JP5910325B2 - Communication system, security transmitter, security receiver - Google Patents

Description

  The present invention relates to a communication system, a security transmitter, and a security receiver that communicate security information.

In recent years, a communication system for communicating security information such as personal information to an entrance management device such as an office or an automatic ticket gate installed in a station or the like has been used. Such a communication system is used by shortening the communication distance (for example, several centimeters) by reducing the strength of the communication signal of the IC card or using human body communication performed through an electric field interposed in the human body. (For example, Patent Document 1).
However, in this communication system, since the strength of the communication signal is weak, security information may not be read due to noise. Further, if the strength of the communication signal is increased in advance in consideration of noise, there is a risk of security information leaking to a third party due to skimming or the like.

JP 2011-186964 A

  An object of the present invention is to provide a communication system, a security transmitter, and a security receiver that are less susceptible to noise and that can safely communicate security information.

  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this. In addition, the configuration described with reference numerals may be improved as appropriate, or at least a part thereof may be replaced with another configuration.

A first invention is a communication system (1) comprising a security transmitter (10) for transmitting security information and a security receiver (20) for receiving the security information from the security transmitter, wherein the security A transmitter that transmits the security information to the security receiver by contact communication or non-contact communication; and a transmission that wirelessly receives information on a reception level of the security information from the security receiver. A machine communication unit (12), a security information transmission unit and a transmitter control unit (13) for controlling the transmitter communication unit, wherein the security receiver transmits the security information transmitted from the security transmitter. Security information receiving part (by contact communication or non-contact communication) 1), a receiver communication unit (22) that wirelessly transmits the reception level information to the security transmitter, and a receiver control unit (23) that controls the security information reception unit and the receiver communication unit. A communication distance between the security information transmitting unit and the security information receiving unit is shorter than a communication distance between the transmitter communication unit and the receiver communication unit, and the receiver control unit includes the security transmitter Determining the reception level of the security information received from the receiver, transmitting the reception level information from the receiver communication unit to the security transmitter, and the transmitter control unit receiving the reception level received from the security receiver. And adjusting the transmission level of the security information based on the received information and transmitting the security information to the security receiver. Is Temu.
According to a second aspect of the present invention, in the communication system (1) of the first aspect, the transmitter control unit (13) transmits a transmission confirmation signal indicating that the security information has been transmitted from the security information transmission unit (11). When transmitting from the transmitter communication unit (12) to the security receiver (20), the receiver control unit (23) receives the transmission confirmation signal from the security transmitter (10). A communication system characterized by determining a reception level of information.
According to a third aspect of the present invention, in the communication system (1) of the first aspect or the second aspect, the communication between the security information transmitting unit (11) and the security information receiving unit (21) is an electric field interposed in a human body. It is a communication system characterized by being a human body communication performed through.
According to a fourth aspect of the present invention, in the communication system (201) of the first or second aspect, communication between the security information transmitting unit (211) and the security information receiving unit (221) is performed by electromagnetic induction or electromagnetic coupling. The communication system is characterized in that the communication is performed by the above.

  A fifth invention is a security transmitter (10) for transmitting security information to a security receiver (20), wherein the security information is transmitted to the security receiver by contact communication or non-contact communication. (11), a transmitter communication unit (12) for wirelessly receiving information on the reception level of the security information from the security receiver, and a transmitter control unit for controlling the security information transmission unit and the transmitter communication unit (13), a communication distance between the security information transmitter and the security receiver is shorter than a communication distance between the transmitter communication unit and the security receiver, and the transmitter controller Based on the reception level information received from the receiver, the transmission level of the security information is adjusted. It is to transmit to the security receiver, a security transmitter according to claim.

  A sixth invention is a security receiver (20) for receiving security information from a security transmitter (10), wherein the security information transmitted from the security transmitter is received by contact communication or non-contact communication. An information receiving unit (21), a receiver communication unit (22) for wirelessly transmitting information on the reception level of the security information to the security transmitter, and reception for controlling the security information receiving unit and the receiver communication unit And a communication distance between the security information receiver and the security transmitter is shorter than a communication distance between the receiver communication unit and the security transmitter, and the receiver controller A reception level of the security information received from the security transmitter is determined, and the reception level Transmitting to the security transmitter information from the receiver communication unit, a security receiver according to claim.

  According to the present invention, the communication system is not easily affected by noise, and can safely communicate security information.

