JP2005348454A - Wireless lan access point, wireless lan system, and method of preventing interference between wireless lan access points - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technique for reducing an interference between wireless LAN access points. <P>SOLUTION: The wireless LAN access point (10) is provided with a directional antenna (1), an actuating mechanism (2) for changing the direction of the directional antenna (1), an interference detection part (4) for detecting the presence or the absence of an interference from the other wireless LAN access point, and a control part (6) for determining the optimum direction of the directional antenna (1), in response to the presence or the absence of the interference. The actuating mechanism (2) turns the directional antenna (1) to the optimum direction determined by the control part (6). The control part (6) is expected to determine a direction free from interference as the optimum direction of the directional antenna (1), and the control part is expected to determine the optimum direction of the directional antenna on the basis of the intensity of the interference when failing to determine the direction free from interference as the optimum direction. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a wireless local area network (LAN) technology. The present invention particularly relates to a technique for preventing interference between wireless LAN access points used in wireless LAN technology.

  Wireless LAN technology is one of the effective means for forming a computer network. The use of wireless LAN technology increases the degree of freedom of arrangement of terminals connected to the LAN. Furthermore, depending on the operation, the wireless LAN technology can provide an environment in which an unspecified number of terminals are connected to the Internet. Because of these advantages, wireless LAN technology is becoming popular.

  In the wireless LAN technology, a wireless LAN access point (master station) and a wireless LAN adapter (slave station) are used. A wireless LAN adapter is connected to a terminal using the wireless LAN. A terminal to which a wireless LAN adapter is connected can access the LAN via a wireless LAN access point.

  The protocol for communication between the wireless LAN access point (master station) and the wireless LAN adapter is standardized by the IEEE (Institute of Electrical and Electronics Engineers) 802.11 committee. The wireless LAN access point (master station) and the wireless LAN adapter (slave station) communicate with each other in accordance with a protocol defined in IEEE 802.11.

  Due to the limitation of frequency resources, communication using wireless LAN technology, that is, communication according to the protocol defined in IEEE 802.11 cannot use many channels. According to IEEE 802.11, the number of channels that can be used in wireless LAN technology is 14, but in Japan, the frequency band is limited to 2.412 to 2.484 GHz, and the carrier frequency between adjacent channels is The difference is very small at 5MHz. Therefore, channels with adjacent carrier frequencies cannot be used simultaneously. For this reason, the number of effective channels is small in communication using wireless LAN technology.

  Since the number of effective channels is small, radio waves emitted from the wireless LAN access point often interfere in places where a plurality of wireless LAN access points are arranged. Interference between wireless LAN access points causes noise and data loss, and in the worst case, causes communication failure. Prevention of interference between wireless LAN access points is important in wireless LAN technology.

  Patent Document 1 discloses a technique in which an omnidirectional antenna is used for a transmission / reception device of a master station and a directional antenna is used for a transmission / reception device of a slave station in order to reduce radio wave interference between stations. Unnecessary radio waves are prevented from being emitted in directions other than those required for transmission from the slave station to the master station, thereby suppressing radio wave interference. However, the technique disclosed in Patent Document 1 has no effect on mutual interference between wireless LAN access points (parent stations).

  Patent Document 2 discloses a channel used by a newly installed wireless LAN access point so that interference does not occur between the newly installed wireless LAN access point and an existing wireless LAN access point adjacent thereto. The method of setting is disclosed. The slave station transmits a broadcast signal including communication channel information via a channel different from the communication channel. A newly installed wireless LAN access point receives the broadcast signal from the slave station and selects two unused channels. The newly installed wireless LAN access point assigns one of the selected channels as a communication channel and the other as a channel for transmitting a broadcast signal.

JP-A-8-84148 JP 2002-217917 A

An object of the present invention is to provide another technique for reducing interference between wireless LAN access points.
Another object of the present invention is to provide a technique for reducing interference between wireless LAN access points while increasing the communication range of the wireless LAN access points.

  Hereinafter, means for solving the problem will be described using the numbers and symbols used in the [Embodiments of the Invention]. These numbers and symbols are added to clarify the correspondence between the description of [Claims] and the description of [Embodiments of the Invention]. However, the added numbers and symbols shall not be used for the interpretation of the technical scope of the invention described in [Claims].

