KR100361223B1 - System providing paging indicators on the pilot channels in a wireless telecommunication - Google Patents

Abstract

The present invention relates to a system for inserting paging information (Paging Inforamtion) on the pilot channels (Pilot Channels) in a wireless communication system (Wireless Communication System), more specifically, when there is a call from a specific mobile station, The interleaving of the call indicator to the allocated pilot slot in the slot cycle every slot period to recognize whether or not to call the paging channel, and the terminal recognizes the call indicator and the deinterleaving performed in the search of the conventional paging channel The present invention relates to a system capable of saving terminal power as much as decoding.

The present invention not only increases the quality of the call service by relieving the system load caused by using the paging channel by puncturing the paging information indicator on the pilot channel using on-off and amplitude shift modulation, but also by using the on-off modulation scheme. Since the modulation is performed without coding and without interleaving, it is possible to reduce power of a terminal generated by performing deinterleaving and channel decoding. In addition, it can be applied by changing the base station's software without much modification of the current system, and it is easy to apply to IMT-200 and asynchronous WCDMA system.

Description

System for puncturing paging information on pilot channel in wireless mobile communication {SYSTEM PROVIDING PAGING INDICATORS ON THE PILOT CHANNELS IN A WIRELESS TELECOMMUNICATION}

The present invention relates to a system for inserting paging information (Paging Inforamtion) on the pilot channels (Pilot Channels) in a wireless communication system (Wireless Communication System), more specifically, when there is a call from a specific mobile station, The interleaving of the call indicator to the allocated pilot slot in the slot cycle every slot period to recognize whether or not to call the paging channel, and the terminal recognizes the call indicator and the deinterleaving performed in the search of the conventional paging channel The present invention relates to a system capable of saving terminal power as much as decoding.

In a personal wireless mobile communication, a mobile station having a power control function for fast and accurate transmission power control and a rake receiver to ensure high quality link quality in a multi path fading environment is provided. MS) and RF (Radio Frequency) connection between the base station (Base Transceiver Subsystem (BTS)) performs a wireless connection with the mobile station and a wired or wireless connection function between the mobile station and the base station controller, and is connected by air (Air Interface) Channels must be set for call setup.

The forward link is forward channels transmitted from the base station to the mobile station, and there are 64 channels spread by Walsh functions orthogonal to each other. There are pilot channels, sync channels, up to seven paging channels, and 55 traffic channels in the forward channel.

Once the mobile station gets time synchronization information from the synchronization channel, the mobile station adjusts its timing to time the system synchronization. There may be up to seven paging channels in one frequency band, and the frame of the paging channel is 20 msec.

When a call is requested from a public switched telephone network (PSTN), the base station transmits a paging channel to the entire paging zone where the mobile station is located. A mobile station searching with a cycle of slots receives the traffic channel by allowing it to make a call after receiving this paging channel.

On the other hand, when a call is received from a public telephone network, a Call Control Processor (CCP) in a Base Station Controller (BSC) is coded into Pulse Code Modulation (PCM) data by a Transceiver Selector Bank (TSB), and the mobile station is transmitted through a base station. Is sent to.

As such, each time a call is received from the mobile station, the mobile switching center (MSC) and the base station controller (BSC) must broadcast a large amount of data to the paging area to transmit the paging channel (Broadcast).

On the other hand, the system for controlling a paging signal to reduce power consumption in a mobile communication system shown in US Patent No. 5146214 has proposed a method of grouping a paging method and changing timeslots according to the grouped paging zones. The broadcast short message service structure shown in 5909651 presented a method of spraying a short message to each region and using a paging channel in a slot mode. This technique is also shown in US Pat. No. 4527284 to Rotor Klaus.

The transmission of such paging information is a task that places a large burden on all communication equipments currently used, and there is a problem that the quality of service (QoS) is lowered due to the burden of such a system.

In addition, the conventional mobile station calling method transmits by performing interleaving and channel coding at the base station. In order to find out the call information in the mobile station, deinterleaving and channel decoding are performed for each paging slot. Since the channel decoding is performed, the power consumption of the terminal due to such an operation increases.

In addition, if the cycle of slot is increased to reduce the power consumption, the reception rate of the paging signal is reduced so that it is a big variable in the quality of service, and thus it is not possible to provide a consistent service.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art operating as described above, and provides a system that reduces power consumption caused by periodically searching for unnecessary paging channels by inserting paging information on a pilot channel. .