It is a figure showing the whole entrance management system 1 composition of a 1st embodiment. It is a block diagram of the entrance management system 1 of 1st Embodiment. It is a flowchart explaining operation | movement of the entrance management system 1 of 1st Embodiment. It is a flowchart explaining operation | movement of the entrance management system 1 of 1st Embodiment. It is a figure explaining the signal waveform of ID information of a 1st embodiment. It is a figure which shows the whole structure of the entrance management system 201 of 2nd Embodiment. It is a block diagram of the room entrance management system 201 of 2nd Embodiment. It is a figure which shows the whole communication system 301 structure of 3rd Embodiment. It is a block diagram of the communication system 301 of 3rd Embodiment.

(First embodiment)
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram illustrating an overall configuration of an entrance management system 1 according to the first embodiment.
FIG. 2 is a block diagram of the room entry management system 1 according to the first embodiment.
As shown in FIG. 1, the entrance management system 1 (communication system) is a system that manages whether a person entering an office can enter the room.
The room entry management system 1 includes an ID transmitter 10 (security transmitter), an ID receiver 20 (security receiver), and a door lock management unit 30.

The ID transmitter 10 stores ID information (security information) for authenticating office entry, and is owned by a user who is permitted to enter the office in advance, for example, an office employee. The ID information is information for authenticating a user who is permitted to enter the office, for example, identification information for identifying the user.
As shown in FIG. 2, the ID transmitter 10 includes an ID information transmission unit 11 (security information transmission unit), a transmitter communication unit 12, a transmitter control unit 13, a transmitter storage unit 14, a power source 15, and the like.
The ID information transmission unit 11 is a communication module that transmits the ID information stored in the transmitter storage unit 14 to the ID receiver 20. The ID information transmitting unit 11 communicates with an ID information receiving unit 21 of an ID receiver 20 described later by human body communication that transmits information through an electric field interposed in the human body.

The ID information transmission unit 11 is provided with an electrode, a weak electric field is induced on the surface of the user's human body carrying the ID transmitter 10 from the electrode, and the ID information reception unit 21 receives the ID through the generated electric field. Send information.
In this human body communication, information communication is performed using an electric field interposed in the human body, so the communication distance is as narrow as a few centimeters, and it is possible to prevent unauthorized reading of communication information due to third party skimming or the like. It is suitable for communication of security information such as ID information. On the other hand, since the human body communication has a weak transmission level, communication information may not be read due to the influence of noise or the like. Therefore, the ID transmitter 10 adjusts the transmission level and transmits the ID information when the ID information received by the ID receiver 20 cannot be read.

  The transmitter communication unit 12 is an existing wireless communication module that performs two-way communication with a receiver communication unit 22 of an ID receiver 20 described later using radio waves. The transmitter communication unit 12 transmits a transmission confirmation signal indicating that the ID information is transmitted from the ID information transmission unit 11 to the ID receiver 20 or the ID information received by the ID receiver 20 from the receiver communication unit 22. Receive reception level information and ID information request signals. Here, the ID information request signal is a signal for requesting the ID transmitter 10 to transmit ID information.

  The communication distance between the transmitter communication unit 12 and the receiver communication unit 22 is, for example, in the range of several meters, and the communication distance is longer than the communication between the ID information transmission unit 11 and the ID information reception unit 21 described above. The transmission level is strong. Therefore, the communication between the transmitter communication unit 12 and the receiver communication unit 22 is not easily affected by noise, but there is a risk of unauthorized reading of communication information. Therefore, in the entrance management system 1, the communication between the transmitter communication unit 12 and the receiver communication unit 22 is mainly targeted for transmission / reception of information that does not cause a problem even if the transmission confirmation signal as described above is illegally read. Yes.

The transmitter control unit 13 is a control circuit that performs overall control of each unit of the ID transmitter 10 and includes, for example, a CPU (central processing unit). The transmitter control unit 13 implements various functions according to the present invention in cooperation with each unit of the ID transmitter 10 described above by appropriately reading and executing various programs stored in the transmitter storage unit 14. ing.
Further, the transmitter control unit 13 adjusts the transmission level of the ID information transmitted from the ID information transmission unit 11 based on the reception level information of the ID information received from the ID receiver 20.

The transmitter storage unit 14 is a storage device such as a hard disk or a semiconductor memory element for storing programs, information, and the like necessary for the operation of the ID transmitter 10. The transmitter storage unit 14 stores ID information of a user who carries the ID transmitter 10.
The power supply 15 is a power supply source for driving the ID transmitter 10 and is composed of, for example, a rechargeable battery.