  The wireless LAN access point (20) according to the present invention responds to the presence or absence of interference from the directional antenna (11), the omnidirectional antenna (12), the signal processing unit (15), and other wireless LAN access points. And the switching apparatus (14, 16-18) which connects one of a directional antenna (11) and an omnidirectional antenna (12) to a signal processing part (15) is provided. The signal processing unit (15) transmits and receives a radio signal via one of the directional antenna (11) and the omnidirectional antenna (12). In response to the presence or absence of interference from other wireless LAN access points, the omnidirectional antenna (12) having a wide communication range and the directional antenna (11) having a limited communication range are switched, thereby enabling wireless communication. A wide communication range can be secured if possible while avoiding interference between LAN access points.

  In order to avoid interference between wireless LAN access points, the switching device (14, 16 to 18) includes an interference detection unit (16) that detects interference from other wireless LAN access points, and the switching device ( 14, 16 to 18) connect the directional antenna (11) to the signal processing unit (15) when it detects interference while transmitting and receiving a radio signal via the omnidirectional antenna (12). Is preferred.

  The wireless LAN access point (20) further includes a control unit (18) that determines the optimum direction of the directional antenna (11) based on the strength of interference from other wireless LAN access points, and a directional antenna ( 11) It is preferable to include an operation mechanism (13) for changing the direction of 11).

The wireless LAN access point (30) according to the present invention includes a plurality of directional antennas (21 ₁ , 21 ₂ ...) Having directivity in different directions and directional antennas (21 ₁ , 21 ₂ ...). The antenna control unit (24) to be activated or deactivated and the interference detection unit (23 to detect the presence or absence of interference from other wireless access points to the directional antennas (21 ₁ , 21 ₂ ...). ). The antenna control unit (24) deactivates the antenna that receives interference from other wireless access points among the directional antennas (21 ₁ , 21 ₂ ...), And receives interference from other wireless access points. Not activate the antenna. By such an operation, interference between wireless LAN access points can be avoided. Furthermore, since a directional antenna that does not receive interference is used for communication, the communication range can be as wide as possible.

  The wireless LAN system according to the present invention includes a plurality of wireless LAN access points (31) and an antenna control device (32). Each of the wireless LAN access points (31) includes a directional antenna (34) and an operation mechanism (35) for changing the direction of the directional antenna (34). The antenna control device (32) determines the optimum direction of each directional antenna (34). Each of the operation mechanisms (35) directs the directional antenna (34) to which it is connected in the optimum direction. In the wireless LAN system, the direction of the directional antenna (34) of each wireless LAN access point (31) is comprehensively determined by the antenna control device (32). A wide communication range can be secured while avoiding interference.

  The antenna control device (33) preferably determines the optimum direction of each of the directional antennas (34) so that the communication ranges of the wireless LAN access points (31) do not overlap.

  The wireless LAN access point (50) according to the present invention is a wireless LAN access point capable of communicating with a slave station via a plurality of channels. The wireless LAN access point (50) includes an interference detection unit (53) that detects interference from other wireless access points, a channel selection unit (55), and a signal processing unit (52). When interference is detected while using one of the plurality of channels, the channel selection unit (55) has no interference among the plurality of channels or the channel with the least interference. Select. The signal processing unit (52) communicates with the slave station via the selected channel. Such a wireless LAN access point can select a channel optimally, and therefore, interference between wireless LAN access points can be avoided or reduced.

A wireless LAN access point interference prevention method according to the present invention includes:
(A) detecting the presence or absence of interference between the first wireless LAN access point (41) and the second wireless LAN access point (41);
(B) When it is detected that there is interference, between the first wireless LAN access point (41) and the second wireless LAN access point (41), the first wireless LAN access point (41) and the second wireless LAN And a step of moving a shielding plate (42) that shields radio waves emitted from the access point (41). By using the shielding plate (42), interference between wireless LAN access points can be avoided or reduced.

In order to ensure as wide a communication range as possible when there is no interference, the wireless LAN access point interference prevention method is:
In addition,
(C) When it is detected that there is no interference, the shielding plate (42) is moved so that the main surface of the shielding plate (42) is parallel to the direction in which the first wireless LAN access point (41) emits radio waves. It is preferable to provide the step to make.

In addition, in order to ensure as wide a communication range as possible when there is no interference, the wireless LAN access point interference prevention method is:
In addition,
(D) It is preferable to include a step of putting the shielding plate on the floor when it is detected that there is no interference.

