JP3444386B2 - Wireless tag system - Google Patents

Description

Detailed Description of the Invention

[0001]

The present invention relates to relates to a wireless data Gushi stem that receives an infrared signal predetermined information to be returned by superimposing the high-frequency carrier.

[0002]

2. Description of the Related Art With the sophistication and complexity of social systems,
Maintenance of infrastructure facilities such as roads, railways, and telephones, and fixed equipment is becoming more and more important. In the maintenance of facilities and equipment, first of all, the position of the target facility or equipment must be ascertained, and the general method is to register the location coordinates and addresses of each facility or equipment in a database. Next, after the worker reaches near the facility (equipment),
It is necessary to search and identify the facility (equipment). For example, there is a method to identify it with a photo of the facility (equipment).
This method cannot be applied to facilities (equipment) that are frequently updated or similar facilities (equipment). Conventionally, writing-type tags using names and symbols are pasted on facilities and equipment, and operators visually check those tags to search and identify objects and authenticate whether or not they are applicable equipment. And so on. However, human error is basically unavoidable by such a method involving visual search and judgment of the operator. Along with the increase, sophistication, and complexity of facilities and equipment, there has been a strong demand for a maintenance management system that does not involve human intervention and has few errors and that searches and identifies facilities and equipment and authenticates them.

At the same time, when assembling a large structure such as a building or a theme park, it is necessary to control whether or not the construction is proceeding according to the design, but the constituent elements of the structure are arranged at appropriate places. In order to confirm whether or not such a check has been made, the search, identification, judgment, and collation with the design are performed by human intervention. In this case as well, human intervention was unavoidable because human intervention was involved.

As described above, a facility (equipment) is not read by a person as an identification tag for an infrastructure facility or equipment or a component of a large structure, but a facility (equipment).
It is desirable to have a system that can electronically and automatically search, identify, and authenticate.

FIG. 7 shows an example of a conventional bar code system used as an identification tag. Reference numeral 1 is a bar code, 2 is a bar code reader, 3 is a personal computer, and 4 is an infrared reading beam. For example, different barcodes 1 are attached to each object,
By reading it with the bar code reader 2 and transmitting it directly to the personal computer 3 connected to the bar code reader 2, basically, a point of S without human intervention is provided.
The ales (POS) system is realized. However, although barcode 1 is paper-based and extremely inexpensive,
In such a bar code system, it is necessary to pass the bar code 1 in the vicinity of the bar code reader 2 where the infrared rays 4 are scanning or to scan the infrared rays 4 on the bar code 1, which limits the reading distance. In addition, it is difficult to find an appropriate weather resistant base material for outdoor facilities, equipment and structures. Further, since the line-of-sight communication uses the infrared rays 4, the identification information cannot be read if there is an obstacle. Due to such a problem, the bar code reader system cannot be directly applied to search, identification, and authentication of infrastructure facilities and equipment, and components of large-scale structures.

FIG. 8 shows an example of a radio frequency (RF) tag used in normal parking lot management, production inventory management and the like.
3 is a personal computer, 5 is a high frequency tag, and 6 is a high frequency base station. In this conventional example, a high-frequency base station 6 corresponding to a bar code reader transmits a command to the high-frequency tag 5, receives information such as an identification ID from the high-frequency tag 5 for the command, and connects with an RS232C interface or the like. The personal computer 3 automatically manages the database and gives work instructions.
Such systems are becoming electronic, and human intervention is minimal.

[0007]

In the conventional example shown in FIG. 8, the automation can be greatly promoted, but the worker cannot perceive the transmission / reception by the high frequency, so that the facility or equipment to which the ID is transmitted cannot be specified. That is, there is a problem in applying a tag using only high frequency to construction work or facility change work. Similar problems occur in the application of only high frequency tags when searching, identifying, and authenticating the components of large structures.

As described above, in the maintenance and management work of infrastructure facilities and equipment, or the drawing collation work of components in large structures, it is possible to search and identify facilities, equipment and components, and to certify equipment. There was a need for a maintenance management system with few human errors that allows the operator to recognize the target and also to automate it electronically so as not to involve the visual search and judgment of the operator. In particular, tags and their systems for complex, sophisticated facilities, equipment, and structures have been strongly desired.

An object of the present invention is that when a wireless tag receives an infrared signal modulated by a laser pointer, the wireless tag superimposes its identification ID information on a high frequency carrier for a certain period of time and sends it back to a base station. It is characterized by the maintenance work of infrastructure facilities and equipment, or the drawing collation work of components in large structures, so that workers can recognize the target and search and identify facilities, equipment or components, etc. An object of the present invention is to provide a wireless tag and a wireless tag system in which human error is reduced as much as possible by electronically and automatically certifying equipment.

