KR101196437B1 - Super femtocell base station having a plural of antennas installed at remote sites separately - Google Patents

Abstract

The present invention relates to a super femtocell base station apparatus having a plurality of antennas which are remotely distributed, and includes a plurality of antenna units distributed indoors to secure mobile communication coverage for the entire indoor area. Receive one or more mobile communication signals IP-packed through an IP network, and control to transmit the received one or more mobile communication signals to the terminal through the antenna unit, or one or more mobile communication signals from the terminal through the antenna unit. And a main unit for IP packetizing the received one or more mobile communication signals and transmitting them through the IP network. According to the super femtocell base station apparatus having a plurality of remotely distributed antennas as described above, by distributing a plurality of antennas connected to one super femtocell base station in various places in a building or in a crowded indoor space, a frequent hand between femtocells It solves the over problem, solves the interference problem between the super femtocell and the macro cell, and has the effect of solving the overload problem of the mobile communication network at an efficient cost.

Description

SUPER FEMTOCELL BASE STATION HAVING A PLURAL OF ANTENNAS INSTALLED AT REMOTE SITES SEPARATELY}

The present invention relates to a femtocell base station, and more particularly, to a super femtocell base station apparatus having a plurality of antennas installed remotely.

A femtocell base station is a small / low power indoor base station used for homes or individual offices. A femtocell base station refers to a femtocell as a home node B in 3GPP, a femtocell for WCDMA is also referred to as a home node B, and a femtocell for LTE as a home eNode B.

The femtocell base station is an indoor base station for 3G mobile communication or 4G mobile communication. The femtocell base station receives an IP packetized mobile communication signal through a wired IP network, transmits a mobile communication signal to a terminal in a femtocell, and receives a mobile communication received from the terminal. IP packetizes the signal and transmits it to the mobile communication network through the wired IP network.

The femtocell base station has the advantage of lowering the load of the existing mobile communication base station and improving indoor call quality. In addition, there is no need to install an existing indoor repeater, thereby reducing the network construction cost.

However, such a femtocell base station is configured to have a capacity of about 4-5 people in one office or one home, and is not suitable in terms of capacity or power to be used in a building or indoor public place. In particular, in a crowded space such as a conference room or cafeteria, a larger number of femtocell base stations must be additionally installed due to the capacity limitation of the femtocell. In order to cover such a larger indoor space, several or tens of femtocells are formed, and handover between femtocells frequently occurs even indoors. In this case, due to frequent handover between femtocells, there is a problem in that processing capacity between femtocell base stations is increased and power consumption of the terminal is also very high.

On the other hand, users near the building's outer wall are at the boundary between the indoor femtocell and the outdoor macrocell, and thus there is a problem that the probability of accessing the macrocell is higher than that of the femtocell. In this case, the purpose of the installation of the femtocell is colorless, and the load on the macrocell still occurs. In order to solve the coverage problem of the macrocell and femtocell, the femtocell base station can be installed near the outer wall of the building, but there is a problem that the interference between the macrocell and the femtocell becomes severe.

An object of the present invention is to provide a super femtocell base station apparatus having a plurality of antennas that are remotely distributed.