The present invention provides a technique for reducing interference between wireless LAN access points.
The present invention also provides a technique for reducing the interference between wireless LAN access points while increasing the communication range of the wireless LAN access points.

(First embodiment)
The wireless LAN access point 10 according to the first embodiment of the present invention includes a directional antenna 1 as shown in FIG. As shown in FIG. 2, the directional antenna 1 is connected to the antenna rotation mechanism 2. The antenna rotation mechanism 2 rotates the directional antenna 1 to change the direction of the directional antenna 1 (that is, the direction with the highest gain).

  The directional antenna 1 is connected to the signal processing unit 3. The signal processing unit 3 exchanges a wireless signal with a wireless LAN adapter (slave station, not shown) via the directional antenna 1. Communication with the wireless LAN adapter is performed in accordance with a protocol defined in IEEE 802.11. The signal processing unit 3 is connected to a wired LAN, and the signal processing unit 3 enables a device (for example, a laptop computer) equipped with a wireless LAN adapter to access the wired LAN.

  The directional antenna 1 is further connected to the interference detection unit 4. The interference detection unit 4 detects the presence or absence of interference from other wireless LAN access points (not shown), and further detects the strength of interference when there is interference. Interference detection when the other wireless LAN access point uses the same or adjacent channel as the wireless LAN access point 10 and radio waves reach the wireless LAN access point 10 from the other wireless LAN access point The unit 4 determines that there is interference from other wireless LAN access points. The interference detection unit 4 stores the detected interference strength in the storage unit 5.

  The controller 6 transmits a control signal to the antenna rotation mechanism 2 to control the antenna control mechanism 2 and adjust the direction of the directional antenna 1. As will be described later, the direction of the directional antenna 1 is determined according to the presence / absence of interference from other wireless LAN access points and the strength of the interference.

  Control of the direction of the directional antenna 1 is performed according to the following procedure.

  When interference from other wireless LAN access points is not detected, the direction of the directional antenna 1 is maintained as it is.

  When interference from another wireless LAN access point is detected by the interference detection unit 4, the interference detection unit 4 stores the detected interference strength in the storage unit 5. Further, the interference detection unit 4 notifies the control unit 6 that interference from another wireless LAN access point has been detected. In response to the notification from the interference detection unit 4, the control unit 6 transmits a control signal instructing to rotate the direction of the directional antenna 1 to the antenna rotation mechanism 2.

  As shown in FIG. 3, the antenna rotation mechanism 2 rotates the direction of the directional antenna 1 by a predetermined angle in response to the control signal. After the directional antenna 1 is rotated, the interference detector 4 detects the presence or absence of interference. When no interference is detected, the direction of the directional antenna 1 is fixed.

  When interference is detected after the directional antenna 1 is rotated, the strength of the interference is stored in the storage unit 5 and then the direction of the directional antenna 1 is further rotated by a predetermined angle. . The rotation of the direction of the directional antenna 1 is continued until no interference is detected or the directional antenna 1 goes around. Whenever interference is detected, the strength of interference is stored in the storage unit 5, and the strength of interference for each direction of the directional antenna 1 is stored in the storage unit 5.

  When a direction in which no interference is detected is not found, the control unit 6 determines the direction with the least interference from the intensity of interference stored in the storage unit 5, and determines the direction with the least interference as the directivity. The optimum direction of the antenna 1 is determined. The control unit 6 outputs a control signal 7 to the antenna rotation mechanism 2 so that the direction of the directional antenna 1 coincides with the optimum direction.

  With the above operation, the wireless LAN access point 10 of the present embodiment can avoid interference from other wireless LAN access points or can minimize the influence of interference.

(Second embodiment)
The wireless LAN access point 20 according to the second embodiment of the present invention includes a directional antenna 11 and an omnidirectional antenna 12 as shown in FIG. As shown in FIG. 5, the directional antenna 11 is connected to the antenna rotation mechanism 13. The direction of the directional antenna 11 is adjusted by the antenna rotation mechanism 13.

