KR20020051125A - Parallel Application Method and System of Wireless Communication Networks - Google Patents

Abstract

PURPOSE: A parallel operation system and method in a wireless communication network is provided to achieve a stable communication even under a restricted wireless communication environment and to offer the optimum service by operating various kinds of wireless communication units in parallel and always securing communication paths. CONSTITUTION: A parallel operation system(100) comprises a dedicated radio(130), a wireless data terminal(140), a portable phone(150), a satellite communication terminal(160), a path selection part(110), and a control part(120). The path selection part(110) is interconnected with the wireless communication units(130-160) through voice service connection lines and data service connection lines. Each wireless communication unit(130,140,160) comprises a pilot supervision auxiliary unit(131,141,161). The portable phone(150) includes a status output port(151). The control part(120), monitoring the state of each wireless communication unit(130-160), checks each communication state through the strength of the pilot carrier of each communication network and selects a wireless communication unit showing the optimum communication state. The path selection part(110) provides a relevant voice/data service to a service user through the wireless communication unit selected through the control part(120).

Description

Parallel Application System and Method in Wireless Communication Network {Parallel Application Method and System of Wireless Communication Networks}

The present invention relates to a parallel operation system and method that can communicate in a constrained wireless communication environment. More specifically, the present invention relates to a parallel operation system and method that can communicate in a constrained wireless communication environment by operating several types of wireless communication means in parallel. It is about.

Recently, 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 to a corresponding service user wirelessly. However, the use of such wireless communication means is hampered by environmental constraints of various mobile communication networks. For example, the use of mobile terminals (cellular phones) and PCs (PCS phones) is based on the pre-installed infrastructure, which enables high quality communication in large areas, but also requires a stable wireless path with the base station. This is accompanied by. In addition, the use of short-range wireless communication or indoor local area network (LAN) can implement a dedicated high-speed service, but there is a disadvantage that only the designated short-range service is guaranteed. In addition, the use of satellite communication is also expensive, and due to the occurrence of radio shading area in the indoor area, the communication is interrupted.

An object of the present invention for solving the problems of the prior art is to operate several kinds of wireless communication means in parallel, not only to be less constrained in the wireless environment where the wireless communication means is located, but also to secure a communication path at all times. The present invention provides a parallel operation system and method in a wireless communication network that can provide stable communication in a limited wireless communication environment and can provide an optimal service allowed by the environment.

1 is a block diagram of a parallel operation system according to an embodiment of the present invention,

2 is a flowchart illustrating an operation process of a parallel operation system according to an embodiment of the present invention;

3 is a flowchart illustrating a packet transmission process using a parallel operation system according to the present invention;

4 is a diagram illustrating a communication concept between a calling station and a receiving station;

5 illustrates a wireless environment of a specific wireless communication system;

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

7 is a block diagram illustrating a process of securing a communication path of an ambulance used in a parallel operation system according to an embodiment of the present invention.

※ Explanation of code about main part of drawing ※

110: path selection unit 120: control unit

130: dedicated radio 140: wireless data terminal

150: mobile phone 160: satellite communication terminal

The present invention for achieving the above object in the parallel operation system for providing a high-quality voice and data service to the service user through the provided wireless communication means, combining the provided wireless communication means at the same time, and confirms that The high quality voice service is provided to the service user through a control unit for selecting a wireless communication means indicating an optimal communication state by checking a communication state through a pilot of a pilot carrier of a communication network, and the wireless communication means selected through the control unit. And a path selector for providing a data service.

Preferably, in a parallel operation method of a parallel operation system for providing a high-quality voice and data service to the service user through the provided wireless communication means, selecting a communication network indicating an optimal communication state using the wireless communication means The first step of making; A second step of securing (call setting) a communication path using the selected communication network; A third step of continuously checking the state of the communication network even during communication through the selected communication network; And a fourth step of automatically switching to a communication network having a better communication state selected through the third step.