The super femtocell base station apparatus having a plurality of antennas installed remotely distributed according to the object of the present invention described above includes a plurality of antenna units distributed indoors to secure mobile communication coverage for the entire indoor area. unit) and control to receive one or more mobile communication signals IP-packed through an IP network and to transmit the received one or more mobile communication signals to the terminal through the antenna unit, or one or more from the terminal through the antenna unit. And a main unit for receiving a mobile communication signal and for IP packetizing the received one or more mobile communication signals to transmit through the IP network. Here, the antenna unit may be configured to have an Internet access point (AP) or to connect with another Internet access point to transmit and receive the Internet signal with the terminal. Accordingly, the main unit further receives an internet signal through the IP network, multiplexes the received internet signal and one or more mobile communication signals received through the IP network, and transmits the same to the antenna unit, and the antenna unit May be configured to receive and demultiplex the multiplexed Internet signal and one or more mobile communication signals from the main unit, and transmit the demultiplexed Internet signal and one or more mobile communication signals to the terminal. In this case, the main unit compresses one or more mobile communication signals received through the IP network, multiplexes the compressed one or more mobile communication signals and the Internet signal received through the IP network, and transmits them to the antenna unit, The antenna unit may be configured to receive and demultiplex the multiplexed one or more mobile communication signals and the Internet signal, and to decompress the demultiplexed one or more mobile communication signals. The antenna unit further receives an internet signal from the terminal and multiplexes the received internet signal and one or more mobile communication signals received through the antenna unit to the main unit, and the main unit transmits the internet signal and one. The mobile communication signal may be configured to receive and demultiplex the mobile communication signals, IP packetize the demultiplexed Internet signals, and one or more mobile communication signals, and transmit them through the IP network. The antenna unit compresses one or more mobile communication signals received from the terminal, and multiplexes the compressed one or more mobile communication signals and the internet signal received from the terminal to the main unit, and the main unit multiplexes the multiplexing. And demultiplex the received one or more mobile communication signals and the Internet signal, and decompress and decompress the demultiplexed one or more mobile communication signals. Meanwhile, a plurality of extensions configured to be connected to the IP network directly or through the main unit to be connected to a predetermined antenna unit among the plurality of antenna units in order to divide and handle mobile communication coverage for the entire indoor area. It may be configured to further include an extension unit. Wherein the expansion unit receives one or more mobile communication signals IP-packed from the connected IP network through the main unit and receives an internet signal directly from the IP network or through the main unit and receives the received one. Control to transmit the mobile communication signal and the Internet signal to the terminal through the antenna unit, or receive one or more mobile communication signals and the Internet signal from the terminal through the antenna unit, and receive the received one or more mobile communication signals. And transmit the received Internet signal to the IP network directly through the main unit or via the main unit. In this case, the expansion unit compresses one or more mobile communication signals received from the IP network and multiplexes the compressed one or more mobile communication signals and the Internet signal to the antenna unit, and the antenna unit includes the multiplexed one or more mobile devices. Receive and demultiplex communication and internet signals, and decompress one or more demultiplexed mobile communication signals. The antenna unit compresses one or more mobile communication signals received from the terminal, multiplexes the compressed one or more mobile communication signals and the Internet signal received through the antenna unit, and transmits the multiplexed signals to the expansion unit. It may be configured to receive and demultiplex the multiplexed one or more mobile communication signals and the Internet signal, and to decompress the demultiplexed one or more mobile communication signals. On the other hand, the main unit may be configured to have a security function against viruses or hacks flowing through the IP network. And the antenna unit may be configured to be installed to face the center of the indoor. The main unit may be configured to be controllable to change the direction of each antenna unit. The main unit may be configured to supply power to the antenna unit or the expansion unit using the connected UTP cable when the antenna unit or the expansion unit is connected with the UTP cable. And an L2 (layer 2) switch or an L3 (layer 3) switch for transmitting and receiving the Internet signal or the IP packetized mobile communication signal through the IP network.

According to the super femtocell base station apparatus having a plurality of remotely distributed antennas as described above, by distributing a plurality of antennas connected to one super femtocell base station in various places in a building or in a crowded indoor space, a frequent hand between femtocells It solves the over problem, solves the interference problem between the super femtocell and the macro cell, and has the effect of solving the overload problem of the mobile communication network at an efficient cost. On the other hand, by adding a Wi-Fi function to the super femtocell base station apparatus, there is an effect of expanding the selection of communication standards that can be operated in a terminal such as a laptop or a smartphone. In this case, there is an effect of preventing the redundant installation of the indoor router or indoor repeater and integrated operation.

1 is a basic conceptual diagram of a femtocell.
2 is a basic conceptual diagram of a super femtocell base station apparatus having a plurality of antennas according to an embodiment of the present invention.
3 is a block diagram of a super femtocell base station apparatus having a plurality of antennas according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

The terms first, second, A, B, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, 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. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be. On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

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

1 is a basic conceptual diagram of a femtocell.