As shown in FIG. 1, the ID receiver 20 is arranged at the entrance of the office, and when a user carrying the ID transmitter 10 enters the room, the ID receiver 20 receives ID information from the ID transmitter 10 and performs authentication.
As shown in FIG. 2, the ID receiver 20 includes an ID information receiving unit 21 (security information receiving unit), a receiver communication unit 22, a receiver control unit 23, a receiver storage unit 24, a detection unit 25, and the like.
The ID information receiving unit 21 is a communication module that receives ID information from the ID information transmitting unit 11 of the ID transmitter 10. As described above, the ID information receiving unit 21 communicates with the ID information transmitting unit 11 by human body communication. The ID information receiving unit 21 is provided with an electrode, and the electrode receives the ID information transmitted from the ID information transmitting unit 11 via a weak electric field interposed on the surface of the human body.

In the present embodiment, the ID information receiving unit 21 is built in a rug M (see FIG. 1) disposed in front of the door D at the entrance of the office, and the user carrying the ID transmitter 10 has the rug. ID information is received from the ID information transmission unit 11 when touched by stepping on M or the like.
The receiver communication unit 22 is an existing wireless communication module that performs two-way communication with the transmitter communication unit 12 of the ID transmitter 10 using radio waves. The receiver communication unit 22 receives a transmission confirmation signal from the ID transmitter 10, transmits information on the reception level of the ID information received by the ID information reception unit 21, and transmits an ID information request signal to the ID transmitter 10. To do.

The receiver control unit 23 is a control circuit that performs overall control of each unit of the ID receiver 20, and includes, for example, a CPU (central processing unit). The receiver control unit 23 appropriately reads and executes various programs stored in the receiver storage unit 24, thereby cooperating with each unit of the ID receiver 20 and realizing various functions according to the present invention. . The receiver control unit 23 is connected to the door locking management unit 30.
The receiver control unit 23 transmits ID signal request information from the receiver communication unit 22 to the ID transmitter 10 based on the detection signal of the detection unit 25.
The receiver control unit 23 authenticates the ID information received from the ID transmitter 10, and outputs an unlock signal to the door locking management unit 30 to unlock the door D when the authentication is successful.

The receiver storage unit 24 is a storage device such as a hard disk or a semiconductor memory element for storing programs, information, and the like necessary for the operation of the ID receiver 20. The receiver storage unit 24 stores a table of ID information of a plurality of users permitted to enter the office.
The detection unit 25 is a pressure-sensitive sensor that detects a change in pressure, and is built in a rug M (see FIG. 1) disposed at the entrance of the office. When the user steps on the rug M, the detection unit 25 detects a change in pressure and outputs a detection signal to the receiver control unit 23.
The door lock management unit 30 is a part that manages the lock of the door D (see FIG. 1) installed at the entrance of the office, and locks the door based on the unlock signal output from the receiver control unit 23. To release.

Next, the operation of the room entry management system 1 will be described.
FIG. 3 (FIGS. 3A and 3B) is a flowchart for explaining the operation of the room entry management system 1 according to the present embodiment.
FIG. 4 is a diagram illustrating a signal waveform of ID information according to the first embodiment.
4A and 4D are diagrams illustrating signal waveforms of ID information transmitted from the ID transmitter 10. FIG. 4B, FIG. 4C, and FIG. 4E are diagrams illustrating signal waveforms of ID information received by the ID receiver 20.

In step S (hereinafter referred to as S) 101, the receiver control unit 23 of the ID receiver 20 determines whether or not the rug M has been stepped on by the user based on the detection signal from the detection unit 25. When the detection signal is input from the detection unit 25, the receiver control unit 23 determines that the rug M has been stepped on by the user (S101: Yes), and the receiver communication unit 22 transmits the ID transmitter 10 transmission. An ID information request signal for requesting transmission of ID information is transmitted to the machine communication unit 12, and the process proceeds to S102.
On the other hand, when the detection signal is not input from the detection unit 25, the receiver control unit 23 determines that the rug M is not stepped on by the user (S101: No), and returns to S101.

In S102, the transmitter control unit 13 of the ID transmitter 10 reads the ID information from the transmitter storage unit 14 based on the received ID information request signal, and the ID of the ID receiver 20 from the ID information transmission unit 11 is read. It transmits to the information receiver 21. At this time, the transmitter control unit 13 excites the electrode of the ID information transmission unit 11 to induce a weak electric field in the body of the user carrying the ID transmitter 10, and from the ID information transmission unit 11, The ID information is transmitted to the ID information receiving unit 21 built in the rug M via the.
Here, the ID information transmitted from the ID information transmitting unit 11 is a step-like waveform whose transmission level (difference between the highest value H and the lowest value L) is X, as shown in FIG. .

