JP2006157672A - Mobile machine, server device, and call origination control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a mobile machine of a call origination source to easily and accurately determine whether or not a call can be originated by estimating the status of a call origination destination before call origination. <P>SOLUTION: A mobile machine 10 transmits, at fixed intervals, a sensor value representing the status of the mobile machine 10 that is a call origination destination, to a subscriber server 20. In the subscriber server 20, sensor values transmitted from the mobile machine 10 are sequentially held and compared with a threshold. A result of the comparison is transmitted to a mobile machine 30 that is a call origination source and in the mobile machine 30, whether or not a call can be originated to the mobile machine 10 is determined on the basis of the result of comparison. Only when it is determined that a call can be originated, the mobile machine 30 originates a call to the mobile machine 10. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technique for controlling transmission from a mobile device such as a mobile phone to another mobile device.

2. Description of the Related Art Conventionally, there has been proposed a technique for rejecting an incoming call or preventing a call at the time of an incoming call at a destination telephone. For example, Patent Document 1 discloses a selective incoming call control method described below. The master phone device receives the illuminance value measured by the slave phone device, and if the illuminance value is below the threshold, even if there is an incoming call addressed to the slave phone device, The handset telephone device is not selected. As a result, calling of the user of the handset phone device while sleeping is prevented.
JP-A-6-152737

  However, the above-described conventional technique is unilateral control based on the presetting on the destination telephone side or the state at the time of incoming call. For this reason, if the callee's phone refuses incoming calls (or calls), the caller's phone must communicate with the callee's phone regardless of the necessity or urgency of the call. I can't. Even if communication is not possible, it is convenient for the caller to know the status of the caller's phone, but the user of the caller's phone is in what state the caller is in. It is also impossible to obtain information such as why the incoming call is rejected.

  Thus, an object of the present invention is to enable a mobile station as a transmission source to easily and accurately determine whether or not a call can be made by estimating a state of a transmission destination before making a call.

  The mobile device according to the present invention includes an acquisition unit that acquires a comparison result (part of sensor information) between a sensor value detected by a destination mobile device and a threshold value, and a comparison result acquired by the acquisition unit. A determination unit that determines whether or not transmission to the destination mobile device is possible; and a transmission unit that performs transmission to the destination mobile device when the determination unit determines that transmission is possible.

  Here, the comparison result used to determine whether or not to make a call may be the result of comparison processing performed by the mobile device itself, or may be addressed to the mobile device from a device other than the mobile device (for example, an external terminal device). It may be a comparison result transmitted to.

  According to the present invention, whether to make a call to the mobile device is determined according to the level of the sensor value detected by the mobile device that is the destination of the mobile device. That is, the mobile device according to the present invention is assumed to be not sleeping because the user is located in a bright place when the illuminance value around the mobile device of the transmission destination is high. Allow outgoing calls to the machine. On the other hand, when the vibration value of the destination mobile device is high, it is estimated that the mobile device is moving, so that the transmission to the mobile device is rejected. In this way, transmission control reflecting the situation around the mobile device and the state of the mobile device is realized without requiring any operation or judgment by the user. As a result, it becomes possible for the mobile station of the transmission source to estimate the state of the transmission destination before the transmission, and to easily and accurately determine whether the transmission is possible.

  Preferably, in the mobile device according to the present invention, based on the comparison result acquired by the acquisition unit, a determination unit that determines presentation information regarding the destination, and a presentation unit that presents the presentation information determined by the determination unit And further comprising.

  According to the present invention, the content of the information presented to the user of the mobile device is variably determined according to the level of the sensor value detected by the mobile device that is the transmission destination from the mobile device. The determined presentation information is presented to the user. For example, if the pressure value as the sensor value is higher than the threshold value, it can be assumed that the destination mobile device is being gripped, so the information indicating that it is “held” is presented to the mobile device side. . In addition, when the volume value as the sensor value is lower than the threshold value, it is assumed that the user of the mobile device is sleeping because the periphery of the mobile device of the transmission destination is quiet. Is presented to the mobile device. Thereby, the caller can grasp the state of the call destination simply and quickly at the stage before the call.

  Although the text data is exemplified as the presentation information for notifying the destination state, the present invention is not limited to this and may be image data. Moreover, not only these display data but sound data, a vibration pattern, etc. may be sufficient. Furthermore, it is good also as what notifies the state of a transmission destination by luminescent color or a luminescent pattern.

