JP2006246115A - Composite radio communication system, service control station, and multimode radio - Google Patents

Abstract

To provide a composite radio communication system, a service control station, and a multi-mode radio using an optimum radio communication system according to each function of a plurality of radio communication systems.
A plurality of wireless communication systems 1 (labeled A and B) and a service control station 2 connected by a network, and a multimode wireless device 3 connectable to the wireless communication system 1 are provided. Based on a requirement condition table in which the wireless service 3 includes communication service requirement conditions registered for each quality item and a quality management table in which quality values related to the quality items of the wireless communication system 1 are registered, the communication service requirement conditions are satisfied. One or a plurality of radio communication systems 1 are selected for each quality item, and a composite radio communication system that distributes control data or user data related to quality values for each quality item to the selected radio communication system 1 is configured.
[Selection] Figure 1

Description

  The present invention relates to a composite radio communication system, a service control station, and a multimode radio.

  In an environment where there are a plurality of different wireless communication systems, the user compares the service quality items of the wireless communication system such as reception level information, charge information, and transmission speed information with the user's selection conditions and service requirements, Communication is performed while switching wireless communication systems.

  A technique for selecting and switching one wireless communication system from a plurality of wireless communication systems based on a predetermined criterion is described in, for example, Patent Document 1 below.

  FIG. 9 shows an example of a flowchart when performing communication by selecting one wireless communication system using a multi-mode wireless device in an environment where a plurality of wireless communication systems can be used.

  In FIG. 9, in the processing statement 1002, the multi-mode wireless device acquires the reception level, transmission speed, fee information, etc. of the available wireless communication system. In the processing statement 1004, the multi-mode radio compares the acquired information with the selection condition or service request condition when selecting the user's wireless communication system, and in the processing statement 1006, the user selection condition or service request condition. A wireless communication system that satisfies the conditions, or those selection conditions and requirements are not satisfied, but an optimal wireless communication system is selected from the supplemented wireless communication systems, and the function of the wireless device is changed. In step 1008, the multi-mode wireless device performs communication using the changed wireless communication system and ends.

JP 2001-54168 A

  Services using wireless communication are diverse and increasing year by year. In addition, since the requirements differ for each service, it is difficult to satisfy the requirements of all services using a single wireless communication system. By using a plurality of wireless communication systems in combination, it is possible to respond flexibly to service requirements, but combinations such as switching of conventional wireless communication systems or multiplexing of data links are part of the service. The requirements can be satisfied, but not all.

  It is an object of the present invention to provide a composite radio communication system, a service control station, and a multimode radio that use an optimal radio communication system according to each function of a plurality of radio communication systems.

In order to solve the above problems, in the present invention, as described in claim 1,
A composite radio communication system including a plurality of radio communication systems connected by a network as components and providing a communication service by the plurality of radio communication systems, the service control station connected to the network, and the plurality of radios A multimode radio connectable to a communication system, the service control station and the multimode radio comprise information management means for allocating and managing control data and user data, the service control station, the multimode radio A request condition table in which at least one of the mode radios registers the request conditions of the communication service for each predetermined quality item, a quality management table in which quality values related to the quality items of the plurality of radio communication systems are registered, and radio communication Wireless communication system selection means for selecting a system, and the wireless communication system The system selection means selects one or a plurality of wireless communication systems satisfying the requirements of the communication service for each quality item based on the request condition table and the quality management table, and the information management means selects the quality item for each quality item. A control system or user data related to the quality value for each quality item is allocated to the selected radio communication system, thereby forming a composite radio communication system.

In the present invention, as described in claim 2,
2. The composite radio communication system according to claim 1, wherein the multi-mode radio is a software radio that can change a radio communication system to be connected by changing software, and the software radio is a hardware used by the software. A hardware resource table in which hardware resources are registered for each wireless communication system to be connected, and the wireless communication system selection unit is configured to select one or more wireless communication systems selected for each quality item based on the hardware resource table. A combined wireless communication system is characterized by narrowing down and selecting a combination of wireless communication systems that minimizes the use of hardware resources.

In the present invention, as described in claim 3,
The composite radio communication system according to claim 1 or 2,
The composite wireless communication system is characterized in that a communication sequence of at least one other wireless communication system is incorporated in a communication sequence of at least one wireless communication system.

