KR101533986B1 - Mobile system and base station system for effectively using licensed spectrum and shared spectrum - Google Patents

Abstract

A mobile system and base station system for effective use of licensed spectrum and shared spectrum. The mobile system includes an initialization unit for initiating transmission and reception of data using at least one of a license band and a shared band, a sensing unit for sensing a band for transmitting and receiving the data through the at least one band, And a transmission / reception unit for transmitting / receiving data through the band.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mobile system and a base station system for effectively using a license band and a shared band,

The present invention relates to mobile systems and base station systems for effective use of licensed spectrum and shared spectrum.

Currently, telecom services are mostly voice based services. Therefore, for wireless data service, it is difficult to expect business performance as much as investment voice service. Current data service tariffs are a burden on users, and data service usage on the move is not much. In addition, such a data service requires a broadband service as a service requiring a high data transmission rate.

In the future communication environment, a higher transmission rate service should be possible. That is, securing a broadband is essential for a service requiring such a high data transmission rate, but it is difficult to realize the present frequency distribution situation. Therefore, a technique for effectively utilizing the current frequency band is needed.

The present invention provides a mobile system and a base station system capable of efficiently using a shared band by allocating a licensed spectrum and a shared spectrum according to functions of a mobile system.

The mobile communication system according to the present invention operates in a periodic manner with the base station system in the mobile system to monitor the control message from the base station system to change the mobile system in the sleep mode to the awake mode Thereby improving the power efficiency of the mobile system.

The present invention provides a method and apparatus for receiving a control message associated with a virtual base station system through an allocated band from a base station system and selecting a band to be used for communication with the virtual base station system based on the control message, The present invention provides a mobile system and a base station system capable of effectively utilizing a band.

A mobile system according to an embodiment of the present invention includes an initialization unit for initializing transmission and reception of data using at least one of a license band and a shared band, a band for transmitting and receiving the data through the at least one band And a transmitting and receiving unit for transmitting and receiving data through the sensing band.

According to an aspect of the present invention, the sensing unit may include a sensing information reporting unit for reporting sensing information to the base station system through the at least one band, and a control unit for controlling the shared band based on the control message received from the base station system according to the sensing information. And a shared band changing unit for changing the shared band.

According to an aspect of the present invention, the license band may include a bandwidth for providing at least one service of a voice service and a data service having a data rate lower than a threshold value, and the shared band may be included in the license band And may include at least some of the bandwidth of the remaining bandwidths.

A base station system according to an embodiment of the present invention includes a mobile system classifier for classifying a mobile system according to usable bands of a licensed band and a shared band and at least one of the licensed band and the shared band according to the classification of the mobile system. And a band allocation unit for allocating a band.

A mobile system according to an embodiment of the present invention includes a monitoring unit for monitoring a control message from a base station system through at least one of a license band and a shared band every predetermined period of a sleep mode, And a mode switching unit for switching the sleep mode to the awake mode.

A mobile system according to an embodiment of the present invention includes a control message receiver for receiving a control message associated with a virtual base station system from a base station system through an allocated bandwidth, And a data transmitting and receiving unit for transmitting and receiving data through the selected band.

A base station system according to an embodiment of the present invention includes a control message transmitter for transmitting a control message including band information for a virtual base station system to a mobile system, And a communication relay unit for relaying the communication.

