JP2010250577A - Information processing apparatus, program, portable radio communication apparatus, doze prevention system, and doze detection method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To detect a doze without being noticed by surrounding persons, without fitting a sensor for detecting a doze to a body or without installing a noticeable device such as a camera. <P>SOLUTION: An information processing apparatus 1 includes an operation state detection part 2, an operation command part 3 and a doze determination part 4. The operation state detection part 2 detects a predetermined operation state. The operation command part 3 outputs a command for urging predetermined operation. The doze determination part 4, when detecting that the operation state detected by the operation state detection part 2 is a predetermined state and detecting that the predetermined operation is not performed even after the lapse of predetermined timing after outputting the command, outputs a doze detection signal. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an information processing apparatus and program having a dozing detection function, a portable wireless communication device, a dozing prevention system, and a dozing detection method.

  Despite being in a situation where you should not sleep, you may fall asleep due to strong sleepiness. For example, the driver may fall asleep while driving the vehicle. However, falling asleep by the driver of the vehicle can cause a serious accident and is very dangerous. For this reason, various means for waking up the driver's sleepiness have been proposed. For example, Patent Document 1 proposes the following snooze driving prevention device. In this snooze driving prevention device, the driving state of the driver is detected, for example, in an imaging manner, thereby detecting the driver's face and eye movements and the open / closed state of the eyes. And if it detects that the driver is dozing based on the driver's face and eye movements or the closed state of the eyes, the driver should be able to wake up Give a stimulus. The output part of the low frequency current is provided on, for example, a handle or a hair band or hat worn by the driver on the head.

  Patent Document 2 proposes the following dozing prevention means. In the proposed dozing prevention means, the heart rate of the driver is detected by a heart rate detection sensor built in the driver, for example, a wristwatch. Then, based on the detected heart rate, it is determined whether or not the driver is dozing. As a result, when it is determined that the patient is dozing, the driver is given a vibration stimulus from the seat to wake up the driver.

Japanese Patent Laid-Open No. 5-3921 (see, for example, paragraph (0012), FIGS. 1, 9, and 10) JP-A-9-266935 (see, for example, paragraphs (0024) and (0034)) Japanese Utility Model Publication No. 6-27428 Registered Utility Model No. 3084433

  By the way, sleepiness may be attacked, for example, when performing business such as document creation or a meeting using an information processing device such as a personal computer. There is a demand for a means to wake up such sleepiness during work without the knowledge of the surrounding people.

  Therefore, when trying to use the drowsy driving prevention device disclosed in Patent Document 1, the following inconvenience occurs. For example, in the snooze driving prevention apparatus disclosed in Patent Document 1, a camera that captures a driver is necessary to detect a snooze. For this reason, when trying to use the snooze driving prevention device of Patent Document 1 to prevent a doze of a person (worker) who performs a business using the information processing device, the camera is purposely used to prevent the snooze. May need to be installed around. In this case, it is necessary to secure a space for installing the camera, and since the installation of the camera is conspicuous, there are inconveniences such as the fact that the person is taking measures against falling asleep.

  In addition, when trying to use the dozing prevention means shown in Patent Document 2 to prevent the business person from falling asleep, he / she must wear a wristwatch with a built-in heart rate detection sensor in order to detect the falling asleep. . However, there are people who feel annoying the wristwatch while operating the information processing apparatus. In addition, the wristwatch may be unconsciously removed from annoyance, and in this case, a problem that it becomes impossible to detect the dozing state occurs.

  The present invention has been made to solve the above problems. In other words, an object of the present invention is to provide an information processing apparatus that can detect dozing without being noticed by surrounding people without wearing a sensor for detecting dozing and without providing a conspicuous device such as a camera. It is to provide.

The information processing apparatus of the present invention
An operation status detector for detecting a predetermined operation status;
An operation command unit that outputs a command to prompt a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A doze determination unit to output,
It has.

The program of the present invention
In the information processing device,
A function to detect a predetermined operation situation;
A function for outputting a command prompting a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A function to output,
To have.

The portable wireless communication device of the present invention is
A mobile-side direct communication function unit for direct wireless communication;
A low frequency current output unit that outputs a low frequency current when it is detected that a predetermined doze detection signal is included in the reception signal of the mobile-side direct communication function unit;
It has.

The dozing prevention system of the present invention is
Including information processing devices and portable wireless communication devices that can be connected via a telephone communication network,
The information processing apparatus includes:
An operation status detector for detecting a predetermined operation status;
An operation command unit that outputs a command to prompt a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A doze determination unit to output,
When detecting the output of the dozing detection signal, a sleepiness alarm calling unit that outputs an instruction to call the telephone number of the portable wireless communication device;
In response to the instruction, a telephone function unit for calling the telephone number;
With
The portable wireless communication device is:
It has a function of performing a predetermined call operation for the call that has passed through the telephone communication network.

Moreover, the dozing prevention system of the present invention is
Including an information processing device capable of electronic mail communication using an information communication network and a portable wireless communication device,
The information processing apparatus includes:
An operation status detector for detecting a predetermined operation status;
An operation command unit that outputs a command to prompt a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A doze determination unit to output,
When detecting the output of the doze detection signal, a sleepiness alarm mail transmission unit that outputs an instruction to transmit a predetermined e-mail addressed to an e-mail address of the portable wireless communication device;
In response to the instruction, an e-mail communication function unit that transmits the e-mail; and
With
The portable wireless communication device is:
A function is provided for performing a predetermined mail arrival notification operation when the reception of the electronic mail is detected.

Furthermore, the dozing prevention system of the present invention is
Including an information processing device and a portable wireless communication device,
The information processing apparatus includes:
An operation status detector for detecting a predetermined operation status;
An operation command unit that outputs a command to prompt a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A doze determination unit to output,
A doze detection signal communication unit that outputs an instruction to transmit a predetermined signal as a doze detection signal when it is detected that the doze detection signal is output;
In response to the instruction, the direct communication function unit that outputs the predetermined signal on a radio wave for performing wireless communication directly;
With
The portable wireless communication device is:
A mobile-side direct communication function unit for direct wireless communication;
When detecting that the dozing detection signal is included in the reception signal of the mobile-side direct communication function unit, a low frequency current output unit that outputs a low frequency current;
It has.

