JP2001157280A - Wireless data communication terminal and method for detecting state of radio wave - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless data communication terminal that transmits a test radio wave to other terminal so as to check a state of a radio wave with respect to the other terminal thereby simply permitting establishment of other communication route and to provide a method for detecting a state of radio wave. SOLUTION: This invention provides the wireless data communication terminal having a communication function that wirelessly communicates data with other terminal and the wireless data communication terminal detects a state of a radio wave with respect to the other terminal for a time zone other than the data communication time zone with the other terminal so as to reserve other communication route.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless data communication terminal for transmitting data from a terminal such as an electric, gas or water meter or a vending machine or a point-of-sale (POS) device to a host device. The present invention relates to a wireless data communication terminal that secures a stable communication route by emitting a test radio wave between terminal units and checking a radio wave condition, and a radio wave condition detection method.

[0002]

2. Description of the Related Art In general, when collecting radio data of this type, one data collection unit and a plurality of terminal radio units which are connected by radio communication with the data collection unit are provided so as to allow communication, and each data collection unit is connected to each terminal by a data collection unit. Polling is performed on each of the wireless units in order to collect measurement data such as meter readings.

[0003]

However, in the current data collection method using polling, since the data is collected via one preset dedicated communication route, the radio wave condition is suddenly disturbed and communication errors occur. When this occurs, communication becomes impossible, and as a result, data cannot be collected.

In recent years, a large number of terminal wireless units have been used in accordance with an increase in demand for measuring equipment, and when a new terminal wireless unit is required, a program is changed for each additional terminal wireless unit. Had the problem of requiring

It is therefore an object of the present invention to provide a wireless data communication terminal and a radio wave state detecting method capable of securing a different communication route and collecting data stably even if a communication error occurs.

[0006]

SUMMARY OF THE INVENTION The present invention is a wireless data communication terminal having a communication function of wirelessly communicating data with another terminal. It is characterized by detecting a radio wave state.

[0007] As a result, the state of radio waves with the other terminal can be detected. Therefore, if another terminal that permits communication is detected around the terminal, communication with the other terminal is enabled and another communication route is set. it can. Therefore, a plurality of communication routes can be newly established in addition to one predetermined dedicated communication route, and when a communication error occurs, the communication route can be switched to a new communication route to secure the communication route.

The radio wave condition as a criterion for judging whether or not communication with another terminal can be performed by checking the strongest electric field intensity, the lowest electric field intensity, the fluctuation state of the electric field intensity, and the like. Thus, it is possible to accurately determine whether communication is possible.

Also, the present invention is a wireless data communication system comprising a plurality of wireless data communication terminals having a communication function of wirelessly communicating data with another terminal, wherein each of the wireless data communication terminals has a communication function during a time period when each terminal is not performing data communication. A radio wave state detection method that emits a test radio wave in order from a terminal, stores a reception state from the test radio wave, and transmits the radio wave state to a higher-level device during a data communication time zone or a time other than the data communication time zone. is there.

According to the present invention, the suitability of communication with other terminals in the vicinity obtained from the test radio wave can be transmitted to the host device and managed, so that the host device selects a data collection path suitable for communication between the terminals. be able to. Therefore, when the peripheral radio wave condition between the terminals is disturbed and communication becomes impossible, appropriate measures such as changing the setting to another communicable communication route and restoring can be taken.

In addition, since the higher-level device can newly set an appropriate communication route based on the communication state between the terminals, when a new terminal is added, information relating to communication according to the installation location of the new terminal is transmitted. By reading from the storage unit, an appropriate communication route can be newly established immediately, and even if a new terminal is added, it can be operated without changing the program.

When the present invention is applied to collection of meter reading data from instruments such as electricity, gas, and water, collection of actual sales values of vending machines, and collection of sales data from POS, etc. Data collection failure is eliminated, and stable and reliable data collection can be performed.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail with reference to the drawings. FIG. 1 shows a meter reading system 11 for automatically reading the power consumption of a house. The meter reading system 11 includes a first data collection unit U1 as a master station and a house 12.
.. Have a wireless communication function for collectively communicating with the first to fifth terminal wireless units Ua, Ub, Uc, Ud, and Ue as slave stations (terminal stations) installed for each of them.・ Connected in transceiver mode of Handyphone System).

