KR100625594B1 - Parallel application system of wireless communication networks - Google Patents

Abstract

The present invention is a parallel operation system for providing a communication service to a specific service user through a plurality of wireless communication means provided in advance, wherein each communication state of the plurality of wireless communication means of each pilot carrier of the plurality of wireless communication means A control unit that checks each through strength and selects a specific wireless communication means indicating an optimal communication state, and a path selection unit that provides a communication service to the specific service user using the specific wireless communication means selected from the control unit. Is done.

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Description

Parallel application system in wireless communication networks

1 is a block diagram showing an embodiment of a parallel operation system in a wireless communication network according to the present invention,

FIG. 2 is a flow chart showing step-by-step operations of the parallel operation system in the wireless communication network shown in FIG. 1;

FIG. 3 is a flow chart showing the packet transmission process step by step using the parallel operation system in the wireless communication network shown in FIG. 1,

4 is a view showing a communication concept between a calling station and a receiving station,

5 is a view showing a wireless environment of a specific wireless communication system,

6 is a view showing the specifications of the call code terminal of a commercially available mobile phone,

FIG. 7 is a diagram illustrating a process of securing a communication path of an ambulance in which the parallel operation system in the wireless communication network shown in FIG. 1 is used.

<Explanation of reference numerals for main parts of drawings>

110: path selection unit 120: control unit

130: dedicated radio 140: wireless data terminal

150: mobile phone 160: satellite communication terminal

The present invention relates to a parallel operation system in a wireless communication network, and more particularly, to a parallel operation system that enables a user to communicate in any environment by operating various types of wireless communication means in parallel.

In recent years, with the spread of mobile communication, various communication means have been developed that can provide not only a voice call service but also a data service wirelessly to a corresponding service user. However, to utilize such a wireless communication means, it is hampered by environmental constraints of various mobile communication networks. For example, the use of a mobile communication terminal known as a cellular phone, PCS phone, or the like, enables high-quality communication in a wide area by using an already installed infrastructure, but is accompanied by a prerequisite of securing a stable wireless path with the base station. In addition, the use of a local area dedicated wireless communication or an indoor local area network (LAN) can realize a dedicated high-speed service, but has a disadvantage that only a designated local area service is guaranteed. In addition, the use of satellite communication is also expensive, and the terminal suffers from communication problems due to the occurrence of radio-shaded areas in indoor areas.

The present invention has been devised to solve the above-mentioned problems of the prior art, and by operating several types of wireless communication means in parallel, it is not only limited in the wireless environment in which the wireless communication means is located, but also secures a communication path at all times Since it is possible to achieve stable communication even in a constrained wireless communication environment, its purpose is to provide a parallel operation system in a wireless communication network capable of providing the optimal service allowed by the environment.

Parallel operation system in the wireless communication network of the present invention for achieving this object,
In the system for integrating and operating at least two types of wireless communication terminals among various types of wireless communication terminals including dedicated radios, wireless LAN terminals, wireless data terminals, cellular phones, PCS phones, and satellite communication terminals,
A plurality of connection means connected to the respective wireless communication terminals;
The intensity information of each pilot carrier of the wireless communication terminal is received and compared, and one wireless communication terminal is selected according to the comparison result, and the selected wireless communication is requested by requesting a call transmission quality response to the selected wireless communication terminal. A control unit that checks whether communication with the terminal is possible;
It characterized in that it comprises a path selection unit for providing a communication service to the user by using a wireless communication terminal determined to be able to communicate as a result of inspection of the control unit.

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Hereinafter, a parallel operation system in a wireless communication network according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram showing an embodiment of a parallel operation system in a wireless communication network according to the present invention. The parallel operation system 100 includes a dedicated radio 130 and a wireless data terminal 140 that are various types of wireless communication means. , A mobile phone 150, a satellite communication terminal 160, a path selector 110 and a control unit interconnected with the wireless communication means 130, 140, 150, 160 via a voice service connection line and a data service connection line 120). The dedicated radio 130, the wireless data terminal 140, the mobile phone 150, and the satellite communication terminal 160 are respectively connected to the path selector 110 and the controller 120 through separate connection means. Each of the wireless communication means (130, 140, 160) is connected to the pilot monitoring auxiliary devices (131, 141, 161). The pilot monitoring auxiliary devices 131, 141, and 161 detect the size of the pilot carrier and provide it to the control unit 120. The mobile phone 150 provides a status output port 151 separately to a commercial terminal. The radio 130 and the wireless data terminal 140 use a simple relay using "line of sight communication" or "access point". The mobile phone 150 uses a commercial terrestrial base station for mobile communication. The satellite communication terminal 160 uses a satellite repeater.

