JP2008099031A - Portable terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable terminal which controls a timing of vibration due to a vibrator in a case where a call is incoming to the portable terminal, in accordance with a vibration state of a person carrying the portable terminal with him. <P>SOLUTION: The present invention relates to a portable terminal comprising at least a vibration detecting unit and a vibration generating unit. The portable terminal includes a vibration recording unit for recording information about vibration detected by the vibration detecting unit; a vibration interval calculating unit for calculating a vibration interval of a person carrying the portable terminal with him based on the information about the vibration recorded by the vibration recording unit; a vibration processing calculating unit for determining a vibration generation pattern by calculating a vibration generation time and a vibration stop time in a case where call arrival is detected in the portable terminal, on the basis of the calculated vibration interval; and a vibration control unit which sends, to the vibration generating unit, a control instruction to generate vibration in the determined vibration generation pattern, within a predetermined time in a case where the call arrival is detected in the portable terminal. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to a mobile terminal that adjusts the timing of vibration by a vibrator when an incoming call is received by a mobile terminal in accordance with the vibration state of a mobile phone, PHS, PDA or the like (hereinafter referred to as “mobile terminal”). .

  There is a method of vibrating a vibrator provided in the mobile terminal in order to notify the owner of an incoming call or e-mail received from the mobile terminal.

  For such vibrations in the vibrator, several vibration generation patterns are determined in advance, and the owner can select how to vibrate by selecting them. In addition, as disclosed in the following Patent Documents 1 to 3, an invention is disclosed in which when a ringtone sounds or a vibrator vibrates, the notification is stopped by giving vibration to the mobile terminal. ing.

JP 2002-354097 A JP 2002-368841 A JP-A-2005-332118 JP 2006-242578 A

  The notification by vibration of the vibrator is convenient for the owner of the portable terminal because the ringtone does not ring, but for example, when the owner is walking and the owner himself / herself is vibrating, You may not notice the vibration caused by the vibrator. One of the reasons is that the vibration of the portable terminal is not noticed because the vibration of the owner is matched with the vibration pattern of the vibrator. it is conceivable that.

  In other words, by shifting the walking pace of the owner of the mobile terminal and the vibration pattern by the vibrator, in other words, if the vibration by the vibrator is generated at a timing that is easily noticed by the owner of the mobile terminal, the owner of the mobile terminal It becomes easy to notice the notification even when walking. Here, the timing at which the occurrence of the vibration is easily noticed is a timing different from the vibration generated by the walking of the owner.

  However, as described above, in the conventional mobile terminal, the vibration can be adjusted only with some preset vibration generation patterns, and it is necessary to select the generation pattern in the first place. . Therefore, it is impossible to generate vibration by the vibrator at a timing that the owner can easily notice.

  Moreover, even if it is the invention which gives vibration by shaking a portable terminal etc. like patent documents 1 thru / or patent documents 3, and stops the information, if these are not noticed in the first place, these are not. The invention cannot be used.

  Further, in Patent Document 4, it is used to assist in positioning the position of the owner by detecting the vibration with a portable terminal. However, even if this invention is used, the vibrator vibrates at a timing that the owner can easily notice. I can't let you.

  In view of the above problems, the present inventor has invented a portable terminal that generates vibrations with a vibrator at a timing that is easily noticed by the owner of the portable terminal.

  The invention of claim 1 is a portable terminal including at least a vibration detection unit and a vibration generation unit, wherein the portable terminal records a vibration recording unit that records information of vibration detected by the vibration detection unit, and the vibration. Based on vibration information recorded by the recording unit, a vibration interval calculation unit that calculates a vibration interval of the owner of the mobile terminal, and vibration when an incoming call is detected in the mobile terminal based on the calculated vibration interval A vibration processing calculation unit that determines a vibration generation pattern by calculating an occurrence time and a vibration stop time; and when an incoming call is detected in the mobile terminal, the vibration is generated with the determined vibration generation pattern within a predetermined time. A vibration control unit that sends a control instruction to generate vibration to the vibration generation unit.

  According to the present invention, it is possible to calculate the moving pace of the owner of the mobile terminal and accordingly notify the incoming call by vibration of the mobile terminal. In other words, by generating vibration at the portable terminal at a timing when no movement has occurred in the holder of the portable terminal, it becomes easier for the holder to notice that there is an incoming call, that is, the occurrence of vibration.