Simultaneously with the transmission of the ID information, the transmitter control unit 13 transmits a transmission confirmation signal indicating that the ID information has been transmitted from the transmitter communication unit 12 to the receiver communication unit 22.
In S <b> 103, the receiver control unit 23 determines whether a transmission confirmation signal is received from the ID transmitter 10. If it is determined that the transmission confirmation signal has been received (S103: Yes), the process proceeds to S104. If it is determined that the transmission confirmation signal has not been received (S103: No), the process returns to S103.
In S <b> 104, the receiver control unit 23 starts receiving ID information from the ID information receiving unit 21.

In S105, the receiver control unit 23 determines the reception level of the received ID information. As shown in FIG. 4B, the reception level of the received ID information (difference between the highest value H and the lowest value L) is almost equal to the transmission level of the ID information transmitted from the ID information transmission unit 11, that is, If the reception level is a stepped waveform of X, the receiver control unit 23 determines that the ID information can be read (S105: Yes), and proceeds to S109.
On the other hand, as shown in FIG. 4C, when the reception level of the received ID information has a waveform that is hardly readable due to noise N, the receiver control unit 23 determines that the ID information cannot be read. (S105: No), the process proceeds to S106.
In S <b> 106, the receiver control unit 23 transmits information on the reception level of the received ID information from the receiver communication unit 22 to the transmitter communication unit 12.

In S <b> 107, the transmitter control unit 13 adjusts the transmission level of the ID information based on the reception level information received from the ID receiver 20, and transmits it again from the ID information transmission unit 11 to the ID receiver 20. Specifically, the transmitter controller 13 amplifies the ID information transmission level from X to Y (X <Y) and receives the ID information from the ID information transmitter 11 as shown in FIG. To the unit 21. By doing so, the ID information receiving unit 21 can receive ID information of a readable reception level as shown in FIG.
In S108, the receiver control unit 23 determines the reception level of the ID information received again. If it is determined that the ID information can be read (S108: Yes), the process proceeds to S109. If it is determined that the ID information cannot be read (S108: No), the process returns to S106.

  Here, in the present embodiment, the ID transmitter 10 can amplify the transmission level of the ID information in three stages. Specifically, the transmission level of ID information is set to X, Y, and Z, and the magnitude relationship is X <Y <Z. When receiving the ID information request signal, the transmitter control unit 13 transmits the ID information whose transmission level is X as described above (S102), and receives the reception level information from the ID receiver 20 (S102). In step S106, the ID information transmission level is amplified from X to Y, and the ID information is transmitted again to the ID receiver 20 (S107).

  After that, when receiving level information from the ID receiver 20 again (S106), the transmitter control unit 13 amplifies the ID information transmission level from Y to Z and transmits it to the ID receiver 20 (S107). ). By doing so, the entrance management system 1 can prevent transmission / reception of ID information whose transmission level is too strong, and can transmit / receive ID information of an appropriate transmission level according to the magnitude of the noise N. it can. Also, ID information with an appropriate transmission level can be transmitted and received even in an environment where the magnitude of noise N varies with time. Furthermore, since the transmission level of ID information is not amplified more than necessary, leakage of ID information to a third party can be suppressed.

In step S109, the receiver control unit 23 reads the ID information table from the receiver storage unit 24, refers to the received ID information and the ID information table, and determines whether or not the received ID information can be authenticated. .
When the received ID information is included in the ID information table, the receiver control unit 23 determines that authentication is possible (S109: Yes), and proceeds to S110.
On the other hand, when the received ID information is not included, the receiver control unit 23 determines that authentication is impossible (S109: No), and proceeds to S111.

In S <b> 110, the receiver control unit 23 outputs a door D unlocking signal to the door locking management unit 30. And the door locking management part 30 which input the unlocking signal unlocks the door D.
In S111, the receiver control unit 23 could not authenticate the received ID information, so that the user who tried to enter the office without sending an unlocking signal for the door D was not notified. A warning sound such as a buzzer is shown.

