KR100284197B1 - How to save battery of wireless calling terminal - Google Patents

Abstract

The present invention relates to a battery saving method of a wireless paging terminal.

In the present invention, by reducing the length of the sync code in the message transmission format of the wireless paging terminal, and changing the unit of the received message, it is possible to enjoy more battery saving efficiency than the conventional wireless paging method, and at the same time In the data transmission format of a radio call including a batch, the system can adjust the number of components in one batch according to the traffic capacity of the radio call, and means for expressing the size of one batch correlated to the number. When the number is converted and included in the converted data of the wireless call and transmitted wirelessly to the wireless call terminals, the wireless call terminals receive the transmission data and detect the converted means in the received transmission data. Interpret the transformed means and inverse the size of one batch. In other words, a method of calculating a unique component for activating the wireless calling terminal according to the size of one batch and controlling the frequency per hour in which the wireless calling terminal is activated is proposed to reduce the battery consumption of the terminal.

Description

How to save battery of wireless calling terminal

The present invention relates to a method for saving a battery of a wireless calling terminal in a two-way wireless calling system. In particular, the present invention relates to a battery saving method for codeless call system by controlling the size of a batch of a data transmission format of a wireless calling system.

Batch may be defined differently in data transmission formats of different radio calling systems, but batch is generally used as one of transmission units that are processed and transmitted at one time.

It is important to prolong the battery life of the miniaturized wireless paging terminal due to the technology of efficiently distributing and transmitting the data format in the paging system. The known Golay Sequence Code (GSC) protocol in a conventional paging system initially provides a preamble signal for synchronizing the terminal to the signal, one of several preamble signals being used to generate a group of pagers to decode subsequent message information. To identify. Also known in the art are methods for saving batteries while receiving signals such as GSC signals in response to signals indicative of the appearance of address information.

In addition, in the Post Office Code Standardization Adversary Group (POCSAG), which is generally used in a wireless calling system, the wireless calling terminals synchronously decode the signal once it is synchronized with the POCSAG signal. The POCSAG transmission is asynchronous to the preceding POCSAG transmission, but once the transmission has started, the signal is synchronously decoded until the transmission ends. 1 is a diagram for explaining the structure of a data transmission format of POCSAG. At the beginning, there is a preamble 10 corresponding to a sync word, and then a plurality of batches exist. Typically, POCSAG has 20 batches and the time is about 10 sec. One batch 20 includes a unique word 21 and eight frames 22 corresponding to a 32-bit synchronization signal. The frame 22 is composed of two words in units of 32 bits. Each of the above frames appears at a predetermined time after the synchronization signal, respectively. A pager synchronized to the signal only needs to search for its address within a predetermined one of eight frames, thus conserving battery power for the remaining frames.

Another prior art for battery saving apparatus of a terminal in a radio call system is disclosed in Patent Publication No. 96-3844 (1996.3.22). 3 is for explaining the structure of the synchronous signal of the data transmission format of the prior art.

It consists of several message packets or frames 100. Each frame lasts substantially four seconds and has a basic data rate of 1200 bits per second. Each frame contains twenty-one variable information bits including information such as a bit sync signal 102 consisting of 32 bits of ones and zeros, a frame sync signal 104 of one of several 32-bit words, and a frame identification signal. It consists of a frame ID signal 106 in one 32-bit word. Here, the bit synchronization signal is for bit synchronization of the pager and the frame synchronization signal is for frame synchronization and may include a signal indicating a data rate of message information subsequent to the frame ID. The frame ID signal indicates a frame number. Each frame is numbered in order from 0 to 64 so that the originating system has 64 frames. Any number of frames may be used in the system, but mainly 2 ^N frames are preferred.

4 is a block diagram of a pager system equipped with the conventional battery saving device applied to the data transmission format of the synchronous signal.

The modulated signal at the radio frequency of FIG. 3 is received by the antenna 120, demodulated by the receiver 122, and processed by the decoder 124. The decoder includes a bit synchronizer 126 and a frame synchronizer 128, both of which provide a bit sync signal 102 and a frame sync, respectively, providing bit and word boundary signals for use by the remaining components of the decoder. Perform a synchronization on signal 104. The frame ID decoder 130 and the cycle decoder 132 decode the frame ID 106 and the cycle signal, respectively. The decoded frame ID signal and the cycle signal are masked by the masking device 134 and compared with the code plug 140 by the comparing device 136. The code plug 140 includes a signal for adjusting the pager so as to indicate an operation characteristic as required by the pager, in addition to a predetermined frame ID 142, a predetermined cycle value 144, and a predetermined address assigned to the pager. have. The predetermined cycle value allows one pager to be assigned to multiple frames. The predetermined frame ID is masked with a predetermined cycle value and used by the comparator, that is, the comparison device 136, to enable the battery saving device 150. The battery saving device saves battery power by stopping the receiver for a certain frame.