[0010]

A wireless tag system according to the present invention includes infrared receiving means for receiving a modulated infrared signal containing visible light, and predetermined information including an identification ID when the infrared signal is received. For a fixed period of time on a high-frequency carrier for reply, a control unit for controlling the whole, a wireless tag equipped with a power supply unit for supplying electric power to each unit, and a modulated infrared light containing visible light.
Laser pointer for irradiating the wireless tag with a line signal
And the high frequency carrier returned from the wireless tag
Wireless base station for receiving the predetermined information superimposed on
With the station and select the laser to the previous term wireless tag
By irradiating the infrared signal of the pointer
Make the wireless tag return the predetermined information,
Make it possible to visually recognize the target wireless tag
It is configured in .

[0011] The infrared receiving means comprises a demodulator infrared light receiving portion, said return means comprises a modulator frequency of the oscillator, said control means, an identification ID to determine information demodulated CPU for generating the predetermined information including
Alternatively, it is composed of a ROM.

Furthermore, said power supply means, by receiving sunlight or a light beam to the solar panel, and supplies power to the electronic circuit incorporated in the <br/> wireless tag.

[0013]

The wireless system according to the present invention
Beam, as the infrared signal of the laser pointer to irradiate to the wireless tag, diffuse infrared or by using a scanning type infrared, as can read the predetermined information including the identification ID of the plurality of wireless tags simultaneously It was done.

[0015]

In the wireless tag system according to the present invention, when the infrared reception signal receives the modulated infrared signal from the laser pointer, the wireless tag receives the identification ID, the position coordinate, and the equipment from the reply means. Information such as attributes is superposed on the high frequency carrier for a certain period of time and returned.

Further, since the control unit is composed of a CPU or ROM, it is easy to change the desired control by changing the program.

In the power supply means, when light is received by the solar panel, electric power is generated here by photoelectric conversion,
This power is supplied to each part.

In the wireless tag system of the present invention, when an operator irradiates a desired wireless tag with an infrared signal from a laser pointer, predetermined information including an identification ID is superposed on a high frequency carrier from the wireless tag which receives the infrared signal. The wireless base station receives the data and stores and processes the data.

Since infrared rays are of a diffusion type or a scanning type, it is possible to process a plurality of wireless tags at the same time.

As described above, according to the present invention, when the wireless tag receives the modulated infrared signal including the visible light from the laser pointer, the wireless tag receives predetermined information including its identification ID for a certain period of time. It is characterized in that it is superimposed on a high frequency carrier and sent back to a wireless base station, which is basically different from the conventional input method using only infrared rays or a tag using only high frequency waves. In fact
At present, there is no tag that receives modulated infrared rays and superimposes information on high frequencies to transmit the information.

[0021]

FIG. 1 shows a wireless tag system according to the present invention.
The functional block structure of the wireless tag in FIG. Figure 1
In the figure, 100 is a wireless tag according to the present invention, 10 is an infrared receiving means, and a light receiving unit 11 for performing photoelectric conversion such as a photodiode for receiving a modulated infrared (IR) signal including visible light is obtained. And a demodulation section 12 for demodulating the photoelectrically converted signal to obtain an information signal.

The modulated infrared rays are used to prevent the wireless tag 100 from malfunctioning due to natural light, and to use artificial light. Specifically, the infrared tag is artificially amplitude-modulated and transmitted as a modulated infrared signal, and the received wireless tag 100 demodulates and recognizes the pattern, and an activation signal (information) of the wireless tag 100. And At this time, since infrared rays include visible light, it is convenient to visually confirm the selected wireless tag 100 at night and daytime.

Reference numeral 20 denotes a return means, which has an oscillating section 21 which is a local oscillating circuit, a modulating section 22 which modulates a high-frequency signal oscillated by the oscillating section 21 as a carrier, and a transmitting antenna 23 which radiates this as a radio wave. . A control unit 30 analyzes received information and sends out information to be transmitted, and uses a CPU or a ROM. Reference numeral 40 denotes a power supply means, which includes a solar panel (solar cell) 41 that receives sunlight or a light beam and photoelectrically converts it to generate electric power, a power supply circuit 42, a changeover switch 43, etc., and is required by a command from the control means 30. Supply power to various parts. The solid line represents the signal flow and the broken line represents the power flow. Hereinafter, according to this figure, the wireless tag 1
The operation of 00 will be described step by step.