In the present invention, as described in claim 4,
A service control station connected via a network to a plurality of wireless communication systems providing communication services, information management means for allocating and managing control data and user data, and requirements for the communication service are set to a predetermined condition A request condition table registered for each quality item, a quality management table in which quality values related to the quality items of the plurality of radio communication systems are registered, and a radio communication system selection means for selecting a radio communication system, The communication system selection means selects one or a plurality of wireless communication systems satisfying the requirements of the communication service for each quality item based on the request condition table and the quality management table, and the information management means includes the quality item Control data related to the quality value for each quality item for a separately selected wireless communication system. Or configuring the service control station, characterized by allocating user data, respectively.

In the present invention, as described in claim 5,
A multimode radio that can be connected to a plurality of radio communication systems connected to a network to provide communication services, information management means for allocating and managing control data and user data, and requirements for the communication services A request condition table registered for each predetermined quality item, a quality management table in which quality values related to the quality items of the plurality of wireless communication systems are registered, and a wireless communication system selection means for selecting a wireless communication system, The wireless communication system selection means selects one or a plurality of wireless communication systems satisfying the requirements of the communication service based on the requirement condition table and the quality management table for each quality item, and the information management means Involved in the quality value for each quality item for the wireless communication system selected for each quality item Configuring the multi-mode wireless device, wherein the allocating control data or user data, respectively.

In the present invention, as described in claim 6,
6. The multimode radio according to claim 5, wherein the multimode radio is a software radio that can change a radio communication system to be connected by changing software, and connects hardware resources used by the software. A hardware resource table registered for each wireless communication system, wherein the wireless communication system selection unit uses hardware resources based on the hardware resource table from one or more wireless communication systems selected for each quality item; The multi-mode radio is characterized by narrowing down and selecting a combination of radio communication systems that minimizes.

  By implementing the present invention, it is possible to provide a composite radio communication system, a service control station, and a multi-mode radio that use an optimal radio communication system according to each function of a plurality of radio communication systems.

  Since the frequency, modulation method, and communication protocol used in the wireless communication system are designed for each system, the transmission speed, security strength, and coverage area of the wireless communication system are different for each wireless communication system.

  Also, in the communication procedure of the wireless communication system, the function is divided into functions such as a function for transmitting user data, a function for authenticating a user, a function for delivering a key for encrypting data, and a function for mobility control. Can do.

  In addition, as a multimode radio that supports multiple radio communication systems, a single radio that consists of dedicated circuits, etc. that support multiple radio communication systems, and only software changes without changing hardware There are software radios that can change the function of the radio (see, for example, literature: J. Mitola, III “The Software Radio Architecture”, IEEE Comm. Mag. Vol. 33, No. 5, pp. 26-38, 1995). ).

  In the present invention, focusing on the above features, a plurality of wireless communication systems are regarded as one wireless communication system based on service request conditions, and the function of the wireless communication system is adaptively adapted to satisfy each request condition for each request condition. Is distributed to realize a composite wireless communication system that satisfies a desired service requirement. Further, when the software defined radio terminal is used, a radio communication system that satisfies the service requirements and has an optimal hardware resource allocation is determined.

  The present invention selects a wireless communication system for each service quality item based on service requirements, and distributes control data or user data related to the quality item to the selected wireless communication system. A wireless communication system is configured.

  An example of a composite radio communication system according to the present invention is shown in FIG.

  In FIG. 1, there are a plurality of wireless communication systems 1 (indicated by wireless communication system A and wireless communication system B) connected by a network, and a multimode wireless device 3 that can be connected to the wireless communication system 1. The composite wireless communication system provides a communication service by the wireless communication system 1. In addition to the wireless communication system 1, another wireless communication system (wireless communication system C) may exist.

  In FIG. 1, the service control station 2 exists on a network connected to the wireless system 1, but as shown in FIG. 8, the service control station 2 includes a plurality of wireless communication systems 1 (wireless communication system A, wireless communication). Each may be individually connected to the communication system B).

  The service control station 2 and the multimode wireless device 3 include information management means for distributing and managing control data and user data.

  Further, at least one of the service control station 2 and the multi-mode wireless device 3 has a request condition table in which request conditions for the communication service are registered for each predetermined quality item, and a plurality of wireless communication systems 1 (wireless communication systems A and B). A quality management table in which quality values related to the quality items are registered, and a wireless communication system selection means for selecting a wireless communication system, wherein the wireless communication system selection means includes the requirement condition table and the quality management table. Based on the quality item, one or more wireless communication systems 1 satisfying the requirements of the communication service are selected for each quality item, and the information management means The control data or user data related to the quality value is allocated respectively.