  The directional antenna 11 and the omnidirectional antenna 12 are connected to the input terminal of the switch 14. The switcher 14 connects one of the directional antenna 11 and the omnidirectional antenna 12 to the output terminal. An output terminal of the switch 14 is connected to the signal processing unit 15. The signal processing unit 15 exchanges a wireless signal with a wireless LAN adapter via the antenna that is connected to the signal processing unit 15 by the switcher 14 among the directional antenna 11 and the omnidirectional antenna 12. Communication with the wireless LAN adapter is performed in accordance with a protocol defined in IEEE 802.11. The signal processing unit 15 is connected to a wired LAN, and the signal processing unit 15 enables a device (for example, a laptop computer) equipped with a wireless LAN adapter to access the wired LAN.

  The output terminal of the switch 14 is further connected to the interference detector 16. The interference detection unit 16 detects the presence or absence of interference from another wireless LAN access point (not shown) from the signal appearing at the output terminal of the switcher 14, and further detects the strength of interference when there is interference. To do. The interference detection unit 16 stores the detected interference strength in the storage unit 17.

  The control unit 18 transmits a control signal to the antenna rotation mechanism 13 to control the direction of the directional antenna 1. As will be described later, the direction of the directional antenna 1 is determined according to the presence / absence of interference from other wireless LAN access points and the strength of the interference.

  Further, the control unit 18 transmits a switching signal to the switcher 14 to instruct which of the directional antenna 11 and the omnidirectional antenna 12 is connected to the output terminal of the switcher 14.

  The wireless LAN access point 20 of this embodiment avoids interference from other wireless LAN access points by the following operation.

  In the normal state, the omnidirectional antenna 12 is used for communication with the wireless LAN adapter. That is, in the normal state, the omnidirectional antenna 12 is connected to the output terminal of the switch 14, and the signal processing unit 15 receives a radio signal via the omnidirectional antenna 12.

  When the interference detection unit 16 detects a component due to interference from another wireless LAN access point in the radio wave received by the omnidirectional antenna 12, the interference detection unit 16 notifies the control unit 18 that interference has occurred. Be notified. In response to the notification from the interference detection unit 16, the control unit 18 transmits a switching signal that instructs the directional antenna 11 to be connected to the output terminal of the switching unit 14. Thereby, the antenna connected to the output terminal of the switcher 14 is switched from the omnidirectional antenna 12 to the directional antenna 11.

  Furthermore, the interference detection unit 16 detects whether or not interference from other wireless LAN access points has occurred in the radio wave received by the directional antenna 11. When interference from other wireless LAN access points is not detected, the direction of the directional antenna 11 is maintained as it is.

  On the other hand, when interference from another wireless LAN access point is detected, the interference detection unit 16 stores the detected interference strength in the storage unit 17. Further, the interference detection unit 16 notifies the control unit 18 that interference from another wireless LAN access point has been detected. In response to the notification from the interference detection unit 16, the control unit 18 transmits a control signal instructing to rotate the direction of the directional antenna 11 to the antenna rotation mechanism 13.

  The antenna rotation mechanism 13 rotates the direction of the directional antenna 11 by a predetermined angle in response to the control signal. After the directional antenna 11 is rotated, the interference detection unit 16 further detects the presence or absence of interference. When no interference is detected, the direction of the directional antenna 11 is fixed.

  When interference is detected after the directional antenna 11 is rotated, the strength of the interference is stored in the storage unit 17 and then the direction of the directional antenna 11 is further rotated by a predetermined angle. . The rotation of the direction of the directional antenna 11 is continued until no interference is detected or the directional antenna 11 goes around. Each time interference is detected, the strength of interference is stored in the storage unit 17, and the strength of interference for each direction of the directional antenna 11 is stored in the storage unit 17.

  When a direction in which no interference is detected is not found, the control unit 18 determines the direction with the least interference from the intensity of interference stored in the storage unit 17, and determines the direction with the least interference as the directivity. The optimum direction of the antenna 11 is determined. The control unit 18 outputs a control signal to the antenna rotation mechanism 13 to make the direction of the directional antenna 11 coincide with the optimum direction.

  After a certain time has elapsed since the antenna to be used is switched to the directional antenna 11, the switcher 14 automatically switches the antenna to be used to the omnidirectional antenna 12. That is, the antenna connected to the output terminal of the switch 14 is switched from the directional antenna 11 to the omnidirectional antenna 12. Thereby, the communication range of the wireless LAN access point 20 is widened. The switcher 14 preferably has a function of switching the antenna to be used to the omnidirectional antenna 12 manually, that is, in accordance with a user operation.