  In the invention of claim 2, the vibration processing calculation unit calculates a vibration generation time and a vibration stop time by setting a predetermined ratio of the vibration interval as a vibration generation time and the remaining time as a vibration stop time. It is a terminal.

  Although the vibration generation time and the vibration stop time can be calculated in any way, it is preferable not to exceed the vibration interval. Therefore, it is preferable that a predetermined ratio of the vibration interval is a vibration generation time and the rest is a vibration stop time.

  4. The portable terminal according to claim 3, wherein a part of the vibration stop time is provided before and after the vibration generation time as the vibration generation pattern.

  It is preferable that the vibration generation pattern includes a vibration stop time, a vibration generation time, and a remaining vibration stop time. At the beginning and end of the owner's vibration interval, the owner's own vibration is likely to occur due to the movement of the owner, so by shifting the point in time and the time for generating the vibration on the mobile device, This makes it easier to notice incoming calls due to device vibration.

  In the invention according to claim 4, the vibration processing calculation unit is a portable terminal based on a point of time when vibration is detected after detecting the incoming call for the vibration generation pattern.

  As a base point of the vibration generation pattern, any time point such as a time point when the incoming call is detected, a time point when the vibration is detected after the detection of the incoming call can be used, but the latter is more preferable. By using the time point at which vibration is detected as the base point, the owner's own pace of vibration and the vibration interval can be matched, which increases the possibility that the owner will not generate vibration during the vibration generation time. It is.

  In the invention of claim 5, the vibration processing calculation unit further vibrates for a predetermined time when the mobile terminal detects an incoming call when the calculated vibration interval is outside a predetermined range. This is a portable terminal that determines a vibration generation pattern to be continuously generated.

  When the vibration interval is outside the predetermined range, the vibration interval may be smaller or larger than the predetermined range. If it is small, it is predicted that the owner is moving vigorously, so it is preferable to keep giving vibration constantly, and since the vibration stop time becomes shorter in the first place, the vibration stop time is substantially eliminated. This is because it is preferable from the above. Furthermore, when the vibration interval is larger than the predetermined range, the vibration stop time becomes longer than necessary, and conversely, the owner may be less likely to notice the vibration of the mobile terminal.

  The invention of claim 6 is a portable terminal including at least a vibration detection unit and a vibration generation unit, wherein the portable terminal records a vibration recording unit that records information of vibration detected by the vibration detection unit, and the vibration. Based on vibration information recorded by the recording unit, a vibration interval calculation unit that calculates a vibration interval of the owner of the mobile terminal, and vibration when an incoming call is detected in the mobile terminal based on the calculated vibration interval When detecting an incoming time in the mobile terminal, the vibration processing calculating unit for calculating the occurrence time and the vibration stop time, and after detecting the incoming call, the time point when the vibration is detected within a predetermined time, And a vibration control unit that sends a vibration generation control instruction having the calculated vibration generation time and vibration stop time as one cycle to the vibration generation unit.

  Also according to the present invention, it is possible to calculate the movement pace of the owner of the mobile terminal and to notify the incoming call by vibration of the mobile terminal accordingly. In other words, by generating vibration at the portable terminal at a timing when no movement has occurred in the holder of the portable terminal, it becomes easier for the holder to notice that there is an incoming call, that is, the occurrence of vibration. In particular, since the generation of vibration is controlled based on the calculated vibration generation time and vibration stop time after detecting the incoming call after detecting the incoming call, the timing of the vibration pace by the owner himself and the vibration by the mobile terminal It becomes easy to shift.

  8. The portable terminal according to claim 7, wherein a part of the vibration stop time is provided before and after the vibration generation time in the vibration generation time and the vibration stop time as the one cycle. .

  It is preferable that the vibration interval of one cycle includes a vibration stop time, a vibration generation time, and a remaining vibration stop time. At the beginning and end of the owner's vibration interval, the owner's own vibration is likely to occur due to the movement of the owner, so by shifting the point in time and the time for generating the vibration on the mobile device, This makes it easier to notice incoming calls due to device vibration.

  In the invention of claim 8, the vibration processing calculation unit uses the calculated vibration generation time and vibration stop time based on a point of time when vibration is detected after the end of one cycle within the predetermined time. A portable terminal that sends out a control instruction for generation of a new one-cycle vibration.

  In the case of the first aspect of the invention, when vibration is controlled for a long time (for example, 30 seconds), the processing is performed based on the vibration generation pattern. Misalignment with the vibration caused by the terminal is likely to occur. However, by using the present invention, after the incoming call is detected, the vibration generation control in each cycle is performed with the vibration detection time as a base point, so that the deviation is corrected and more accurate processing can be performed.