  FIG. 2 is a block diagram of an example of a multimode radio that is a component of the composite radio communication system according to the present invention. In this configuration, the multimode radio performs radio communication system selection.

  In this configuration, a service request is input to the wireless communication system selection unit.

  The wireless communication system selection means selects a wireless communication system using a request condition table and a quality management table in response to a service request. The wireless communication system selection unit notifies the information management unit of the selection result. At the same time, the multimode wireless communication means is set. In FIG. 2, the wireless communication system means sets the multimode wireless communication means. However, the information management means may set the multimode wireless communication means after notifying the information management means of the selection result.

  The information management means distributes user data, control information, etc. for each wireless communication system based on the selection result of the wireless communication system, and transmits it to the multi-mode wireless communication means.

  The multimode wireless communication means transmits the state of the wireless communication system, user data, control information, etc. to the information management means.

  In addition, the information management means integrates user data and control data received from the wireless communication system.

  FIG. 3 is a block diagram showing an example of a service control station in the composite radio communication system according to the present invention. In this configuration, the service control station performs radio communication system selection.

  In this configuration, a service request is transmitted using a certain wireless communication system, and is notified from the input means to the information management means. At this time, it is assumed that the service control station knows the wireless communication system in which the multi-mode wireless device that has requested the service can communicate. Alternatively, the multi-mode wireless device transmits whether or not the wireless communication system can be used together with the service request.

  A service request is notified from the NW (network) interface to the wireless communication system selection means.

  The wireless communication system means selects a wireless communication system using a request condition table and a quality management table in response to a service request. The wireless communication system selection unit notifies the information management unit of the selection result.

  The information management means distributes user data, control information, and the like based on the selection result of the wireless communication system, and appropriately transmits to the corresponding wireless communication system using the input / output means.

  In addition, the information management means integrates user data and control data received from the wireless communication system.

  FIG. 4 is an example of a multi-mode radio (in this case, a software radio that can change a connected radio communication system by changing software), which is a component of the composite radio communication system according to claim 2. FIG. In this configuration, the software defined radio performs radio communication system selection. This software defined radio includes a hardware resource table in which hardware resources used by the software are registered for each connected wireless communication system.

  In this configuration, a service request is input from the service interface to the wireless communication system selection unit.

  The wireless communication system selection means selects a wireless communication system using a request condition table and a quality management table in response to a service request.

  The wireless communication system selection unit determines a wireless communication system based on the information in the hardware resource table, and notifies the information management unit of the result.

  The wireless communication system selection means sets a program and parameters defining the wireless communication means in the software wireless communication means.

  The information management unit may set the software wireless communication unit based on the selection result.

  The information management means transmits the allocated user data, control information, etc. to the software wireless communication means based on the selection result of the wireless communication system.

  In addition, the information management means integrates user data and control data received from the wireless communication system.

  As described above, this software defined radio includes a hardware resource table in which the hardware resources used by the software are registered for each connected wireless communication system, and the wireless communication system selection means selects one or more for each quality item. Based on the hardware resource table, it is possible to narrow down and select combinations of wireless communication systems that minimize the use of hardware resources.

  FIG. 5 shows a flowchart of the multi-mode radio when the multi-mode radio includes a requirement condition table, a quality management table, a radio communication system selection unit, and an information management unit.

  As shown in FIG. 5, in the processing statement 102, the multi-mode wireless device extracts the value of the service request condition from the request condition table, and compares it with each quality item of the wireless communication method obtained from the quality management table. .

  Based on the comparison result of the processing statement 102, in the decision statement 104, the multi-mode wireless device determines whether or not there is a wireless communication method or a combination of wireless communication methods that satisfies the service requirements. If there is a wireless communication system or a combination of wireless communication systems that satisfies the service requirements, the process proceeds to the processing statement 108, and if not, the processing proceeds to the processing statement 106.

  In the processing statement 108, the multi-mode radio determines the wireless communication method to be used based on the comparison result by the wireless communication system selection means, and proceeds to the processing statement 110.

  On the other hand, in the processing statement 106, the multi-mode radio makes a request for degrading the request condition to the service, and the process ends.