Referring to FIG. 1, a femtocell system is mainly related to the detailed expansion and supplementation of coverage of a mobile communication network by installing a femtocell base station apparatus that handles a small coverage including about 4-5 mobile subscribers in a home. In the past, the base station was configured to control macrocells, resulting in other shaded areas, such as inside a building. In order to prevent this, repeaters were installed in various places, but the network installation cost and the burden of computing throughput of the base station were more significant.

In a femtocell system, femtocell base stations installed in each office of a home or building communicate with base stations of a mobile communication network using an IP network, thereby reducing network installation cost and reducing the workload of a base station. In addition, there is an advantage that the call quality is also better. The femtocell base station is based on the premise that a mobile communication technology that covers both 3G communication technology such as WCDMA and LTE communication technology can be applied.

2 is a basic conceptual diagram of a super femtocell base station apparatus having a plurality of antennas according to an embodiment of the present invention.

2, the concept of a super femtocell system according to the present invention is shown. The super femtocell system 1 according to the invention can be configured to comprise a main unit 2, an extension unit 3, and an antenna unit 4.

In the present invention, a larger super femtocell concept is introduced than existing small femtocells. A super femtocell, for example, means that the entire office inside the building is formed as one cell, rather than the individual offices inside the building as a conventional femtocell.

In the femtocell base station apparatus 1, the super femtocell is enlarged and expanded in size, but there is only one main unit 2 for processing baseband signals. However, unlike the femtocell base station apparatus, a plurality of antenna units 4 are provided. Depending on the number of antenna units 4, the size of the super femtocell can be expanded more widely.

The super femtocell base station apparatus 1 according to the present invention is configured such that the same signal can be applied to all areas in the building, that is, the super femtocell, by distributing the antenna units 4 in the remote places. In this case, since the entire interior of the building is one cell, there is an advantage that a handover is not necessary inside the building. In the past, for example, a femtocell was changed every time a user moved between layers, and thus a handover between femtocells occurred. However, the present invention does not require such a handover. This is because the user's signal is transmitted and received on all floors even if the user moves between floors. Accordingly, the problems related to the signal processing burden of the femtocell base station or the battery consumption of the terminal due to frequent handover in a narrow space are solved.

On the other hand, the super femtocell base station apparatus 1 according to the present invention handles a small number of users in a relatively short distance, thereby improving call quality. In addition, it reduces the cost of network construction for operators. Conventionally, in this case, a repeater had to be installed, but in the present invention, the super femtocell base station apparatus 1 can sufficiently handle the coverage of the repeater.

On the other hand, the super femtocell base station apparatus 1 is configured to transmit and receive not only mobile communication signals but also general Internet signals, and is configured to be integrated with an existing Wi-Fi system. Thus, there is an advantage of reducing the network construction cost according to the integrated operation of the Wi-Fi system and femtocell system. At this time, the mobile communication signal and the Internet signal received from the main unit 2 through the IP network can be transmitted to the expansion unit 3 or unmultiplexed, and the expansion unit 3 compresses the mobile communication signal and It can be configured to multiplex with an internet signal and transmit via the antenna unit 4. In addition, the expansion unit 3 may be configured to receive the Internet signal directly via the IP network without passing through the main unit 2. However, when the expansion unit 3 does not exist, the main unit 2 directly performs processes such as compression and decompression of the mobile communication signal and multiplexing of the mobile communication signal and the Internet signal.

Hereinafter, the super femtocell base station apparatus 1 according to the present invention will be described in more detail with reference to FIG. 3.

3 is a block diagram of a super femtocell base station apparatus having a plurality of antennas according to an embodiment of the present invention.

Referring to FIG. 3, a super femtocell base station apparatus 10 (hereinafter, referred to as a “super femtocell base station apparatus”) having a plurality of antennas according to an embodiment of the present invention is an antenna unit 111 to 116. ), The main unit 210, and the expansion units 311 to 313.

The super femtocell base station apparatus 10 uses one main unit 210 for processing mobile communication signals and Internet signals received through an IP network, and a plurality of antenna units 111 to 116 connected to and remotely installed. One super femtocell is formed in an entire building or other public space. Accordingly, in the case of the existing femtocell system, handover that occurs frequently in one entire building does not occur. In addition, the antenna units 111 to 116 are directed toward the center of the building, that is, the opposite direction of the surrounding macrocell, thereby reducing the interference generated between the femtocell and the macrocell. Hereinafter, the detailed configuration will be described.

