EA002245B1 - Seamless lobe handover - Google Patents

Abstract

1. A method in a telecommunication system for communication between at least one base station site having one or more sectors each divided into a number of fixed lobes and a mobile station moving within said base station site, comprising: - establishing a connection forming a channel between a base station site transmitter/receiver equipment and a mobile station; - transmitting signals between said transmitter/receiver equipment and said mobile station via said channel by utilizing one of said lobes in one of the sectors of said base station; - changing said utilized lobe to another lobe of said base station site without changing transmitter/receiver equipment of said base station site, thus being devised to achieve seamless lobe handover within the base station site, utilizing at a time only one lobe and without changing the channel. 2. A method as claimed in claim 1, characterized in that an antenna array and its supporting equipment is used to form fixed lobes. 3. A method as claimed in claim 1 or 2, characterized in that the change of the lobe is made without any signalling or channel order to and from said base station site to control the change of the lobe. 4. A method as claimed in any of the preceding claims, characterized in that equipment in said base station site determines the best lobe by comparing signals received in actual lobe with signals received in adjacent lobes. 5. A method as claimed in claim 4, characterized in that signals are compared by detecting received signal strength. 6. A method as claimed in claim 4, characterized in that signals are compared by evaluating received signal to interference ratio. 7. A method in a telecommunication system for communication between at least one base station site having a plurality of sectors each divided into a number of fixed lobes and a mobile station moving within said base station site, comprising: - establishing a connection forming a channel between a base station site transmitter/receiver equipment and a mobile station; - transmitting signals between said transmitter/receiver equipment and said mobile station via said channel by utilizing one of said sectors of said base station; - changing said utilized sector to another sector without changing transmitter/receiver equipment of said base station site, thus being devised to achieve seamless lobe handover within the base station site, utilizing at a time only one sector and without changing the channel. 8. A method as claimed in claim 7, characterized in that the change of the sector is made without any signalling or channel order to and from said base station site to control the change of the sector. 9. A method as claimed in claim 7 or 8, characterized in that equipment in said base station site determines the best lsector by comparing signals received in actual sector with signals received in adjacent sectors. 10. A method as claimed in claim 9, characterized in that signals are compared by detecting received signal strength. 11. A method as claimed in claim 9, characterized in that signals are compared by evaluating received signal to interference ratio. 12. A base station site in a telecommunication system, said base station site comprising a transmitter/receiver equipment connected to an antenna for establishing contact and communicating with a mobile station on a channel within the coverage are of said base station site, said coverage area being divided into sectors, each sector being divided into a number of fixed lobes, characterized in that a lobe selecting unit, intermediate said transmitter/receiver equipment and said antenna, devised to select one lobe at a time defined by said antenna for communication between said transmitter/receiver equipment and a mobile station, and capable of changing the connection from said transmitter/receiver equipment to another lobe without changing the channel, thus being devised to achieve seamless lobe handover within the base station site. 13. The base station site as claimed in claim 12, wherein said antenna related equipment comprises a fixed lobe antenna array, and said lobe selecting unit comprises an antenna array related equipment, devised to select one amongst a plurality of fixed lobes defined by said antenna array. 14. The base station site as claimed in claim 12, wherein said lobe selecting unit comprises an antenna selection equipment, connectable to one amongst a plurality of antennas, each antenna defining one fixed sector. 15. The base station site as claimed in claim 14, wherein each of said antennas comprises an antenna array related equipment, devised to select one amongst a plurality of fixed lobes defined by respective antenna arrays, within said sector.

Description

The present invention relates to a method used in a communication system for communicating between mobile stations and at least one base node of this communication system.

Overview of known technical solutions

In FIG. 1 shows a system for flexible formation of antenna pattern lobes. The antenna array preferably includes eight antenna elements.

Each frequency channel has its own set of weighting coefficients (for example, | V | (1) - | V ₈ (1) in Fig. 1). The number of these weights is determined by the number of antenna elements used.

The number of sets of weights is determined by the number of simultaneously used channels. Each frequency channel has one set of weights, and if multiple access with spatial separation of channels is used, then it is necessary to have several sets of weights for each frequency channel.

The number of sets of weighting coefficients is equal to the number of frequency channels times the coefficient characterizing multi-station access with spatial separation of channels.

The number of complex weighting coefficients is equal to the number of frequency channels multiplied by a coefficient characterizing multi-station access with spatial separation of channels, and by the number of antenna elements.