  In the invention of claim 9, the vibration processing calculation unit further vibrates for a predetermined time when the mobile terminal detects an incoming call when the calculated vibration interval is outside a predetermined range. The mobile terminal determines that the vibration control unit sends a control instruction to be continuously generated to the vibration generation unit.

  When the vibration interval is outside the predetermined range, the vibration interval may be smaller or larger than the predetermined range. If it is small, it is predicted that the owner is moving vigorously, so it is preferable to keep giving vibration constantly, and since the vibration stop time becomes shorter in the first place, the vibration stop time is substantially eliminated. This is because it is preferable from the above. Furthermore, when the vibration interval is larger than the predetermined range, the vibration stop time becomes longer than necessary, and conversely, the owner may be less likely to notice the vibration of the mobile terminal.

According to the present invention, it is possible to configure a mobile terminal in which vibrations generated by a vibrator are generated at a timing at which the owner of the mobile terminal can easily notice. As a result, even when the owner of the portable terminal is walking, even if there is a notification due to vibration of the vibrator such as an incoming call or an incoming e-mail, it becomes easy to notice it.

  The conceptual diagram of an example of the system configuration | structure of the portable terminal 1 of this invention is shown in FIG. Although not shown in FIG. 1, the portable terminal 1 of the present invention includes a calculation device such as a CPU that executes calculation processing of a program, a storage device such as a RAM or ROM that stores information, and a display device that displays a screen. And an input device for inputting characters, numbers, symbols, and the like, and a communication device that enables transmission / reception of electronic mails over the Internet or the like, and enables telephone calls. Each function (each unit) realized on the portable terminal 1 is executed when a unit (program, module, etc.) for executing the process is read into the arithmetic device. When each function uses the information stored in the storage device in the processing, each function reads the corresponding information from the storage device, and uses the read information for processing in the arithmetic device as appropriate.

  Each means in the present invention is only logically distinguished in function, and may be physically or practically the same area.

  The mobile terminal 1 includes a vibration detection unit 2, a vibration recording unit 3, a vibration interval calculation unit 4, a vibration processing calculation unit 5, a vibration control unit 6, an incoming call detection unit 7, and a vibration generation unit 8.

  The vibration detection unit 2 is a vibration sensor or an acceleration sensor provided in the mobile terminal 1 and detects vibration generated in the mobile terminal 1. Further, the vibration detection unit 2 may be configured by any mechanism as long as it can detect vibration generated in the mobile terminal 1. The vibration sensor detects the vibration by detecting the vibration. In addition, acceleration sensors include piezoelectric, semiconductor piezoresistive, and electrostatic capacitance types, and the bending condition of the plate in the acceleration sensor changes due to acceleration caused by vibration. Since a proportional voltage is generated, vibration can be detected by detecting the magnitude of the voltage. When vibration is detected in this way, the vibration detection unit 2 records at least vibration information (such as the presence or absence of vibration and the time at which vibration was detected) in the vibration recording unit 3. At this time, the amplitude may be recorded.

  The vibration recording unit 3 records information on the vibration detected by the vibration detection unit 2. Preferably, the time when vibration is detected is recorded. FIG. 4 shows a schematic diagram of the vibration recording unit 3. The vibration recording unit 3 records vibration information for a predetermined time (for example, 10 seconds).

  The vibration interval calculation unit 4 calculates the interval between vibrations (vibration interval) generated by the owner of the mobile terminal 1 based on the vibration information recorded by the vibration recording unit 3. Preferably, the average value of the vibration interval is calculated. This is based on the vibration time information recorded in the vibration recording unit 3 and the interval at which the vibration occurs is calculated and the average value thereof is calculated. For example, in the case shown in FIG. 4, the vibration interval in each vibration can be calculated as shown in FIG. And the average value of each vibration interval is calculated. The average value of the vibration intervals is the average value of the vibration intervals generated in the holder, that is, information indicating at what pace the holder is moving. In the case of FIG. 5, since the average value of the vibration interval at a predetermined time (10 seconds in FIG. 4) is “1.00 seconds”, the owner of the portable terminal 1 vibrates every 1.00 seconds. It can be seen that has occurred. The average includes various values such as arithmetic average, geometric average, harmonic average, and weighted average.