  The server device according to the present invention is a server device capable of communicating with the above-described mobile device, and a comparison unit that compares a sensor value detected by the destination mobile device with a threshold value and a comparison by the comparison unit And a transmission means for transmitting the result to the mobile device of the transmission source together with the sensor type (part of sensor information) of the sensor value.

  In the present invention, in view of the fact that a mobile device generally has a lower processing capacity than a server device or the like, the server device performs a comparison process between a sensor value and a threshold value in order to reduce the processing amount of the mobile device. Shall. According to the present invention, first, a sensor value acquired by a destination mobile device is compared with a threshold value suitable for a sensor type in a server device. Then, the comparison result is transmitted to the source mobile device together with the sensor type. As a result, the source mobile device can perform a transmission or non-transmission operation according to the received sensor type and the comparison result. Even when a plurality of types of sensor values are transmitted from the destination mobile device, the source mobile device can identify them based on the sensor type. Therefore, it is possible to accurately estimate the state of the transmission destination and accurately reflect it in the determination of whether or not transmission is possible.

  The transmission control method according to the present invention includes a comparison step in which a server device capable of communicating with a mobile device compares a sensor value detected by a mobile device as a transmission destination with a threshold value, and a comparison result in the comparison step. A transmission step for transmitting to the mobile device of the transmission source together with the sensor type of the sensor value, and a reception step for receiving the comparison result transmitted in the transmission step by the transmission source mobile device together with the sensor type, Based on the comparison result received in the reception step and the sensor type, a determination step for determining whether or not transmission is possible for the destination mobile device, and when it is determined that transmission is possible in the determination step, A transmission step of performing transmission to the destination mobile device.

  According to the present invention, the comparison result between the sensor value and the threshold value and the sensor type obtained in the server device are received by the source mobile device. Thereafter, whether or not transmission is possible is determined based on the comparison result and the sensor type in the source mobile device. Then, only when it is determined that transmission is possible, the transmission process for the destination mobile device is executed. The sensor value is information indicating the state of the destination. Therefore, the determination as to whether or not the calling process is executed is made based on the estimated state of the destination. Thus, it is possible to perform control such as avoiding outgoing calls when the destination is not suitable for incoming calls, and executing outgoing calls when the destination is ready to receive incoming calls.

  According to the present invention, since the source mobile device can estimate the state of the destination before the transmission, it is possible to easily and accurately determine whether or not the transmission is possible.

  Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings for illustration. First, the configuration of the call control system 1 in the present embodiment will be described. As shown in FIG. 1, the call control system 1 includes a mobile device 10 (corresponding to a mobile device that is a call destination) that is a call destination, a subscriber server 20, and a mobile device 30 that is a call source (mobile device). Corresponding to). The mobile device 10 and the mobile device 30 can perform data communication and voice communication via the base stations B1 and B2 and the mobile communication network N. Further, the subscriber server 20 can communicate with the mobile device 10 via the mobile communication network N and the base station B1, and with the mobile device 30 via the mobile communication network N and the base station B2. It is connected to the.

Hereinafter, each component of the call control system 1 will be described in detail.
The mobile device 10 includes a sensor 11 and a sensor value transmission unit 12. These units are connected via a bus. The sensor 11 detects a physical quantity to be measured such as illuminance, vibration, pressure, sound, temperature, and sweating by a well-known and commonly used technique, digitizes the detection result, and outputs it to the sensor value transmission unit 12. The sensor value transmission unit 12 transmits the numerical value input from the sensor 11 as a sensor value to the subscriber server 20 together with the sensor type.

Sensing is performed at regular intervals (for example, every 5 to 10 seconds), and sensor values are sequentially transmitted to the subscriber server 20. The sensing interval can be changed according to the state of the mobile device 10 such as every 10 to 30 minutes during standby and every second during a call. The sensor value has a data structure such as “illuminance 15 lux, pressure 2 kg / cm ² ”, for example.

  The subscriber server 20 includes a threshold storage unit 21, a transmission / reception unit 22 (corresponding to a transmission unit), and a sensor value comparison unit 23 (corresponding to a comparison unit) as functional components. These units are connected via a bus.

  The threshold storage unit 21 includes a threshold table 211 and a difference threshold table 212. The threshold value table 211 stores a threshold value serving as an index for determining whether a comment to be presented or whether a call is allowed or not for each sensor type. An example of data storage in the threshold table 211 is shown in FIG. For example, “30 lux” is set as the threshold value for the sensor type “illuminance”, and information indicating that “1 is returned if the difference from the current sensor value is positive” is stored as the threshold usage. Hereinafter, the threshold value and how to use it are also set in advance for the sensor types of “vibration, pressure, sound, temperature”.

