RU2506719C1 - Wireless communication method - Google Patents

Abstract

FIELD: radio engineering, communication.SUBSTANCE: invention relates to wireless communication systems. The method involves a multimode mobile terminal (MMT) receiving from a first base station (BS) information comprising a first signal level threshold, a second signal level threshold and corresponding time values, periodically measuring the signal level in the MMT maintaining communication with a first wireless communication technology cell served by the BS. If the signal level is below the first threshold during a first time value, the MMT performs signal search for a second wireless communication technology cell which is served by a second BS, wherein: if said signal search leads to satisfaction of a predefined criterion, a request is sent from the MMT to the second BS to prepare for handover, wherein the request includes an information element which includes an MMT identifier and a first BS identifier; if the signal search does not lead to satisfaction of the given criterion or the desired signal is not found, a request signal is transmitted from the MMT to the first BS to establish service association If the signal level is below a second threshold value during a second period of time, a request to establish service association is sent from the MMT to the first BS. If the signal level is higher than or equal to the first threshold value, communication with the second wireless communication technology cell is continued.EFFECT: faster handover.

Description

The present invention relates to wireless (mobile) communication networks, and more particularly to the transmission of control information.

State of the art

Currently, many different wireless technologies are known, such as GSM (Global System for Mobile Communications - Global Digital Standard for Mobile Cellular Communications), CDMA (Code Division Multiple Access), LTE (Long Term Evolution - Networks) long-term development), WiFi, etc., which, when used together, allow for high mobility of the user when moving him in any area.

Moreover, with such sharing, it is necessary to ensure timely handover between the respective networks with various radio access technologies.

The prior art prototype of the present invention is a wireless communication method comprising the steps of: communicating with a first cell for a packet-switched (PS) call; receiving a trigger signal from a radio access network (RAN); establishing a circuit switched (CS) call with a first cell, while the PS call is delayed in the first cell in response to a trigger signal; end the PS call after the CS call is established and handoff the CS call from the first cell to the second cell (RU 2009102510 A, H04W 4/00, published 10.08.2010).

This wireless communication method has the disadvantage of poor communication reliability with fast and / or frequent location changes due to delays in the additional step of establishing a CS call in the first cell. If it is not possible to establish a CS call in the first cell (for example, if the subscriber has already moved to another cell), a handoff according to the above method will be impossible.

The present invention aims to overcome this drawback and helps to improve the reliability of wireless communications.

Disclosure of invention

In accordance with the present invention, there is provided a wireless communication method comprising the steps of: receiving information in a multi-mode mobile terminal (MMT) from a first base station (BS) containing values of a first signal level threshold, a second signal level threshold, and corresponding time values, save the specified information in the MMT memory, periodically measure the signal level in the MMT, which communicates with the hundredth of the first wireless communication technology, which is served by the first BS and: a) in case ur If the measured signal is lower than the first threshold value during the first time value, then the MMT searches for the signal of the cell of the second wireless technology, which is served by the second BS, while: i) if the specified signal search satisfies a predetermined criterion, it is transmitted from MMT a request for preparation for a handover to the second BS, and such a request contains an information element including the MMT identifier and the identifier of the first BS; ii) if the specified signal search does not lead to the satisfaction of a predetermined criterion or the desired signal is not found, then a request signal for setting a service binding is transmitted from MMT to the first BS; b) if the level of the measured signal is lower than the value of the second threshold during the second time value, then a request to establish a service binding is transmitted from MMT to the first BS; c) if the level of the changed signal is higher than or equal to the first threshold value, then they continue to communicate with the hundredth of the first wireless communication technology, and in case of receipt of a request for preparation for handover on the second BS, the identifiers of the first BS and MMT are determined and perform a service transfer by means of a second BS by transmitting to the first BS an MMT handover command with a specific identifier, in the case of receiving the first BS from MMT a request to establish a service binding, about there is a transmission of a service binding message from the first BS to the second BS, and such a message contains an MMT identifier and information allowing the second BS to transfer MMT services without first transmitting a handover command from the second BS to the first BS, the first and second BS transmit information with each other using fiber optic cable.

The above distinguishing features of the present invention can provide increased reliability of communication during fast and / or frequent movement between cells, since they eliminate the additional step of placing a call in the current cell, provide constant monitoring of the status of communication networks and allow advance preparation for the stage of handover between cells, and also provide flexibility in equipment settings when changing network configurations.

Detailed description

For a more accurate understanding of the essence of the invention, the following is a description of the principle of operation of a system using the method of the present invention.

The present invention can be applied, in particular (but not limited to), in communication networks used in the subway.

Obviously, at stations, in tunnels and other metro rooms, it is not possible to provide uniform coverage using one base station. The same problem arises in conditions of dense development and a large concentration of users. Moreover, with the widespread introduction of new technologies, it would be preferable to provide users with reliable, high-quality communication with a wide bandwidth (for example, LTE), not only at stations, but also when moving at high speed in subway tunnels and in urban environments.

It is known that with a large number of users and a wide bandwidth for communication and load balancing, many base stations with a small coverage area (cells) are required. Such cells are the so-called pico and femtocells. It is also known that the smaller the coverage area of a cell, the more often the user moves from one cell to another, which requires the start of a handover procedure.

With a large schedule, handoff delays can cause unwanted interruptions in communication and the loss of large amounts of information.

In addition, it is not always possible to provide users with communication with a specific wireless access technology, which is due to economic reasons, as well as the propagation of radio waves of different frequencies and / or modulation.