First, an area where facilities and equipment requiring maintenance are present is roughly specified by using a map or a database. Next, the worker irradiates the wireless tag 100 of the facility or facility with infrared rays modulated by the laser pointer to search for and identify the target facility.

In this case, first, since the light is illuminated at night, the operator can visually recognize which wireless tag 100 is symmetrical. Even in the daytime, for example, if the laser light of red is visible, the wireless tag 10 to be selected can be selected.
You can check 0.

In this way, the operator can recognize which facility or equipment the reply information at that time is for (recognition of the search target).

Secondly, the wireless tag 100 receives the modulated infrared signal at the light receiving portion 11 and demodulates it at the demodulating portion 12, and the demodulated signal is transmitted to the CPU of the control means 30 and further the control signal from the CPU. Is transmitted to the power changeover switch 43. That is, the light receiving unit 11 and the demodulation unit 12
Power is always supplied and driven, but the control means 30
The CPU, the modulating unit 22 and the oscillating unit 21 of the replying unit 20 are not normally supplied with power (sleep state), and are activated upon reception of an infrared signal. By adopting this sleep state, the power consumption of the wireless tag 100 is suppressed as much as possible.

Third, after the control means 30 recognizes the modulated infrared signal, the CPU or the ROM continuously outputs simple information including its own identification ID for a predetermined time.
2. Tell the oscillator 21. The transmission here is, for example, VHF
Band (UHF) band, microwave band frequency (RF) is used as a carrier, and amplitude modulation (ASK), frequency modulation (FSK), phase modulation (PSK), etc. are used as signal modulation. At this time, the oscillator 22 (local oscillation circuit) suitable for the frequency used is connected to the modulator 22 for carrier generation. Simple information such as identification ID superimposed on the high frequency carrier is transmitted to an area with a radius of about 10 m.
It is automatically received by the wireless mobile base station carried by the worker or the wireless base station mounted on the vehicle. This allows you to check the search target (authentication of equipment), and based on the equipment ID,
The contents of the database of facilities and equipment can be automatically retrieved.

Fourthly, when the situation investigation and maintenance work of the target facility or equipment are completed, the identification ID received by the equipment authentication just before.
Based on, the database is rewritten and updated, and the maintenance work is completed.

The characteristics of the wireless tag 100 described above are as follows.
Since the laser pointer is used at the time of searching and specifying the target equipment, the worker can recognize the target equipment being searched, which allows the maintenance work to proceed smoothly. Further, the wireless tag 100 returns simple information such as an identification ID by superimposing it on a high frequency carrier. It can reply to multiple base stations at the same time, such as a worker's wireless mobile base station, vehicle-mounted wireless base station, etc. That is, the information such as the ID of the target facility or the facility can be shared by a plurality of workers, and the maintenance work by the efficient group can be supported. Furthermore, if the wireless tag 100 according to the present invention is equipped with the solar panel 41 as the power supply means 40 and the secondary battery or the large-capacity capacitor, it can be applied not only to the maintenance work during the daytime but also to the nighttime work.

[0031] FIG. 2 shows an example of a wire <br/> Yaresutagu 100 according to the present invention was actually fabricated. In FIG. 2, 11, 23, 4
Reference numeral 1 is the same as in FIG. 1, and reference numeral 24 is a transmission monitor LED provided in the reply means 20. The wireless tag 100 has a size of 7 cm × 10 cm and a thickness of about 1 cm. An infrared ray input system used in a normal television or the like is used for the infrared ray receiving section 11 and the demodulating section 12, a carrier wave of 49 MHz is used for the high frequency, and FSK resistant to noise is used for the modulation. 49 MHz for the transmitting antenna 23
I used this whip antenna. In addition, it was equipped with a CPU, and the data rate was 2.4 kbits / s. The communication distance was about 10 m in radius, and no problems such as a change in communication distance occurred even when the experiment was conducted outdoors.

FIG. 3 is a block diagram showing an embodiment of the wireless tag system according to the present invention. In FIG. 3, 100 is a wireless tag according to the present invention described in FIGS. 1 and 2, and 200 is a laser pointer, which modulates and emits infrared rays including visible light. A wireless base station 300 receives a transmission signal emitted from the wireless tag 100. A computer 400 is a wireless base station 3
The signal received at 00 is processed to obtain the target information, which is stored and analyzed.