The antenna units # 11 (111) to the antenna units # n3 116 may be configured such that a plurality of antenna units are distributed and installed indoors to secure mobile communication coverage for the entire indoor area. Antenna unit # 11 (111) to antenna unit # n3 (116) are provided everywhere to secure mobile communication coverage for all floors in the building, i.e., all areas indoors. The antenna unit # 11 (111) to the antenna unit # n3 (116) are all configured to be connected to one main unit 310 that manages the corresponding super femtocell. Since the same signal is transmitted to all areas indoors through the antenna unit # 11 (111) to the antenna unit # n3 (116), the user terminals 411 to 412 do not need to perform frequent handovers. Naturally, this also reduces battery consumption. In addition, the signal processing burden of the main unit 210 to be described later is reduced.

On the other hand, the antenna unit # 11 (111) to the antenna unit # n3 (116) is preferably installed to face the center of the indoor. That is, the antenna unit # 11 (111) to antenna unit # n3 (116) is preferably installed to face in the opposite direction to the macro cell around the building. Conventionally, when terminals 411 to 412 exist on the edge of a building, the terminals 411 to 412 frequently access macrocells outside the building formed by a general base station, not a femtocell inside a building. Thus, the antenna unit would be installed at the edge of the building. However, this increased interference between femtocells and macrocells in the building edge region. However, in the present invention, the interference pattern can be reduced by directing the direction of the radiation pattern of the antenna unit # 11 (111) to the antenna unit # n3 (116) toward the inside of the building. Accordingly, in order to control the direction of the radiation pattern of the antenna unit # 11 (111) to the antenna unit # n3 116, the direction of the antenna unit # 11 (111) to the antenna unit # n3 (116) is the main unit 210. Is preferably controlled directly and individually.

On the other hand, the antenna unit # 11 (111) to the antenna unit # n3 (116) is connected to the first terminal 411 to the n-th terminal 412 indoors to transmit and receive the Internet signal (access point, AP) It can be built in or configured to connect with other Internet access points. That is, the super femtocell base station apparatus 10 of the present invention may be configured to transmit and receive not only mobile communication signals but also Wi-Fi signals with the first terminals 411 to n-th terminals 412. As described above, in the super femtocell base station apparatus 10 according to the present invention, the Wi-Fi wireless sharing function that has been used indoors is added, so that even a terminal such as a laptop equipped with the Wi-Fi wireless function is connected to the Wi-Fi via the super femtocell base station apparatus 10. Wireless communication is possible. Therefore, it is not necessary to establish a separate wireless Wi-Fi network indoors, the first terminal 411 to the n-th terminal 412 in the super femtocell through the one super femtocell base station device 10 through the mobile communication signal and the Internet signal Both can send and receive. Therefore, the network construction cost can be reduced.

Next, the main unit 210 receives one or more mobile communication signals IP-packed through the IP network and transmits the received one or more mobile communication signals through the antenna unit # 11 (111) to the antenna unit # n3 (116). Control to transmit to the first terminal 411 to the n-th terminal 412, or from the first terminal 411 to the n-th terminal 412 through the antenna unit # 11 (111) to antenna unit # n3 (116) It may be configured to receive one or more mobile communication signals and to IP packetize the received one or more mobile communication signals to the core network via the IP network. In this case, the main unit 210 may be configured to convert the at least one mobile communication signal received through the IP network into a digital signal to transmit the antenna unit # 11 (111) to the antenna unit # n3 (116).

As such, the main unit 210 manages one super femtocell, and is connected to each antenna unit # 11 (111) to antenna unit # n3 116 inside the super femtocell, and connected to an IP network outside the super femtocell. The main unit 210 performs baseband signal processing performed by a general mobile communication base station (not shown). In this case, the main unit 210 may be configured to process all one or more mobile communication signals of various standards. For example, the WCDMA baseband signal, the future LTE baseband signal and the like can be configured to be capable of signal processing.