This wireless communication function is provided for each communication area, and is connected to the second data collection unit U2 of another master station.
When the sixth to tenth terminal wireless units Uf, Ug, Uh, Ui, and Uj of terminal stations installed in each of the houses 12 are present, they also have a wireless communication function and communicate in the transceiver mode of the PHS. Connected.

The houses 12 to be connected for communication are connected by a communication electric field strength of 20 db or more, which can communicate, for example, about 25 db to 55 db, which is determined by the location conditions.

Each data collection unit U1, U2 of the master station
Is installed, for example, on a telephone pole as a main controller,
Meter reading data such as a meter reading value, a unit call number, a calling time thereof, terminal station route (communication route L) information and the like are collected based on a command signal from the upper center (base station) 13 side, and the collected meter reading data is collected. Each of the data collection units U1 and U2 is sent from the lower terminal wireless unit Ud and Ue to the upper terminal wireless unit Uc, or from the lower terminal wireless unit Uj to the middle terminal wireless unit. A communication connection is established via Ui to a higher-level terminal wireless unit Uf via a communication route L having a tree structure.

The terminal wireless units Ua to Uj of each terminal station are:
House 12 ... Power meter 14 for metering the power consumption of each
And wirelessly communicates with the upper data collection units U1 and U2.

In this case, the data collection units U1, U2
And a plurality of first to tenth terminal wireless units U distributed
For a communication route L with a to Uj, a plurality of higher-level terminal wireless units Ua, Ub, Uc or Uf, Uf, which are directly connected for communication directly under the data collection units U1, U2.
Ug, Uh, and lower terminal wireless units Ud, Ue, or Ui, Uj, which are branched and subsequently connected in a wireless manner.

Then, after the lowest terminal wireless unit passes through the next higher terminal wireless unit,
Further, the data collection units U1 and U2 are passed through the next higher terminal wireless unit so that the data is collected from lower to higher.
To collect data. With this data collection function,
The distributed meter reading data from the lower-level terminal wireless unit is led to the upper-level terminal wireless unit, and a communication route L having a tree structure for collecting data to each of the data collection units U1 and U2 is established.

The upper center 13 includes a server (personal computer) 16 and a database 17 of a business office 15.
And transmits control data to the data collection units U1 and U2 and the terminal radio units Ua to Uj in accordance with a transmission command from the server 16, and collects a large amount of meter reading data collected from each of the terminal radio units Ua to Uj. It is stored in the database 17.

FIG. 2 shows a control circuit block diagram of the terminal radio unit. Taking the first terminal radio unit Ua as an example,
The CPU 21 of the first terminal wireless unit Ua transmits the wireless unit 24 and the meter I / O according to a program stored in the first flash memory 22 and the second flash memory 23.
An F (interface) 25 is controlled, and the control data is stored in the RAM 26 in a readable manner. Also, CPU2
Numeral 1 periodically reads the numerical value of the power meter 14 provided for each call number of the terminal wireless unit via the meter I / F 25.

In this case, the CPU 21 measures the meter reading value of the power meter 14 at a preset measurement set time, for example, every 15 minutes, and stores the measured meter reading value in the second flash memory 23. Then, the stored meter reading data for one day, for example, is transmitted to the first data collection unit U1 once a day.

The upper first data collection unit U1 receives the meter reading data transmitted from the lower terminal radio units Ua,..., And transmits the source terminal radio units Ua to Ue.
The meter reading data is stored in association with the meter reading data, and the stored meter reading data is collected by the server 16 and command-managed.

Each of the terminal radio units Ua... Sequentially emits test radio waves to other terminal radio units during a time period when data communication is not performed, and stores a radio state storage logic for storing a reception state from the test radio waves. It is stored in the first flash memory 22 and executed by the CPU 21.

Thus, it is possible to determine whether the communication state with another terminal wireless unit located in the vicinity obtained from the test radio wave is appropriate. Since the result can be transmitted to the upper data collection units U1, U2 and the server 16 to manage the communication state between the terminal wireless units, the server 16 can determine a plurality of communication routes suitable for communication between the terminal wireless units. , A new communication route can be easily set.