Therefore, it is necessary to provide a wireless communication method in which delays in handover between cells with various wireless technologies are minimized or completely absent. In this way is the proposed invention.

In particular, we consider an example of the functioning of a cellular communication system using the proposed method.

When moving in the coverage area of the first cell with the first wireless technology, MMT periodically measures the level of the received signal. Such a signal can be both a pilot signal transmitted by the BS over the control channel and a traffic signal. Monitoring the pilot signal is advisable in the event that the MMT is in standby mode, when the traffic signal is monitored in the active mode.

In the case of a gradual approach to the cell boundary, the received MMT signal level will drop and with further movement may become lower than the first predetermined threshold (threshold values can be stored in the terminal memory, while these values can be broadcast to the terminals from the BS for further storage in memory and use, which can contribute to the flexibility in setting thresholds when changing the network configuration). In this case, the MMT after a predetermined time (this value can be transmitted to the MMT as well as the threshold values) searches for a BS signal of another cell with the second wireless access technology. It should be noted that the first and second technologies may be the same.

Further, if the specified signal search leads to the satisfaction of a predetermined criterion (for example, a certain signal level from the second BS can be such a criterion), a request for preparation for handover is transmitted from MMT to the second BS, and such a request contains an information element including an identifier MMT and the identifier of the first BS, which allows the second BS to begin the transfer procedure of MMT, initiating it by sending a command to transfer the service to the first BS. The handover procedure, carried out in advance with a decrease in the signal level, avoids a sudden disconnection and improves its quality.

The procedure for the implementation of the handover process is known from the prior art and the task of its disclosure is not included in the scope of this application.

Further, if the specified signal search does not satisfy a predetermined criterion (the signal level is below a certain level) or the desired signal is not found, then a request for setting a service binding is transmitted from MMT to the first BS.

In this case, if the first BS receives a request from the MMT to establish a service binding, the service binding message is transmitted from the first BS to the second BS, and this message contains the MMT identifier and information that allows the second BS to transfer the MMT service without first transferring the service transfer command from second BS to the first BS.

Thus, the service binding request transmitted from the MMT serves as a signal that the reception conditions in the cell have deteriorated sharply and it is urgent to prepare for the handover.

Having accepted such a request, the first BS can transmit the message “service anchor” to other base stations in broadcast mode, via lub, lur, lu communication interfaces or, for example, using the information contained in the Neighbor List.

It should be noted here that in the framework of this application, the concept of “base station” includes not only the classical solution in GSM networks, but also the concepts of “Node B” (NodeB) and eNodeB (eNB), which are used in UMTS and LTE networks, respectively as well as the concept of an “access point” in WiFi networks or a combination thereof. Therefore, the solution proposed in this application also covers the transmission of information, for example, between base station controllers (RNC), since in the LTE network all the functions of the controller are assigned to the eNodeB.

The service binding message transmitted from the first BS contains the MMT identifier and the information necessary to complete the handover procedure of a particular MMT to the second (other) BS (for example, the information of the readiness of the first BS for Handover Response handoff). Moreover, such information allows the transfer of service without the need to send a command from the second BS to the first BS (for example, “Handover Request”), which significantly reduces the time for reconnecting.

In case the level of the changed signal is higher or equal to the first predetermined threshold, then communication with the hundredth of the first wireless communication technology is continued.

It should also be noted that in the subway conditions, communication between base stations can be carried out by connecting using a fiber optic cable, or by using backup stations located on the surface, communication with which stations located in the subway is also carried out using a fiber optic cable.

It is also obvious that the present invention can be used without any changes in urban conditions, for example, in conditions of dense development.

The above description allows a person skilled in the art to determine all the advantages of the present invention compared to the prior art. In particular, monitoring the signal level and informing base stations in advance about its change, using a flexible approach in the event of a gradual or sharp deterioration in the quality of reception, as well as reducing the time of the handover procedure, can ensure continuity of communication even in the case of transferring a large amount of information when the user moves quickly between honeycombs.

Claims (1)

A wireless communication method, comprising the steps of: receiving information in a multi-mode mobile terminal (MMT) from a first base station (BS) containing values of a first signal level threshold, a second signal level threshold, and corresponding time values, store said information in the MMT memory periodically measure the signal level in MMT, which communicates with the hundredth of the first wireless communication technology that is served by the first BS and: a) if the level of the measured signal is lower than the first value threshold during the first time value, the MMT searches for the cell signal of the second wireless communication technology, which is served by the second BS, in this case: i) if the specified signal search satisfies a predetermined criterion, a request for preparation is transmitted from MMT to the second BS to a handover, wherein such a request comprises an information element including an MMT identifier and an identifier of a first BS; ii) if the specified signal search does not lead to the satisfaction of a predetermined criterion or the desired signal is not found, then a request signal for setting a service binding is transmitted from MMT to the first BS; b) if the level of the measured signal is lower than the value of the second threshold during the second time value, then a request to establish a service binding is transmitted from MMT to the first BS; c) if the level of the changed signal is higher than or equal to the first threshold value, then they continue to communicate with the hundredth of the first wireless technology, and if the request for preparation for handover is received on the second BS, the identifiers of the first BS and MMT are determined and produced handover by means of a second BS by transmitting to the first BS an MMT handover command with a specific identifier, in the case of receiving the first BS from MMT a request to establish a service binding, about they transmit a service binding message from the first BS to the second BS, moreover, this message contains the MMT identifier and information allowing the second BS to transfer the MMT service without first transmitting the transfer command from the second BS to the first BS, the first and second BS transmit information with each other using fiber optic cable.