  Based on the information on the vibration interval (for example, information on the average value of the vibration interval) of the holder of the portable terminal 1 calculated by the vibration interval calculation unit 4, the vibration processing calculation unit 5 applies to the vibration generation unit 8 (described later). Thus, the vibration control unit 6 (described later) calculates what vibration generation pattern, or what vibration generation time and vibration stop time should be used to send a control instruction to generate / stop vibration. For example, since the vibration interval calculation unit 4 calculates 1.00 seconds as the vibration interval, 80% of the vibration interval is set as the time for vibration generation, and 10% from the time of vibration generation and the last 10% of the vibration interval are set. As the time for stopping the vibration, it is determined that the generation / stop of the vibration is repeated with this time pattern. Alternatively, the vibration control unit 6 may be configured to simply calculate the time for generating the vibration and the time for stopping the vibration, and control the generation and stop of the vibration at this time interval from the time when the vibration is detected. In addition, the vibration generation time and the vibration stop time are calculated as in the former, and the processing process in the case of repeating the generation / stop of vibration in the pattern is shown in the flowchart of FIG. 2 as Example 1, and the vibration generation time as in the latter, FIG. 3 is a flowchart illustrating a processing process in the case where vibration stop time is calculated and vibration generation / stop is repeated based on the vibration generation time / vibration stop time from the time when the vibration detection unit 2 detects vibration. Show. In the above description, the vibration processing calculation unit 5 calculates both the vibration generation time and the vibration stop time. However, only one of the vibration generation time and the vibration stop time may be calculated. In this case, in the vibration control unit 6 described later, a vibration generation instruction is given during the vibration generation time, and a vibration stop instruction is given during the vibration stop time.

  The vibration control unit 6 sends a control instruction to a vibration generation unit 8 (described later) based on the vibration pattern determined by the vibration processing calculation unit 5, or the vibration generation time and the vibration stop time. In the case of the first embodiment, after an incoming call is detected by an incoming call detection unit 7 (described later), a vibration generation / stop control instruction is sent to the vibration generation unit 8 with the determined vibration pattern. In the case of the second embodiment, when an incoming call is detected by the incoming call detection unit 7 (described later) and vibration is detected by the vibration detection unit 2 (described later), the vibration generation time and vibration stop time calculated by the vibration processing calculation unit 5 are detected. Based on this, a control instruction for vibration generation / stop is sent to the vibration generation unit 8.

  The incoming call detection unit 7 detects that the mobile terminal 1 has received an incoming call or e-mail.

  The vibration generating unit 8 is a vibrator provided in the mobile terminal 1, and generates vibration or stops vibration based on a control instruction from the vibration control unit 6. When vibration is generated in the vibration generating unit 8, the owner of the mobile terminal 1 can know that the mobile terminal 1 has received an incoming call. In addition, in order to avoid the vibration generated by the vibration generating unit 8 from being detected by the vibration detecting unit 2, the function of the vibration detecting unit 2 is temporarily used while the vibration generating unit 8 is generating the vibration. The time when vibration is generated by the vibration generation unit 8 is recorded, and the time is compared with the time when the vibration detected by the vibration detection unit 2 is detected. If it is almost the same time (a time within a predetermined range from the time when the vibration is generated by the vibration generator 8), it is assumed that the vibration is generated by the vibration generator 8, and the record is deleted from the vibration recording unit 3, It is preferable not to be a processing target of the vibration interval calculation unit 4 by setting a flag or the like.

  First, a first embodiment (control by vibration generation pattern) in the portable terminal 1 of the present invention will be described with reference to the flowchart of FIG. 2 and the conceptual diagram of FIG.

  When the holder of the mobile terminal 1 moves, vibration is applied to the mobile terminal 1 and the vibration detection unit 2 detects it. Then, the vibration detection unit 2 records the detected vibration information (preferably information of the time when the vibration is detected) in the vibration recording unit 3 (S100). The vibration recording unit 3 records vibration information at a predetermined time such as 10 seconds.

  At a predetermined timing (predetermined timing such as when an incoming call is detected every predetermined time), the vibration interval calculation unit 4 moves the owner based on the vibration information recorded in the vibration recording unit 3. The vibration interval generated is calculated (S110). For example, the information of vibration for 10 seconds recorded in the vibration recording unit 3 is extracted, the vibration interval in each vibration is calculated, and the average value of the vibration intervals is calculated based on the information (FIG. 5).