Hereinafter, a method for allocating a local route in an IP multicast transmission network according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram of a parallel operation system according to an embodiment of the present invention.

As shown, the parallel operation system 100 is a dedicated radio 130, a wireless data terminal 140, a mobile phone 150, a satellite communication terminal 160 and a voice service connection line and data service of various types of wireless communication means And a path selector 110 and a controller 120 interconnected with the wireless communication means 130, 140, 150, and 160 through a connection line, and each wireless communication means 130, 140, 160 is a pilot monitoring assistance device. (131, 141, 161), in particular, the mobile phone 150 provides a status output port 151 to a commercial terminal separately.

The controller 120 constantly monitors the states of various types of wireless communication means 130, 140, 150, and 160, and checks the communication state of the wireless communication means indicating the optimal communication state through the wedge of the pilot carrier of the corresponding communication network. To select.

The path selector 110 provides a corresponding voice service and a data service to a service user through a wireless communication means selected through the controller 120.

Looking at the operation of the parallel operation system according to the invention characterized by such a configuration as follows. 2 is a flowchart illustrating an operation process of a parallel operation system according to the present invention.

The control unit in the parallel operation system first determines whether, among various wireless communication means, a wireless communication means indicating an optimal communication state in an area in which the parallel operation system is located (S210). As a result of the determination, when the dedicated communication network 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 dedicated communication network (S230). If the optimum communication state is not shown, it is determined whether the mobile communication unit, i.e., the mobile phone exhibits the optimum communication state, among the wireless communication means in the parallel operation system (S240). As a result of the determination, when the mobile phone indicates an optimal communication state, the mobile phone is connected to the service user terminal (S220), so that the service user can receive voice and data services through the mobile phone (S230). If the status is not indicated, it is searched whether the wireless communication means connects with the satellite communication terminal, that is, the optimal communication state among the wireless communication means in the parallel operation system (S250). As a result of the search, when the satellite communication terminal indicates an optimal communication state, the satellite communication terminal 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, while the search result, satellite communication If the terminal is not connected, the process of searching for the means representing the best communication state among the wireless communication means is repeated.

As described above, the parallel operation system determines which communication means can provide the most stable and high quality service to the service user by using each wireless communication means, and then opens the communication path (call setup) to correspond to the corresponding service user. Provide voice and data services. However, even during communication, when the wireless communication means which is more stable and shows the optimum communication status is constantly identified and a better wireless communication means is found, the service is automatically switched to provide a high quality communication service to the service user.

Among the wireless communication means used in the parallel operation system according to the present invention including such a feature, a mobile communication terminal (mobile phone connection device) provides a separate connection port, but other wireless communication means do not have such a port. Therefore, by adding another commercial terminal, that is, a separate pilot auxiliary device, the radio wave environment is detected at the time of communication connection, thereby determining the data for selecting a use path.

Note that. FIG. 6 is a diagram illustrating types of connection signal lines in a connection port separately provided in a mobile communication terminal (status output port of a mobile phone connection device). These connection port terminals are not only specified in the configuration (configuration) and use of this terminal for each manufacturer of the mobile communication terminal, the method of use depends on the manufacturer's designation method. In addition, by using the information obtained through this terminal (output connection port), the communication quality status at the current location is monitored.

3 is a flowchart illustrating a packet processing for rechecking the quality of a wireless communication path at a predetermined time. As shown, the parallel operation system first measures the received pilot signal (S310), and then analyzes whether optimal communication is possible using the measured pilot signal (S320). As a result of the analysis, if the optimal communication through the received pilot signal is impossible, the other pilot signal is measured (S330) by measuring the other terminal (S310), while the analysis result, the optimum communication through the received pilot signal is If possible, after requesting a call transmission quality response to the mobile communication means (S340), it is checked whether the response received from the mobile communication means is a normal response (S350). If the result of the check is not a normal response, another received pilot signal is measured (S310). If the result of the check is a normal response, the normal packet is transmitted and received (S360), and then the received pilot signal is measured (S370). Then, 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 the communication use is possible, the normal packet is transmitted and received (S360), while if the search result, the communication use is not possible, another received pilot signal is measured (S310).