In the figure, the control unit 120 always monitors the status of various types of wireless communication means 130, 140, 150, 160, and checks the communication status through the strength of the pilot carrier of the communication network to optimize the communication status. Select a wireless communication means.

The route selection unit 110 provides the corresponding voice service and data service to the service user through the optimal wireless communication means selected through the control unit 120.

FIG. 2 is a flow chart showing step-by-step operations of the parallel operation system in the wireless communication network shown in FIG. 1.

First, the control unit 120, a plurality of wireless communication means (130, 140, 150, 160), the parallel communication system 100, the wireless communication means indicating the optimal communication state in the area where the dedicated communication network example, dedicated radio It is determined whether it is 130 (S210). As a result of the determination in step S210, when the dedicated communication network indicates the optimal communication state, it is connected to the service user terminal (S220), so that the service user can receive voice and data services through the dedicated communication network (S230). On the other hand, as a result of the determination in step S210, if the dedicated communication network does not indicate the optimal communication state, among the wireless communication means 130, 140, 150, 160 in the parallel operation system 100, connection with the mobile phone 150, that is, It is determined whether the mobile phone 150 indicates an optimal communication state (S240). As a result of the determination in step S240, when the mobile phone 150 indicates an optimal communication state, it is connected to the service user terminal (S220), so that the service user can receive voice and data services through the mobile phone 150 (S230). On the other hand, as a result of the determination in step S240, if the mobile phone 150 does not indicate an optimal communication state, among the wireless communication means 130, 140, 150, 160, the connection with the satellite communication terminal 160, that is, the satellite communication terminal ( Among the wireless communication means 130, 140, 150, 160 in the parallel operation system 100, it is searched whether the optimal communication state is indicated (S250). As a result of the search in step S250, when the satellite communication terminal 160 shows the optimal communication state, it is connected to the service user terminal (S220), so that the service user can receive the corresponding voice and data service through the satellite communication terminal 160. To make. On the other hand, as a result of the search in step S250, if the satellite communication terminal 160 is not connected, the process of finding the means indicating the best communication state among the wireless communication means 130, 140, 150, 160 is repeated.

As described above, the parallel operation system 100 uses each wireless communication means 130, 140, 150, 160 to determine which communication means can provide the most stable and high-quality service to the service user, and then the communication path. Open (Call Set) to provide the corresponding voice and data service to the service user. However, it is possible to provide a high-quality communication service to service users by automatically switching to a wireless communication means that is more stable and indicating an optimal communication state, and automatically switching to a better wireless communication means, even during communication.

Among the wireless communication means 130, 140, 150, and 160 used in the parallel operation system 100 according to the present invention including such features, the mobile phone 150 provides a separate connection port. However, since other wireless communication means 130, 140, 150, and 160 do not have such a port, other commercial terminals, that is, by adding a separate pilot assisted monitoring device, detect a radio wave environment during communication connection. , It is set as the data for selecting the route of use.

6 is a view showing specifications of a call code terminal of a commercially available mobile phone, and is a diagram showing the types of connection signal lines in a connection port separately provided in the status output port of the mobile phone 150. These connection port terminals are not only differently configured and used for this terminal for each manufacturer of the mobile communication terminal, but the method of use depends on the manufacturer's designation method. In addition, by using information obtained through this terminal (output connection port), the communication quality status at the current location is monitored.

FIG. 3 is a flow chart showing the packet transmission process step by step using the parallel operation system in the wireless communication network shown in FIG. 1, showing the packet processing process step by step to re-confirm the quality of the wireless communication path every predetermined time.
Even in the course of providing the communication service through the optimal wireless communication means in the process of FIG. 2, the parallel operation system continuously grasps the wireless communication means that is more stable and represents the optimal communication state. First, the control unit of the parallel operation system 100 measures the pilot signal received from the wireless communication means (S310), and then analyzes whether the optimal communication is possible using the measured pilot signal (S320). As a result of the analysis, if optimal communication through the received pilot signal is not possible, another terminal is surveyed (S330) to measure the received other pilot signal (S310). On the other hand, as a result of the analysis, if optimal communication through the received pilot signal is possible, after requesting a call transmission quality response from the corresponding wireless communication means (S340), it is checked whether the response received from the wireless communication means is a normal response ( S350). If the result of the check is not a normal response, the other pilot signal received is measured (S310), whereas if the result is a normal response, the normal packet is transmitted/received (S360), and then the received pilot signal is measured (S370). Thereafter, it is searched whether communication with the wireless communication means is possible through the measured pilot signal (S380). As a result of the search, if communication is enabled, normal packets are transmitted/received (S360), while when the search result, communication is unavailable, other received pilot signals are measured (S310).

