WO2015072157A1 - Radio access point wave strength survey apparatus - Google Patents

Abstract

[Problem] To provide a radio access point wave strength survey apparatus ideal for use when installing an access point. [Solution] This radio access point wave strength survey apparatus is provided with: a height-adjustable survey antenna fixing member on which an access point is mounted; a power supply unit attachment main body member on which the survey antenna fixing member is mounted and to which a power supply unit is attached; and a base member on which the power supply unit attachment main body member is mounted and which supports the survey antenna fixing member with the power supply unit attachment main body member interposed therebetween.

Description

Wireless access point radio wave intensity survey device

The present invention relates to a wireless access point radio wave intensity survey device.
More specifically, a wireless LAN access point (AP), which is a type of wireless device for connecting wireless LAN clients (wireless terminals) such as notebook computers to each other or to other networks (priority LAN, etc.) The present invention relates to a wireless access point radio wave intensity survey device suitable for use in determining the installation location and quantity of an access point (AP) when installing at a desired position.

As a background art in this technical field, there is JP-A-2006-191470 (Patent Document 1). In this publication, “the position information acquisition unit (312) for acquiring the position information of the first wireless terminal from the transmission signal transmitted from the first wireless terminal and the position information of the first wireless terminal have been falsified. A determination unit (313) that determines whether the information is information, and the determination unit (313) receives a transmission signal when the position information of the first wireless terminal is determined to be falsified. When using the location acquisition system that uses the first information based on the location of the access point as the location information of the first wireless terminal, “when making an emergency call from the wireless LAN terminal via the IP telephone network, such as the police / fire department. Is specified "(refer to the summary).

Japanese Unexamined Patent Publication No. 2006-191470

Patent Document 1 describes a mechanism of a position acquisition system that specifies a transmission position of an access point. However, the jig used to determine the location and quantity of the access point by measuring the radio wave intensity of the access point with a personal computer (hereinafter referred to as PC), that is, the radio access point radio wave intensity in advance. There is no disclosure of survey equipment used in surveying.

When installing a wireless LAN access point (AP) on the wall or ceiling of a building, it is necessary to determine the location and quantity of the access point (AP). At this time, it is necessary to check the radio wave intensity of the access point (survey: survey, surveying, implementation survey) and confirm the installation position and quantity of the access point.

Therefore, in general, the access point is temporarily installed at a desired position. Further, the radio wave intensity from the access point is surveyed using a PC or the like at a plurality of locations.
At the time of this survey work, conventionally, at least two workers, a worker holding at the position where the access point is to be installed, and a worker measuring the access point's radio wave intensity while moving with a PC are required. .

な い There is no specific way to set up an access point, but the situation changes depending on the situation (location) at which the access point is measured. In addition, since access points are installed in most places, such as high locations in the building or on the ceiling, workers on the side that have access points should check the signal strength of the access points. During the measurement, it is necessary to go up to a ladder, stepladder, etc., lift the access point to the installation location, and wait.

Therefore, the worker who has the access point needs to carry tools such as ladders and stepladders, and also needs to go up and down, resulting in poor work efficiency as well as work at high places. There was a problem with danger.

An object of the present invention is to provide a radio access point radio wave intensity survey device suitable for use when installing an access point.

Another object of the present invention is for a radio access point radio wave intensity survey that does not require an operator on the application side and can be performed by an operator on the radio wave intensity measuring side alone. To provide an apparatus.

Also, another object of the present invention is to provide a wireless access point radio field intensity survey device that does not require work at a high place, that is, is safe and easy to adjust the height of the access point.

In order to solve the above problems, a wireless access point radio wave intensity survey device according to the present invention is equipped with a survey antenna fixing member to which an access point is mounted and height adjustment is possible, and the survey antenna fixing member is mounted. A power supply unit mounting main body member to which the power supply unit is mounted; a leg member to which the power supply unit mounting main body member is mounted and supporting the survey antenna fixing member through the power supply unit mounting main body portion; The antenna fixing member, the feeding unit mounting main body member, and the leg member are detachable assembly type, and the survey antenna fixing member is composed of a plurality of detachable hollow poles, and the radio wave intensity of the wireless access point It is used when surveying.