1 is a schematic view showing a system to which the present invention is applied;

Figure 2 is a schematic diagram illustrating the principle of the on-offing modulation applied to the present invention,

3 is a diagram illustrating a content of inserting a paging indicator on a pilot channel according to an embodiment of the present invention;

4 is a view showing other cases of the indicator insertion shown in FIG.

5 is a diagram illustrating a content of paging information inserted into a pilot channel according to another embodiment of the present invention;

FIG. 6 is a diagram showing a pilot channel divided into power levels according to another embodiment of the present invention and data loaded on the pilot channel of low power; FIG.

7A, 7B, and 7C illustrate a power ratio between 0 dB and 8.6 dB of a pilot channel and a traffic channel in a state in which a BER and a paging indicator of a traffic channel are carried on a pilot channel without a paging indicator on the pilot channel according to an embodiment of the present invention. Graph showing the results of simulation under conditions

8A and 8B are hardware configuration diagrams of a base station and a mobile station according to an embodiment of the present invention;

9 is a diagram illustrating a synchronization configuration of slots between a pilot channel and a paging channel according to the present invention.

Exemplary embodiments of the present invention for achieving the above object will be more clearly described with reference to the accompanying drawings.

In a preferred wireless mobile communication system provided by the present invention, a system for inserting a specific signal on a pilot channel divided into slots, wherein when a call is made to a specific mobile station during a non-call, the specific signal is transmitted on a slot of the predetermined pilot channel. It is characterized by inserting.

It is also desirable to insert a paging area information signal or other information data on the discretized pilot channel.

The method of inserting a signal on the pilot channel divided into the slots distinguishes each mobile station by time in an empty space, inserts a pulse at a corresponding time by a specific mobile station, distinguishes each mobile station by code, and identifies ID code) is preferably drilled into the pilot channel.

The invention can be variously modified and can take various forms and only the specific examples thereof are described in the following detailed description of the invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the following description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation of the present invention configured as described above are as follows.

1 is a configuration diagram schematically showing a system to which the present invention is applied. In a preferred embodiment of the present invention, the pilot channel set between the base station Transceiver Subsystem (BTS) and the Mobile Station (MS) is periodically discretized in the above-configured system. System information or paging information, for example, paging area information, calls, commands, channel assignments, etc., may be inserted into a hash slot between the pilot signals using a hash function. An On-Off-Keying (OOK) method is used in the process of inserting the data into the empty space. This modulation method inverts and transmits the phase of the pilot PN chip at the corresponding position. 2 schematically shows the structure of the on-off modulation. Since the on-off method modulates in an uncoded state, only the signal modulated and output by the mobile station in the received standby mode is received, and deinterleaving or decoding is performed. There is no need to do it.

3 shows a diagram of inserting paging data between pilot channels using pulses. 4A, 4B, and 4C show another case of FIG. 3, where FIG. 4B is a case where signals from a paging zone such as FIG. 4A are inserted into another mobile station, and FIG. 4C shows three mobile stations simultaneously in the same paging zone. This shows the case where paging is performed.

In a preferred embodiment of the present invention, with reference to Figs. 2 to 3, first, 80 msec of the pilot channel is divided into 1 slot, and 4 frames are 1 slot with 20 msec as 1 frame. It is configured to be. As described above, the base station modulates the pilot channel in an on-off (OOK) manner using a hash function in accordance with a pilot slot. The mobile station distinguishes its paging signal from other signals by receiving only a pulse corresponding to its time. In this way, the pilot channel slot is synchronized with the slot of the paging channel to synchronize the base station and the mobile station. The mobile station receiving the paging indicator 903 on the pilot channel 901 searches for a paging channel 905 corresponding to the next slot. As described above, a state synchronized between the pilot channel and the paging channel is shown in FIG. 9.

The mobile station operates in a reception standby state, detects the paging indicators, and receives a traffic channel to make a call. When a paging indicator is inserted on the pilot channel, it should not affect other mobile stations in the call. This effect is shown in the following embodiment. In other words, it is assumed that one frame of 20 msec is divided into 16 groups of 1.25 msec units, and one or two bits of the total number of 12 bits in one group are punctured by the call indicator on the basis of 9600 bps. The Doppler frequency is set to 75Hz at 900Mhz, and the pilot channel size and traffic channel power ratio are 0dB and 8.6dB. These results are shown in FIGS. 7A, 7B and 7C as graphs. Figure 7a shows the BER of the traffic channel without the paging indicator is inserted, 7b is the power ratio of the pilot channel and the traffic channel is 0dB with the paging indicator is inserted, 7c is a condition that the power ratio is 8.6dB in the condition of 7b Each shows the simulation results. 7B and 7C show that degradation caused by puncturing of the paging indicator is less than 0.5 dB, which is negligible in an actual system.