  In the processing statement 110, the multi-mode wireless device performs communication using the composite wireless communication system using the information management means, and ends.

  Table 1 shows an example in which the request conditions for service A are described as a request condition table, and Table 2 shows an example of the quality management tables for radio communication system A and radio communication system B.

伝送速度、セキュリティ（認証、鍵配送）、モビリティの３頃目を要求条件テーブル及び品質管理テーブルの品質項目の一例とする。伝送速度はサービスを提供する際の通信速度であり、セキュリティはユーザの認証や鍵の配送時の安全性などである。モビリティは移動に対する耐性である。

The third item of transmission speed, security (authentication, key distribution), and mobility is an example of quality items in the requirement condition table and the quality management table. The transmission speed is a communication speed at the time of providing a service, and the security is user authentication and safety at the time of key distribution. Mobility is resistance to movement.

  The multi-mode radio selects a radio communication method according to the flowchart of FIG. Since the required conditions for service A are transmission rate 3, security 3, and mobility 1, wireless communication system A serves as a wireless communication system for transmitting data, and wireless communication system B serves as a wireless communication system for implementing security. Are selected. Since the mobility is 1, the wireless communication system A supports it.

  An example of a time sequence for performing data transmission in the wireless communication system A and using the wireless communication system B to implement security (authentication and key distribution) of the wireless communication system is shown in FIG.

  In FIG. 6, it is assumed that only the wireless communication system A satisfies the requirements for security-related quality services, and only the wireless communication system B satisfies the service requirements for quality related to transmission rates.

  ☆ Service request occurs at 1.

  * 2 The multimode radio selects the radio communication system based on the service requirements.

  At time t1, the multimode wireless device connects to the wireless communication system A and establishes a communication path.

  At time t2, the multimode wireless device is connected to the wireless communication system B and establishes a communication path.

  At time t3 and time t4, the multi-mode wireless device distributes control information related to security such as authentication and exchange of keys used when encrypting user data with the service providing station to the wireless communication system A. To communicate with the service provider.

  At time t5 and time t6, the multi-mode wireless device and the service control station distribute user data to the wireless communication system B, and communicate with the service providing station using the wireless communication system B.

  A processing flowchart of the software defined radio terminal when the software defined radio includes a request condition table, a quality management table, a radio communication system selection unit, and an information management unit as in the composite radio communication system according to claim 2. As shown in FIG.

  In FIG. 7, based on the comparison result of the processing statement 202, the software defined radio determines whether or not there is a wireless communication method or a combination of wireless communication methods satisfying the service requirement in the decision statement 204. . If there is a wireless communication system or a combination of wireless communication systems that satisfies the service requirements, the process proceeds to the processing statement 208, and if not, the processing proceeds to the processing statement 206.

  In process statement 208, the software defined radio uses the hardware resource table to select a wireless communication system combination that minimizes hardware resource consumption from among the supplements of the selected wireless communication system.

  On the other hand, if the processing proceeds to the processing statement 206, the software defined radio requests the service to degrade the request condition and ends.

  In the determination statement 210, the hardware resource consumed by the wireless communication system selected in the processing statement 208 is compared with the hardware resource usable by the software defined radio. If the hardware resource is insufficient, the process proceeds to the process statement 206. If not, the process proceeds to the process statement 212.

  In processing statement 212, the software defined radio uses the wireless communication system selection means to determine the wireless communication system to be used, changes the function of the wireless device, and in processing statement 214 uses the composite wireless communication system using the information management means. Then, the wireless communication is performed and the process is terminated.

  An example of the composite radio communication system according to claim 3 is shown in FIG. In this case, the service control station 2 is individually connected to a plurality of wireless communication systems 1 (wireless communication system A and wireless communication system B). By such control operation of the service control station 2, for example, the communication sequence of the wireless communication system B that is one other wireless communication system 1 is incorporated into the communication sequence of the wireless communication system A that is one wireless communication system 1. It is. As a result, the communication sequence of the wireless communication system B is incorporated into the communication sequence of the wireless communication system A, and a desired communication service can be provided only by the wireless communication system A.

  As described above, the present invention compares and selects service quality and service requirement conditions of a plurality of wireless communication systems that can be used by a user, and flexibly configures one or more wireless communication systems based on the selection result. By using in combination, it is possible to meet the service requirements.