The wireless access point radio wave intensity survey device of the present invention is
Survey antenna fixing member to which the access point is detachably attached, power supply unit attachment main body member 120 to which the survey antenna is detachably attached and a power supply unit (for example, PoE power supply unit) is attached, and the power supply unit attachment A body member is detachably mounted, and has a leg member that supports the survey antenna fixing member,
When surveying the radio field intensity of the access point, the power supply unit and the access point are connected and used by a communication cable (for example, UTP: Untwisted Twist Pair cable).

The survey antenna fixing member of the present invention,
One or more hollow intermediate fixed poles, one hollow access point body mounting tip pole,
The one or more intermediate fixed poles are:
Having a joint fixing plate spring at one end, and a joint fixing hole at the other end,
The access point body mounting tip pole is
An access point fixing hook having a joint fixing plate spring that fits into a joint fixing hole provided at one end of the intermediate fixing pole at one end, and that fits into the fitting hole of the access point main body at the other end Have
The power supply unit mounting body member is:
The intermediate fixed pole, the upper and lower surface portions to which the leg member is detachably mounted, and the side surface portion to which the power feeding unit is attached;
On the upper surface portion, the other end of the intermediate fixing pole is detachably mounted, and a joint fixing hole is formed in which a joint fixing leaf spring provided at one end of the intermediate fixing pole is fitted. Pipes,
The lower surface portion has a screw hole into which the screw of the leg member is screwed,
The power feeding unit is attached to the side surface part,
It is characterized by that.

The power supply unit of the present invention comprises an Ethernet <registered trademark> compatible PoE power supply unit including a converter having a PoE function,
The communication cable is made of UTP (Unshielded Twist Pair Cable),
The leg member is a tripod for a camera.

According to the present invention, it is possible to provide a radio access point radio wave intensity survey device suitable for use when installing an access point.

It is another object of the present invention to provide a wireless access point radio wave intensity survey device that does not require a worker to be installed on the application side, and enables an operator to perform the access point installation work alone on the side that measures the radio wave intensity.

Also provided is a wireless access point radio wave intensity survey device that does not require work at high altitude, that is, is safe and that allows easy adjustment of the access point height.

Issues, configurations, and effects other than those described above will be clarified by the following description of the embodiments.

FIG. 1 is an overview diagram showing the overall configuration of a wireless access point radio wave intensity survey apparatus according to the present invention. FIG. 2 is an enlarged front view of FIG. FIG. 3 is a perspective view illustrating a configuration example of the power supply unit attachment member 120. FIG. 4 is a perspective view showing a configuration before assembly of the power supply unit mounting member 120 and the camera tripod 130 of the leg member. FIG. 5 is a diagram illustrating a configuration example of the intermediate fixing pole 1101 and the access point main body attaching tip pole 1102 of the survey antenna fixing member 110. FIG. 6 is a diagram for explaining a method of connecting the intermediate fixed poles 1101 to each other. FIG. 7 is a side view of the intermediate fixing pole 1101 of the survey antenna fixing member 110 and the tip pole 1102 for attaching the access point body. FIG. 8 is a front view of the intermediate fixed pole 1101 and the access point body mounting tip pole 1102. FIG. 9 is a rear view of the access point body mounting tip pole 1102. FIG. 10 is a view for explaining the attachment method of the access point main body attaching front end pole 1102 and the access point 20, and a view when the access point 20 is attached to the access point main body attaching front end pole 1102. FIG. 11 is a diagram illustrating an example of a hook mounting structure. FIG. 12 is a top view of the PoE power supply unit mounting portion main body 1201 of the power supply unit mounting member 120. FIG. 13 is a side view of the PoE power supply unit mounting part main body 1201. FIG. 14 is a rear view of the PoE power supply unit mounting portion main body 1201 and a view illustrating how the tripod 130 is attached to the fixture 1301. FIG. 15 is a diagram illustrating how the PoE power supply unit mounting portion main body 1201 and the fixing device 1301 of the tripod 130 are mounted. FIG. 16 is a diagram illustrating an example when the PoE power supply unit 30 is used. FIG. 17 is a diagram for explaining how the radio field intensity of an access point is measured by a PC.

Hereinafter, examples will be described with reference to the drawings. In this embodiment, an example in which the radio wave intensity of a wireless access point is measured by a PC will be described.