The invention of this embodiment has the following effects.
(1) In the room entrance management system 1, the ID transmitter 10 adjusts the transmission level of the ID information based on the reception level information of the ID information received from the ID receiver 20. Therefore, for example, even when the reception level of the ID information is low due to a noisy environment, the ID information is adjusted so as to increase the transmission level of the ID information, and the ID information of an appropriate reception level is sent from the ID transmitter 10 to the ID receiver. 20 can be transmitted. In addition, the room entry management system 1 can also prevent unauthorized reading of ID information, etc., which occurs due to a response that increases the transmission level of ID information in advance in consideration of noise.
Furthermore, since the room entry management system 1 transmits ID information without amplifying the transmission level more than necessary, the power consumption of the ID transmitter 10 can be reduced, and the influence on the surrounding electrical devices and the like can be reduced. Can be suppressed.

(2) Since the ID transmitter 10 transmits the transmission confirmation signal to the ID receiver 20 simultaneously with the transmission of the ID information, the room entrance management system 1 is temporarily unable to read the ID information due to noise from the start of reception. Even so, the ID receiver 20 can recognize the reading start timing of the ID information and can determine the reception level of the ID information.
(3) Since the room entry management system 1 uses human body communication, the user does not need to perform complicated authentication work and is convenient.

(Second Embodiment)
Next, a second embodiment of the present invention will be described.
FIG. 5 is a diagram illustrating an overall configuration of the room entrance management system 201 according to the second embodiment.
FIG. 6 is a block diagram of the room entry management system 201 of the second embodiment.
Note that, in the following description and drawings, the same reference numerals or the same reference numerals are given to the portions that perform the same functions as those in the first embodiment described above, and overlapping descriptions will be omitted as appropriate.
The room entry management system 201 of the second embodiment is that the communication between the ID information transmission unit 211 and the ID information reception unit 221 is non-contact (wireless) communication performed by electromagnetic induction instead of human body communication. This is different from the room entrance management system 1.

As shown in FIG. 5, the entrance management system 201 is a system that manages whether a user entering a company office can enter the room.
As shown in FIG. 6, the ID transmitter 210 includes an ID information transmission unit 211, a transmitter communication unit 212, a transmitter control unit 213, a transmitter storage unit 214, a power source 215, and the like.
The ID information transmission unit 211 transmits the ID information stored in the transmitter storage unit 214 to the ID receiver 220. The ID information transmission unit 211 is a non-contact communication module provided with a transmission antenna, and communicates with the ID information reception unit 221 of the ID receiver 220 by electromagnetic induction.

The ID information transmission unit 211 is set so that the transmission level of the ID information to be transmitted is weak, the communication distance with the ID information reception unit 221 is as narrow as a few centimeters, and communication by skimming or the like by a third party Prevents unauthorized reading of information. On the other hand, as in the case of the human body communication of the first embodiment, communication information may not be read due to the influence of noise or the like.
Communication between the ID information transmission unit 211 and the ID information reception unit 221 has a shorter communication distance than communication between the transmitter communication unit 212 and the receiver communication unit 222.
As shown in FIG. 5, the ID receiver 220 is arranged at the door D at the entrance of the office.
As shown in FIG. 6, the ID receiver 220 includes an ID information receiving unit 221, a receiver communication unit 222, a receiver control unit 223, and a receiver storage unit 224.
The ID information receiving unit 221 is a non-contact type communication module including a receiving antenna, and receives ID information from the ID information transmitting unit 211 described above.

With the above configuration, as shown in FIG. 5, the entrance management system 201 transmits ID information by holding the ID transmitter 210 owned by the user over the ID receiver 220 installed at the entrance of the office. The ID information is transmitted from the unit 211 to the ID information receiving unit 221, and whether or not the door D can be unlocked is determined based on the ID information.
The determination of the reception level performed by the receiver control unit 223 and the adjustment of the transmission level of ID information performed by the transmitter control unit 213 are the same as in the first embodiment.

As described above, the room entry management system 201 of the present embodiment can obtain the same effects as those of the first embodiment.
Moreover, since the non-contact-type communication module which communicates by electromagnetic induction is used for communication of ID information transmission part 211 and ID information reception part 221, for example, the existing communication equipment of an IC card and a reader / writer is used. It can be utilized, and the entrance management system 201 can be configured at low cost.

(Third embodiment)
Next, a third embodiment of the present invention will be described.
FIG. 7 is a diagram illustrating an overall configuration of a communication system 301 according to the third embodiment.
FIG. 8 is a block diagram of a communication system 301 according to the third embodiment.
Note that, in the following description and drawings, the same reference numerals or the same reference numerals are given to the portions that perform the same functions as those in the first embodiment described above, and overlapping descriptions will be omitted as appropriate.