  With the above operation, the wireless LAN access point 20 of the present embodiment can avoid interference from other wireless LAN access points or can minimize the influence of interference. Furthermore, the wireless LAN access point 20 of the present embodiment uses the omnidirectional antenna 11 having a wide communication range when it is not in a state of receiving interference from other wireless LAN access points. Can be wide.

(Third embodiment)
The wireless LAN access point 30 according to the third embodiment of the present invention includes a plurality of directional antennas 21 ₁ , 21 ₂ ... As shown in FIG. However, in order to make the drawing easier to see, only a part of the plurality of directional antennas 21 ₁ , 21 ₂ ... Is shown in FIG.

As shown in FIG. 7A, the directional antennas 21 ₁ , 21 ₂ ... Are different from each other in the direction (that is, the direction having the highest gain). That is, the directional antenna ₂₁ 1, 21 2 _... respective communication range ₂₅ 1, 25 2 _..., the different direction. The directions of the directional antennas 21 ₁ , 21 ₂ ... Are selected so that the communication range of the wireless LAN access point 30 is as wide as possible.

As shown in FIG. 6, the plurality of directional antennas 21 ₁ , 21 ₂ ... Are connected to the signal processing unit 22. The signal processing unit 22 exchanges wireless signals with wireless LAN adapters through the directional antennas 21 ₁ , 21 ₂ . Communication with the wireless LAN adapter is performed in accordance with a protocol defined in IEEE 802.11. The signal processing unit 22 is connected to a wired LAN, and the signal processing unit 22 enables a device (for example, a laptop computer) equipped with a wireless LAN adapter to access the wired LAN.

The directional antennas 21 ₁ , 21 ₂ ... Are connected to the interference detection unit 23, respectively. The interference detection unit 23 determines whether or not the radio wave received by each of the directional antennas 21 ₁ , 21 ₂ ... Includes an interference component from the other wireless LAN access point 30 ′, and indicates the result of the determination. An interference detection signal is generated.

The interference detection unit 23 is connected to the antenna power feeding device 24. The antenna feeding device 24 individually supplies power to each of the directional antennas 21 ₁ , 21 ₂ ... In response to the interference detection signal received from the interference detection unit 23. That is, in response to the interference detection signal, the antenna power feeding device 24 feeds power to the antenna that does not receive interference from the other wireless LAN access point 30 ′ among the directional antennas 21 ₁ , 21 ₂ . No power is supplied to an antenna that receives interference from another wireless LAN access point 30 ′. A directional antenna to which power is fed is activated and functions as an antenna, and a directional antenna to which power is not fed is deactivated and does not function as an antenna.

FIGS. 7A and 7B show an operation in which the wireless LAN access point 30 of the present embodiment avoids interference from other wireless LAN access points 30 ′. As shown in FIG. 7, the channels used by the wireless LAN access point 30 and the other wireless LAN access point 30 ′ are the same, and the directional antennas 21 ₁ and 21 ₂ of the wireless LAN access point 30 are used. When a part of... Receives a radio wave from another wireless LAN access point 30 ', the part of the directional antennas receives interference from the other wireless LAN access point 30'. A directional antenna that receives interference is deactivated when power supply is stopped. A directional antenna that does not receive interference is used for communication as it is, and a communication range is secured.

  By such an operation, the wireless LAN access point 30 of the present embodiment can ensure a wider communication range while avoiding interference from other wireless LAN access points.

(Fourth embodiment)
FIG. 8 shows a wireless LAN system according to the fourth embodiment of the present invention. The wireless LAN system according to the fourth embodiment includes a plurality of wireless LAN access points 31 and a server 32. The wireless LAN access point 31 is connected to the server 32 by a wired LAN 33.

  Each of the wireless LAN access points 31 includes a directional antenna 34 and an antenna rotation mechanism 35. The directional antenna 34 sends radio waves to a wireless LAN adapter (not shown) and receives radio waves from the wireless LAN adapter. Wireless communication between the wireless LAN access point 31 and a wireless LAN adapter (not shown) is performed via the directional antenna 34. The antenna rotation mechanism 35 rotates the directional antenna 34 to adjust the direction of the directional antenna 34.

  The server 32 determines the channel used by each wireless LAN access point 31 and the direction of the directional antenna 34. The server 32 controls the antenna rotation mechanism 35 of the wireless LAN access point 31 via the wired LAN 33 and directs the directional antenna 34 in the direction determined by the antenna rotation mechanism 35. As a result, mutual interference between the wireless LAN access points 31 is prevented.