1 and 2 are diagrams showing a configuration of a radio access point radio wave intensity survey device 10 for measuring radio wave intensity of a radio access point in advance. FIG. 1 is an external view thereof, and FIG. 2 is an enlarged front view thereof. is there.

In the figure, a radio access point radio wave intensity survey device 10 is used when the radio wave intensity of a radio access point (IEEE 802.11n / a / b / g compliant product) 20 is surveyed in advance. And it has the survey antenna fixing member 110, the attachment member 120 for attaching the survey antenna fixing member, and the leg member (tripod) 130, and is used in the assembled state as shown in the figure.
The details will be described below.

The wireless access point radio wave intensity survey device 10 includes a survey antenna fixing member (survey antenna fixing pole) 110, a power supply unit mounting member 120 (PoE power supply unit mounting portion main body 1201), and a leg member 130.

The access point body 20 is detachably attached to the top of the survey antenna fixing member 110.

The survey antenna fixing member 110, the power feeding unit mounting member 120, and the leg member 130 are configured to be detachable. Further, the survey antenna fixing member 110 is constituted by a plurality of fixing members so as to extend in the height direction.
That is, the survey antenna fixing member 110 has a joint configuration that is detachably attached to the power supply unit mounting member 120, and the power supply unit attachment member 120 has a joint configuration that is detachably attached to the leg member 130. To do.

For example, the survey antenna fixing member 110 is made of a hollow joint pipe made of aluminum. One or more intermediate fixed poles 1101 (three are shown in this example) and one access point main body attaching tip pole 1102 are provided. The length of each pole is 1000 mm, for example.

At both ends of the intermediate fixed pole 1101, there are joint portions described later. For example, a joint fixing plate spring 11011 is provided at one end, and a joint fixing hole 11012 is provided at the other end.

The access point body mounting tip pole 1102 also has joint portions described later, similar to the intermediate fixed pole 1101. For example, a joint fixing plate spring 11021 is provided at one end, and two access point fixing hooks 11022 are provided at the other end.

These poles can be connected, that is, attached by fitting the joint fixing plate spring 11021 and the joint fixing hole 11012.
Thereby, the length in the height direction can be lengthened (extended) or shortened. Moreover, those connections can be released, that is, removed. Thereby, carrying (carrying) can be performed easily. For example, a storage bag may be prepared for carrying each pole.

The lowest part of the intermediate fixed pole 1101 is detachably attached to a hollow projecting portion (convex portion) formed on the upper part of the main body 1201 of the power supply unit mounting member (PoE power supply unit mounting member) 120, that is, the joint pipe 12014. Attached to.

The access point main body attaching tip pole 1102 is detachably attached to the joint portion (joint fixing hole 11012) of the intermediate fixing pole 1101 via the joint portion (joint fixing leaf spring 11021).

The access point body 20 is detachably attached to the uppermost portion of the access point body mounting tip pole 1102 via a joint portion (access point fixing hook 11022).

The access point body 20 has two hook holes 2101 (see FIG. 10) formed on the back surface and an antenna 2102 that emits radio waves.
The configurations of the access point body 20 and the access point fixing hook will be described later.

A rubber cap 11023 is attached to the most advanced hollow portion of the access point body attaching tip pole 1102.

The configuration of each joint portion of the intermediate fixed pole 1101 and the access point body mounting tip pole 1102 will be described later.

The power supply unit mounting member 120 includes, for example, a cylindrical power supply unit mounting part main body 1201.

The power supply unit mounting portion main body 1201 is formed by cutting out a fixed portion of the leg member (camera tripod) 130, that is, a lower end surface 12013 that is detachably attached to the camera platform 1301 and a part of a side portion of the power supply unit mounting portion main body 1201. A flat surface 12012 formed as described above, and an upper end surface 12011 formed with a joint pipe 12014 to which the intermediate fixing pole 1101 is attached.

A power supply unit, for example, a PoE (Power over Ethernet <registered trademark>) power supply unit 30 that conforms to IEEE802.3af is attached to the flat portion 12012.
The PoE power supply unit 30 is protected by an acrylic cover 1204 (see FIGS. 12 and 14). The detailed configuration of the acrylic cover 1204 will be described later.

In this embodiment, the PoE power supply unit 30 is attached to the flat portion 12012 of the attachment portion main body 1201. However, the PoE power supply unit 30 is not necessarily attached to the main body 1201, and may be separately prepared.