POCSAG of the conventional battery saving method has a long preamble at the beginning of the configuration of the data transmission format used in the system to take advantage of the fact that the battery does not consume the battery while the protocol that can be received in the wireless calling terminal is absent, In one batch, eight frames are used, and the wireless paging terminal uses a method of saving battery consumption by being activated in one frame among eight frames. However, since the preamble used to save the battery is transmitted asynchronously, the radio call terminal must continuously check whether there is a preamble at regular intervals, and since the long preamble must be continuously read, the message processing capacity is degraded and the actual battery is deteriorated. There is a problem that the consumption is larger than 1/8.

In addition, the prior art disclosed in the above-mentioned Patent Publication No. 96-3844 is effective in a wireless calling system that transmits general text data, but is complicated in method, and the system requires a lot of system resources to control each terminal. In particular, in order to guarantee a variable speed during transmission, bit efficiency is lowered by inserting various synchronization signals into a data format to be transmitted. Moreover, even though the block length of a transmitted message is 32 words long due to the phase introduced for the variable speed, Nevertheless, the actual length of the message received by the actual pager is only 8 words out of 32 words. Therefore, when a long message is received, the conventional pager with fixed phase can only receive 4 times as many blocks. There is a problem that the battery saving efficiency is significantly lowered.

The present invention has been invented to solve the problems of the prior art, an object of the present invention is to reduce battery waste caused by a long preamble, as well as to simply adjust the size of the batch in the transmission data format to activate the wireless call terminal As the interval can be freed, it is free to traffic capacity, reduces unnecessary elements of the sync code to reduce battery consumption, and provides a method of equalizing the actual message length with the message block to be received.

In a wireless calling protocol in which the length of one batch is changed by the number of frames as a suitable first technical idea for achieving the object of the present invention, the wireless calling terminal in the batch has a rule that is activated only once, and the batch Means for knowing the number of frames within each frame, and the radio calling terminal receiving the frame receives means for knowing the number of frames, determines the length of the batch and reads it in the next batch. A battery saving method is proposed, which has a means for calculating a frame to be activated and is activated at a position of the calculated frame according to the frame calculating means.

The second technical idea to achieve the above object of the present invention is to reduce the length while maintaining the performance of the synchronization code in the structure of the data format to be transmitted, and to improve the battery saving efficiency by keeping the message transmission block length and the actual valid message length the same. The height method is presented.

1 is an explanatory diagram of a data transmission format of POCSAG.

2 is an explanatory diagram of a data transmission format of a FLEX.

3 is a synchronous signal diagram of a data transmission format of the prior art.

4 is a block diagram of a battery saving system of a conventional wireless call terminal.

5 is an explanatory diagram of a data transmission format to which the present invention is applied.

6 is a structural diagram of component information to which the present invention is applied.

7 is a flowchart illustrating a data transmission method of a system to which the battery saving method of the present invention is applied.

8 is a flowchart illustrating a data receiving method of a system to which the battery saving method of the present invention is applied.

<Explanation of symbols for main parts of drawing>

10: preamble 20, 200: batch

21: unique word 22, 30, 100: frame

31: Synchronous header 32: Block

102: bit sync signal 104: frame sync signal

106: Frame ID 108: Cycle

110: message 210: component

211: Sync code 212: Component information

213: control word 214: message

300: information content 400: channel encoding

500 parity

Hereinafter, with reference to the accompanying drawings with respect to the configuration and operation of the present invention will be described in detail. Other embodiments may be given without departing from the spirit of the invention.

5 is a view for explaining the structure of a data transmission format applied to the two-way radio call system of the present invention. The data format is similar to the data format described in the above-mentioned prior art patent publication No. 96-3844.

FIG. 2 is a structural diagram of a data transmission format of a conventional FLEX ^™ system for comparison with a data transmission format applied to the present invention.