The dozing detection method of the present invention comprises:
Detect the operating status of a given device,
Outputting a command prompting a predetermined operation of the device;
The operation of the apparatus is detected when it is detected that the detected operation situation is a predetermined situation, and it is detected that the predetermined operation is not performed even after a predetermined timing after outputting the command. The person is asleep.

  According to the present invention, it is possible to detect dozing without being noticed by surrounding people without wearing a sensor for detecting dozing and without using a conspicuous accessory device such as a camera.

It is a figure for demonstrating the structure regarding the dozing detection in the information processing apparatus of 1st Embodiment. It is a figure for demonstrating the dozing prevention system containing the information processing apparatus provided with the structure shown by FIG. Furthermore, it is a figure for demonstrating another dozing prevention system containing the information processing apparatus provided with the structure shown by FIG. It is a figure for demonstrating the structure in connection with the dozing detection of a personal computer which is the information processing apparatus of 2nd-4th embodiment, and dozing prevention. It is the model figure which represented typically the dozing prevention system containing the personal computer of 2nd-4th embodiment. It is a figure for demonstrating the structure regarding the dozing prevention of the portable radio | wireless communication apparatus which comprises the dozing prevention system of FIG. 5 is a flowchart for explaining an operation example related to detection of dozing and prevention of dozing of the personal computer of FIG. It is a figure for demonstrating the structure in connection with the dozing detection of the personal computer which is the information processing apparatus of 5th Embodiment, and dozing prevention. It is the model figure which represented typically the dozing prevention system containing the personal computer of 5th Embodiment. It is a figure for demonstrating the structure in connection with the dozing prevention of the portable radio | wireless communication apparatus which comprises the dozing prevention system of FIG. It is a figure for demonstrating the structure in connection with the dozing detection of the personal computer which is the information processing apparatus of 6th Embodiment, and dozing prevention. 12 is a flowchart for explaining an operation example related to detection of snoozing and prevention of snoozing in the personal computer of FIG. 11. It is a figure for demonstrating other embodiment.

  Embodiments according to the present invention will be described below with reference to the drawings.

(First Embodiment)
FIG. 1A shows a simplified information processing apparatus according to the first embodiment. The information processing apparatus 1 according to the first embodiment has a dozing detection function. That is, the information processing apparatus 1 includes an operation state detection unit 2, an operation command unit 3, and a dozing determination unit 4.

  The operation status detection unit 2 has a function of detecting the operation status of the information processing apparatus 1. The operation command unit 3 has a function of outputting a command that prompts a predetermined operation. The dozing determination unit 4 has a function of outputting a dozing detection signal when it is detected that the following conditions are satisfied based on information from the operation state detection unit 2 and the operation command unit 3. The condition is that the operation situation detected by the operation situation detection unit 2 is a predetermined situation, and an operation corresponding to the instruction is performed even if a predetermined timing has passed after the operation instruction unit 3 outputs the instruction. It means that it was not done.

  The information processing apparatus 1 according to the first embodiment is provided with a program for providing the operation state detection function, the operation command function, and the dozing determination function as described above. Thereby, the information processing apparatus 1 has a function of detecting the operation status as described above, a function of outputting a command for prompting a predetermined operation, and a function of determining dozing by operating according to the program. Can do.

  Next, a dozing detection method in the information processing apparatus 1 according to the first embodiment will be described. That is, for example, as illustrated in FIG. 1B, in step S <b> 1, the operation status detection unit 2 detects a predetermined operation status of the information processing apparatus 1. Next, in step S2, the operation command unit 3 outputs a command for prompting a predetermined operation. In step S <b> 3, the dozing determination unit 4 determines based on information from the operation state detection unit 2 and the operation command unit 3 whether or not the patient is dozing. That is, the dozing determination unit 4 detects that the operation state is a predetermined state, and that the operation according to the command is not performed even after a predetermined timing after the operation command unit 3 outputs the command. In this case, a doze detection signal is output.

  In the first embodiment, as described above, based on the information on whether or not the operation status of the information processing apparatus 1 is a predetermined status and the information on whether or not an operation based on the command has been performed, Judging whether or not he is asleep. For this reason, it is known to surrounding people without using a conspicuous accessory device such as a camera for photographing the operator of the information processing apparatus 1 and without wearing a sensor for detecting the physical state of the operator. It is possible to detect dozing without being caught.

  An information processing apparatus having a dozing detection function as described above can construct a dozing prevention system 6 as shown in FIG. That is, the dozing prevention system 6 includes the information processing apparatus 1 ′ and the portable wireless communication device 7. The information processing apparatus 1 ′ includes a telephone function unit 8 and a drowsiness calling unit 9 in addition to the operation state detection unit 2, the operation command unit 3, and the dozing determination unit 4 described above. The sleepiness alarm calling unit 9 has a function of outputting an instruction to make a call to a predetermined telephone number when detecting that a dozing detection signal is output from the dozing determination unit 4. The telephone function unit 8 has a function of receiving a call and making a call to the predetermined telephone number.

  The portable wireless communication device 7 has a function of performing a predetermined calling operation for a call that has passed through the telephone communication network 10. For example, the portable wireless communication device 7 is possessed by the operator of the information processing apparatus 1 ′.

  In this dozing prevention system 6, when the dozing determination unit 4 of the information processing apparatus 1 ′ outputs a dozing detection signal, the drowsiness calling unit 9 calls the telephone number assigned in advance to the portable wireless communication device 7. The function unit 8 makes a call. Thereby, the portable wireless communication device 7 performs a call operation for the call.