  The direction of the directional antenna 34 is determined by the following procedure. The server 32 acquires the communication range of each wireless LAN access point 31 and the channel used by the wireless LAN access point 31 from the wireless LAN access point 31. Subsequently, the server 32 uses the channel and the directional antenna used by the wireless LAN access point 31 so that interference between the wireless LAN access points 31 does not occur based on the communication range and channel acquired from the wireless LAN access point 31. The direction of 34 is determined. That is, as shown in FIG. 9, the channels used by the wireless LAN access points 31 and the directional antennas so that the communication ranges of the wireless LAN access points 31 using the same and adjacent channels do not overlap. The direction of 34 is determined. FIG. 9 shows a diagram in which the communication ranges of the wireless LAN access points 31 do not overlap, but the communication ranges of the wireless LAN access points 31 that use non-interfering channels (that is, channels that are not identical and not adjacent). Are allowed to overlap. However, in order to widen the communication range of the entire wireless LAN system, it is desirable that the communication ranges of the wireless LAN access points 31 do not overlap regardless of the channel, as shown in FIG.

  As described above, the wireless LAN system of the present embodiment can avoid interference between the wireless LAN access points 31. Furthermore, since the wireless LAN system of the present embodiment can comprehensively determine the orientation of the directional antenna 34, the communication range can be expanded.

(Fifth embodiment)
FIG. 10 shows a wireless LAN system according to the fifth embodiment of the present invention. The wireless LAN system includes a wireless LAN access point 41, a shield plate 42 that is a flat plate, the shield plate 42 held at an arbitrary position around the wireless LAN access point 41, and the posture of the shield plate 42 is maintained. An operating mechanism (not shown) that can be arbitrarily adjusted is provided. The shielding plate 42 is formed of a material that substantially completely shields radio waves emitted from the wireless LAN access point 41.

  When the wireless LAN access points 41 do not interfere with each other, the shielding plate 42 is in such a posture that its main surface (the surface having the largest area) is parallel to the radial direction with the wireless LAN access point 41 as the center. Retained. That is, the shielding plate 42 is held in such a posture that its main surface is parallel to the direction in which the wireless LAN access point 41 emits radio waves. Instead of being held in such a posture that its main surface is parallel to the radial direction around the wireless LAN access point 41, the shielding plate 42 can be laid on the floor.

  As shown in FIG. 10A, when interference occurs between the wireless LAN access points 41, that is, when communication ranges of wireless LAN access points using the same or adjacent channels overlap, As shown in FIG. 10B, the shielding plate 42 is moved between wireless LAN access points whose communication ranges overlap. The position and orientation of the shielding plate 42 are determined so as to eliminate the interference of the wireless LAN access point or to minimize the interference.

  As described above, in the wireless LAN system of the present embodiment, by using the shielding plate 42, interference between wireless LAN access points is avoided or interference is minimized.

  Furthermore, in the present embodiment, when there is no mutual interference between the wireless LAN access points 41, the main surface of the shielding plate 42 is held in a posture that is parallel to the radial direction with the wireless LAN access point 41 as the center, Alternatively, the shielding plate 42 is laid on the floor, thereby increasing the communication range of the wireless LAN system.

(Sixth embodiment)
FIG. 11 shows a wireless LAN access point 50 according to the sixth embodiment of this invention. The wireless LAN access point 50 includes an omnidirectional antenna 51. The omnidirectional antenna 51 is connected to the signal processing unit 52.

  The signal processing unit 52 exchanges a wireless signal with a wireless LAN adapter (slave station, not shown) via the omnidirectional antenna 51. Communication with the wireless LAN adapter is performed in accordance with a protocol defined in IEEE 802.11. The signal processing unit 52 is connected to a wired LAN, and the signal processing unit 52 enables a device (for example, a laptop computer) equipped with a wireless LAN adapter to access the wired LAN.

  The directional antenna 51 is further connected to the interference detection unit 53. The interference detection unit 4 detects the presence or absence of interference from other wireless LAN access points (not shown), and further detects the strength of interference when there is interference. When the other wireless LAN access point uses the same or adjacent channel as the wireless LAN access point 10 and radio waves reach the wireless LAN access point 50 from the other wireless LAN access point, interference detection The unit 53 determines that there is interference from other wireless LAN access points. The interference detection unit 53 stores the detected interference strength in the storage unit 54.