4 is a diagram for explaining a communication concept between a transmitting station and a receiving station. As shown, the originating station (or master station, 410) and the receiving station (or slave station, 420) continue to find the optimum communication means to secure a communication path, respectively, to check the wireless communication environment of the terminal. In addition, as shown in FIG. 3, the transmission quality is periodically checked through mutual communication to determine the optimum means.

As such, when the data of each terminal is collected, the data is collected between different paths to communicate with each other by connecting a normal use communication path using a terminal for a path capable of ensuring the best quality. However, in the actual situation, due to the limitation of the radio wave environment, the communication system shows a different state according to the location of the user. As shown in FIG. 5, the location of the user is shifted as shown in the wireless environment of the specific wireless communication system. In this case, the communication paths for normal use communication are designated by combining the optimal paths by identifying each communication quality for each use time point.

The parallel operation system including these features can be secured optimally at all times while being less constrained by the wireless communication environment in which the parallel operation system is located. Therefore, ambulances, fire trucks, military vehicles, public office vehicles, and police are prepared for disasters. It is useful in vehicles. Among them, the operation process of the parallel operation system which is useful in the ambulance is as follows. 7 is a functional block diagram for securing a communication path in an ambulance through a parallel operation system.

When an ambulance vehicle 710 equipped with a parallel operation system according to the present invention is located in a headquarter or a specific area, voice and data services are provided to a corresponding service user through a high-speed data communication network or a short range radio installed in the area 720. However, when the ambulance vehicle 710 is used to move out of a specific area and located in the general urban area 730, the short-range wireless equipment may not be reached. Therefore, the parallel operation system mounted in the ambulance 710 is automatically connected through a commercial mobile communication network (cellular or PCS, etc.) 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 740, the satellite communication network is used by using the satellite terminal. As such, by securing a communication path even in an area where all the communication infrastructure is destroyed, it is possible to perform the work associated with the headquarters.

While the invention has been described above based on the preferred embodiments thereof, these embodiments are intended to illustrate rather than limit the invention. It will be apparent to those skilled in the art that various changes, modifications, or adjustments to the above embodiments can be made without departing from the spirit of the invention. Therefore, the scope of protection of the present invention should not be limited only by the appended claims, but should be construed as including all such changes, modifications or adjustments.

As described above, according to the present invention, even when communicating through various kinds of wireless communication means, the stability of the communication network is continuously grasped, and when a communication network with better communication conditions is found, the automatic switching is performed immediately so that there is no communication infrastructure or the infrastructure is damaged. In this case, it is possible not only to secure an optimal communication path but also to provide a high quality communication service to a corresponding service user by automatically switching to a high speed communication path in a good communication environment.

Claims (3)

In the parallel operation system that provides a high-quality voice and data service to the service user through the provided wireless communication means, A control unit for selecting the wireless communication means indicating an optimal communication state by combining the provided wireless communication means at the same time and checking and checking the communication state through the wedge of the pilot carrier of the corresponding communication network; And a path selector for providing the high quality voice service and data service to the service user through the wireless communication means selected through the control unit. The method of claim 1, The wireless communication means is a parallel operation system comprising a dedicated radio, a wireless data terminal, a mobile phone, a satellite communication terminal. In the parallel operation method of the parallel operation system for providing a high-quality voice and data service to the service user through the provided wireless communication means, A first step of selecting a communication network indicating an optimal communication state by using the wireless communication means; A second step of securing (call setting) a communication path using the selected communication network; A third step of continuously checking the state of the communication network even during communication through the selected communication network; And a fourth step of automatically switching to a communication network having a better communication state selected through the third step.