  When the vibration interval generated by the movement of the holder is calculated in the vibration interval calculation unit 4, it is compared whether or not the vibration interval calculated in S110 is within a predetermined range (S120). Calculates a vibration generation time (vibration generation time) and a vibration stop time (vibration stop time) in the vibration generation unit 8 (vibrator), and determines a vibration generation pattern including them (S130). On the other hand, if the vibration interval calculated in S110 is not within the predetermined range, the vibration processing calculation unit 5 determines that the vibration generation pattern always generates vibration (S140). In the comparison in S120, if the owner's vibration interval is smaller than the predetermined range, it is considered that the owner is making a violent movement such as running. It becomes easy to notice. In the first place, since the vibration interval is shortened, adjusting the vibration generation in accordance with the vibration interval substantially eliminates the vibration stop time and is substantially the same as generating the vibration at all times. In addition, when the owner's vibration interval is larger than the predetermined range, it is considered that the vibration stop time becomes longer than necessary, and the owner is unlikely to notice the incoming call. It should be noted that when the owner's vibration interval is not within the predetermined range, a vibration generation pattern that always generates vibration is used, and a normal vibration generation pattern that does not generate vibration (vibration generation pattern provided in the mobile terminal 1 in advance). ) May generate vibration.

  In determining the vibration generation pattern in S130, first, the vibration processing calculation unit 5 calculates the vibration generation time and the vibration stop time based on the vibration interval (for example, the average value of the vibration intervals) calculated by the vibration interval calculation unit 4. . In the case of FIG. 5, since the vibration interval is “1.00 seconds”, for example, assuming that the vibration generation time is 80% of the vibration generation time and the vibration stop time is 20% of the vibration generation time, “0.80 seconds” is the vibration generation time, “0 .20 seconds "is calculated as the vibration stop time. As a vibration generation pattern, no vibration is generated for a predetermined proportion of the vibration stop time, and then vibration is generated for the vibration generation time. Then, after the vibration generation time has elapsed, the vibration is stopped for the remaining vibration stop time. For example, when the first vibration stop time is 10% and the last vibration stop time is 10%, “0.10 second vibration stop”, “0.80 second vibration occurrence”, “0.10 second It is determined that the vibration generation pattern repeats “stop vibration”. This is schematically shown in FIG.

  Note that it is possible to arbitrarily set what percentage of the vibration interval is the vibration generation time and the vibration stop time. In addition, regarding the vibration stop time, it is possible to arbitrarily set what percentage is the first vibration stop time and the last vibration stop time. Further, in the vibration interval, the vibration stop time is provided before and after the vibration generation time. However, the vibration stop time after the vibration generation time or the vibration stop time before the vibration generation time may not be provided. FIG. 7A shows a case where the vibration generation time is provided after all the vibration stop times have elapsed in the vibration interval (when no vibration stop time is provided after the vibration generation time), and FIG. 7B shows the vibration interval. The case where the vibration stop time is provided after all the vibration generation times have elapsed (when the vibration stop time before the vibration generation time is not provided) is shown. Note that the vibration generation time may be divided into a plurality of times in the same manner as the vibration stop time. The ratio to be divided at that time can be arbitrarily set.

  6 and 7, the incoming call is used as the base point of the vibration interval. However, the time point when the vibration detection unit 2 detects the first vibration after the incoming call is detected may be used as the base point of the vibration interval (this is schematically illustrated). 8). By setting the time point at which the first vibration is detected after the incoming call is detected as the base point of the vibration interval, it is highly possible that the timing at which the vibration occurs and the vibration interval substantially coincide. Thereby, the owner can easily notice the vibration in the vibration generating unit 8 by the vibration at the vibration generation time in the vibration interval.

  When the vibration generation pattern is determined in S130 or S140, information on the determined vibration generation pattern is passed to the vibration control unit 6. When the incoming call detection unit 7 detects an incoming call or e-mail in the mobile terminal 1 (S150), the vibration control unit 6 performs the vibration determination determined in S130 or S140 within a predetermined time (for example, 30 seconds). A control instruction for generating vibration in the generation pattern is sent to the vibration generation unit 8 (S160), and the vibration generation unit 8 (vibrator or the like) receiving the instruction generates vibration in the vibration generation pattern (S170).