  Since the portable wireless communication device 7 is possessed by the operator of the information processing apparatus 1 ′, the caller of the portable wireless communication device 7 may cause a dormant operator. Is possible. As the calling operation of the portable wireless communication device 7, for example, there are operations such as making a ringing tone and vibrating the casing of the portable wireless communication device 7. When the call operation by the vibration is performed, it is possible to wake up the sleepiness of the dozing operator without noticing the surrounding people. Also, when a call is made with a ringing tone, it is considered that it is just a phone call to the surrounding people and not for sleepiness. From this, even if the call is made by a ringing tone, it is possible to wake up to the sleepiness of the operator who is dozing without being noticed by the surrounding people.

  In the dozing prevention system 6, the information processing apparatus 1 'can obtain the effects as described above. That is, without using a conspicuous attached device such as a camera, without wearing a sensor for detecting dozing, and detecting the dozing of the operator of the information processing apparatus 1 ′ without being noticed by surrounding people. The effect of being able to be obtained can be obtained. In addition, when it is detected that the operator of the information processing apparatus 1 ′ is falling asleep, it is possible to wake up the operator without being noticed by surrounding people by the calling operation of the portable wireless communication device 7. Obtainable.

  The information processing apparatus having the dozing detection function as described above can further construct a dozing prevention system 11 as shown in FIG. That is, the dozing prevention system 11 includes the information processing apparatus 1 ″ and the portable wireless communication device 12. The information processing apparatus 1 ″ includes an e-mail communication function unit 13 and a drowsiness wake-up mail transmission unit 14 in addition to the operation state detection unit 2, the operation command unit 3, and the dozing determination unit 4 described above. The sleepiness alarm e-mail transmission unit 14 outputs an instruction for transmitting a predetermined e-mail addressed to a predetermined e-mail address when detecting that a doze detection signal is output from the doze determination unit 4 It has. The electronic mail communication function unit 13 has a function of receiving the instruction and transmitting the electronic mail. Here, the predetermined e-mail address is an e-mail address of the portable wireless communication device 12.

  The portable wireless communication device 12 has a function of performing a predetermined mail arrival notification operation when detecting reception of an electronic mail that has passed through the information communication network 15. For example, the portable wireless communication device 12 is owned by the operator of the information processing apparatus 1 ″.

  In this dozing prevention system 11, when the dozing determination unit 4 of the information processing apparatus 1 ″ outputs a dozing detection signal, a predetermined e-mail is sent to the portable wireless communication device 12 by the drowsiness alarm sending unit 14. Sent. When the portable wireless communication device 12 receives the electronic mail, it performs a predetermined mail incoming notification operation. As this mail incoming notification operation, there is a notification operation using sound and vibration similar to the aforementioned call operation. Since the portable wireless communication device 12 is possessed by the operator of the information processing apparatus 1 ″, the sleeping operator is awakened by the incoming mail notification operation of the portable wireless communication device 12. It is possible.

  Also in this dozing prevention system 11, the same effect as the dozing prevention system 6 mentioned above can be acquired. That is, without using a conspicuous accessory device such as a camera, without wearing a sensor for detecting dozing, and detecting the dozing of the operator of the information processing apparatus 1 '' without being noticed by surrounding people. be able to. In addition, when the operator of the information processing apparatus 1 '' is detected to fall asleep, it is possible to wake up the operator without being noticed by surrounding people by the mail incoming notification operation of the portable wireless communication device 12. The effect that can be obtained.

  The information processing apparatus having the dozing detection function as described above constructs a dozing prevention system 18 as shown in FIG. 3B together with the portable wireless communication device 19 as shown in FIG. be able to. That is, the dozing prevention system 18 includes the information processing apparatus 1 ′ ″ and the portable wireless communication device 19.

  The information processing apparatus 1 ′ ″ further includes a direct communication function unit 20 and a dozing detection signal communication unit 21 in addition to the operation state detection unit 2, the operation command unit 3, and the dozing determination unit 4 described above. . The dozing detection signal communication unit 21 has a function of outputting an instruction for transmitting a predetermined signal as a dozing detection signal when the dozing detection unit 4 detects that the dozing detection signal is output. The direct communication function unit 20 has a function of receiving the instruction and outputting the predetermined signal on a radio wave for direct wireless communication.

  The portable wireless communication device 19 is possessed, for example, by an operator of the information processing apparatus 1 ′ ″. The portable wireless communication device 19 includes a portable direct communication function unit 22 and a low frequency current output unit 23. The mobile-side direct communication function unit 22 has a function for directly performing wireless communication (in this example, the same wireless communication by the direct communication function unit 20 of the information processing apparatus 1 ′ ″). The low-frequency current output unit 23 outputs a low-frequency current when detecting that the dozing detection signal output from the information processing apparatus 1 ′ ″ is included in the reception signal of the mobile-side direct communication function unit 22. It has a function to do.

  In this dozing prevention system 18, when the dozing determination unit 4 of the information processing apparatus 1 ′ ″ outputs a dozing detection signal, the dozing detection signal communication unit 21 and the direct communication function unit 20 make the radio wave carrying the dozing detection signal information. Output from the processing apparatus 1 '' '. When the radio wave is received by the portable wireless communication device 19 and the low frequency current output unit 23 detects reception of the dozing detection signal, the low frequency current output unit 23 outputs a low frequency current.

  Since the portable wireless communication device 19 is possessed by the operator of the information processing device 1 ′ ″, the portable wireless communication device 19 is able to receive information on the information processing device 1 ′ ″ sleeping. The operator can be stimulated with a low frequency current. Thereby, the operator can be woken up without being noticed by surrounding people.

  Also in this dozing prevention system 18, the same effect as the dozing prevention systems 6 and 11 can be obtained.

(Second Embodiment)
The second embodiment will be described below.

  The information processing apparatus according to the second embodiment is a personal computer having a dozing detection function and a dozing prevention function. In FIG. 4, a configuration related to dozing detection and dozing prevention in the personal computer 25 of the second embodiment is indicated by a solid line. FIG. 5 schematically shows a dozing prevention system 26 using the personal computer 25. Further, FIG. 6 shows a configuration of a portable telephone 27 which is a portable wireless communication device for constructing the dozing prevention system 26 together with the personal computer 25.