As shown in FIG. 7, the communication system 301 is a system that can communicate personal information with each other by shaking hands.
The communication system 301 includes information terminals 310 and 310-2 (security transmitter and security receiver). In the communication system 301, a user A carrying the information terminal 310 and a user B carrying the information terminal 310-2 shake hands, so that each other's name, company name, department name, telephone number, etc. Can be exchanged by communicating personal information (security information) recorded.
In the present embodiment, the communication system 301 is described as an example configured with two information terminals 310 and 310-2, but may be configured with three or more information terminals.

Hereinafter, although the information terminal 310 will be described, the same applies to the configuration of the information terminal 310-2 and the like.
As shown in FIG. 8, the information terminal 310 includes a personal information transmission / reception unit 311, a terminal communication unit 312 (transmitter communication unit, receiver communication unit), a terminal control unit 313 (transmitter control unit, receiver control unit), A terminal storage unit 314, a power source 315, a display unit 316, and the like are provided. In the present embodiment, the information terminals 310 and 310-2 are examples of dedicated devices for transmitting and receiving personal information. However, a mobile communication terminal such as a mobile phone has the above-described configuration of the information terminal 310. It is also possible to make it.

The personal information transmission / reception unit 311 includes a personal information transmission unit 311a (security information transmission unit) for transmitting personal information and a personal information reception unit 311b (security information reception unit) for receiving personal information.
The personal information transmission unit 311a is a communication module that transmits the personal information of the user A stored in the terminal storage unit 314 to the information terminal 310-2 of the user B and the like. The personal information transmitting unit 311a communicates with the personal information receiving unit 311b-2 of the information terminal 310-2 of the user B through human body communication that transmits information through an electric field interposed in the human body.
The personal information receiving unit 311b is a communication module that receives the personal information of the user B from the personal information transmitting unit 311a-2 or the like by human body communication.

The terminal communication unit 312 is an existing wireless communication module that performs bidirectional communication with the terminal communication unit 312-2 of the information terminal 310-2 of the user B. The terminal communication unit 312 transmits / receives a transmission confirmation signal, personal information reception level information, and the like to / from the user B information terminal 310-2.
The communication distance between the terminal communication unit 312 and the terminal communication unit 312-2 is, for example, in the range of several meters, between the above-described personal information transmission unit 311a and personal information reception unit 311b-2, or the personal information reception unit 311b. And the communication distance is longer than the communication between personal information transmission part 311a-2, and a transmission level is strong. Therefore, the communication between the terminal communication unit 312 and the terminal communication unit 312-2 is not easily affected by noise, but there is a possibility that the communication information is illegally read. Therefore, in the communication system 301, communication between the terminal communication units 312, 312-2 mainly targets transmission / reception of information that does not cause a problem even if the transmission confirmation signal as described above is illegally read.

The terminal control unit 313 is a control circuit that performs overall control of each unit of the information terminal 310, and includes, for example, a CPU (Central Processing Unit). The terminal control unit 313 implements various functions according to the present invention in cooperation with each unit of the information terminal 310 described above by appropriately reading and executing various programs stored in the terminal storage unit 314.
Also, the terminal control unit 313 adjusts the transmission level of the personal information transmitted from the personal information transmission unit 311a based on the information on the reception level of the personal information received from the information terminal 310-2 of the user B.

The terminal storage unit 314 is a storage device such as a hard disk or a semiconductor memory element for storing programs, information, and the like necessary for the operation of the information terminal 310. The terminal storage unit 314 stores user A's personal information.
Further, the terminal storage unit 314 can store the personal information of the user B received from the information terminal 310-2 of the user B.
The power source 315 is a power supply source for driving the information terminal 310, and is composed of, for example, a rechargeable battery.
The display unit 316 is a liquid crystal display that displays operation information of the information terminal 310 and personal information of the user B received from the information terminal 310-2 of the user B.

Next, the operation of the communication system 301 will be described. Here, this embodiment demonstrates the case where the information terminal 310 and the information terminal 310-2 communicate.
Based on the operation from the operation unit (not shown) of the user A, the terminal control unit 313 of the information terminal 310 generates a weak electric field from the electrode provided in the personal information transmission / reception unit 311 to the surface of the user A's human body. Induce.
Similarly, based on an operation from the operation unit (not shown) of the user B, the terminal control unit 313-2 of the information terminal 310-2 receives the user B from the electrode provided in the personal information transmission / reception unit 311-2. Induces a weak electric field on the surface of the human body.