In the difference threshold value table 212, threshold values relating to differences between the current sensor value (hereinafter referred to as “current value”) and the previous sensor value (hereinafter referred to as “previous value”) are stored for each sensor type. ing. An example of data storage in the difference threshold table 212 is shown in FIG. For example, “0.8 kg / cm ² ” is set as the threshold value for the sensor type of “pressure”, and information indicating that “0 is returned if the difference from the previous sensor value is positive” is stored as the threshold usage. ing. In addition, “20 dB” is set as the threshold value for the sensor type of “sound”, and information that “1 is returned if the difference between the current sensor value and the previous sensor value is equal to or greater than the threshold value” is stored. ing. Furthermore, “0.2 ° C.” is set as the threshold value for the sensor type of “temperature”, and information “0” is stored as the usage, if the difference between the current sensor value and the previous sensor value is equal to or greater than the threshold value. Has been.

  When receiving the sensor value transmitted from the mobile device 10 via the base station B1 and the mobile communication network N, the transmission / reception unit 22 outputs the sensor value to the sensor value comparison unit 23 at the subsequent stage. In addition, when the transmission / reception unit 22 receives a call instruction from the mobile device 30, the transmission / reception unit 22 returns information for determining whether or not the call can be made to the mobile device 30 as sensor information. Although details will be described later in the description of the operation, the sensor information includes, for example, a sensor type and a comparison result with a threshold value or a difference threshold value.

  The sensor value comparison unit 23 compares the sensor value received by the transmission / reception unit 22 with the threshold value stored in the threshold value storage unit 21 and holds the comparison result. Since the sensor value is transmitted from the mobile device 10 at regular intervals, the comparison result is sequentially updated each time the sensor value is received. The updated comparison result is transmitted to the mobile device 30 together with the sensor type in response to a call instruction from the mobile device 30.

  The mobile device 30 includes, as functional components, a transmission / reception unit 31 (corresponding to an acquisition unit and a transmission unit), a comment storage unit 32, a comment determination unit 33 (corresponding to a determination unit), and a comment display unit 34 (corresponding to a presentation unit). ), A call availability determination table 35, and a call availability determination unit 36 (corresponding to the determination means). These units are connected via a bus. The mobile device 30 is, for example, a mobile phone or a PHS (Personal Handyphone System), but may be any portable terminal having a communication function.

  The transmission / reception unit 31 transmits a call instruction signal to the subscriber server 20 in accordance with an instruction operation by the user of the mobile device 30. When the transmission / reception unit 31 receives the sensor information transmitted from the subscriber server 20 in response to the call instruction, the transmission / reception unit 31 outputs the sensor information to the comment determination unit 33 and the call availability determination unit 36. If it is determined that the normal call is possible, a call signal is transmitted to the mobile device 10 via the subscriber server 20.

  As shown in FIGS. 3A and 3B, comments (corresponding to the presentation information) corresponding to the comparison result with the threshold value or the difference threshold value are registered in advance in the comment storage unit 32 for each sensor type. ing. For convenience of explanation, the comparison result with the threshold value and the comparison result with the difference threshold value are individually illustrated, but both of these comparison results are stored in the comment storage unit 32 constituted by one memory. Priorities from 1 to 8 are set for the displayed comments.

  For example, when the sensor type is “illuminance” and the comparison result with the threshold value is “0”, it can be estimated that the illuminance is low, that is, the surrounding area of the calling mobile device is dark. Contains a comment “sleeping”. Similarly, when the sensor type is “sound” and the comparison result with the threshold value is “0”, it can be estimated that the area around the calling mobile device is quiet. The comment “sleeping” is stored. Furthermore, if the sensor type is “pressure” and the difference between the current value and the previous value is greater than or equal to the difference threshold value, it can be assumed that the change in the weighted pressure for the calling mobile device is large. In the area, a comment “squeezed tightly (speaker displeased?)” Is stored. Note that the contents of the stored comments can be changed as appropriate.

  The comment determination unit 33 determines a comment to be displayed based on the sensor information received by the transmission / reception unit 31. When the comment is determined, the comment storage unit 32 is referred to. The comment determination unit 33 collates each data of the received sensor information, the sensor type, and the comparison result in ascending order of priority, and determines a corresponding comment as a display comment when both data match. For example, it is assumed that the received sensor information is composed of a comparison result “0” between the sensor type “sound” and a threshold value. In this case, although the sensor type “sound” is set as the first priority, the comparison result “1” with the difference threshold value is set as the comparison result, and thus the sensor information does not match. For this reason, “out of the back” is not selected as a comment, but “sleeping” is selected as a comment corresponding to the fourth priority.