On the other hand, when the antenna unit # 11 (111) to the antenna unit # n3 (116) has a built-in Internet access point or connected to the Internet access point to communicate the Internet signal with the first terminal 411 to the n-th terminal 412 The main unit 210 further receives the Internet signal through the IP network, and multiplexes or framing the received Internet signal and one or more mobile communication signals received through the IP network to perform antenna unit # 11 (111). ) To antenna unit # n3 116. The antenna unit # 11 (111) to the antenna unit # n3 (116) receive the multiplexed or framed Internet signal and one or more mobile communication signals from the main unit 210 to demultiplex or deframing. It may be configured to transmit the demultiplexed or deframed Internet signal and one or more mobile communication signals to the first terminal 411 through the n-th terminal 412.

In this case, one or more mobile communication signals may be respectively compressed and transmitted. This is because it is difficult to transmit a plurality of signals at a time because each mobile communication signal must secure a certain transmission capacity, it can be compressed and transmitted. That is, the main unit 210 compresses one or more mobile communication signals received through the IP network, multiplexes or frames the compressed one or more mobile communication signals and the Internet signal received through the IP network, thereby performing antenna unit # 11 (111). To antennas # n3 116 to the first terminal 411 through the n-th terminal 412, and the antenna units # 11 111 to antenna unit # n3 116 are multiplexed or framed one or more movements And may be configured to receive the communication signal and the Internet signal to demultiplex or deframe and decompress one or more mobile communication signals demultiplexed or deframed.

On the other hand, the antenna unit # 11 (111) to the antenna unit # n3 (116) further receives the Internet signal from the first terminal 411 to the n-th terminal 412 and the received Internet signal and antenna unit # 11 (111 ) To the main unit 210 by multiplexing or framing one or more mobile communication signals received through the antenna unit # n3 116, and the main unit 210 receives an Internet signal and one or more mobile communication signals and reverses them. Multiplexed or deframed and demultiplexed or defrared Internet signals and one or more mobile communication signals may be configured to IP packetize and transmit over an IP network.

In this case, one or more mobile communication signals may be compressed and transmitted. Since each mobile communication signal needs to secure a certain transmission capacity, it may be difficult to transmit a plurality of signals at one time and may be compressed and transmitted. That is, the antenna units # 11 (111) to antenna unit # n3 116 compress one or more mobile communication signals received from the first terminal 411 to the n-th terminal 412, respectively, and compress one or more mobile communication signals. And multiplex the Internet signal received through the antenna unit # 11 (111) to the antenna unit # n3 (116) to the main unit 210, and the main unit 210 multiplexes one or more mobile communication signals and the Internet signal. May be configured to receive and demultiplex and decompress one or more mobile communication signals.

Next, the first expansion unit 311 to the n-th expansion unit 313 are connected to the IP network directly or through the main unit 210 in order to divide and handle mobile communication coverage for the entire indoor area. It may be configured to be connected to a predetermined antenna unit of the antenna unit # 11 (111) to the antenna unit # n3 (116) of. For example, the first to third extension units 311 to 313 may be configured to secure mobile communication coverage for each floor of the building. 3, antenna unit # 11 (111) to antenna unit # 13 (113) are connected to the first expansion unit 311, and antenna unit # n1 (114) to antenna is connected to the nth expansion unit 313. Unit # n3 116 may be configured to be connected.

The first expansion units 311 to n-th expansion unit 313 receive one or more mobile communication signals IP packetized through the main unit 210 from an IP network connected directly or through the main unit 210, and receive an IP network. Internet signals directly from or through the main unit 210, and the received one or more mobile communication signals and the Internet signals through the antenna unit # 11 (111) to antenna unit # n3 (116) first terminal (411) And control to transmit to the n-th terminal 412. In addition, in the reverse direction, the first expansion unit 311 to the nth expansion unit 313 may be configured by the first terminal 411 to the nth terminal (via the antenna unit # 11 (111) to the antenna unit # n3 116). Receive one or more mobile communication signals and internet signals from 412, transmit the received one or more mobile communication signals to the IP network through the main unit 210, and send the received Internet signals directly or through the main unit 210 to the IP network. It may be configured to transmit to the network. As such, the mobile communication signal may be configured to pass through the main unit 210, and the Internet signal may be configured to pass through the main unit 210 directly.