8A and 8B are schematic diagrams illustrating the hardware addition of the base station and the mobile station to which the present invention is applied. Referring to the drawings, when the base station generates and transmits a pilot channel, the call indicator 801 is punctured 805 on the pilot channel via the multiplexer 803. The call indicator 801 on the pilot channel thus generated is transmitted to the mobile station as a received signal 807, and the received signal 807 is subjected to a pilot despreading step and the call indicator discriminator 811 is transmitted through the channel estimator 809. Check if there is a call.

Paging Zone Information is also transmitted to all mobile stations by distinguishing them with the hourly indicators, which are separated for each mobile station in the same manner. Accordingly, when the mobile station enters another paging area, the mobile station performs location registration with the visitor location registrar (VLR) of the mobile switched center (MSC).

Here, the paging area information is classified by each slot (Pilot slots), it can be given an indicator by the same time except for each neighboring paging area (reuse of the pilot slot). This is because the paging zone information does not need to know which paging zone the mobile station is in, only that the paging zone is moving away.

5 illustrates puncturing a paging indicator on a pilot channel according to an embodiment of the present invention.

In another method of inserting paging information data on a pilot channel, all mobile stations are identified by a code, and the identification code (ID code) is inserted into the paging data to wake up the mobile station.

In this case, the code for paging area information should be inserted separately from the code for distinguishing the mobile station, and the code for channel allocation should be separately formed.

In another preferred embodiment of the present invention, the mobile station uses the power difference L of the pilot channel to recognize the paging indicator on the pilot channel. FIG. 6 illustrates a structure of a physical layer that recognizes a call indicator using the power difference of the pilot channel. The pilot channel is also divided into a slot of 80msec and a frame of 20msec, and the base station on the divided pilot channel generates a power difference in a corresponding slot by using a hash function. Such a pulse-shaped power chip serves as a paging indicator. The high power paging indicator is, of course, system information or paging information data required by the mobile station.

Here, Amplitude Shift Keying (ASK) is used to generate a difference in power magnitude of the pilot channel, and this amplitude difference (L) can be sufficiently distinguished by a high power unit (m) and a low power unit (n). It is desirable to vary the size to a predetermined extent.

The specific data signal in the above-described pilot channel enables the mobile station to recognize a high power pulse type signal as 1 and a low power value as 0.

As described above, the present invention not only increases the quality of the call service by relieving the system load caused by using the paging channel by puncturing the paging indicator on the pilot channel using on-offing and amplitude shift modulation, but also on-off of the paging indicator. Since the king modulation method modulates the data without coding and without interleaving, it is possible to reduce power consumption of the terminal generated by performing deinterleaving and channel decoding.

In addition, the system according to the present invention can be applied only by changing the software of the base station without much modification of the current system, and can be applied to the IMT-200 and asynchronous W-CDMA system. As a result, the base station transmits the power at about 30% higher power, which is relatively less affected by interference due to other channels and interference due to neighbor cells. Accordingly, by puncturing the paging indicator on the pilot channel, the probability that the terminal detects the paging indicator increases.

Claims (10)

In the wireless mobile communication system for inserting a specific signal between the slotted pilot channels, The specific signal is a system for puncturing paging information on a pilot channel, characterized in that consisting of an indicator for calling each mobile station by a predetermined time. The method according to claim 1, And the specific signal is system information. The method according to claim 1, And the specific signal is paging information. The method according to any one of claims 1 to 3, And the specific signal is inserted on a pilot channel divided into the slots in an on-off-keying manner. In the wireless mobile communication system for inserting a specific signal on the pilot channel divided into slots, The specific signal is a system for puncturing paging information on a pilot channel, characterized in that consisting of an indicator for calling each mobile station by a predetermined code. The method according to claim 5, And the specific signal is system information. The method according to claim 5, And the specific signal is paging information. The method according to any one of claims 5 to 7, And the specific signal is inserted on a pilot channel divided into the slots in an on-off-keying manner. By using a hash function in a slot corresponding to a specific mobile station on a pilot channel divided into slots by a predetermined power difference (W), the specific mobile station can search for its own pilot slot to recognize that it is its signal. System for puncturing paging information on a pilot channel. The method according to claim 9, The power difference (W) is puncturing paging information on a pilot channel, characterized in that for varying the predetermined size (L) by using an amplitude shift key (ASK) so that the specific mobile station can recognize. Letting system.