  The comment display unit 34 displays the comment determined by the comment determination unit 33. Thereby, the state of the call destination is notified to the user of the mobile device 30.

  In the call availability determination table 35, an operation to be performed by the mobile device 30 in accordance with a comparison result with a threshold value or a difference threshold value is registered in advance. The actions are registered for each priority order, and the actions to be taken, and thus whether or not to make a call, are determined in accordance with the determination of the priority order and the comparison result. FIG. 4 shows an example of data storage inside the call availability determination table 35. “Normal call” processing is registered as an operation corresponding to call origination, and “End call” processing and connection processing to “answering machine” are registered as operations corresponding to call disapproval. Yes.

  The call availability determination unit 36 uses the sensor information received by the transmission / reception unit 31 to make a call availability determination with reference to the call availability determination table 35. That is, the call availability determination unit 36 acquires the priority information of the displayed comment from the comment determination unit 33, and specifies the operation based on the priority and the comparison result included in the sensor information. For example, when “moving” corresponding to the priority “5” is displayed, the comparison result with the threshold value is “0”, and the connection to the “answering machine” corresponding thereto is the operation. Selected. Further, when “angry (speaker is displeased?)” Corresponding to the priority “8” is displayed, the comparison result with the difference threshold is “0”. “End Call” is selected as the action.

Next, with reference to FIG. 5, the operation of the call control system 1 according to the present embodiment and each step constituting the call control method according to the present invention will be described.
First, in S <b> 1, in the mobile device 10, illuminance and pressure are sensed as a call destination state by the sensor 11.
The sensor values obtained by the mobile device 10 are transmitted at regular intervals via the base station B1 and the mobile communication network N, with the subscriber server 20 as the destination (S2).

  When the subscriber server 20 receives the sensor value, the subscriber server 20 compares the sensor value with the threshold with reference to the threshold storage unit 21 and holds the numerical value (0 or 1) obtained by the comparison in combination with the sensor type ( S3). At this time, the above numerical value is held as a comparison result, but this value may be a comparison result between the current value and the threshold value, or a comparison result between the difference between the current value and the previous value and the difference threshold value. May be.

  Here, FIG. 6 shows an example of the sensor information held in S3. FIG. 6 is a diagram for explaining the data structure of the sensor information D1 related to the mobile device 10. As shown in FIG. As shown in FIG. 6, the sensor information D1 includes a comparison result acquired in accordance with a predetermined rule (see FIGS. 2A and 2B). The sensor type is recorded in association with the comparison result obtained from the sensor value of that type. Referring to FIG. 6 again, regarding the “illuminance” sensor type, it is assumed that the current value is 15 lux and the previous value is 12 lux. Since the difference from the threshold value of 30 lux is a negative value from 15-30 = -15, this corresponds to the case where the difference from the current value is negative. Therefore, according to the rule “1 if the difference from the current sensor value is positive”, “0” is recorded as the comparison result with the threshold value. Regarding the illuminance, since the difference threshold is not set in the difference threshold table 212, the “comparison result with the difference threshold” area is blank.

The comparison result is similarly recorded regarding the pressure. That is, since the current value is 2 kg / cm ^2, the difference between the threshold 0.3 kg / cm ² is positive (2-0.3 = + 1.7). Therefore, “1” is recorded as a result of comparison with the threshold according to the rule “1 if the difference from the current sensor value is positive”. In addition, since the difference between the current sensor value and the previous sensor value is 1 kg / cm ² , according to the rule “0 if the difference from the previous sensor value is positive”, the comparison result with the difference threshold is “0”. To be recorded. In this way, the subscriber server 20 can more accurately estimate the state of the call destination by reflecting not only the current value at the call destination but also the change over time of the sensor value in the sensor information. To do.

  The subscriber server 20 waits for a call instruction signal after holding the sensor information. When the subscriber server 20 detects the reception of the call instruction signal (S4), the subscriber server 20 specifies the transmission source and the call destination, and returns the call destination sensor information to the transmission source (S5). This sensor information includes at least a comparison result with the above-described sensor type and threshold (or difference threshold) regarding the transmission source (mobile device 30 in the present embodiment). The sensor information reaches the mobile device 30 via the base station B2 and the mobile communication network N.