  The interference detection unit 53 is connected to the channel selection unit 55. The channel selection unit 55 selects a channel to be used for communication with the wireless LAN adapter from a plurality of usable channels (that is, 14 channels). The channel selection unit 55 selects a channel to be used based on the presence / absence of interference and the strength of the interference, and notifies the signal processing unit 52 of the selected channel. The signal processing unit 52 communicates with the wireless LAN adapter using the channel selected by the channel selection unit 54.

  FIG. 12 is a flowchart showing an operation of changing the channel by the wireless LAN access point 50 of the present embodiment. The wireless LAN access point 50 periodically performs the processing shown in FIG.

  In this process, first, information indicating which channel is the channel (initial channel) currently selected by the channel selection unit 54 is recorded in the storage unit 54 (step S01).

  Subsequently, the interference detection unit 53 detects whether or not interference is occurring in the currently selected channel (step S02). If the occurrence of interference is not detected, use of the currently used channel is continued (step S02: NO).

  When the occurrence of interference is detected in step S02, the detected interference strength is recorded in the storage unit 54 together with information indicating the channel (step S03).

  Subsequently, the channel to be used is switched according to a predetermined rule (step S04). For example, the channel to be used is switched according to the following rules. As long as the channel number does not exceed the maximum value, the channel to be used is switched to a channel having a channel number 2 higher than that. However, when the channel number exceeds the maximum value, the channel to be used is switched to the channel having the minimum channel number.

  If the switched channel is not the same as the initial channel (step S05: NO), the process of selecting a channel is returned to step S02. If the switched channel is a channel that is not subject to interference, that channel is used. If the switched channel is a channel that is subject to interference, steps S03 to S05 are performed again to record the interference strength and change the channel.

  If the channel switched in step S04 is the same as the initial channel (step S05: YES), it means that a channel without interference cannot be found. In this case, the channel with the least interference is selected based on the interference intensity of each channel recorded in the storage unit 54 (step S06), and the channel used for communication is switched to the channel with the least interference. (Step S07).

  Through the above operation, the wireless LAN access point 50 of the present embodiment can avoid interference from other wireless LAN access points. Since the communication range of the wireless LAN access point 50 of this embodiment is not changed, the communication range can be increased by using the omnidirectional antenna 51 for the wireless LAN access point 50.

FIG. 1 shows a wireless LAN access point according to the first embodiment of this invention. FIG. 2 is a block diagram of the wireless LAN access point according to the first embodiment. FIG. 3 is a diagram illustrating an operation of the wireless LAN access point according to the first embodiment. FIG. 4 shows a wireless LAN access point according to the second embodiment of this invention. FIG. 5 is a block diagram of a wireless LAN access point according to the second embodiment. FIG. 6 shows a wireless LAN access point according to the third embodiment of this invention. FIG. 7 is a diagram illustrating the operation of the wireless LAN access point according to the third embodiment. FIG. 8 shows a wireless LAN system according to the fourth embodiment of the present invention. FIG. 9 is a diagram illustrating an operation of the wireless LAN system according to the fourth embodiment. FIG. 10 shows a wireless LAN system according to the fifth embodiment of the present invention. FIG. 11 shows a wireless LAN access point according to the sixth embodiment of this invention. FIG. 12 is a flowchart illustrating the operation of the wireless LAN access point according to the sixth embodiment.

Explanation of symbols

1: Directional antenna 2: Antenna rotation mechanism 3: Signal processing unit 4: Interference detection unit 5: Storage unit 6: Control unit 10: Wireless LAN access point 11: Directional antenna 12: Omnidirectional antenna 13: Antenna rotation mechanism 14: Switch 15: Signal processing unit 16: Interference detection unit 17: Storage unit 18: Control unit 20: Wireless LAN access points 21 ₁ , 21 ₂ ...: Directional antenna 22: Signal processing unit 23: Interference detection unit 24: Antenna feeders 25 ₁ , 25 ₂ ...: Communication range 31: Wireless LAN access point 32: Server 33: Wired LAN
34: Directional antenna 35: Antenna rotation mechanism 41: Wireless LAN access point 42: Shielding plate 50: Wireless LAN access point 51: Omnidirectional antenna 52: Signal processing unit 53: Interference detection unit 54: Storage unit 55: Channel selection Part