  As shown in FIG. 4, the personal computer 25 according to the second embodiment is configured to include a control unit 30, a keyboard 31 and a mouse 32 as operation means, and a display means 33 such as a liquid crystal screen. Yes. The control unit 30 includes an operation state detection unit 35, an operation command unit 36, a display control unit 37, a storage unit 38, a dozing determination unit 39, a direct communication function unit 40, a dozing detection signal communication unit 41, A telephone function unit (softphone function unit) 42 and a sleepiness alarm calling unit 43 are provided. Each component 35-37, 39-43 which comprises the control part 30 except the memory | storage part 38 implement | achieves these each functions, when the control part 30 operate | moves according to the program given beforehand.

  The display control unit 37 has a function of controlling the screen display of the display means 33. In the second embodiment, the personal computer 25 can use the mouse 32, and the display unit 33 displays a cursor that moves in conjunction with the movement of the mouse 32. The display control unit 37 has a function of performing display control of the cursor as one of display control functions. That is, the display control unit 37 functions to control the display position of the cursor using information on the amount and direction of movement of the mouse 32 output from the mouse 32, size information on the screen of the display means 33, and the like. It has.

  Further, the display control unit 37 has a function of displaying the command on the display unit 33 by, for example, pop-up display using, for example, a character, a picture, or the like, when receiving a command notification signal from the operation command unit 36 described later. I have.

  The direct communication function unit 40 has a function of directly performing wireless communication without passing through the information communication network. In the second embodiment, the wireless communication is wireless communication based on the Bluetooth (registered trademark) standard. For example, the personal computer 25 is equipped with an antenna (not shown) that outputs radio waves based on the Bluetooth (registered trademark) standard from the lower side of the screen of the display means 33. The range (range) in which radio communication by the radio wave is possible is, for example, within a range of about 1 m from the antenna.

  The telephone function unit 42 can cause the personal computer 25 to have a telephone function by operating according to a program for a telephone function (softphone function) given in advance. There are various programs for the telephone function, and any program may be adopted here, and the description thereof is omitted.

  The operation status detection unit 35 has a function of detecting the operation status of the personal computer 25. In the second embodiment, the operation status detection unit 35 detects the operation status of the keyboard 31 and the mouse 32 as the operation status of the personal computer 25 as follows. In other words, in the second embodiment, with respect to the operation status of the keyboard 31, the key press operation status of the keyboard 31 is detected. In other words, the keyboard 31 notifies the personal computer 25 of the code of the operated key and a signal notifying whether the operation is a pressed operation or a released operation. The operation status detection unit 35 detects the number of key press operations (typing count) Ct of the keyboard 31 during a preset time (for example, 3 minutes) based on the signal output from the keyboard 31. The operation status detection unit 35 outputs the detected typing count Ct to the dozing determination unit 39 as the operation amount of the keyboard 31. Furthermore, when the operation status detection unit 35 detects that the same key is continuously pressed based on the signal output from the keyboard 31, the keyboard 31 also indicates the continuous typing count Cct of the same key. The operation amount is output to the dozing determination unit 39.

  Regarding the detection of the operation status of the mouse 32, the movement status of the cursor displayed on the display means 33 is used. That is, the operation status detection unit 35 takes in the display position information of the cursor on the display unit 33 from the display control unit 37 at every predetermined sampling time (for example, every 0.1 second). Then, every time the display position information of the cursor is captured, the operation status detection unit 35, based on the captured display position information and the display position information captured at the previous sampling time, from the previous sampling time to the current sampling time. The amount of cursor movement up to is calculated. Then, the operation status detection unit 35 stores the calculated movement amount of the cursor. Further, the operation status detection unit 35 is based on the cursor movement amount information calculated as described above, and the cursor during a predetermined time (for example, 3 minutes) until the latest cursor display position information is captured. Is calculated. Furthermore, the operation status detection unit 35 outputs the cursor movement amount Mc during the predetermined time to the dozing determination unit 39 as the operation amount of the mouse 32.

  The operation command unit 36 has a function of notifying a command for prompting a predetermined operation when a command output signal is received from a doze determination unit 39 described later. In the second embodiment, the predetermined operation is, for example, a keyboard 31 or a mouse 32 such as “type all the numeric keys 1, 2,... Operation. The operation command unit 36 outputs a signal notifying a command for prompting such an operation to the display control unit 37. In response to the command notification signal, the display control unit 37 causes the display unit 33 to display a command for prompting the predetermined operation as described above.

  The dozing determination unit 39 has a function of determining dozing as follows. That is, the dozing determination unit 39 has the number of typings Ct transmitted as the operation amount of the keyboard 31 from the operation state detection unit 35 is less than a threshold value Pt (for example, 100 times) stored in advance in the storage unit 38. Determine whether or not. Further, the dozing determination unit 39 determines whether or not the continuous typing count Cct transmitted from the operation status detection unit 35 is equal to or greater than a threshold value Pct (for example, 20 times) stored in the storage unit 38 in advance. To do. Note that the threshold values Pt and Pct are appropriately set for determining dozing, and are not limited to the above-described numerical values.

  Further, the dozing determination unit 39 determines whether or not the movement amount (cursor movement amount) Mc of the mouse 32 transmitted from the operation state detection unit 35 is less than the threshold value Pm stored in the storage unit 38 in advance. Judging. By the way, even if the amount of movement of the mouse 32 is the same, the amount of movement of the cursor is different if the screen size of the display means 33 is different. Considering this, in the second embodiment, the threshold value Pm is a value determined according to the size of the screen of the display means 33. That is, in the second embodiment, the relationship data between the screen size of the display means 33 and the threshold value Pm is stored in the storage unit 38 in advance. The dozing determination unit 39 reads a threshold value Pm corresponding to the size of the screen from the relation data in the storage unit 38 based on the screen size information of the display means 33 given in advance. As described above, the dozing determination unit 39 determines whether or not the movement amount of the mouse 32 (the movement amount of the cursor) is less than the read threshold value Pm.