FIG. 1 is a view showing an overview of a mobile system and a base station system according to an embodiment of the present invention.
2 is a block diagram for explaining an internal configuration of a mobile system according to an embodiment of the present invention.
3 is a block diagram for explaining an internal configuration of a base station system according to an embodiment of the present invention.
4 is an example for explaining the basic operation of the base station system.
5 is an example for explaining a data transmission / reception initialization and data transmission / reception method.
6 is another example for illustrating the data transmission / reception initialization and data transmission / reception method.
7 is another example for explaining the data transmission / reception initialization and data transmission / reception method.
8 is an example for explaining a method of managing the shared band.
9 is an example of the sleep mode operation.
FIG. 10 is a view showing an overview of a mobile system, a base station system, and a virtual base station system according to another embodiment of the present invention.
11 is a block diagram for explaining an internal configuration of a mobile system according to another embodiment of the present invention.
12 is a block diagram for explaining an internal configuration of a base station system according to another embodiment of the present invention.
13 is a flowchart for explaining an example of a subscription initial connection process of the mobile system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing an overview of a mobile system and a base station system according to an embodiment of the present invention. FIG. 1 is a diagram for explaining a method of using spectrum according to a function of a mobile system. That is, to dualize the use of the spectrum, the base station system 101 may include both a device 102 for transmitting and receiving a licensed spectrum and a device 103 for transmitting and receiving a shared spectrum. have. The mobile system 106 according to an exemplary embodiment of the present invention includes a device 107 for transmitting and receiving a license band, As well as an apparatus 108 for transmitting and receiving a shared band. In other words, the existing mobile system 104 uses only the above-mentioned license band which can be set to the bandwidth (mainly 1.25 MHz to 10 MHz) mainly used in the mobile system before the fourth generation, and the mobile system 106 ) Can be configured to use the license band and the shared band together.

The existing mobile system 104 may be provided with voice and low or intermediate data rates using only the license band and the mobile system 106 may be provided with voice utilizing the licensed band and voice with a low or medium data rate A service having a high data rate using a shared band can be provided as well as a service. At this time, since the shared band can be connected to the dynamic spectrum, it is possible to utilize a wider bandwidth than the licensed band, and more efficiently provide a service having a high data rate through utilization of the shared band.

2 is a block diagram for explaining an internal configuration of a mobile system according to an embodiment of the present invention. Here, the mobile system 200 may include an initialization unit 210, a sensing unit 220, and a transceiver unit 230, as shown in FIG.

The initialization unit 210 initializes transmission and reception of data using at least one of a license band and a shared band. Herein, the license band may include a bandwidth to be provided by at least one of a voice service and a data service having a data rate lower than or equal to a threshold value, and the shared band includes a bandwidth excluding the bandwidth included in the license band At least some of the bandwidth. At this time, the initialization unit 210 may select one of the license band and the shared band to initialize the transmission / reception of the data when the shared band is secured in the mobile system 200, The transmission and reception of the data can be initiated using the license band.

The sensing unit 220 senses a band for transmitting and receiving the data through the at least one band. That is, in order to utilize the shared band in the mobile system 200, the operation for sensing the shared band and securing the shared band is required. In this case, in order to sense the shared band, it is necessary to report spectrum sensing and sensing information for in-band and out-band periodically or as needed, The report may utilize the license band or the shared band. The resource allocation for this shared band may be initially controlled through the license band, and thereafter it may be controlled via the same or another reserved shared band as well as the license band. Particularly, management and resource allocation of the shared band through the stable band such as the license band makes it possible to more easily manage the frequency band on the entire system.

2, the sensing unit 220 includes a sensing information reporting unit 221 that reports sensing information to the base station system through the at least one band, And a shared band changing unit 222 for changing the shared band based on the control message.

The transceiver 230 transmits and receives data through the sensed band. That is, the mobile system 200 allocates the shared band through the initial license band through the sensing unit 220 and then allocates the same or different shared band through the license band or the shared band, And the data can be transmitted / received to / from the base station system through the shared band.

In addition, the mobile system 200 includes a monitoring unit (not shown) for monitoring a control message from the base station system through the license band every predetermined period of time during a sleep mode, And a mode switching unit (not shown) for switching the awake mode to an awake mode. The sleep mode and the awake mode are for efficient use of the power of the mobile system 200 and will be described in more detail hereinafter.

3 is a block diagram for explaining an internal configuration of a base station system according to an embodiment of the present invention. 3, the base station system 300 includes a mobile system classifying unit 301, a bandwidth allocating unit 302, a change message transmitting unit 303, and a control message transmitting unit 304.

The mobile system classifying unit 301 classifies the mobile system according to the available bandwidth of the license band and the shared band. At this time, the mobile system classifying unit 301 can classify the mobile system into a mobile system that can use only the license band and a mobile system that can use both the license band and the shared band. This classification may be performed through a mobile system capability database that the base station system 300 may include or may be associated with. For example, the mobile system function database may include information that classifies each mobile system according to a band used in each mobile system of the license band and the shared band, It is possible to classify the mobile system by searching the mobile system function database for the mobile system to which the band is to be allocated.

