should be determined by the appended claims.

310:
320:
330: search time adjusting unit

Claims (13)

When a wireless communication system forms a smart antenna beam,
A search step of scanning the antenna beam to search for a new user and an existing user;
Detecting a presence of the new user and a change in the location of the existing user; And
And a search time adjusting step of decreasing the search time when the new user does not exist and there is no change in the position of the existing user. The method according to claim 1,
The search time adjusting step may include increasing a data communication execution time with the existing user when the search time is decreased and decreasing a data communication execution time with the existing user when the search time is increased, Beam forming method. The method according to claim 1,
Wherein the search time adjustment step increases or decreases the search time of the previous step by a time proportional to a predetermined exponential function. The method according to claim 1,
And the search time adjusting step includes increasing the search time if the new user exists or the location of the existing user changes. The method according to claim 1,
Wherein the decrease of the search time decreases when the search time is greater than a predetermined minimum search time. When a wireless communication system forms a smart antenna beam,
A search unit scanning the antenna beam to search for a new user and search for a location of an existing user;
A sensing unit for sensing a presence of the new user and a change in the position of the existing user; And
And a search time adjuster for decreasing the search time when the new user does not exist and there is no change in the position of the existing user. The method according to claim 6,
Wherein the search time adjustment unit increases the data communication execution time with the existing user when the search time is decreased and decreases the data communication execution time with the existing user when the search time is increased, Forming device. The method according to claim 6,
Wherein the search time adjustment unit increases or decreases the search time of the previous step by a time proportional to a predetermined exponential function. The method according to claim 6,
Wherein the search time adjustment unit increases the search time when there is a new user or a change in the position of the existing user. The method according to claim 6,
Wherein the decrease of the search time decreases when the search time is greater than a predetermined minimum search time. When a wireless communication system forms a smart antenna beam,
Setting an initial search time and setting an initial data communication execution time;
Scanning the antenna beam for the set initial search time to search for a user;
Setting a re-search time when a change in the position of the user is detected,
Searching the user by scanning the antenna beam during the set re-search time; And
And if the change in the position of the user is not detected, comparing the re-search time with a predetermined minimum search time to reduce the re-search time. 12. The method of claim 11,
Wherein the user includes a new user and an existing user, and the new user discovered by the previous search in the iteration of the search process corresponds to the existing user in the next search. 12. The method of claim 11,
Wherein the reduction of the re-search time decreases the re-search time if the re-search time is greater than the minimum search time.

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