  Furthermore, the dozing determination unit 39 determines the operation status of the keyboard 31 when the number of typings Ct of the keyboard 31 is less than the threshold value Pt or when the number of consecutive typings Cct of the same key is less than the threshold value Pct. Is determined to be in a predetermined situation. Furthermore, when the doze determining unit 39 determines that the cursor movement amount Mc is less than the threshold value Pm, the doze determining unit 39 determines that the operation state of the mouse 32 is in a predetermined state. When the operation state of both the keyboard 31 and the mouse 32 is determined to be in the predetermined state as described above, the dozing determination unit 39 outputs a command output signal to the operation command unit 36. By the operation of the operation command unit 36 based on the output of the command output signal, a command for prompting a predetermined operation is displayed on the display means 33 as described above.

  After outputting the command output signal, the doze determining unit 39 monitors whether the keyboard 31 and the mouse 32 are operated according to the command displayed on the display means 33 as described above. Then, when the dozing determination unit 39 detects that the operation of the keyboard 31 or the mouse 32 is not performed in response to the command even after a predetermined timing (for example, 3 minutes) has passed since the command output signal was output. Captures the operation information of the telephone function unit 42. Further, the dozing determination unit 39 determines whether a call using the telephone function of the personal computer 25 is being performed based on the operation information of the telephone function unit 42. Then, the dozing determination unit 39 has a function of outputting a dozing detection signal to the dozing detection signal communication unit 41 and the drowsiness calling unit 43 when it is determined that the call is not in progress.

  Furthermore, after outputting the dozing detection signal, the dozing determination unit 39 performs the following monitoring based on the operation information of the telephone function unit 42. That is, in the storage unit 38, a telephone number that is a target for snoozing countermeasures (in this second embodiment, the telephone number of the portable telephone 27 possessed by the operator of the personal computer 25) is registered in advance. As will be described later, the telephone function unit 42 makes a call to a communication partner having a telephone number that is a target for snoozing countermeasures by the operation of the drowsiness calling unit 43 that has received the dozing detection signal. The monitoring is monitoring whether or not a response notification is received from the communication partner having the telephone number that is the target of the snoozing countermeasure. This monitoring is performed, for example, until an elapse time after outputting the dozing detection signal elapses a predetermined maximum monitoring time (for example, 1 minute).

  Furthermore, the dozing determination unit 39 outputs a call stop signal to the telephone function unit 42 when it is detected by the above monitoring that a response notification has not been received even after the maximum monitoring time has been exceeded. The call operation of the telephone function unit 42 is terminated by the call stop signal.

  When the dozing detection signal communication unit 41 receives the dozing detection signal from the dozing determination unit 39, the dozing detection signal communication unit 41 has a function of directly outputting an instruction for transmitting a predetermined signal as a dozing detection signal to the communication function unit 40. Here, the predetermined signal as a dozing detection signal also has a function as a transmission instruction signal, and is directly output from the dozing detection signal communication unit 41 to the communication function unit 40. The predetermined signal is output by the direct communication function unit 40 on a Bluetooth (registered trademark) standard radio wave. The predetermined signal may be the dozing detection signal output from the dozing determination unit 39 or may be another signal.

  When receiving the dozing detection signal from the dozing determination unit 39, the sleepiness alarm calling unit 43 reads the telephone number (the telephone number of the portable telephone 27 held by the operator of the personal computer 25) from the storage unit 38. Then, the sleepiness wake-up calling unit 43 gives the read telephone number and the call instruction to the telephone function unit 42. As a result, the telephone function unit 42 makes a call to the communication partner having the telephone number that is the target of the snoozing countermeasure.

  Next, an operation example related to dozing detection and dozing prevention in the personal computer 25 of the second embodiment will be described with reference to the flowchart of FIG. For example, in step S101, the operation situation detection unit 35 detects a predetermined operation situation. In the second embodiment, the number of typings Ct of the keyboard 31 in a predetermined time (for example, 3 minutes), the number of consecutive typings Cct of the same key of the keyboard 31, the amount of movement Mc of the cursor according to the amount of movement of the mouse 32, Is detected as a predetermined operation situation.

  Next, in step S102, the dozing determination unit 39 determines whether or not the detected operation status is a predetermined status. That is, the dozing determination unit 39 determines whether or not the number of typings Ct of the keyboard 31 in a predetermined time is less than the threshold value Pt. Also, the dozing determination unit 39 determines whether or not the continuous typing count Cct of the same key on the keyboard 31 is equal to or greater than the threshold value Pct. Further, the dozing determination unit 39 determines whether or not the cursor movement amount Mc is a threshold value Pm corresponding to the screen size of the display means 33. Furthermore, the dozing determination unit 39 has a situation in which the typing count Ct is less than the threshold value Pt, or the continuous typing count Cct is greater than or equal to the threshold value Pct, and the cursor movement amount Mc is less than the threshold value Pm. It is judged whether it is in. When the dozing determination unit 39 determines that there is no such situation, the dozing determination unit 39 determines that the operation situation is not in the predetermined situation. In this case, since the operator of the personal computer 25 is assumed not to fall asleep, the personal computer 25 terminates the operations related to the detection of the falling asleep and the prevention of the falling asleep.

  On the other hand, when the dozing determination unit 39 determines that the number of times of typing Ct, the number of times of continuous typing Cct, and the amount of movement Mc of the cursor are in the above situation, it is determined that the operation state is in a predetermined state. To do. In this case, a command output signal is added from the dozing determination unit 39 to the operation command unit 36 in step S103. As a result, the operation command unit 36 outputs a signal notifying a command for prompting a predetermined operation of the keyboard 31 or the mouse 32 to the display control unit 37. The display control unit 37 causes the display unit 33 to display the notified command for prompting a predetermined operation on the display unit 33 with characters, pictures, or the like.