When the user A and the user B meet and shake hands with each other, the personal information transmitting unit 311a communicates with the personal information receiving unit 311b-2 through the electric field induced in the human bodies of the user A and the user B. It becomes possible. Similarly, the personal information transmitting unit 311a-2 can communicate with the personal information receiving unit 311b through the electric field induced in the human bodies of the user A and the user B.
At this time, the terminal control unit 313 reads the personal information of the user A from the terminal storage unit 314 and transmits it from the personal information transmission unit 311a to the information terminal 310-2 of the user B.
Similarly, the terminal control unit 313-2 reads the personal information of the user B from the terminal storage unit 314-2, and transmits the personal information to the information terminal 310 of the user A from the personal information transmission unit 311a-2.
Here, the terminal control units 313 and 313-2 regularly send (polling) inquiry signals from the individual information transmission units 311a and 311a-2, and the user A and the user B shake hands. When each of the personal information receiving units 311b and 311b-2 receives the inquiry signal, transmission / reception of personal information is started.

When the terminal control unit 313 determines the reception level of the received personal information of the user B and determines that it can be read (see FIG. 4B, S105 in FIG. 3: Yes), the terminal control unit 313 stores the personal information. And stored in the terminal storage unit 314 and displayed on the display unit 316.
On the other hand, when the reception level is confirmed and determined to be unreadable (FIG. 4C, refer to S105 in FIG. 3), the terminal control unit 313 receives the reception level information from the terminal communication unit 312. It transmits to the information terminal 310-2 (refer S106 of FIG. 3).

Similarly, when the terminal control unit 313-2 determines the reception level of the received personal information of the user A and determines that the personal information can be read (see FIG. 4B, S105: Yes in FIG. 3). The personal information is stored in the terminal storage unit 314-2 and displayed on the display unit 316-2.
On the other hand, when it is determined that reading is impossible by checking the reception level (see FIG. 4C, S105 in FIG. 3), the terminal control unit 313-2 displays the reception level information as a terminal communication unit. The information is transmitted from 312-2 to the information terminal 310 (see S106 in FIG. 3).

When receiving the reception level information from the information terminal 310-2, the terminal control unit 313 adjusts the transmission level of the personal information (see FIG. 4D and S107 in FIG. 3), and uses the personal information again. To the information terminal 310-2 of the person B.
Similarly, when receiving the reception level information from the information terminal 310, the terminal control unit 313-2 adjusts the transmission level of the personal information (see FIG. 4 (d), S107 in FIG. 3), and again the personal information Information is transmitted to the information terminal 310 of the user A.
Here, the details of the determination of the reception level and the adjustment of the transmission level of personal information performed by each of the terminal control units 313 and 313-2 are described in the determination of the reception level of the first embodiment and the transmission level of ID information. It is the same as the adjustment.

As described above, the communication system 301 of the present embodiment can obtain the same effects as those of the first embodiment using the information terminals 310 and 310-2.
In addition, since the communication system 301 uses human body communication, the user does not need to perform complicated business card exchange, which is convenient.

  Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications and changes can be made as in the modifications described later, and these are also included in the present invention. Within the technical scope. In addition, the effects described in the embodiments are merely a list of the most preferable effects resulting from the present invention, and the effects of the present invention are not limited to those described in the embodiments. It should be noted that the above-described embodiment and modifications described later can be used in appropriate combination, but detailed description thereof is omitted.

(Deformation)
(1) In each embodiment, the receiver control unit 23 transmits reception level information when the ID information cannot be read due to noise, and the transmitter control unit 13 increases the transmission level of the ID information. However, the present invention is not limited to this. For example, when the transmission level of the ID information received from the ID transmitter is stronger than necessary, the receiver control unit transmits the reception level information to the ID transmitter, and the transmitter control unit receives the received reception level information. It is also possible to adjust the transmission level of the ID information to be weak based on the above. By doing so, unauthorized reading of ID information by a third party due to the transmission level of ID information being too strong can be prevented.

(2) In 1st Embodiment and 2nd Embodiment, although the communication system showed the example which is the entrance management system 1, it is not limited to this. For example, by having an amusement park attendant carry an ID transmitter and installing an ID receiver at the entrance of an amusement park attraction, the use of the attendees can be managed, or an event can be provided for each visitor. It is also possible.
In addition, an ID transmitter can be carried by a person who plans to board an airplane in the airport, and an ID receiver is installed at each location in the airport, so that the boarding person can be notified of the boarding start time, etc. It is also possible to guide the mouth.
Furthermore, it is possible to manage the use of the multifunction device by the employee by having the employee carry the ID transmitter in the office and installing the ID receiver in the multifunction device in the office.