The bandwidth allocation unit 302 allocates at least one of the license bandwidth and the shared bandwidth according to the classification of the mobile system. That is, it is possible to transmit / receive data through the license band to a mobile system that can use only the license band, and to allow a mobile system that can use the shared band to use not only the license band but also a part of the shared band Can be assigned.

The change message transmitting unit 303 transmits a change message associated with the change of the shared band to the mobile system based on the sensing information received via the at least one band from the mobile system. That is, the change message transmitting unit 303 can determine whether the shared band for the mobile system needs to be changed through the sensing information received from the mobile system, and transmit a change message for controlling the change of the shared band To the mobile system. At this time, the mobile system may transmit a response message to the change message to the base station system 300, and may transmit and receive data through the changed shared band after changing the shared band.

The control message transmission unit 304 transmits a control message through the license band at a predetermined time to switch the sleep mode mobile system to the awake mode. That is, since the mobile system in the sleep mode can not communicate with the base station system 300 at all, it can not be known that the shared band is changed. Therefore, the mobile system in the sleep mode periodically communicates with the base station system 300 to monitor the control message by operating the communication module, and converts the control message into the awake mode according to the control message, You can see the changes.

4 is an example for explaining the basic operation of the base station system. As described above, the base station system must allocate a corresponding band to the classified mobile system, and a scheduler 401 that can be included in the base station system can be used. Here, the scheduler 401 may correspond to the mobile system classifying unit 301 described with reference to FIG. In other words, the scheduler 401 selects a transceiver corresponding to each of the licensed band transceivers and the mobile systems 404 to be allocated bandwidth among the shared band transceivers 403 based on the mobile system function database 402, The bands corresponding to each of the systems 404 are allocated, and various control messages or data can be transmitted / received through the selected transceiver.

5 to 7 show an example of a data transmission / reception initialization and data transmission / reception method.

5 is an example of a method of transmitting / receiving data in a mobile system using a license band. In step S501, the mobile system checks whether there is data to be transmitted (S501) have. Then, the mobile system can confirm whether the license band is available (S503), and if available, transmit / receive data through the license band (S504).

FIG. 6 is an example of a method of transmitting and receiving data in a mobile system using both a license band and a shared band, wherein the mobile system determines whether there is data to be transmitted first (S601), and performs data transmission / (S602). Then, the mobile system can confirm whether the shared band is available (S603), and if available, transmit / receive data through the shared band (S604). Here, step S604 may be performed when the shared band is not allocated yet or when it is desired to allocate the resources of the shared band through the stable license band. If the shared band is not available in step S603, the mobile system determines whether the data can be transmitted / received only through the license band in step S605. If possible, the mobile system transmits / receives data through the license band (S606).

FIG. 7 shows another example of a method of transmitting / receiving data in a mobile system using both a license band and a shared band, where the mobile system first checks whether there is data to be transmitted (S701) and if so, transmits / (S702). Thereafter, the mobile system can confirm whether the shared band is available (S703), and if available, transmit / receive data through the shared band (S704). At this time, one of the shared bands and the license bands, which are already allocated, can be selectively used for the resource allocation for the shared band to be used for the data transmission / reception. If the shared band is not available in step S703, the mobile system determines whether it is possible to transmit / receive data only in the license band as described in FIG. 6 (S705). If possible, the mobile system transmits / receives data through the license band (S606).

8 is an example for explaining a method of managing the shared band. After the data transmission / reception using the shared band between the base station and the mobile system using the shared band (S801), the mobile system may periodically report the sensing information to the base station (S802) according to a specific purpose. At this time, the base station determines whether it is necessary to change the shared band for the mobile system based on the sensing information (S803), and transmits the changed message to the mobile system (S804) if it is determined to be necessary. After receiving the change message, the mobile system transmits a response message to the change message to the base station (S805), and changes the shared band based on the change message (S806). If the shared band is changed, the mobile system and the base station can perform synchronization for the changed other shared band (S807), and after the synchronization, data transmission / reception between the mobile system and the base station S808). At this time, the sensing information, the change message, and the response message can be transmitted through the shared band, but the license band can be used for more stable management. For example, if the amount of interference of the shared band is severe, the license band can be used. On the contrary, the transmission of the control message for the synchronization may use the shared band having a higher data rate.