  As described above, the vibration processing calculation unit 5 calculates the vibration interval of the holder of the mobile terminal 1 and generates a vibration generated by a combination of a predetermined rate of vibration generation time and a predetermined rate of vibration stop time in the vibration interval. By determining the pattern, the vibration control unit 6 can apply vibration to the vibration generating unit 8 at a timing different from the timing at which the owner generates vibration. Thereby, since the owner's own vibration by the movement of the owner of the portable terminal 1 and the timing of the vibration of the portable terminal 1 can be shifted, the owner can easily notice the vibration of the portable terminal 1.

  Next, a second embodiment (control by vibration generation time and vibration stop time) in the portable terminal 1 of the present invention will be described with reference to the flowchart of FIG. 3 and the conceptual diagram of FIG.

  When the holder of the mobile terminal 1 moves, vibration is applied to the mobile terminal 1 and the vibration detection unit 2 detects it. Then, the vibration detection unit 2 records the detected vibration information (preferably information of the time when the vibration is detected) in the vibration recording unit 3 (S200). The vibration recording unit 3 records vibration information at a predetermined time such as 10 seconds.

  At a predetermined timing (predetermined timing such as when an incoming call is detected every predetermined time), the vibration interval calculation unit 4 moves the owner based on the vibration information recorded in the vibration recording unit 3. The vibration interval generated by the above is calculated (S210). For example, the information of vibration for 10 seconds recorded in the vibration recording unit 3 is extracted, the vibration interval in each vibration is calculated, and the average value of the vibration intervals is calculated based on the information (FIG. 5).

  When the vibration interval generated by the movement of the holder is calculated in the vibration interval calculation unit 4, it is compared whether or not the vibration interval calculated in S210 is within a predetermined range (S220). Calculates a time for generating vibration (vibration generation time) and a time for stopping vibration (vibration stop time) in the vibration generator 8 (vibrator) (S230). On the other hand, when the vibration interval calculated in S210 is not within the predetermined range, the vibration processing calculation unit 5 determines to always generate vibration (S300). In the comparison in S220, when the owner's vibration interval is smaller than the predetermined range, it is considered that the owner is making a violent movement such as running. It becomes easy to notice. In the first place, since the vibration interval is shortened, adjusting the vibration generation in accordance with the vibration interval substantially eliminates the vibration stop time and is substantially the same as generating the vibration at all times. In addition, when the owner's vibration interval is larger than the predetermined range, it is considered that the vibration stop time becomes longer than necessary, and the owner is unlikely to notice the incoming call. In addition, in addition to deciding to always generate vibration when the vibration interval of the owner is not within the predetermined range, a normal vibration generation pattern that does not generate vibration (vibration generation pattern provided in the mobile terminal 1 in advance) It is also possible to generate vibration.

  In the calculation of the vibration generation time and the vibration stop time in S230, the vibration processing calculation unit 5 calculates the vibration generation time and the vibration stop time based on the vibration interval (for example, the average value of the vibration intervals) calculated by the vibration interval calculation unit 4. Is calculated. In the case of FIG. 5, since the vibration interval is “1.00 seconds”, for example, assuming that the vibration generation time is 80% of the vibration generation time and the vibration stop time is 20% of the vibration generation time, “0.80 seconds” is the vibration generation time, “0 .20 seconds "is calculated as the vibration stop time. In the repetition of vibration generation and vibration stop, after the incoming call is detected, the first vibration is detected by the vibration detection unit 2, and the vibration is not first generated for a predetermined proportion of the vibration stop time. The vibration is generated for the generation time. Then, after the vibration generation time has elapsed, the vibration is stopped for the remaining vibration stop time. For example, when the first vibration stop time is 10% and the last vibration stop time is 10%, “0.10 second vibration stop”, “0.80 second vibration occurrence”, “0.10 second Decide to stop vibration. The vibration generation time and vibration stop time are repeated each time vibration is detected. This is schematically shown in FIG.

  Note that it is possible to arbitrarily set what percentage of the vibration interval is the vibration generation time and the vibration stop time. In addition, regarding the vibration stop time, it is possible to arbitrarily set what percentage is the first vibration stop time and the last vibration stop time. Further, in the vibration interval, the vibration stop time is provided before and after the vibration generation time. However, the vibration stop time after the vibration generation time or the vibration stop time before the vibration generation time may not be provided. FIG. 10A shows a case where the vibration generation time is provided after all the vibration stop times have elapsed in the vibration interval (when no vibration stop time is provided after the vibration generation time), and FIG. 10B shows the vibration interval. The case where the vibration stop time is provided after all the vibration generation times have elapsed (when the vibration stop time before the vibration generation time is not provided) is shown. Note that the vibration generation time may be divided into a plurality of times in the same manner as the vibration stop time. The ratio to be divided at that time can be arbitrarily set.