  Thereby, the communication carrier can flexibly cope with various quality services by using the existing wireless communication system without investing a great amount of money. On the other hand, the user can adaptively use a plurality of wireless communication systems according to services, and thus can enjoy services of appropriate quality.

It is a conceptual diagram of an example of the composite radio | wireless communications system which concerns on this invention. It is a block block diagram of an example of the multimode radio | wireless machine which is a component of the composite radio | wireless communications system which concerns on this invention. It is a block block diagram of an example of the service control station in the composite radio | wireless communications system which concerns on this invention. It is a block block diagram of an example of the multi-mode radio | wireless machine which is a component of the composite radio | wireless communications system of Claim 2. 6 is a flowchart of the multimode radio when the multimode radio includes a requirement condition table, a quality management table, a radio communication system selection unit, and an information management unit. It is an example of a time sequence in the composite radio communication system according to claim 1. It is an example of the flowchart of the composite radio | wireless communication system of Claim 2. It is a conceptual diagram of an example of the composite radio | wireless communications system of Claim 3. It is an example of the flowchart of the multimode radio | wireless machine of a conventional system.

Explanation of symbols

  1: wireless communication system, 2: service control station, 3: multimode radio.

Claims (6)

A composite radio communication system comprising a plurality of radio communication systems connected by a network as components and providing a communication service by the plurality of radio communication systems,
A service control station connected to the network, and a multi-mode radio connectable to the plurality of wireless communication systems,
The service control station and the multi-mode radio comprise information management means for distributing and managing control data and user data;
At least one of the service control station and the multi-mode radio has registered a request condition table in which request conditions of the communication service are registered for each predetermined quality item, and a quality value related to the quality item of the plurality of radio communication systems. A quality management table and a wireless communication system selection means for selecting a wireless communication system;
The wireless communication system selection means selects one or a plurality of wireless communication systems satisfying the requirements of the communication service for each quality item based on the requirement condition table and the quality management table,
The information management means distributes control data or user data related to a quality value for each quality item to a radio communication system selected for each quality item, respectively. The composite wireless communication system according to claim 1, wherein
The multi-mode radio is a software radio that can change a wireless communication system to be connected by changing software,
The software defined radio includes a hardware resource table in which hardware resources used by the software are registered for each connected wireless communication system,
The radio communication system selection means narrows down and selects combinations of radio communication systems that minimize the use of hardware resources from one or more radio communication systems selected for each quality item based on the hardware resource table. A composite wireless communication system. The composite radio communication system according to claim 1 or 2,
A composite wireless communication system, wherein a communication sequence of at least one other wireless communication system is incorporated in a communication sequence of at least one wireless communication system. A service control station connected via a network to a plurality of wireless communication systems providing communication services,
Information management means for allocating and managing control data and user data, a requirement condition table in which requirement conditions of the communication service are registered for each predetermined quality item, and a quality value related to the quality item of the plurality of wireless communication systems A quality control table, and a radio communication system selection means for selecting a radio communication system,
The wireless communication system selection means selects one or a plurality of wireless communication systems satisfying the requirements of the communication service for each quality item based on the requirement condition table and the quality management table,
The service control station, wherein the information management means distributes control data or user data related to a quality value for each quality item to a wireless communication system selected for each quality item. A multi-mode radio that can be connected to a plurality of radio communication systems connected to a network to provide communication services,
Information management means for allocating and managing control data and user data, a requirement condition table in which requirement conditions of the communication service are registered for each predetermined quality item, and a quality value related to the quality item of the plurality of wireless communication systems A quality control table, and a radio communication system selection means for selecting a radio communication system,
The wireless communication system selection means selects one or a plurality of wireless communication systems satisfying the requirements of the communication service for each quality item based on the requirement condition table and the quality management table,
The multimode radio according to claim 1, wherein the information management means distributes control data or user data related to the quality value for each quality item to the radio communication system selected for each quality item. The multi-mode wireless device according to claim 5,
The multi-mode radio is a software radio that can change a wireless communication system to be connected by changing software,
Hardware resources used by the software, a hardware resource table registered for each wireless communication system to be connected,
The radio communication system selection means narrows down and selects combinations of radio communication systems that minimize the use of hardware resources from one or more radio communication systems selected for each quality item based on the hardware resource table. A multi-mode radio characterized by that.

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