Claims (14)

A directional antenna,
An omnidirectional antenna,
A signal processor;
A switching device for connecting one of the directional antenna and the omnidirectional antenna to the signal processing unit in response to presence or absence of interference from another wireless LAN access point;
The signal processing device is a wireless LAN access point for transmitting and receiving wireless signals via the one side. In the wireless LAN access point according to claim 1,
The switching device includes an interference detection unit that detects interference from another wireless LAN access point, and detects the interference when the interference is detected while the wireless signal is being transmitted / received via the omnidirectional antenna. A wireless LAN access point for connecting a sex antenna to the signal processing unit. In the wireless LAN access point according to claim 2,
In addition,
A control unit that determines an optimum direction of the directional antenna based on the strength of the interference;
A wireless LAN access point comprising an operation mechanism for changing a direction of the directional antenna. A plurality of directional antennas having directivity in different directions;
An antenna control unit for activating or deactivating each of the directional antennas;
An interference detector for detecting the presence or absence of interference from other wireless access points to each of the directional antennas;
The antenna control unit deactivates an antenna that receives interference from another wireless access point, and activates an antenna that does not receive interference from another wireless access point among the directional antennas. point. A plurality of wireless LAN access points;
An antenna control device,
Each of the wireless LAN access points is
A directional antenna,
An operation mechanism connected to the directional antenna and changing the direction of the directional antenna;
The antenna control device determines an optimum direction of each of the directional antennas;
Each of the operation mechanisms is a wireless LAN system that directs the directional antenna to which the operation mechanism is connected in the optimum direction. The wireless LAN system according to claim 5,
The antenna control device determines the optimum orientation of each of the directional antennas so that communication ranges of the wireless LAN access points do not overlap. A wireless LAN access point capable of communicating with a slave station via a plurality of channels,
An interference detector for detecting interference from other wireless access points;
A channel selector,
A signal processing unit,
When the interference is detected while using one of the plurality of channels, the channel selection unit has no interference among the plurality of channels or a channel having the least interference. Select
The signal processing unit is a wireless LAN access point that communicates with the slave station via the selected channel. (A) detecting the presence or absence of interference between the first wireless LAN access point and the second wireless LAN access point;
(B) When the presence of the interference is detected, the first wireless LAN access point and the second wireless LAN access point are between the first wireless LAN access point and the second wireless LAN access point. A method for preventing interference of a wireless LAN access point, comprising: moving a shielding plate that shields the emitted radio wave. The wireless LAN access point interference prevention method according to claim 8,
In addition,
(C) wirelessly provided with a step of moving the shielding plate so that a main surface of the shielding plate is parallel to a direction in which the first wireless LAN access point emits radio waves when it is detected that there is no interference; A method for preventing interference of a LAN access point. The wireless LAN access point interference prevention method according to claim 8,
In addition,
(D) A method of preventing interference of a wireless LAN access point, comprising: laying the shielding plate on the floor when it is detected that there is no interference. A directional antenna,
A method of operating a wireless LAN access point with an omnidirectional antenna,
(K) comprising a step of selecting an antenna to be used for communication from the directional antenna and the omnidirectional antenna;
In the step (K), when interference from another wireless LAN access point is detected when the omnidirectional antenna is selected as a use antenna, the directional antenna is selected as the use antenna. A wireless LAN access point operating method. The wireless LAN access point operating method according to claim 11,
In addition,
Determining an optimal orientation of the directional antenna based on the strength of the interference;
A method of operating a wireless LAN access point, comprising: changing a direction of the directional antenna to the optimum direction. An operation method of a wireless LAN access point having a plurality of directional antennas having directivity in different directions,
Detecting the presence or absence of interference from other wireless access points to each of the directional antennas;
Using the directional antenna that does not receive interference from other wireless access points for communication;
A method of operating a wireless LAN access point, comprising: deactivating an antenna that receives interference from another wireless access point among the directional antennas. A wireless LAN access point operating method capable of communicating with a slave station via a plurality of channels,
Detecting interference from other wireless access points;
When the interference is detected while using one of the plurality of channels, the channel selection unit has no interference among the plurality of channels or a channel having the least interference. A step of selecting
A wireless LAN access point operating method comprising: communicating with the slave station via the selected channel.

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