  In the case of the first embodiment, when an incoming call or vibration is first detected, it is set as a base point, and the vibration generation and the vibration stop are controlled repeatedly for each period of the vibration interval calculated by the vibration interval calculation unit 4. Since the vibration interval is an average value or the like, it does not always coincide with the vibration generation timing of the owner of the mobile terminal 1. In particular, when the vibration generated in the mobile terminal 1 is for a long time (for example, 30 seconds), a timing shift is likely to occur. Therefore, in the second embodiment, the vibration interval is only used to calculate the vibration generation time and the vibration stop time, and when vibration is detected after the incoming call is detected by the mobile terminal 1, the vibration generation time and the vibration stop time are included. Control at one cycle of vibration interval. When the vibration is detected again by the vibration detection unit 2 after the end of the one cycle, control is performed at the vibration interval of one cycle including the vibration generation time and the vibration stop time. As a result, since the control based on the vibration generation time and the vibration stop time is performed every time vibration is detected, the timing shift generated in the first embodiment can be corrected. Will be noticed.

  When the vibration processing calculation unit 5 calculates the vibration generation time and the vibration stop time in S230, the information is passed to the vibration control unit 6. When it is determined in S300 that vibration is always generated, the vibration processing calculation unit 5 passes the information to the vibration control unit 6.

  When the incoming call detection unit 7 detects an incoming call or e-mail in the portable terminal 1 (S240), the vibration control unit 6 calculates in S230 for a predetermined time (SS250) preset as a time for generating the vibration. The control instruction corresponding to either the vibration generation / stop control instruction with the vibration generation time and vibration stop time as one cycle or the control instruction to always generate vibration determined in S300 is issued.

  Specifically, when the vibration interval is within a predetermined range in S220, when the incoming call detection unit 7 detects an incoming call (S240), the vibration control unit 6 performs a predetermined time (S250) in the vibration detection unit 2. When it is confirmed whether or not there is vibration detection and vibration is detected (S260), a vibration stop control instruction is sent from the vibration detection time for a part or all of the vibration stop time calculated in S230 (S260). ). After that time has elapsed, the vibration control unit 6 sends a vibration generation instruction for the vibration generation time calculated in S230 to the vibration generation unit 8 (S280), and the vibration generation unit 8 generates vibration. Then, after the time has elapsed, the vibration control unit 6 sends a vibration stop control instruction for the remaining time of the vibration stop time to the vibration generation unit 8 (S290).

  When this one cycle is completed, if it is still within a predetermined time, it waits for detection of the next vibration, and when vibration is detected, part or all of the vibration stop time calculated in S230 again. Minutes, a vibration stop control instruction is sent from the time of vibration detection (S260). After that time has elapsed, the vibration control unit 6 sends a vibration generation instruction for the vibration generation time calculated in S230 to the vibration generation unit 8 (S280), and the vibration generation unit 8 generates vibration. Then, after the time has elapsed, the vibration control unit 6 sends a vibration stop control instruction for the remaining time of the vibration stop time to the vibration generation unit 8 (S290). In this way, the next one cycle of processing is performed. This cycle is repeated until the predetermined time is over.

  In order to stop the vibration, an instruction to stop the vibration may be sent, or the vibration may be stopped by stopping sending the instruction to generate the vibration.

  On the other hand, when the vibration interval is outside the predetermined range in S220, when the incoming call detection unit 7 detects an incoming call (S310), the vibration control unit 6 issues a vibration generation instruction to generate vibration for a predetermined time. 8 (S320). In response to this instruction, the vibration generator 8 generates vibration for a predetermined time.

  As described above, the vibration processing calculation unit 5 calculates the vibration interval of the holder of the mobile terminal 1 and calculates a predetermined rate of vibration generation time and a predetermined rate of vibration stop time using the vibration interval. Then, after detecting the incoming call, every time vibration is detected, the vibration control unit performs a control process that repeats one cycle consisting of the vibration generation time and the vibration stop time. 6 can apply vibration to the vibration generating unit 8. Thereby, since the owner's own vibration by the movement of the owner of the portable terminal 1 and the timing of the vibration of the portable terminal 1 can be shifted, the owner can easily notice the vibration of the portable terminal 1.