The leg member 130 includes, for example, a fixture 1301 that detachably fixes the power supply unit attachment member 120 and a tripod portion 1302 that supports the fixture. For example, an existing camera tripod that can be adjusted in the height direction may be used as the leg member 130.

The height (length) after installation of the access point is, for example, a maximum adjustment of 4200 mm (1000 mm / pole, 200 mm / main body) + tripod, and fine adjustment is performed with the tripod according to the height of the place to be measured.

The power supply unit (PoE power supply unit) 30 has jacks 310 (3101) and 310 (3102) to which communication cables (UTP cables) 410 and 420 are attached at the upper part, and an AC to which the power cord 430 is connected at the lower part. An adapter connection unit 320 is included. These configurations will also be described later.

FIG. 3 is a perspective view showing a configuration example of the power supply unit mounting member 120, and FIG. 4 is a perspective view showing a configuration before the assembly of the main body 1201 of the power supply unit mounting member 120 and the camera tripod 130 of the leg member. .

3 and 4, a screw hole 120131 (see FIG. 4) into which the screw 13011 of the fixing tool 1301 of the tripod 130 is fitted is formed in the lower end surface 12013 of the power supply unit mounting portion main body 1201 of the power supply unit mounting member 120. It is.

A joint pipe 12014 to which the intermediate fixing pole 1101 of the survey antenna fixing member 110 is jointed is provided on the upper end surface 12011 of the power feeding unit mounting portion main body 1201. The joint pipe 12014 is formed with a joint fixing hole 120141 in which the leaf spring 11011 of the intermediate fixing pipe 1101 is engaged.

FIG. 5 is a view showing a configuration example of the intermediate fixing pole 1101 and the access point main body attaching tip pole 1102 of the survey antenna fixing member 110.

In the drawing, one end of the intermediate fixed pole 1101 is formed to have a small diameter so that it can be inserted into the hollow of the joint pipe 12014 of the main body 1201 of the PoE power supply unit mounting member 120.
A joint fixing leaf spring 11011 is attached to a part of one end of the intermediate fixing pole 1101. A joint fixing hole 11012 into which a joint fixing plate spring is fitted is formed at the other end of the intermediate fixing pole 1101.

One end of the access point body mounting tip pole 1102 is formed to be slightly smaller in diameter so that it can be inserted into the hollow of the intermediate fixed pole 1101.
A joint fixing leaf spring 11021 that fits into the joint fixing hole 11012 of the intermediate fixing pole 1102 is attached to a part of one end of the access point main body attaching tip pole 1102. Two access point fixing hooks 11022 are attached to the other end of the access point main body attaching tip pole 1102.
A rubber cap 11023 is attached to the tip portion.

FIG. 6 is a diagram for explaining how to attach and detach the intermediate fixing poles 1101.

In the drawing, the intermediate fixed poles 1101 are attached as shown. For example, one end of the other pole 1101 is inserted into the hollow of one end of the intermediate fixed pole 1101 while being pushed in by inserting a joint fixing plate spring 11012 formed on the one end (inserted). A spring 11012 is fitted into the hole 11011 and jointed. When removing, the pole is slid while removing the leaf spring 11012 and removed.
The attachment and detachment of the intermediate fixed pole 1101 and the access point main body attaching tip pole 1102 are performed in the same manner.

7 is a side view of a plurality of intermediate fixing poles 1101 and one access point body mounting tip pole 1102, and FIG. 8 is a front view of one intermediate fixing pole 1101 and one access point body mounting tip pole 1102. FIG. 9 is a rear view of the access point body mounting tip pole 1102.

In the same figure, the intermediate fixing pole 1101 has the joint fixing plate spring 11011 and the joint fixing hole 11012 as described above, and the access point body mounting tip pole 1102 includes the joint fixing plate spring 11021 and the access. It has a point fixing hook (screw x 2) 11022, a fixing thumb screw 11024 for adjusting the vertical position of the screw, and a long hole 11025 in which the screw is mounted.

FIG. 10 is a view for explaining the attachment method of the access point body attaching front end pole 1102 and the access point body 20, and is a view when the access point body 20 is attached to the access point body attaching front end pole 1102.