Here, the one or more mobile communication signals received by the first expansion unit 311 to the n-th expansion unit 313 through the main unit 210 may be configured to be converted into digital signals at the main unit 210 and received. have.

In addition, one or more mobile communication signals transmitted and received between the first expansion unit 311 to the nth expansion unit 313 and the antenna unit # 11 (111) to the antenna unit # n3 116 may be compressed and transmitted.

That is, the first expansion unit 311 to the n-th expansion unit 313 compress one or more mobile communication signals received through the IP network, and multiplex or frame the compressed one or more mobile communication signals and the Internet signal so that the antenna unit # 11 (111) to antenna unit # n3 116, and antenna unit # 11 (111) to antenna unit # n3 116 transmits one or more mobile communication signals and Internet signals multiplexed or framed to the first terminal 411. ) May be configured to demultiplex or deframe and decompress one or more mobile communication signals received from the n-th terminal 412.

In addition, in the reverse direction, the antenna unit # 11 (111) to the antenna unit # n3 (116) compresses one or more mobile communication signals received from the first terminal 411 to the n-th terminal 412 and Multiplex or frame the compressed one or more mobile communication signals and the Internet signals received from the first terminals 411 to n-th terminal 412 and transmit them to the first expansion units 311 through n-th expansion unit 3113, The first expansion unit 311 to the n-th expansion unit 313 receive the multiplexed or framed one or more mobile communication signals and the Internet signal to demultiplex or deframe and decompress one or more mobile communication signals. It may be configured to restore.

On the other hand, the main unit 210 preferably has a security function against viruses or hacks flowing through the IP network. In addition, the main unit 210 may be configured to require an access right when the first terminal 411 to the n-th terminal 412 access the super femtocell.

When the main unit 210 is connected to the antenna unit # 11 (111) to the antenna unit # n3 116 or the first expansion unit 311 to the n-th expansion unit 313 by an unshielded twisted pair (UTP) cable It may be configured to supply power to the antenna unit # 11 (111) to the antenna unit # n3 (116) or the first expansion unit 311 to the n-th expansion unit 313 by the UTP cable using a UTP cable. . Although the conventional femtocell base station apparatus is operated with low power, in the super femtocell base station apparatus 10 according to the present invention, the size of the cell becomes larger, so that the power consumption is also increased. A larger power supply is needed than conventional femtocell base station devices.

Meanwhile, the super femtocell base station apparatus 10 uses an L2 (Layer 2) switch (not shown) or an L3 (Layer 3) switch (not shown) for transmitting and receiving Internet signals and IP packetized mobile communication signals through an IP network. It may be configured to further include. The L2 / L3 switch may be external to the outside of the super femtocell base station apparatus 10, but it is preferable that the L2 / L3 switch is integrated and operated internally.

Although described with reference to the embodiments above, those skilled in the art will understand that the present invention can be variously modified and changed without departing from the spirit and scope of the invention as set forth in the claims below. Could be.

Claims (15)