The FLEX ^TM method data format of FIG. 2 has 128 frames 30 in one cycle, each frame 30 has a period of 1.875 sec and contains the sync header 31 and the following 11 messages at the beginning. Consisting of blocks 32. Here, one block 32 is a word of 32x32 bits (1024 bits), and is transmitted by block interleaving for channel coding. Therefore, in order to read arbitrary data in the block, block interleaving is received in a state where the entire block is received. It is only possible to release it. The system parameter for operating the frame of the data format is colllapse. The above Collabs is a value that designates the interval of frames that the terminal should read in one cycle, and is operated by two values which the terminal itself embeds and the system assigns. Specifically, the system can transmit to the corresponding wireless calling terminals every 2 ⁴ or 16th frames, but the wireless calling terminals select the minimum value compared to Collabs with the built-in mask value to finally determine the interval of the frame to be read. Will be decided. It checks whether the magnetic data exists in the frame to be read, and if it exists, only the data corresponding to the magnetic data is read.

In the data format applied to the present invention shown in FIG. 5, there are 2 ^N components 210 in one batch 200. Each component is composed of a synchronization code (SC) 211, followed by component information (CI) 212, and a message (MSG's) 214 at the beginning. Here, the period of one component is 1.875 sec, which is equal to the length of one frame of the FLEX ^™ . As such, the reason for using one component period in the data format of the present invention in the same manner as one period of one frame of FLEX ^™ is to use an existing network as it is.

The difference between the FLEX ^TM frame and the component is that the sync header 31 at the beginning of the frame has a long length of 23 words (115 ms), and the component of the present invention has a short length of 5 words. Therefore, 11 blocks having a length of 32 words are present in one frame, and a component may have 15 blocks having a length of 24 words. By doing so with a battery-saving effect, a battery-saving effect that occurs when a prohibited read, and then the component receives a block of a short sync code than FLEX ^TM can be improved 57% or more FLEX ^TM. The process of calculating the improved effect is as follows.

end. Assuming a fair time interval, N values equal to Collabs of FLEX ^TM .

I. One frame length and component length consist of the same 375 words

All. In the case of FLEX ^TM , the minimum word to read is sync code 23word, 1 block 32word

la. The minimum word that should be read from the component is sync code 11word, 1 block 24word

hemp. Battery saving ratio (BSR) for FLEX ^TM

bar. In the case of the present invention

four. Since the collapse and N values are assumed to be equal to each other in the item, 57% is improved because the present invention has a 157% advantage over FLEX ^™ . The longer the message is received, the more effective the BSR is, for example, for messages longer than 9 words.

According to the above calculation method, when a message having a length of 9 words to 16 words is received, the BSR of the FLEX ^TM is 1 / 3.9 * 2 ^collapse Since the BSR of the present invention is the same, the battery can be used for a long time as about 2.7 times.

All the above components start from the sync code SC as shown in Fig. 5, and the sync codes of all the components are the same. The sync code is composed of a preamble and a unique code. Here, the preamble is 64 symbols long and the unique code is 32 bits long.

FIG. 6 is a detailed structural diagram of one component information 212 constituting the component of FIG.

The radio calling terminal applied to the present invention can receive and decode the component information (CI) 212 when receiving the sync code 211 of each component to obtain word sync. One word obtained by the above component has a length of 32 bits and has a structure of 21 bits of information content data information and 11 bits of parity among 32 bits.

Of the 21 bits of the above data information, the information substantially contains 16 bits and has a check sum of 5 bits.

The parity is 10 bits of the channel encoding BCH (31, 21) 400 and 1 bit of even parity, the basic structure of the word is the same as the POCSAG structure. Since the component information 212 word is composed of eight words, FLEX ^TM can transmit more information than allocating one word as frame information and up to four words as block information in the case of FLEX ^TM , so that only one component information is included in one batch. It has a structure that can be received.

The definition of the name of each field of the component information CI will be described below. Table 1 shows the definition of terms of each field of the component information.

Hereinafter, a subsection corresponding to each word of the component information CI will be defined and its use will be described in detail.

field Contents Soc Batch Unit Determination CompNo Component number

a) Soc: Display unit size of Batch, Socket

A socket is a unit size of a batch, where the unit size of the batch is determined by the number of components. The value of the socket changes the number of components in the batch. The terminal calculates the number of components in the batch and the position of the component to be read from the socket value, and reads the corresponding component. This value is equal to the N value defined above.

b) CompNo: Component number display

CompNo indicates the sequence number in the layout of the current component. There is a CompNo activated for each terminal address, and an embodiment of the activated CompNo may be given by Equation 4.

The control method for battery saving in the wireless paging system of the present invention adjusts the size of the socket (socket) to determine the size of the batch. That is, in FIG. 5, the number of components 2 ^N included in one batch is adjusted.

The number of components in one batch is adjusted by the system according to the traffic capacity, and the number of frames in the next batch is informed so that the time for activation of the wireless terminal to suit the length of one batch is adjusted. To this end, in a radio calling protocol in which the length of one batch is changed by the number of components, a means for knowing the number of components in the batch is provided for each component, and the radio calling terminal receiving the component knows the number of components. Means for receiving a means to determine the length of the batch and for calculating the component to be read in the next batch.