In the same figure, screws, ie, two application fixing hooks 11022, which are hooking portions of the access point body mounting tip pole 1102, are hooked into two upper and lower hook holes 2101 formed on the back surface of the casing 210 of the access point body 20. To attach.

FIG. 11 is a diagram showing an example of a hook attachment structure, and shows that the attachment position of the access point body 20 in the vertical direction can be adjusted when the access point body 20 is attached to the access point body attachment tip pole 1102. FIG.

In the same figure, a long hole 11025 in the vertical direction is formed in the tip pole 1102 for attaching the access point body, and the lower hook of the access point fixing hook 11022 is inserted into the long hole, and the hook is moved in the vertical direction. Make it possible. After the position of the hook is determined, it is fixed with, for example, a thumbscrew 11024 attached to the tip of the hook.

12 is a top view of the PoE power supply unit mounting portion main body 1201 of the power supply unit mounting member 120, FIG. 13 is a side view thereof, FIG. 14 is a rear view thereof, and a view showing a mounting state of the tripod 130 with the fixture 1301. These are figures which show a mode of attachment of the PoE electric power feeding unit attaching part main body 1201 and the fixing tool 1301 of the tripod 130. FIG.

In FIG. 12, an intermediate fixing pole 1101 is inserted into the joint pipe 12014 at the center of the upper surface of the PoE power supply unit mounting portion main body 1201. The joint fixing hole 120141 formed in the joint pipe 12014 and the joint fixing leaf spring 11011 attached to the intermediate fixing pipe 1101 are fitted and fixed.

Two jacks, for example, RJ45 jacks 3101 and 3102 are attached to the upper part of the Ethernet <registered trademark> compatible PoE power supply unit 30 attached to the flat surface 12012.

One RJ45 jack 3101 is connected to a communication cable connected to the access point body 20, for example, a UTP cable 410, and the other one RJ45 jack 310 is connected to a communication cable connected to a higher-level network, for example, A UTP cable 420 is connected. The UTP cables 410 and 420 use RJ-45 modular plugs at both ends.

An acrylic cover 1204 that covers the PoE power supply unit is attached to the PoE power supply unit mounting portion main body 1201 so as to cover the flat surface 12012 of the main body so as to be freely opened and closed.

The cover 1204 is made of a transparent member, and cable protection sponges 1205 are attached to the upper and lower sides thereof.
The acrylic cover 1204 can protect the PoE power supply unit 30 including the cables 410 and 420, the jack 310, and the AC adapter connection unit 320, which will be described later, and can easily check the state from the outside.
The distance between the main body 1201 and the outermost peripheral surface of the flat surface 12012 is 40 mm.

In FIG. 13, the joint fixing hole 120141 described above is formed in the joint pipe 12014 attached to the upper surface side of the PoE power supply unit attachment part main body 1201. Further, a screw hole 120131 into which the screw 13011 of the fixing tool 1301 of the tripod 130 is screwed is formed in the center portion on the lower surface side.
Incidentally, the size of the PoE power supply unit mounting part main body 1201 is, for example, 120 mm wide and 200 mm long.

In FIG. 14, an AC adapter connection 320 is attached to the lower end of the Ethernet <registered trademark> -compatible PoE power supply unit 30.
A screw hole 12011 that fits with a tripod fixing screw 13011 (see FIG. 5) of the tripod 130 is formed at the center of the lower surface of the PoE power supply unit attachment main body 1201. Then, as shown in FIG. 15, the screw holes 12011 of the PoE power supply unit mounting portion main body 1201 and the screws 13011 of the fixture 1301 are engaged and fixed to each other.

FIG. 16 is a diagram illustrating an example when the PoE power supply unit 30 is used.
That is, the acrylic cover 1204 of the main body 1201 is opened, and the PoE power supply unit 30 is fixed to the flat surface (base surface) 12012 with screws. Then, the UTP cables 410 and 420 are connected to the PoE power supply unit 30 via the RJ45 jacks 3101 and 3102. Prepare the length of the cable for the height to be measured.

FIG. 17 is a diagram for explaining how the access point 20 is measured by the PC 50 after the access point 20 is installed at a predetermined position using the wireless access point radio wave intensity survey device.