For this reason, when the radio wave condition between the terminal wireless units is disturbed and communication becomes impossible, the communication route can be changed to another communicable communication route. In addition, by selecting a time zone during which data communication is not performed between the units and emitting a test radio wave, communication can be stably performed while avoiding interference.

As a result, not only one predetermined regular communication route but also a plurality of communication routes according to the number of communicable terminal wireless units can be newly established. If a communication error occurs, another communication route is established. The communication route can be switched to an arbitrary communication route, and the communication route can be always secured.

The radio wave condition serving as a criterion for judging the communication availability between the terminal radio units may be determined by checking the strongest electric field intensity, the lowest electric field intensity, the fluctuation state of the electric field intensity, and the like. It is possible to accurately determine the state of radio waves and whether communication is possible.

Further, the upper server 16 collects and manages the data of the communication state between the units, so that an appropriate communication route can be easily set. Therefore, when a new terminal wireless unit is added, information on the radio wave state according to the installation location of the new terminal wireless unit and the existing terminal wireless units around the new terminal wireless unit is read out, and appropriate communication is immediately performed. Routes can be added.
For this reason, even if a new terminal wireless unit is added, it can be additionally operated without changing the program, and the change of the program can be omitted. Further, even if the radio wave condition of the regular communication route is disturbed and a communication error occurs, the communication route can be changed and data collection can be performed reliably, so that a data collection failure can be eliminated and stable and reliable data collection can be obtained. .

In order to reliably detect the radio wave condition with another terminal radio unit by emitting a test radio wave from the terminal radio unit, continuous detection may be performed. However, since the detection efficiency is poor, the vicinity of the terminal radio unit may be detected. A detection cycle period (tuning period) for periodically detecting radio waves is set, and each terminal wireless unit always calls once during the detection cycle period, so a call is made to a virtual call number that does not exist in the meter reading system. You are creating logic to do it.

FIG. 3 shows an image diagram of the virtual call timing. For example, call numbers <0001> to <0007> are assigned to all seven terminal wireless units U31 to U37, and the data collection unit U30 is set for registration. It has a virtual call configuration that allows communication with new terminal wireless units other than the authorized terminal wireless units U31 to U37 that have already been used. This virtual call is executed at regular intervals of about two hours,
This will be done 12 times a day.

For example, as shown in FIG. 4 described later, when a virtual call is incorporated in a meter reading cycle of 15 minutes, the call number <00
10> In the detection time zone of the first peripheral radio wave of the terminal wireless unit of the day (when the virtual ringing time per unit is set to 1,8 seconds), the time zone in which the own unit makes a call (00: 13: 0
Tuning hours other than 1,8 to 00: 13: 03,7 (00: 13: 0)
0,0 to 00: 13: 01,7 and 00: 13: 03,8 to 00: 14: 59,9).

FIG. 4 shows an example of a virtual calling algorithm. When the meter reading cycle at the time of this virtual calling is set to 15 minutes, the breakdown includes an up period 41 for answering a call, a down period 42 for calling and a tuning, A period 43 is required.

For example, in the case of one data collection unit <call number 0000> and 499 terminal wireless units installed <call number 0010 to 4490>, if a total of 500 units are allocated in the tuning period 43, one unit is obtained. The call time per virtual call time is determined to be 1.8 seconds.
Automatically execute a virtual call based on a 1.8 second virtual call timing algorithm.

During the tuning period 43, data of the radio wave condition such as the average electric field intensity of the decibels is measured.
That is, each terminal wireless unit monitors the communication of the other terminal wireless units, and obtains the electric field strength value of the other terminal wireless units located in the vicinity based on this.

Such a virtual call processing operation will be described with reference to the flowchart of FIG. Now, the CPU 21 of each terminal wireless unit determines a virtual call timing based on the virtual call algorithm shown in FIG. 4 (step n1).
), At the determined call timing (step n2), each terminal radio unit emits a test radio wave to other terminal radio units in the vicinity to execute a virtual call.
Based on this virtual call, data related to communication such as electric field strength at the time of communication is returned from the other terminal wireless unit, and this response data is stored. The response data is transmitted to the upper data collection unit and the server 16 and managed.