The beam forming system shown in FIG. 1, described in detail in applications No. 9601613-4 (Method and system for converting a cellular communication system, applicant Kabyu Es5scp AB), No. 9601615-9 (Multiple access method with a rotating lobe of the radiation pattern, applicant Vaby Es5scp AB) and No. 9601614-2 (Antenna system, Applicant Waby Es5scp AB). These applications are incorporated into this description by reference to the relevant documents.

The problem associated with this system of forming controlled beam patterns is the high cost of such a system, since it uses a lot of equipment.

A smaller equipment and therefore less expensive solution is provided by the fixed-lobe beam forming system, which is shown in FIG. 2.

The purpose of this invention is to avoid changing the channel when switching the lobes of the radiation pattern, for example, in the aforementioned system of forming fixed lobes of the radiation pattern.

Another objective of the invention is to avoid changing the transceiver equipment of the base unit.

SUMMARY OF THE INVENTION

The above goal is achieved by a method of communicating in a communication system between mobile stations and at least one base node of this communication system, in which mobile stations, working in a certain channel, move within the coverage area of the base node using seamless switching of lobes / sectors .

Switching without changing the transceiver equipment provides increased capacity, as it contributes to better efficiency of providing channels of the base node.

Other features of the invention are set forth in the dependent claims.

Brief Description of the Drawings

In FIG. 1 shows a flexible antenna patterning system;

in FIG. 2 shows a fixed-lobe beamforming system according to the invention;

FIG. 3 is a block diagram of the system shown in FIG. 2;

in FIG. 4 shows adjacent fixed lobes formed by three excited antenna panels according to the invention;

in FIG. 5 shows a base unit with three sectors, each of which contains one lobe, and with one antenna per sector;

in FIG. 6 shows a base unit according to the invention, with three sectors containing five petals and one antenna array per sector;

in FIG. 7 shows a base assembly according to the invention, with three sectors containing five lobes and one antenna array for all sectors;

in FIG. 8 shows a base assembly according to the invention, with one sector containing fifteen petals and one antenna array for this sector;

in FIG. 9 and 10 show various structures of a beam forming system according to the invention.

Detailed description of an embodiment of the invention

The invention relates to switching from one lobe of the antenna pattern to another without changing the channel. This means that the mobile station can move within the coverage area, remaining in the same channel, by using the imperceptible switching of the petals. Not noticeable switching means that it cannot be seen by the user of the mobile station.

The invention will be described below with reference to FIG. 2-10.

In FIG. 2 shows a system constructed in accordance with the block diagram of FIG. 3. The TECH block in FIG. 2 corresponds to the transceiver equipment of FIG. 3, 9 and 10. Blocks L1-Ln and antennas in FIG. 2 correspond to equipment associated with the antenna system and the antenna array in FIG. 3 and 10, respectively.

The cellular communication system according to the invention comprises several base nodes and mobile (terminal) stations. Each base node has one or more sectors, divided into several fixed (fixed) petals (Fig. 4-8). The base node contains base stations with transmitting and receiving equipment. The mobile station comprises a mobile station receiver and a mobile station transmitter. Communication between the base node and the mobile station in a cellular communication system is provided as follows. As mentioned above, each base unit uses a number of fixed lobes (FIGS. 4-8) in accordance with FIG. 2, 3, 9, and 10. A connection is established between the transceiver equipment of the base unit and the mobile station. One of the lobes in one of the sectors of the base unit is used to transmit signals between the transceiver of the base unit and the transceiver of the mobile station. The base unit continuously measures signals received from the mobile station. For example, the base node determines the best lobe by comparing the signal received in the current antenna lobe with the signal received in the alternative antenna lobes. This can be done by comparing the intensities of the received signals or comparing the signal-to-noise ratios for the received signals in each of the lobes.

This comparison of signal intensities, etc. for antenna lobes may result in switching from one antenna lobe to another. When the switch is performed, the base unit replaces the base petal of the base unit in use with another petal of the same base unit without changing the maintenance-transceiver equipment, that is, the base unit uses the same transceiver equipment for the new petal.

Thus, the channel does not change when changing the lobe. It should be understood that a channel refers to frequency, time interval, coding for multiple access with code division multiplexing, etc. It should also be understood that, instead of switching the lobes, as mentioned above, the sectors can be switched in the same way.