FIG. 4 shows an example of application of the wireless tag system according to the present invention to an outdoor facility such as a utility pole. 101 is a telephone pole, 100 is a wireless tag, 200
Is a laser pointer, 300A is a wireless mobile base station,
300B is a wireless vehicle-mounted base station, 400 is a computer, and 201 is an operator.

For example, each telephone pole 101 has a wireless tag 1
It is assumed that 00 is attached. When the service life of the fixed equipment of a certain electric pole 101 is approaching, the worker 201 irradiates the infrared tag (IR) of the laser pointer 200 to the wireless tag 100 of the electric pole 101 which is considered to be the target. As a result, information such as the identification ID superimposed on the high frequency carrier is returned from the wireless tag 100, and the wireless portable base station 300A and the wireless vehicle-mounted base station 300B receive the information. Thereby, the worker 201 confirms whether or not the facility is the target facility based on the information such as the identification ID displayed on the wireless mobile base station 300A. The wireless vehicle-mounted base station 300B automatically transmits the facility ID information to the computer 400 wirelessly connected to the network, retrieves the facility history information, and instructs the worker 201 about the maintenance work content. After work such as equipment replacement, the worker 201 collates the facility ID and
The database of the target facility is updated by inputting the updated contents into the computer 1 (not shown). In this way, in the search and identification of the maintenance target, the worker 201
Can visually recognize facilities and equipment. In addition, the certification of those facilities is performed by the wireless vehicle-mounted base station 30.
Since it is automatically performed by OB and the computer 400, it is possible to avoid human error caused by the judgment or visual confirmation of the worker 201 as much as possible. This allows
It is possible to reduce maintenance costs and efficiently use human resources.

FIG. 5 shows an example in which the wireless tag system according to the present invention is applied to the collation and assembly of a large structure. 10
2 is a large structure such as a monument, 300 is a wireless base station, 400 is a computer equipped with CAD, and 301 is a designer of the structure.

For example, when assembling the structure, it is necessary to check whether there is any mistake. Therefore, the wireless tag 100 is attached to the structural elements of the structure. Designer 3
01 cooperates with the worker 201, in the order of the tags of the components,
Search with the laser pointer 200. Since the wireless tag 100 automatically sends back simple information such as the identification ID, it is possible to automatically check on the CAD of the computer 400 whether or not the identification ID of the component and its arrangement are appropriate. The collation work of these components can be easily performed even by linking with a tool such as CAD even for a complex and sophisticated structure.

More specifically, the wireless tag 100 is attached to each of a plurality of constituent elements of the structure in advance, and the correspondence table of the tag IDs and the constituent elements is stored in the database. When an infrared signal is emitted from the laser pointer 200 in the order of the tags of the constituent elements, a high frequency signal is sequentially returned from each wireless tag 100, and the tag ID of each constituent element is taken into the computer 400 through the wireless base station 300. By comparing these tag IDs with a database, the position of the design target element is determined by the computer 40 based on the CAD design data.
The validity of the placement is confirmed by showing it on the display of 0 and comparing it with the real object.

Therefore, it is possible to efficiently construct a large structure, shorten the construction period, and reduce the cost.

FIG. 6 is a block diagram showing another embodiment of the wireless tag system according to the present invention. When it is desired to treat the target equipment as a group, for example, to simultaneously obtain the identification IDs of all the equipment attached to the facility, the infrared light modulated by the laser pointer 200 is used as a diffused light or a laser beam scan (scan). It is possible to activate a plurality of wireless tags 100 at the same time by using a laser pointer incorporating a method of infrared type. FIG. 6 shows the case of diffused infrared rays. In this case, each wireless tag 1
00, a reply such as an identification ID is generated on the same frequency carrier, but the reply time of each wireless tag 100 is on the order of several tens of ms, and the reply is repeated for a certain period of time, so there is some interference, but wireless The base station 300 can acquire information such as identification IDs of the plurality of wireless tags 100.

[0040]

As described above, in the wireless tag system according to the present invention, when a modulated infrared signal containing visible light is received, predetermined information including an identification ID is superimposed on a high frequency carrier and returned. Since the configuration is adopted, it is possible to accurately and quickly search and identify the identification target. So
Also, this configuration allows the wireless base station to receive
The reply information you are sending originates from which wireless tag
The operator can visually recognize and confirm that the
Wear.

Further, the infrared receiving means is composed of an infrared light receiving section and a modulating section, and the returning means is composed of a high frequency oscillating section and a modulating section, and the control judges the demodulated information and generates required information. Since it is composed of a CPU or a ROM, the required purpose can be achieved with a simple structure and by changing the program.