In the figure, a wireless access point radio wave intensity survey device is set at the nearest application installation planned place, and the radio wave condition is measured by the PC 50.
Once an access point is installed, it can be easily measured by one person. Also, it is not necessary to prepare a stepladder etc. even in high places.
When changing the position of the wireless access point radio wave intensity survey device, if the height does not change, it may be moved as assembled. After measurement, dismantling the wireless access point radio wave intensity survey device makes it easy to carry around.

According to the above-described embodiment, the survey antenna fixing member (survey antenna fixing pole) 110, the power supply unit mounting member 120 (PoE power supply unit mounting portion main body 1201), and the leg member (tripod) 130 are detachably assembled. Since the configuration is possible, a wireless access point preliminary survey device that is easy to carry and easy to assemble can be obtained. Specifically, it has been verified that a stable feeling can be maintained even when the weight of the access point body 20 is about 350 to 500 g. As a result, a lightweight and inexpensive wireless access point preliminary survey jig could be obtained.
Further, the survey antenna fixing member (survey antenna fixing pole) 110 and the power supply unit mounting member 120 (PoE power supply unit mounting portion main body 1201) are made of aluminum, thereby reducing the weight. Moreover, by providing the power supply unit (PoE power supply unit) 30, the communication cables (UTP cables) 410 and 420, and the power cord 430, an access point survey can be easily performed.

In addition, this invention is not limited to an above-described Example, Various modifications are included. For example, the above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described.
Further, a part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment.

10 Wireless access point radio wave intensity survey device 110 Survey antenna fixing member 1101 Intermediate fixed pole 1102 Access point body mounting tip pole 120 Power supply unit mounting body member 1201 PoE power supply unit mounting body 1204 Acrylic cover 1205 Sponge 130 for cable protection Leg Camera tripod 20 Access point body 210 Access point body housing 30 Ethernet <registered trademark> compatible PoE power supply unit 310 RJ45 jack 320 AC adapter connection 410 420 UTP cable

Claims (4)

1. Survey antenna fixing member with access point attached and adjustable height, survey antenna fixing member attached, feeding unit mounting body member to which feeding unit is mounted, feeding unit mounting body member mounted A leg member that supports the survey antenna fixing member via the power supply unit mounting main body, and the survey antenna fixing member, the power feeding unit mounting main body member, and the leg member are detachable assemblies. The survey antenna fixing member is composed of a plurality of detachable hollow poles, and is used when surveying the radio field strength of a radio access point. apparatus.
2. The wireless access point radio wave intensity survey device is:
   Survey antenna fixing member to which the access point is detachably attached The power supply unit attachment main body member to which the survey antenna is detachably attached and the power supply unit is attached, and the power supply unit attachment main body member are detachably attached And a leg member for supporting the survey antenna fixing member,
   2. The wireless access point radio wave intensity survey according to claim 1, wherein when the radio wave intensity of the access point is surveyed, the power supply unit and the access point are connected by a communication cable. apparatus.
3. The survey antenna fixing member is
   One or more hollow intermediate fixed poles, one hollow access point body mounting tip pole,
   The one or more intermediate fixed poles are:
   Having a joint fixing plate spring at one end, and a joint fixing hole at the other end,
   The access point body mounting tip pole is
   An access point fixing hook having a joint fixing plate spring that fits into a joint fixing hole provided at one end of the intermediate fixing pole at one end, and that fits into the fitting hole of the access point main body at the other end Have
   The power supply unit mounting body member is:
   The intermediate fixed pole, the upper and lower surface portions to which the leg member is detachably mounted, and the side surface portion to which the power feeding unit is attached;
   On the upper surface portion, the other end of the intermediate fixing pole is detachably mounted, and a joint fixing hole is formed in which a joint fixing leaf spring provided at one end of the intermediate fixing pole is fitted. Pipes,
   The lower surface portion has a screw hole into which the screw of the leg member is screwed,
   The power feeding unit is attached to the side surface part,
   The wireless access point radio wave intensity survey device according to claim 2.
4. The power supply unit includes a PoE power supply unit compatible with Ethernet <registered trademark> including a converter having a PoE function.
   The communication cable is made of UTP (Unshielded Twist Pair Cable),
   The leg member comprises a camera tripod.
   The wireless access point radio wave intensity survey device according to claim 2 or 3, wherein
   
   
   

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