  In step S104, the dozing determination unit 39 monitors the operation status of the keyboard 31 and the mouse 32, and determines whether or not there is an operation of the keyboard 31 or the mouse 32 according to the command displayed on the display means 33. To do. When the dozing determination unit 39 determines that an operation corresponding to the command has been performed, it is assumed that the operator of the personal computer 25 is not falling asleep. Therefore, the personal computer 25 is involved in the detection of the falling asleep and the prevention of the falling asleep. End the operation.

  On the other hand, if the dozing determination unit 39 determines that there is no operation corresponding to the command even after a predetermined timing has elapsed since the output of the command output signal, the operation of step S105 is performed. That is, the dozing determination unit 39 determines whether or not a call using the telephone function of the personal computer 25 is in progress based on the operation information of the telephone function unit 42. Accordingly, when the dozing determination unit 39 determines that the call is in progress, it is assumed that the operator of the personal computer 25 is not sleeping. Therefore, the personal computer 25 performs operations related to the detection of dozing and the prevention of the falling asleep. finish.

  On the other hand, if the dozing determination unit 39 determines that the call is not in progress, the dozing determination unit 39 outputs the dozing detection signal to the dozing detection signal communication unit 41 and the drowsiness calling unit 43 in step S106. . In step S107, the doze detection signal communication unit 41 directly outputs a predetermined signal as a doze detection signal to the communication function unit 40, and outputs the signal on a Bluetooth (registered trademark) standard radio wave. When the portable telephone 27 possessed by the operator of the personal computer 25 receives the radio communication radio wave, the portable telephone 27 performs a predetermined process for awakening the sleepiness of the operator of the personal computer 25 as described later. Perform the action.

  Further, when the sleepiness alarm calling unit 43 receives the dozing detection signal, the telephone function unit 42 sends a communication partner having the telephone number subject to dozing countermeasures (the portable telephone 27 possessed by the operator of the personal computer 25) to the communication partner. Make a call. In response to this call, the cellular phone 27 of the operator of the personal computer 25 performs a calling operation, so that the operator of the personal computer 25 is awakened.

  Thereafter, in step S108, the dozing determination unit 39 monitors the operation of the telephone function unit 42, and determines whether or not a response notification is received from the call target by the telephone function unit 42. When the dozing determination unit 39 determines that the response notification has been received, the monitoring operation of the telephone function unit 42 is ended, and the operation related to the detection of dozing and the prevention of dozing of the personal computer 25 is ended.

  On the other hand, if the dozing determination unit 39 determines that the response notification has not been received, in step S109, the dozing determination unit 39 sets the predetermined longest monitoring time after outputting the dozing detection signal. Judge whether or not it has passed. Thereby, when the dozing determination unit 39 determines that the predetermined maximum monitoring time has not elapsed, the operation of step S108 is repeated. Thereafter, the determination operation of step S109 is performed again, and if the dozing determination unit 39 determines that the predetermined maximum monitoring time has elapsed, the call function of the telephone function unit 42 is stopped in step S110. Let Thereby, the personal computer 25 ends the operations related to the detection of dozing and the prevention of dozing.

  Note that the operation related to the detection of dozing and the prevention of dozing is set to be performed at predetermined time intervals (for example, every 10 minutes), so that the dozing detection of the operator of the personal computer 25 is periodically performed. It is possible to increase the effect of preventing falling asleep.

  Since the personal computer 25 according to the second embodiment performs doze detection based on the operation status as in the first embodiment, the same effects as those of the information processing apparatus according to the first embodiment can be obtained. That is, the personal computer 25 according to the second embodiment can detect dozing without wearing a sensor for detecting dozing, without using a conspicuous accessory device such as a camera, and without being noticed by surrounding people. Can do.

  In the second embodiment, doze detection is performed in consideration of not only the operation status of the keyboard 31 and the mouse 32 but also the presence or absence of a call using the telephone function of the personal computer 25. The reason why the operation amount of the keyboard 31 and the mouse 32 is reduced is not limited to being asleep, but may be during a call. For this reason, when it is determined that the amount of operation of the keyboard 31 and the mouse 32 is decreasing, the doze detection is further performed in consideration of the presence or absence of the call, so that the call is in progress. It is possible to prevent a false detection that a dozing is detected. Even during a call, it seems that simple operation of the keyboard 31 and the mouse 32 is possible in accordance with the command displayed on the display means 33 by the operation command unit 36. For this reason, if the above-mentioned command is set as a command content that can be dealt with even during a call, it is assumed that when the command is displayed on the display means 33, the keyboard 31 and the mouse 32 are operated according to the command. . For this reason, even if a doze is detected without considering the presence / absence of a call as in the first embodiment, the use of information on the presence / absence of an operation in accordance with the command almost eliminates the problem of false detection during a call. Can be avoided. In the second embodiment, the accuracy of dozing detection is higher than that in the first embodiment, and the reliability for detecting dozing can be improved.

  Such a personal computer 25 of the second embodiment can construct a dozing prevention system 26 as shown in FIG. That is, the dozing prevention system 26 includes a personal computer 25 that is an information processing apparatus and a portable telephone 27 that is a portable wireless communication device.

  In the second embodiment, the configuration related to prevention of dozing in the mobile phone 27 has the configuration shown in FIG. That is, the mobile phone 27 includes a telephone function unit 51, a speaker 52, a vibrator motor 53, a mobile-side direct communication function unit 54, and a low frequency current output unit 55.

  The telephone function unit 51 performs operations related to the telephone function according to a predetermined program. With the telephone function unit 51, the portable telephone 27 can be connected to the personal computer 25 through the telephone communication network 48 as shown in FIG. The telephone function unit 51 can perform a calling operation described below. That is, when the telephone function unit 51 detects a call to the mobile phone 27 (when a call is received), the telephone function unit 51 has a function of performing an operation of emitting a ringing sound from the speaker 52 illustrated in FIG. Yes. The telephone function unit 51 has a function of driving the vibrator motor 53 to vibrate the mobile phone 27 itself as a calling operation. It is possible for the operator to set which of the sound and vibration is used for the call operation or whether the sound and vibration are called. The telephone function unit 51 performs the set call operation when a call is received.