FIG. 4 is a diagram illustrating a communication concept between a source station and a destination station, and the master station source station 410 and 410 and the slave station receiver station 420 each continue to search for an optimal communication means. Secure the communication path. At this time, as well as checking the wireless communication environment of the corresponding terminal, as shown in FIG. 3, it is used as a means for determining an optimal means by periodically checking transmission quality through mutual communication.

As described above, when data of each terminal is collected, data collected between different paths are compared and communication is performed by connecting a normal use communication path using a terminal for a path capable of securing the best quality. However, in the actual situation, due to the constraints of the radio wave environment, different states are displayed for each communication system according to the user's location. Each communication quality is identified for each use point, and optimal paths are combined to designate a communication path for normal communication.

The parallel operation system 100 including such features is less constrained by the wireless communication environment in which the parallel operation system 100 is located, and an optimal communication path can be secured at all times. It is useful in vehicles, government vehicles, and police vehicles. Among them, the operation process of the parallel operation system that is useful in ambulances is as follows.

FIG. 7 is a diagram illustrating a process of securing an communication path of an ambulance in which the parallel operation system 100 in the wireless communication network shown in FIG. 1 is used, in which a parallel operation system 100 is mounted in a satellite communication serviceable area 750. When the ambulance 710 is located in the headquarters or a specific area, voice and data services are provided to the corresponding service user through a high-speed data communication network or a short-range radio installed inside the area 720, but the ambulance 710 is used Therefore, when it is located outside the specific area and located in the general urban area 730, the short-range wireless equipment cannot be reached. Accordingly, the parallel operation system installed in the ambulance 710 is automatically connected through a commercial mobile communication network (such as cellular or PCS) installed throughout the city. Thereafter, when the ambulance vehicle 710 moves again and the mobile communication infrastructure is not installed or the infrastructure is located in the damaged area, that is, the disaster area 740, the satellite communication network is established using a satellite terminal. To use. As such, by securing a communication path even in an area where all communication infrastructures are destroyed, it is possible to perform a work linked with the headquarters.

Although the invention has been described based on the preferred embodiments above, these examples are intended to illustrate, not limit, the invention. It will be apparent to those skilled in the art to which this invention pertains that various changes, modifications or adjustments to the above embodiments are possible without departing from the technical spirit of this invention. Therefore, the protection scope of the present invention is not limited only by the appended claims, and should be interpreted to include all of the above-described variations, modifications, or adjustments.

As described above, according to the present invention, if communication networks with better communication conditions are found by continuously grasping the stability of the communication network during communication through various types of wireless communication means, the communication system is automatically switched, or there is no communication infrastructure or the infrastructure is damaged In addition, it is possible not only to secure an optimal communication path, but also has an effect of providing a high-quality communication service to a corresponding service user by automatically switching to a high-speed communication path in an environment with good communication conditions.

Claims (4)

In the system for integrating and operating at least two types of wireless communication terminals among various types of wireless communication terminals including dedicated radios, wireless LAN terminals, wireless data terminals, cellular phones, PCS phones, and satellite communication terminals, A plurality of connection means connected to the respective wireless communication terminals; The intensity information of each pilot carrier of the wireless communication terminal is received and compared, and one wireless communication terminal is selected according to the comparison result, and the selected wireless communication is requested by requesting a call transmission quality response to the selected wireless communication terminal. A control unit that checks whether communication with the terminal is possible; A parallel operation system in a wireless communication network, comprising a path selection unit for providing a communication service to a user using a wireless communication terminal determined to be capable of communication as a result of inspection by the control unit. According to claim 1, And a pilot monitoring auxiliary device that detects strength information of a pilot carrier of the wireless communication terminal and provides it to the control unit. According to claim 1, The communication service is a parallel service system in a wireless communication network, characterized in that the voice service and data service. delete

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