In this case, the electric field strength between the units is set as the communication index, and if the average value or the amplitude of the electric field strength satisfies the communication reference value, the communication route between the units can be secured. If the communication reference value of the electric field strength is not satisfied, it can be determined that the route is not suitable for communication. Thereafter, if a failure due to disturbance of the radio wave occurs in the regular communication route and the meter reading data cannot be collected, the communication is switched to another communication route and the data collection is executed (step n3).

As described above, the terminal wireless unit detects a communication state with another terminal wireless unit, and it is possible to accurately grasp whether communication between terminal wireless units is possible or not based on the detected communication state of the terminal wireless unit. Therefore, when a new wireless meter reading unit is added, information on the new terminal wireless unit can be read from the radio wave state and an appropriate communication route can be additionally set. Also,
If the surrounding radio wave condition between the terminal wireless units is disturbed or if it is determined that the route cannot be communicated due to radio interference, appropriate measures such as automatically changing to another communication route that can communicate can be taken. it can.

In the correspondence between the present invention and the configuration of the above-described embodiment, the wireless data communication terminal, other terminals and each terminal of the present invention correspond to the first to tenth terminal wireless units U of the embodiment.
a to Uj, U31 to U37, and similarly, the wireless data communication system corresponds to the meter reading system 11, and the host device corresponds to each of the data collection units U1, U2, U30 and the server 16. The invention can be applied based on the technical idea described in the claims, and is not limited to the configuration of the above-described embodiment.

For example, in the above-described embodiment, the case where the meter reading value of the electric consumption is collected is shown. However, the present invention is not limited to this. Of sales performance values and sales data such as POS.

Each unit U1, U2, U30, Ua
To Uj, communication between U31 to U37, center 13 and server 1
6 is not limited to the wireless communication, but may be a wired communication.

[0042]

According to the present invention, the state of radio waves with other terminals can be detected. Therefore, when another terminal that permits communication is detected around the terminal, communication with the other terminal is enabled and another communication route is established. Can be set. Therefore, a plurality of communication routes can be newly established in addition to one predetermined dedicated communication route, and when a communication error occurs, the communication route can be switched to a new communication route to secure the communication route.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a meter reading system that automatically measures the power consumption of a house.

FIG. 2 is a control circuit block diagram of the meter reading system.

FIG. 3 is an explanatory diagram showing an image state of virtual call timing of each terminal wireless unit.

FIG. 4 is an explanatory diagram showing an allocation state of a virtual calling time.

FIG. 5 is a flowchart showing a virtual call processing operation of each terminal wireless unit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 ... Meter reading system 12 ... House 13 ... Center 14 ... Electric power meter 16 ... Server U1, U2, U30 ... Data collection unit Ua-Uj, U31-U37 ... Terminal wireless unit L ... Communication route 21 ... CPU 22 ... First flash Memory 43 ... Tuning period

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Yoshimasa Sugitate, Inventor F-term (reference) 5K042 AA08 CA02 CA13 DA19 EA15 FA11 HA07 HA14 JA02 JA04 5K048 AA06 BA35 in Omron Co., Ltd. BA36 DB01 DC01 DC07 GB01 GB05 5K067 AA33 AA44 BB27 DD13 DD17 DD30 DD44 FF05 FF16 GG02 LL08

Claims (2)

[Claims] 1. A wireless data communication terminal having a communication function of wirelessly communicating data with another terminal, wherein a radio wave condition with the other terminal is detected at a time other than during a time period for performing data communication with the other terminal. Wireless data communication terminal. 2. A wireless data communication system comprising a plurality of wireless data communication terminals having a communication function of wirelessly communicating data with another terminal, wherein each terminal sequentially transmits data during a time period when each terminal is not performing data communication. A method for detecting a radio wave state, comprising: transmitting a test radio wave, storing a reception state from the test radio wave, and transmitting the radio wave state to a host device during a data communication time zone or a time period other than the data communication time zone.