  In S6, the mobile device 30 that has received the sensor information refers to the comment storage unit 32 by the comment determination unit 33 and determines a comment to be displayed. As the process, first, when receiving the sensor information D1 illustrated in FIG. 6, the mobile device 30 searches the comment storage unit 32 for a combination of the sensor type and the comparison result included in the sensor information D1. In the present embodiment, the combination of the sensor type “illuminance” and the comparison result “0” of the threshold exists in the data string of the priority “2” in the comment storage unit 32 shown in FIG. The combination of the sensor type “pressure” and the comparison result “1” of the threshold value also exists in the data string of the priority “6”. Further, the combination of the sensor type “pressure” and the comparison result “0” of the difference threshold exists in the data string of the priority “3” in the comment storage unit 32 shown in FIG.

  After the search, the comment determination unit 33 determines, as a comment to be displayed, a comment of the data string set with higher priority among the data strings that match the combination of the sensor type and the comparison result. As described above, since the priority “2” is the highest for the sensor information D1, the corresponding comment “sleeping” is selected as the display comment and displayed on the display unit 34.

  Here, the sensor type used when selecting a comment has the highest priority. However, the present invention is not limited to this, and a plurality of sensor types may be used in combination. As an example of such an embodiment, Illuminance, 2. Sound, 3. Vibration, 4. Pressure, 5. 5. Temperature (body temperature, room temperature, air temperature), 6. UV, Human feeling (human figure, shadow), 8. Sweat, 9; Opening and closing operation, 10. Humidity, 11. Assume a case where a total of 11 types of sensors are registered in the subscriber server 20.

  For example, when the sensor values corresponding to the types 1 to 4 and 11 satisfy the threshold condition, the comment “sleeping” is selected, and the sensors corresponding to the types 1, 5, and 6 are selected. If the value satisfies the threshold condition, a comment “in the room” or “out of office” is selected. Further, when the sensor values corresponding to the types 4 and 8 satisfy the threshold condition, the comment “tension state” is selected, and the sensor values corresponding to the types 3, 9, and 11 are the threshold conditions. If the condition is satisfied, a comment “Left state (not used)” is selected.

  Such an aspect can also be applied during a call by a mobile device. For example, when the sensor values corresponding to the types 4 and 8 satisfy the threshold condition during a call, the subscriber server 20 detects the tension state of the mobile device 10 and the mobile device 30 that is the transmission source. Vibrate. This informs the caller of the tension state of the callee. Alternatively, when the sensor values corresponding to the types 5 and 6 satisfy the threshold conditions during a call, the subscriber server 20 senses changes in the temperature and the amount of ultraviolet rays around the mobile device 10, and the mobile device This is indicated in color through 30. As described above, by using a plurality of detection results, it is possible to grasp a complex situation at the transmission destination, and as a result, it is possible to select a more appropriate comment.

  In S <b> 7, the mobile device 30 determines the operation of the mobile device 30 with reference to the call availability determination table unit 35 by the call availability determination unit 36. For example, when the sensor information D1 is received in S5, the comment having the priority “2” and the comparison result with the threshold “0” is selected. The operation corresponding to “0”) is selected. Referring to FIG. 4 again, the operation corresponding to the priority “2” and the comparison result “0” is “answering machine”. Accordingly, “answering machine” is selected as the operation of the mobile device 30.

  In S8, whether or not a normal call is possible is determined according to the operation selected in S7. That is, when the normal call is selected as the operation content, it is determined that the normal call is possible (S8; YES), and the mobile device 30 transmits a call signal addressed to the mobile device 10 (S9). ). On the other hand, when other than normal calling (calling end or answering machine) is selected as the operation content, it is determined that normal calling is impossible (S8; NO). Then, the mobile device 30 performs an operation corresponding to the selected operation content such as terminating the calling process or connecting to the answering machine (S10).

As described above, according to the call control system 1, the sensor value of the mobile device 10 indicating the state of the call destination is periodically transmitted and stored in the subscriber server 20. When the subscriber server 20 receives a call instruction from the mobile device 30, the subscriber server 20 transmits the comparison result between the sensor value and the threshold value to the mobile device 30 together with the sensor type. The mobile device 30 applies these pieces of information (sensor information) to the determination criteria set for the mobile device 30 to determine a presentation comment and control outgoing calls. Therefore, the caller's mobile device (mobile device 30) can easily grasp the state of the callee before making a call, and appropriately determines whether to make a call according to the state. It can be carried out. As a result, when the other party is expected to be sleeping or sick, it will not be called until it is unsuitable to call or when it cannot answer even if it is called. The convenience of both callees is improved.
Further, according to the present system, the call determination process for the outgoing call is performed by the mobile device 30. For this reason, it is not necessary for the subscriber server 20 to manage the setting file for permission / inhibition determination, and the load on the network side is also reduced.