Distributed indoors to secure mobile communication coverage for the entire indoor area, a plurality of built-in Internet access point (AP) or connected to another Internet access point for transmitting and receiving Internet signals with the terminal An antenna unit and
Receive one or more mobile communication signals IP-packed through an IP network and control to transmit the received one or more mobile communication signals to the terminal through the antenna unit, or one or more mobile communication signals from the terminal through the antenna unit. A main unit configured to receive an IP packet and transmit the received one or more mobile communication signals through the IP network;
The main unit further receives an internet signal through the IP network, multiplexes the received internet signal and one or more mobile communication signals received through the IP network, and transmits the same to the antenna unit,
The antenna unit receives and demultiplexes the multiplexed internet signal and one or more mobile communication signals from the main unit, and transmits the demultiplexed internet signal and one or more mobile communication signals to the terminal. Super femtocell base station device having a plurality of antennas that are remotely distributed. delete delete The method of claim 1,
The main unit compresses one or more mobile communication signals received through the IP network, multiplexes the compressed one or more mobile communication signals and the Internet signal received through the IP network, and transmits them to the antenna unit,
The antenna unit is a super femtocell having a plurality of remotely distributed antennas, characterized in that for receiving and demultiplexing the multiplexed one or more mobile communication signals and the Internet signal, and decompresses the demultiplexed one or more mobile communication signals Base station device. 5. The method of claim 4,
The antenna unit further receives an internet signal from the terminal, multiplexes the received internet signal and one or more mobile communication signals received through the antenna unit, and transmits the same to the main unit,
The main unit receives and demultiplexes the internet signal and one or more mobile communication signals, and remotely installs the demultiplexed internet signal and one or more mobile communication signals through an IP packet. Super femtocell base station device having a plurality of antennas. The method of claim 5,
The antenna unit compresses one or more mobile communication signals received from the terminal, multiplexes the compressed one or more mobile communication signals and the Internet signal received from the terminal, and transmits them to the main unit,
The main unit is a super femtocell having a plurality of remotely installed antennas, characterized in that for receiving and demultiplexing the multiplexed one or more mobile communication signals and the Internet signal, and decompresses the demultiplexed one or more mobile communication signals Base station device. The method according to claim 6,
A plurality of expansion units configured to be connected to the IP network directly or through the main unit and to be connected to a predetermined antenna unit among the plurality of antenna units in order to divide and handle mobile communication coverage for the entire indoor area; Super femtocell base station apparatus having a plurality of antennas are installed remotely distributed further comprising an extend unit. The method of claim 7, wherein the expansion unit,
Receive one or more mobile communication signals IP packetized from the connected IP network through the main unit and receive Internet signals directly from the IP network or through the main unit and receive the received one or more mobile communication signals and Internet signals. Control to transmit to the terminal through the antenna unit, or receive one or more mobile communication signals and internet signals from the terminal through the antenna unit, and transmit the received one or more mobile communication signals to the IP network through the main unit. A super femtocell base station apparatus having a plurality of remotely installed antennas, characterized in that for transmitting and transmitting the received Internet signal directly or through the main unit to the IP network. 9. The method of claim 8,
The expansion unit compresses one or more mobile communication signals received from the IP network and multiplexes the compressed one or more mobile communication signals and the Internet signal to the antenna unit,
The antenna unit is a super femtocell having a plurality of remotely distributed antennas, characterized in that for receiving and demultiplexing the multiplexed one or more mobile communication signals and the Internet signal, and decompresses the demultiplexed one or more mobile communication signals Base station device. 9. The method of claim 8,
The antenna unit compresses one or more mobile communication signals received from the terminal, multiplexes the compressed one or more mobile communication signals and the Internet signal received from the terminal, and transmits them to the expansion unit,
The expansion unit is a super femtocell having a plurality of remotely distributed antennas, characterized in that for receiving and demultiplexing the multiplexed one or more mobile communication signals and the Internet signal, and decompresses the demultiplexed one or more mobile communication signals Base station device. The method of claim 1, wherein the main unit,
A super femtocell base station apparatus having a plurality of antennas installed remotely, characterized in that it has a security function against viruses or hacks flowing through the IP network. The method of claim 1, wherein the antenna unit,
The super femtocell base station apparatus having a plurality of antennas installed remotely distributed, characterized in that it is installed to face the center of the indoor. The method of claim 1, wherein the main unit,
Super femtocell base station apparatus having a plurality of remotely installed antennas, characterized in that the control is possible to change the direction of each antenna unit. The method of claim 1, wherein the main unit,
When the antenna unit and the UTP cable is connected, the super femtocell base station apparatus having a plurality of remotely installed antennas, characterized in that to supply power to the antenna unit using the connected UTP cable. The method of claim 1,
A super femtocell base station having a plurality of remotely installed antennas further comprising an L2 (layer 2) switch or an L3 (layer 3) switch for transmitting and receiving an internet signal or the IP packetized mobile communication signal through the IP network. Device.

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