Several different switching cases will be described below with reference to FIG. 510. First, the concept of a base unit will be explained with reference to FIG. 6. The base assembly of FIG. 6 serves an area of three sectors and this base unit contains three antenna arrays that will usually be controlled by three base stations, that is, there is one base station for each antenna array.

As mentioned above, switching can be performed between different lobes and different sectors of the base unit. As shown in FIG. 5, the base node may contain three physically different antennas, each of which is connected to its base station, while switching can be performed between these antennas (base stations). This case is shown in FIG. 5, 9, Switching between the lobes / sectors is performed by switching from sector 1 to sector 2 using the same transceiver equipment of the base node, as well as the same channel.

In FIG. 3 and 6, the switching of the lobes within the sector is performed without changing the transceiver equipment or channel.

In FIG. 3 and 7, the transition between the petals 4 and 5 is performed within the sector, and the transition between the petals / sectors is performed between the sectors 6 and 7, while switching from the petal 8 in the sector 6 to the petal 9 in the sector 7. The same transceiver is used equipment and the same channel.

The above should be considered only as a preferred embodiment of the invention, the scope of which is limited only by the following claims.

Claims (15)

CLAIM 1. The method of communication in the communication system between at least one base node serving one or more sectors, each of which is divided into fixed lobes, and a mobile station located within the base node's service area, including establishing a connection with the formation of a channel between the base station transceiver equipment and the mobile station, the transmission of signals between the specified transceiver equipment and the mobile station on the specified channel using one of the lobes in one of the sectors of the base node and the replacement of the specified used petal with another petal of the specified base node using the same transceiver equipment, thereby achieving an imperceptible switching of the petal for the mobile station within the service area of the specified base node using at any time only one petal and without changing the channel. 2. The method according to p. 1, characterized in that for the formation of fixed petals using an antenna array and ancillary equipment to ensure its work. 3. The method according to claim 1 or 2, characterized in that the petal change is performed without using any signaling or transmission over the channel to the base node and from it the command for controlling the petal change. 4. The method according to any of the preceding paragraphs, characterized in that the equipment of the base node determines the best lobe by comparing the signals received in the current lobe with the signals received in the adjacent lobes. 5. The method according to claim 4, characterized in that the signals are compared by determining the intensity of the received signal. 6. The method according to claim 4, wherein the signals are compared by estimating the signal-to-noise ratio for the received signal. 7. The method of communication in the communication system between at least one base site serving multiple sectors, each of which is divided into fixed lobes, and a mobile station located within the service area of the specified base node, including establishing a connection with the formation of a channel between base station equipment and the mobile station, transmitting signals between the specified transceiver equipment and the mobile station on the specified channel using one of the sects ditch the base node and replace the specified used sector with another sector of the specified base node using the same transceiver equipment, thereby achieving an imperceptible sector switching for the mobile station within the base node’s service area using only one sector at any time without changing the channel. 8. The method according to claim 7, characterized in that the sector change is performed without using any signaling or channeling to the specified base node and from it the sector change control command. 9. The method according to claim 7 or 8, characterized in that the equipment of the base node determines the best sector by comparing the signals received in the current sector with the signals received in the neighboring sectors. 10. The method according to claim 9, characterized in that said signals are compared by determining the intensity of received signals. 11. The method according to claim 9, characterized in that said signals are compared by estimating the signal-to-noise ratio for the received signal. 12. The base node in a communication system containing transceiver equipment connected to the antenna for establishing and maintaining communication over a communication channel with a mobile station located within the base node’s service area, this service area being divided into sectors, and each sector is divided into fixed lobes , characterized in that between the specified transceiver equipment and the specified antenna included block selection of the petal, designed to select at any time one petal specified by the antenna for the axis the communication between the transceiver equipment and the mobile station, and the lobe selector unit is configured to switch the transceiver equipment to another lobe without changing the channel, thus providing an invisible lobe switching within the base node. 13. The base unit according to claim 12, wherein the antenna comprises an antenna array with fixed lobes, and the indicated lobe selection unit contains equipment associated with the antenna array for selecting one of a plurality of fixed lobes defined by said antenna array. 14. The base node of claim 12, wherein the petal selection unit comprises equipment for selecting an antenna that can be connected to one of a plurality of antennas, each of which defines one fixed sector. 15. The base node of claim 14, wherein each of said antennas comprises equipment associated with an antenna array for selecting one of a plurality of fixed lobes defined by said antenna arrays within said sector.