  The mobile-side direct communication function unit 54 is configured to perform direct wireless communication with the direct communication function unit 40 of the personal computer 25 without passing through the information communication network (that is, in the second embodiment, Bluetooth (registered trademark) wireless communication). ) Has a function to enable. Thereby, the portable telephone 27 can be connected to the personal computer 25 by direct wireless communication 49 as shown in FIG.

  The low frequency current output unit 55 shown in FIG. 6 outputs a low frequency current for stimulating the owner of the mobile phone 27 (operator of the personal computer 25) to wake up sleepiness. In the second embodiment, the low frequency current output unit 55 includes a low frequency current output pad 56 and a low frequency current generation circuit 57. The low frequency current generation circuit 57 has a circuit configuration for generating a predetermined low frequency current. Further, the low-frequency current generation circuit 57 has a configuration that enables output of the generated low-frequency current when the mobile-side direct communication function unit 54 detects that a doze detection signal is received from the personal computer 25. ing. The frequency of the low frequency current and the magnitude (intensity) of the current are set to appropriate values that can make you feel sleepy. Further, the low frequency current may be output continuously, or output and stop may be repeated in a predetermined pattern. Such an output mode of the low-frequency current may be fixedly set in advance, or may be freely set by the owner of the mobile phone 27.

  A plurality of low-frequency current output pads 56 are provided, and these pads 56 are provided on the surface of the casing of the mobile phone 27 with a space therebetween. The arrangement position of the pad 56 is an area where the owner's body comes into contact with the portable telephone 27 when the holder holds or carries the portable telephone 27, and is an appropriate position avoiding a key or the like. When the low-frequency current generation circuit 57 is capable of outputting a low-frequency current and the body of the owner is in contact with at least two pads 56 at the same time, the owner's body is passed through the pads 56. The low-frequency current stimulation of the low-frequency current generation circuit 57 can be given to the body.

  In the dozing prevention system 26, when a dozing detection signal is output from the dozing detection unit 39 of the personal computer 25 having the dozing detection function and the dozing prevention function, the following measures are taken. That is, when a dozing detection signal is output, a call is made from the personal computer 25 to the portable telephone 27 of the operator of the personal computer 25 by the operation of the sleepiness alarm calling unit 43. When the telephone function unit 51 of the portable telephone 27 detects the call, it performs a predetermined calling operation. As a result, a ringing tone is emitted from the mobile phone 27 or the mobile phone 27 vibrates. The operator's sleepiness can be aroused by stimulating the operator with the sound and vibration.

  On the other hand, when a dozing detection signal is output, a Bluetooth (registered trademark) standard radio wave carrying the dozing detection signal is output from the personal computer 25 by the dozing detection signal communication unit 41 and the direct communication function unit 40. If the mobile phone 27 is within the communicable range of the radio wave, the mobile phone 27 can receive the radio wave, and the low frequency current generation circuit 57 of the low frequency current output unit 55 receives the low frequency current by receiving the radio wave. Can be output. At this time, if the operator's body of the personal computer 25 is touching the plurality of low frequency current output pads 56, the operator can be stimulated by the low frequency current. This low frequency current stimulus can make the operator of the personal computer 25 wake up to sleep.

  The dozing prevention system 26 according to the second embodiment has a function of awakening the operator of the personal computer 25 by a calling operation, as in the dozing prevention system 6 according to the first embodiment. For this reason, as in the first embodiment, it is possible to obtain an effect that the operator can be raised without being noticed by the surrounding people.

  Further, in the second embodiment, the portable telephone 27 is provided with a low frequency current output unit 55, and the operator of the personal computer 25 is awakened by the stimulation of the low frequency current by the low frequency current output unit 55. be able to. In other words, in the second embodiment, different types of stimulation, i.e., stimulation by sound or vibration for calling the phone and stimulation of low-frequency current, can be given to the operator of the PC 25 who is sleeping. it can. Thereby, the sleepiness of the operator of the personal computer 25 can be awakened more reliably.

(Third embodiment)
The third embodiment will be described below.

  In addition to the configuration of the second embodiment, the personal computer that is the information processing apparatus of the third embodiment includes an e-mail communication function unit 44 and a drowsiness alarm e-mail transmission unit 45 indicated by the dotted lines in FIG. The electronic mail communication function unit 44 and the drowsiness alarm mail transmission unit 45 are realized by the control unit 30 operating according to a program given in advance.

  The e-mail communication function unit 44 has a function for performing e-mail communication through the information communication network.

  In the third embodiment, an e-mail address that is a target for snoozing countermeasures (in this third embodiment, an e-mail address of the portable telephone 27 of the operator of the personal computer 25) is registered in the storage unit 38 in advance. Further, the storage unit 38 stores an e-mail for taking a nap in association with the e-mail address. The e-mail for countermeasure against snoozing includes a message such as “Please reply”.

  Further, in the third embodiment, the dozing determination unit 39 outputs the dozing detection signal not only to the dozing detection signal communication unit 41 and the drowsiness calling unit 43 but also to the drowsiness mail transmission unit 45.

  When receiving the dozing detection signal, the drowsiness wake-up mail transmission unit 45 reads out the e-mail address and the nap countermeasure e-mail from the storage unit 38. Then, the sleepiness wake-up mail transmission unit 45 outputs the read e-mail address and e-mail to the e-mail communication function unit 44. These e-mail addresses and e-mails have functions as transmission instructions. By outputting the e-mail address and the e-mail to the e-mail communication function unit 44, the e-mail communication function unit 44 transmits an e-mail for snoozing countermeasures addressed to the e-mail address targeted for the dozing countermeasure.

  Since the personal computer 25 of the third embodiment has the same dozing detection function as that of the personal computer 25 of the second embodiment, it is possible to obtain the same effect related to the detection of dozing as in the second embodiment. In addition, the personal computer 25 according to the third embodiment can construct a dozing prevention system with improved dozing prevention performance as described below.