As described above, by using the mobile system and the base station system according to an embodiment of the present invention, a shared band having a high data rate can be managed more efficiently.

9 is an example of the sleep mode operation. After the data transmission / reception using the shared band between the base station and the mobile station using the shared band (S901), the mobile system can be switched to the sleep mode (S902) for power efficiency. At this time, the sleep mode is for turning off the power of the communication module with the base station to increase the power efficiency of the mobile system, and the mobile system in the sleep mode can not communicate with the base station at all. Therefore, the mobile system needs to operate the communication module every periodic period such as a listening interval at a predetermined time with the base station to switch to the awake mode.

At this time, after the switch to the sleep mode (S902), the mobile system operates as a sleep mode (S903) and monitors the control message from the base station system through the license band every predetermined period. At this time, since the control message received before the change of the shared band (S906) does not include information about the change of the shared band (S906) as in steps S904 and S905, (S905). However, if the shared band is changed (S906), a control message including information for notifying that the shared band has been changed is transmitted from the base station in step S907, and the mobile system, upon receiving the control message, The mode is switched to the awake mode.

The mobile system switched to the awake mode performs synchronization for the changed shared band with the base station in step S909 and transmits / receives data through the synchronized changed shared band in step S910. As described above, by using the mobile system according to the embodiment of the present invention, it is possible to maintain the continuous service even when the shared band is changed.

FIG. 10 is a view showing an overview of a mobile system, a base station system, and a virtual base station system according to another embodiment of the present invention. The virtual base station system 1002 using the infrastructure of the base station system 1001 can provide wireless voice and data services using a shared band other than the frequency band used in the base station system 1001. [ Since the shared band can be changed according to time and place, the shared band related information can be included in a control message such as broadcasting information of the base station system 1001. [ Therefore, the mobile system 1003 according to an exemplary embodiment of the present invention acquires information about the virtual base station system 1002 through the control message broadcasted by the base station system 1001 at the time of initial connection , And may be connected to the virtual base station system 1002 through a shared band corresponding to the information.

The primary broadcast control message for the virtual base station system 1002 broadcasted through the base station system 1001 includes at least basic broadcast control information such as an identifier of the virtual base station system 1002, And band information such as a shared or open spectrum that can be used in the virtual base station system 1002. [ In the shared band used in the virtual base station system 1002, basic control information for operation of the virtual base station system 1002, general control messages required for data transmission and reception, control information such as sensing for spectrum management, data and the like are transmitted and received .

The base station system 1001 basically includes a device capable of processing a band (mainly a license band) of the base station system 1001, and the base station system 1001 can be connected to a central control device by wire. The virtual base station system 1002 may manage the subscriber with the help of the central control unit of the base station system 1001. Also, since the data service of the virtual base station system 1002 is performed through the shared band, the base station system 1001 should include a device capable of supporting data transmission / reception through the shared band. Such a shared band processing apparatus may be installed in the base station system 1001 and may charge an appropriate rent from the operator of the virtual base station system 1002 or the operator may be directly installed in the base station system 1001. The shared band may be secured through actual sensing, or a shared band may be secured through a spectrum broker 1005 that controls the shared band in the center.

The existing mobile system 1003 includes a device capable of processing only the band of the base station system 1001 while the mobile system 1004 processes both the band of the base station system 1001 and the band of the virtual base station system 1002 can do.

11 is a block diagram for explaining an internal configuration of a mobile system according to another embodiment of the present invention. 11, the mobile system 1100 includes a control message receiving unit 1110, a band selecting unit 1120, a data transmitting and receiving unit 1130, and a reporting unit 1140.

The control message receiving unit 1110 receives a control message associated with the virtual base station system from the base station system through the allocated band. Here, the control message may include at least an identifier and band information of the virtual base station system. That is, the mobile system 1100 can receive the bandwidth by searching for the virtual base station system to use through the control message.

The band selection unit 1120 selects a band to be used for communication with the virtual base station system based on the control message. Here, the selected band may include at least a part of shared bands secured through a spectrum broker in the virtual base station system.