In addition, this invention is not limited to embodiment mentioned above, In the range which does not deviate from the meaning, it can also take a deformation | transformation aspect suitably.
For example, in the above embodiment, the subscriber server 20 holds the threshold value and the difference threshold value, and transmits the comparison result with these threshold values to the mobile device 30 together with the sensor type (in other words, the sensor value itself). ) Is not used. According to this aspect, not only the difference value between the sensor value and the previous sensor value but also the comparison result with the threshold value or the difference threshold value can be accumulated on the subscriber server 20. Therefore, a third party such as a content service provider can use the information by accessing the subscriber server 20.

  However, the present invention is not limited thereto, and the subscriber server 20 may transmit the difference between the sensor value itself and the previous sensor value to the mobile device 30 without performing comparison with the threshold value. On the mobile device 30 side, the current sensor value is compared based on the threshold value held by the own device, and the difference from the previous sensor value is compared based on the difference threshold value held by the own device. It may be a thing. According to such an aspect, while the data capacity to be held in the mobile device 30 increases, the effect that the processing load on the subscriber server 20 is reduced can be expected.

  Further, in the above-described embodiment, the state notification function has been described in which a call is assumed and a call to the mobile device 10 is triggered. However, the present invention is of course applicable not only to a call but also to data communication. It is. In this aspect, a sensor information request signal is transmitted from the mobile device 30 to the mobile device 10 instead of the call signal in S9 of FIG. Then, the mobile device 30 receives the sensor information via the subscriber server 20 and performs function control according to the sensor information.

It is a block diagram which shows the functional structure of the call control system in one embodiment of this invention. FIG. 2A is a threshold value table storing threshold values for each sensor type. FIG. 2B is a difference threshold table in which a difference threshold for each sensor type is stored. FIG. 3A is a diagram illustrating an example of a comment stored in the comment storage unit corresponding to the comparison result with the threshold value. FIG. 3B is a diagram showing an example of a comment stored corresponding to the comparison result with the difference threshold. It is a figure which shows the example of a data storage inside a call availability determination table. It is a flowchart for demonstrating operation | movement of a call control system. It is a figure which shows an example of the sensor information transmitted / received between a subscriber server and a transmission origin mobile device.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Call control system, 10 ... Mobile device, 11 ... Sensor, 12 ... Sensor value transmission part, 20 ... Subscriber server, 21 ... Threshold storage part, 22 ... Transmission / reception part, 23 ... Sensor value comparison part, 30 ... Movement 31 ... transmission / reception unit, 32 ... comment storage unit, 33 ... comment determination unit, 34 ... comment display unit, 35 ... call availability determination table, 36 ... call availability determination unit, B1, B2 ... base station, N ... Mobile communication network

Claims (4)

An acquisition means for acquiring a comparison result between a sensor value detected by a destination mobile device and a threshold;
Based on the comparison result acquired by the acquisition unit, a determination unit that determines whether or not transmission to the destination mobile device is possible;
A mobile unit comprising: a transmission unit configured to perform transmission to the destination mobile unit when the determination unit determines that transmission is possible. A determination unit that determines presentation information related to the destination based on the comparison result acquired by the acquisition unit;
The mobile device according to claim 1, further comprising a presentation unit that presents the presentation information determined by the determination unit. A server device capable of communicating with the mobile device according to claim 1,
Comparing means for comparing the sensor value detected by the destination mobile device with a threshold value;
A server apparatus comprising: a transmission unit configured to transmit a comparison result by the comparison unit together with a sensor type of the sensor value to a source mobile device. A server device that can communicate with the mobile device
A comparison step of comparing the sensor value detected by the destination mobile device with a threshold;
The comparison result in the comparison step is transmitted together with the sensor type of the sensor value to the transmission source mobile device, and
The source mobile device is
A reception step of receiving the comparison result transmitted in the transmission step together with the sensor type;
A determination step of determining whether or not transmission is possible for the destination mobile device based on the comparison result received in the reception step and the sensor type;
A transmission control method comprising: a transmission step of performing transmission to the destination mobile device when it is determined in the determination step that transmission is possible.

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