Further, since the power source means uses the electric power photoelectrically converted by using the solar panel, the power source replacement work can be omitted.

Further, the wireless tag system according to the present invention uses the above-mentioned wireless tag, and a laser pointer for irradiating the wireless tag with a modulated infrared signal containing visible light and a high-frequency carrier. Since it is composed of a wireless base station that can receive information such as superimposed identification IDs and a computer that stores and processes data,
Data can be stored and processed by the wireless base station.

Further, since the diffusion type or the scanning type is used for infrared rays, a plurality of wireless tags can be simultaneously targeted.

The wireless tag by the way, the present invention
By using the system, with respect to infrastructure facilities and equipment, less human error, that it allows the automation of the facility and equipment maintenance management, the reduction and human resources of the maintenance cost efficiency Can be utilized effectively. In addition, for large structures, the arrangement and type of the constituent elements can be quickly checked at each stage of construction, and there is an advantage that construction efficiency, cost, and construction period can be shortened.

[Brief description of drawings]

FIG. 1 is a functional block diagram showing an embodiment of a wireless tag in a wireless tag system of the present invention.

FIG. 2 is an external perspective view showing an example of the wireless tag shown in FIG.

FIG. 3 is a block diagram showing a configuration of an embodiment of a wireless tag system of the present invention.

FIG. 4 is a diagram showing an example in which the wireless tag according to the present invention is applied to outdoor equipment.

FIG. 5 is a diagram showing an example in which the wireless tag according to the present invention is applied to a large structure.

FIG. 6 is a block diagram showing the configuration of another embodiment of the wireless tag system of the present invention.

FIG. 7 is an explanatory diagram of a barcode system which is an example of a conventional identification tag.

FIG. 8 is an explanatory diagram of a high-frequency tag system that is another example of a conventional identification tag.

[Explanation of symbols]

10 Infrared receiving means 11 Light receiving part 12 Demodulator 20 Means of reply 21 Oscillator 22 Modulator 23 Transmitting antenna 24 Transmitting monitor LED 30 control means 40 power supply means 41 solar panel 42 power supply circuit 43 Changeover switch 100 wireless tag 101 utility pole 102 Large structure 200 laser pointer 201 worker 300 wireless base station 300A wireless mobile base station 300B wireless in-vehicle base station 301 Designer 400 computers

─────────────────────────────────────────────────── ─── Continued Front Page (51) Int.Cl. ⁷ Identification FI H04B 1/59 H01L 31/04 R 10/10 H04B 9/00 R 10/105 10/22 (72) Inventor Yutaka Ichinose Tokyo 1-6, Uchisaiwaicho, Chiyoda-ku, Nippon Telegraph and Telephone Corporation (56) Reference JP-A-7-43455 (JP, A) JP-A-7-131422 (JP, A) JP-A-4-10816 (JP , A) (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04B 5/02 G08B 1/08 G08B 5/22 H01L 31/042 H02J 7/00 H04B 1/59 H04B 10/10 H04B 10 / 105 H04B 10/22

Claims (4)

(57) [Claims] 1. An infrared receiving means for receiving a modulated infrared signal containing visible light, and a reply for superimposing a predetermined information including an identification ID when the infrared signal is received on a high frequency carrier and returning the reply. and means, and control means for controlling the whole was and a power supply means for supplying power to each unit
And Wa Iyaresutagu, modulated infrared signal including the visible light
Signal to the wireless tag and the high-frequency carrier returned from the wireless tag.
A wireless base station that receives the predetermined information that is folded
Having a front of the laser pointer to the wireless tag to select
By irradiating the infrared signal, the wireless
Group to send back the specified information,
The wireless tag must be configured so that it can be visually recognized.
And a wireless tag system. Wherein said infrared receiver means comprises a demodulator infrared light receiving portion, said return means comprises a modulator frequency of the oscillator, the control means, identification ID to determine information demodulated CPU for generating the predetermined information including
Alternatively, it is constituted by a ROM.
The wireless tag system described in. Wherein said power supply means, by receiving sunlight or a light beam to the solar panel, the wire
Wireless tag system according to claim 1 or 2, characterized in that the electronic circuit incorporated in the less the tag is intended to supply power. Wherein as the infrared signal of the laser <br/> Zapointa irradiating to the wireless tag, diffuse infrared or, by using a scanning type infrared, of the predetermined including identification ID of the plurality of wireless tags of claim 1, characterized in that as it can read information at the same time
The wireless tag system according to any one of item 3 .