The data transmitting and receiving unit 1130 transmits and receives data through the selected band. The data transmission / reception unit 1130 includes a synchronization unit 1131 for performing downlink frame synchronization with the virtual base station system to transmit / receive the data, and a synchronization unit 1131 for receiving a broadcast control message from the virtual base station system, And an additional control message receiving unit 1133 for receiving an additional control message through the selected band. At this time, the additional control message may include at least one of control information for operation of the virtual base station system, control information required for transmitting and receiving the data, and sensing information for band management.

The reporting unit 1140 reports the sensing information to the virtual base station system. Here, the sensing information may be used to secure a shared band in the virtual base station system.

12 is a block diagram for explaining an internal configuration of a base station system according to another embodiment of the present invention. Here, the base station system 1200 includes a control message transmitter 1210 and a communication relay 1220, as shown in FIG.

The message transmission unit 1210 transmits a control message including bandwidth information for the associated virtual base station system to the mobile system. At this time, the control message may further include an identifier of the virtual base station system, and the mobile system may perform communication based on the bandwidth information to the virtual base station system corresponding to the identifier.

The communication relay unit 1220 relays communication based on the band information between the mobile system and the virtual base station system. At this time, the communication relay unit 1220 may include a data transmission / reception unit 1221 for transmitting / receiving data for the virtual base station system through a shared band. That is, the communication relay unit 1220 can relay data transmission / reception between the mobile system capable of processing the band of the virtual base station system and the virtual base station system.

13 is a flowchart for explaining an example of a subscription initial connection process of the mobile system. Hereinafter, a MNO (Mobile Network Operator) may be referred to as a base station system or a service according to an embodiment of the present invention, and a Mobile Virtual Network Operator (MVNO) may be a virtual base station system Service. In the initial access, the mobile system subscribing to the MVNO preferentially searches for the MNO band to synchronize and perform the MNO forward frame (S1301), and transmits MVNO shared band information (MVNO shared band information) included in the forward frame, ) Control message (S1302), thereby obtaining MVNO spectrum information. At this time, the mobile system selects the MVNO spectrum (S1303). In addition, after the MVNO forward frame synchronization is performed by searching the MVNO spectrum determined in the mobile system (S1304), the mobile system receives a secondary broadcast control message broadcasted in the MVNO band (S1305) and transmits the secondary broadcast control message to the MVNO base station (MNO base station supporting MVNO and operating in the MVNO shared band) with the virtual base station system (S1306). After that, the mobile system completes the initialization and transmits and receives control messages and data with the MVNO base station (S1307) when necessary.

As described above, by using the mobile system and the base station system according to an embodiment of the present invention, it is possible to receive a control message associated with the virtual base station system through the allocated band from the base station system, By selecting a band to be used for communication, the shared band used by the virtual base station system can be efficiently used.

For the operation of the present invention, the MVNO can secure a shared band based on the sensing report information of the terminal as well as the shared band through the spectrum broker, and also the utilization of the open band can be considered. If an MVNO spectrum change is required, this change information can be notified through the MVNO band, and also through the MVNO broadcast control message of the MNO band. The utilization of MNO band of MVNO can be considered as paging and sleep mode control of MVNO subscribing terminal.

Embodiments according to the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as a hard disk, a floppy disk, and a magnetic tape; optical media such as CD-ROM and DVD; magnetic recording media such as a floppy disk; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa. A data frame for determining a base station or a repeater according to an embodiment of the present invention may also be recorded on a recording medium readable by various computer means.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

200: Mobile system
210:
220: sensing unit
230: Transmitting /
300: base station system

Claims (10)

In a mobile system,
A monitoring unit monitoring the control message from the base station system through the license band every predetermined period of the sleep mode; And
A mode switching unit for switching the sleep mode to an awake mode based on the control message,
Lt; / RTI >
The control message is transmitted from the base station system when the allocated shared band is changed,
Wherein the mobile system performs synchronization with the base station system for the changed shared band after being switched to the awake mode,
Mobile system. delete The method according to claim 1,
Wherein the sleep mode includes a mode in which the power of the communication module with the base station system is turned off,
Wherein the awake mode includes a mode in which the power is turned on. The method according to claim 1,
Wherein the predetermined period comprises a time previously agreed upon with the base station system. delete delete delete delete delete delete

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