  By this invention, the portable terminal 1 which the vibration by a vibrator generate | occur | produces at the timing which the owner of the portable terminal 1 is easy to notice can be comprised. As a result, even if the owner of the mobile terminal 1 is walking, even if there is a notification due to vibration of the vibrator such as an incoming call or an incoming e-mail, it becomes easy to notice it.

It is a conceptual diagram which shows an example of the system configuration | structure of the portable terminal of this invention. 3 is a flowchart illustrating an example of a processing process according to the first exemplary embodiment. 10 is a flowchart illustrating an example of a processing process according to the second embodiment. 3 is a conceptual diagram schematically showing a vibration recording unit 3. FIG. It is a figure which shows typically the process which calculates a vibration interval. It is a figure which shows typically generation | occurrence | production and a stop of the vibration in Example 1. FIG. It is a figure which shows typically the other method of generation | occurrence | production / stop of the vibration in Example 1. FIG. It is a figure which shows typically the other method of generation | occurrence | production / stop of the vibration in Example 1. FIG. It is a figure which shows typically generation | occurrence | production and a stop of the vibration in Example 2. FIG. It is a figure which shows typically the other method of generation | occurrence | production and a stop of the vibration in Example 2. FIG.

Explanation of symbols

1: mobile terminal 2: vibration detection unit 3: vibration recording unit 4: vibration interval calculation unit 5: vibration processing calculation unit 6: vibration control unit 7: incoming call detection unit 8: vibration generation unit

Claims (9)

A portable terminal comprising at least a vibration detection unit and a vibration generation unit,
The portable terminal is
A vibration recording unit that records information of vibration detected by the vibration detection unit;
Based on the vibration information recorded by the vibration recording unit, a vibration interval calculation unit that calculates a vibration interval of the holder of the mobile terminal;
A vibration processing calculation unit that determines a vibration generation pattern by calculating a vibration generation time and a vibration stop time when an incoming call is detected in the mobile terminal based on the calculated vibration interval;
A vibration control unit that, when detecting an incoming call in the mobile terminal, sends a control instruction to generate vibration with the determined vibration generation pattern to the vibration generation unit within a predetermined time;
A portable terminal characterized by comprising: The vibration processing calculation unit
The vibration generation time and the vibration stop time are calculated by setting the predetermined ratio of the vibration interval as the vibration generation time and the remaining time as the vibration stop time.
The mobile terminal according to claim 1. As the vibration generation pattern, a part of the vibration stop time is provided before and after the vibration generation time.
The portable terminal according to claim 1, wherein the portable terminal is a portable terminal. The vibration processing calculation unit
For the vibration generation pattern, after detecting the incoming call, the time point when the vibration is detected is used as a base point.
The mobile terminal according to claim 1, wherein the mobile terminal is a mobile terminal. The vibration processing calculation unit further includes:
When the calculated vibration interval is outside a predetermined range, when an incoming call is detected in the mobile terminal, a vibration generation pattern that continues to generate vibration for a predetermined time is determined.
The portable terminal according to any one of claims 1 to 4, wherein A portable terminal comprising at least a vibration detection unit and a vibration generation unit,
The portable terminal is
A vibration recording unit that records information of vibration detected by the vibration detection unit;
Based on the vibration information recorded by the vibration recording unit, a vibration interval calculation unit that calculates a vibration interval of the holder of the mobile terminal;
Based on the calculated vibration interval, a vibration processing calculation unit that calculates a vibration generation time and a vibration stop time when an incoming call is detected in the mobile terminal;
When an incoming call is detected in the mobile terminal, the calculated vibration generation time and vibration stop time are defined as one cycle from the time when vibration is detected within a predetermined time after the detection of the incoming call. A vibration control unit for sending a vibration generation control instruction to the vibration generation unit;
A portable terminal characterized by comprising: In the vibration generation time and vibration stop time as the one cycle,
By providing a part of the vibration stop time before and after the vibration occurrence time, it is set as one cycle.
The mobile terminal according to claim 6. The vibration processing calculation unit
Within the predetermined time, after the end of one cycle, a control instruction for the generation of a new cycle of vibrations based on the calculated vibration generation time and vibration stop time is sent based on the time when vibration is detected. To
The portable terminal according to claim 6 or 7, characterized in that The vibration processing calculation unit further includes:
When the calculated vibration interval is outside a predetermined range, when the incoming call is detected in the mobile terminal, the vibration control unit sends a control instruction to continue generating vibration for a predetermined time. Decide to send to
The mobile terminal according to claim 6, wherein the mobile terminal is a mobile terminal.

Images