Means for knowing the number of components in the present invention is defined by the following equation. That is, the unit size of the batch according to the socket value is as follows.

In addition, in the present invention, the corresponding component that the wireless calling terminal should read from its address can be found by the following equation.

The component number (CompNo) corresponding to the component value is a unique active component of the terminal.

7 and 8 are flowcharts of a transmission and reception method for implementing the battery saving method of the present invention. As shown in FIG. 7, a method for transmitting and receiving in a two-way wireless paging system includes the following steps.

Collecting and accumulating data to be transmitted from the system (S100);

Traffic check step to check the traffic density of the system (S200),

Determining the number of components according to the data to be transmitted (S300),

A batch size indicator inserting step (S400) of determining a batch size and inserting the batch size into a data packet according to the number of components determined in the component determining step (S300);

Data transmission step of transmitting a data packet (S500).

The data collection and accumulation step (S100) is a step of collecting and accumulating data to be transmitted to each terminal.

The traffic capacity check step (S200) is a step of checking the current channel usage degree of each channel for each base station that performs channel scanning to select the optimal channel.

The component number determination step (S300) is a step of calculating and determining the number of components to be included in the data packet according to the traffic density confirmed in the traffic capacity check step (S200).

The batch size indicator inserting step (S400) is a step of inserting an indicator for determining a batch size of the batch size determined according to the number of components determined in the component number determining step (S300).

FIG. 8 is a flowchart illustrating a receiving method of receiving and interpreting a data packet transmitted by the terminal of the data receiving method of FIG. 7 including the following steps.

Data receiving step of receiving a data packet transmitted from the system (S600),

Extracting the batch size indicator contained in the data packet step (S700),

Calculating a batch size from the batch size indicator (S800);

Calculating a component number included in the batch (S900),

Adjusting the activation time of the terminal according to the number of components calculated in the step (S900) (S1000).

A process of applying the battery saving method in the bidirectional wireless calling system according to the present invention described above will be described. In order to read the information, the receiving apparatus of the wireless call system of the present invention generally includes the following steps.

Step 1; The bit synchronization of the transmitted data is obtained from the synchronization code (SC).

Step 2; Word sync is obtained from the sync code.

Step 3; The component information (CI) is read to obtain component synchronization.

Step 4; Perform steps 1 to 3 on the component, and obtain the MSP from the component information of the component.

Step 5; Receive and deinterleave at least the block with the word designated by MSP.

Step 6; Interpret commands up to the MSP.

Step 7; The interpreted command determines whether to read more blocks with that information.

Step 8; The decision in step 7 selects the battery saver mode or active mode to read the block.

Step 9; If the active mode selected in step 8 exists, the transmission data is received and the information is interpreted in the active mode.

Step 10.; If the active mode does not exist in step 8, the terminal sleeps in the battery saving mode to save power consumption.

As described above, in the present invention, by adjusting the size of the socket for determining the batch size in the wireless calling system of the present invention, the number of components in one batch is determined by the system according to the traffic capacity, To determine the batch size, including the number, to thereby adjust the amount of time the wireless terminal activates to suit the length of one batch, having means for knowing the size of the batch per component, the radio receiving the component The calling terminal receives a means of knowing the size of the batch, calculates the size of the batch, and then calculates the components it should read from the batch, adjusting the time interval at which the calling terminal is activated to adjust the battery of the terminal. You can save the consumption and control the traffic volume on the system. All.

Claims (4)

In the method for saving power consumption by adjusting the time interval of activation of the wireless calling terminal in the two-way wireless calling system, Adjusting, in the host system, the number of components in the one batch according to traffic capacity in a plurality of batches used in the two-way radio calling system and a data transmission format in which one batch includes a plurality of components; Transmitting the number of components in a next batch to the radio calling terminal after the adjusting step; And a terminal activation time adjusting step of adjusting the activation time of the wireless calling terminal to receive the information transmitted in the component number transmitting step at the wireless calling terminal and to fit the one batch length. The method according to claim 1, wherein the step of adjusting the terminal activation time comprises means for each component to know the number of components in the batch, And a means for receiving a means for knowing the number of components, determining the length of the batch, and calculating a component to be read by the terminal itself in the next batch. How to save battery. The method of claim 1, wherein the size of the one batch is defined by the following formula. Batch unit size = 2 ^socket The method according to claim 2 or 3, wherein the method of finding a component to be read by the wireless calling terminal is defined by the following formula.