(3) In each embodiment, the example in which the transmission level of the ID information is set in three stages is shown, but the present invention is not limited to this. For example, the transmission level of ID information may be set in two stages or four or more stages. Further, instead of setting the transmission level stepwise, the transmitter control unit 13 may adjust the ID information to an appropriate transmission level steplessly based on the received reception level information.
(4) In the second embodiment, the ID information transmitting unit 211 and the ID information receiving unit 221 have shown an example in which ID information is communicated by electromagnetic induction. However, the present invention is not limited to this. For example, the ID information transmitting unit 211 and the ID information receiving unit 221 may communicate ID information by electromagnetic coupling or radio waves (UHF band or the like).

1, 201: Room entry management system 10, 210: ID transmitter 11, 211: ID information transmission unit 12, 212: Transmitter communication unit 13, 213: Transmitter control unit 20, 220: ID receiver 21, 221: ID Information receiving unit 22, 222: Receiver communication unit 23, 223: Receiver control unit 30, 230: Door lock management unit 301: Communication system 310, 310-2: Information terminal 311a, 311a-2: Personal information transmission unit 311b 311b-2: Personal information receiving unit 312, 312-2: Terminal communication unit 313, 313-2: Terminal control unit

Claims (6)

A communication system comprising a security transmitter for transmitting security information and a security receiver for receiving the security information from the security transmitter,
The security transmitter is
A security information transmitter for transmitting the security information to the security receiver by contact communication or non-contact communication;
A transmitter communication unit for wirelessly receiving information on the reception level of the security information from the security receiver;
A transmitter control unit that controls the security information transmission unit and the transmitter communication unit;
The security receiver
A security information receiving unit that receives the security information transmitted from the security transmitter by contact communication or non-contact communication;
A receiver communication unit for wirelessly transmitting the reception level information to the security transmitter;
A receiver control unit for controlling the security information receiving unit and the receiver communication unit,
The communication distance between the security information transmission unit and the security information reception unit is shorter than the communication distance between the transmitter communication unit and the receiver communication unit,
The receiver controller is
Determining the reception level of the security information received from the security transmitter, and transmitting the reception level information from the receiver communication unit to the security transmitter;
The transmitter controller is
Adjusting the transmission level of the security information based on the reception level information received from the security receiver and transmitting the security information to the security receiver;
A communication system characterized by the above. The communication system according to claim 1,
The transmitter controller is
A transmission confirmation signal indicating that the security information has been transmitted from the security information transmission unit is transmitted from the transmitter communication unit to the security receiver,
The receiver controller is
Determining the reception level of the security information when the transmission confirmation signal is received from the security transmitter;
A communication system characterized by the above. The communication system according to claim 1 or claim 2,
The communication between the security information transmitting unit and the security information receiving unit is human body communication performed through an electric field interposed in the human body,
A communication system characterized by the above. The communication system according to claim 1 or claim 2,
The communication between the security information transmitting unit and the security information receiving unit is communication performed by electromagnetic induction or electromagnetic coupling,
A communication system characterized by the above. A security transmitter that transmits security information to a security receiver,
A security information transmitter for transmitting the security information to the security receiver by contact communication or non-contact communication;
A transmitter communication unit for wirelessly receiving information on the reception level of the security information from the security receiver;
A transmitter control unit that controls the security information transmission unit and the transmitter communication unit;
The communication distance between the security information transmission unit and the security receiver is shorter than the communication distance between the transmitter communication unit and the security receiver,
The transmitter controller is
Adjusting the transmission level of the security information based on the reception level information received from the security receiver and transmitting the security information to the security receiver;
Security transmitter characterized by. A security receiver that receives security information from a security transmitter,
A security information receiving unit that receives the security information transmitted from the security transmitter by contact communication or non-contact communication;
A receiver communication unit for wirelessly transmitting information on the reception level of the security information to the security transmitter;
A receiver control unit for controlling the security information receiving unit and the receiver communication unit,
The communication distance between the security information receiver and the security transmitter is shorter than the communication distance between the receiver communication unit and the security transmitter,
The receiver controller is
Determining the reception level of the security information received from the security transmitter, and transmitting the reception level information from the receiver communication unit to the security transmitter;
Security receiver characterized by.

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