  That is, the dozing prevention system using the personal computer 25 of the third embodiment includes the personal computer 25 and the mobile phone 27 as in the second embodiment. The configuration related to the dozing prevention in the portable telephone 27 of the third embodiment includes an e-mail communication function unit 58 and a mail arrival notification unit 59 indicated by a dotted line in FIG. 6 in addition to the configuration of the second embodiment. Yes. Each function of the electronic mail communication function unit 58 and the mail arrival notification unit 59 is realized by the mobile phone 27 operating according to a program given in advance.

  The e-mail communication function unit 58 has a function for causing e-mail communication through the information communication network. With this electronic mail communication function unit 58, the portable telephone 27 can exchange electronic mail with the personal computer 25 through the information communication network.

  The incoming mail notification unit 59 has a function for notifying the incoming mail when the electronic mail communication function unit 58 detects that an electronic mail has been received (incoming). As a notification method of the incoming mail, there are a notification by sound and a notification by vibration as in the case of a call for notifying an incoming call. In other words, the incoming mail notification unit 59 has a function of generating a sound or music for notifying an incoming mail from the speaker 52 and a function of driving the vibrator motor 53 to notify the incoming mail by vibration. In the third embodiment, the owner of the portable telephone 27 (operator of the personal computer 25) determines whether the incoming mail notification is performed by sound notification, vibration notification, or both. Can be set. In the third embodiment, the incoming mail notification unit 59 notifies the incoming mail according to the set notification method.

  In the dozing prevention system 26 of the third embodiment, when a dozing detection signal is output from the dozing determination unit 39 of the personal computer 25, the sleepiness wake-up mail transmission unit 45 and the e-mail communication function unit 44 operate. As a result, an electronic mail for snoozing countermeasures is sent from the personal computer 25 to the mobile phone 27. When the mobile phone 27 detects the arrival (reception) of the electronic mail, it performs a notification operation of the incoming mail.

  In the third embodiment, in addition to the sound and vibration stimulation and low-frequency current stimulation caused by calling the phone in the second embodiment, the operator of the personal computer 25 (sound and vibration stimulation caused by e-mail notification) It is possible to wake up the sleepiness of the owner of the portable telephone 27. That is, in the dozing prevention system 26 of the third embodiment, it is possible to further increase the stimulus given to the operator of the personal computer 25 to wake up sleepiness. Thereby, an operator's sleepiness awakening effect can be heightened.

  The stimulus based on the telephone call given to the operator of the personal computer 25 is the same as the stimulus based on the incoming e-mail notification. Considering this, for example, the timing at which the personal computer 25 makes a call may be shifted from the timing at which the dozing countermeasure e-mail is sent. As a result, it is possible to give a stimulus by calling the phone and a stimulus by informing the incoming e-mail with a time difference to the operator of the personal computer 25 (the owner of the portable phone 27). Even in such a case, the effect of alarming sleepiness for the operator of the personal computer 25 from the portable telephone 27 can be enhanced.

(Fourth embodiment)
The fourth embodiment will be described below.

  The personal computer that is the information processing apparatus according to the fourth embodiment has the function related to the detection of snoozing described in the second embodiment or the third embodiment, and the re-detection function is added to the snoozing detection function. . That is, in the fourth embodiment, the dozing determination unit 39 determines whether or not the dozing state continues when a predetermined time Ts (for example, 5 minutes) has elapsed since the output of the dozing detection signal as follows. It has a function to judge. That is, the dozing determination unit 39 stops the calling due to a time-out with no response, even though the telephone function unit 42 has made a calling operation by the drowsiness calling unit 43 after outputting the dozing detection signal. If it is detected, it is determined that the patient is in a dozing state.

  Further, as shown in the third embodiment, when the drowsiness wake-up mail transmission unit 45 is also provided, the dozing determination unit 39 determines that the dozing state is continued in the following cases. That is, when the dozing determination unit 39 detects that a reply mail to the e-mail transmitted by the operation of the drowsiness alarm sending unit 45 is not received even after the time Ts has elapsed from the output of the dozing detection signal In addition, it is determined that the patient is in the state of falling asleep. In other words, when the sleepiness wake-up mail transmission unit 45 is also provided, the doze determination unit 39 is either when there is no response to the call as described above or when there is no reply mail. Even so, it is determined that it is a dozing state. On the other hand, the dozing determination unit 39 may determine that the dozing state is continued when there is no response to the call and there is no reply mail.

  The dozing determination unit 39 outputs a dozing re-detection signal when it is determined that the dozing state is in the dozing state. In the fourth embodiment, the dozing re-detection signal is added from the dozing determination unit 39 to the dozing detection signal communication unit 41 and the drowsiness calling unit 43 in the same manner as the dozing detection signal. Further, when the sleepiness wake-up mail transmission unit 45 is provided, the sleepiness wake-up mail transmission unit 45 is also provided with a doze re-detection signal. When this dozing detection signal is added, the dozing detection signal communication unit 41, the drowsiness calling unit 43, and the drowsiness mail transmission unit 45 perform the same operations as when the dozing detection signal is added.

  In the fourth embodiment, as in the above embodiments, the personal computer 25 is provided with a program for realizing the above functions.

  Since the personal computer 25 according to the fourth embodiment also has the same dozing detection function as that of each of the above embodiments, the same effects related to dozing detection as those of the above embodiments can be obtained. Furthermore, the personal computer 25 of the fourth embodiment also has a dozing redetection function. For this reason, it is possible to construct a dozing prevention system having a snooze function (a function in which a sleepiness-awakening operation is repeated with a time interval) as follows.

  That is, the dozing prevention system including the personal computer 25 according to the fourth embodiment includes the personal computer 25 and the portable telephone 27 similar to each of the second and third embodiments. In the dozing prevention system of the fourth embodiment, when the dozing determination unit 39 of the personal computer 25 outputs the dozing re-detection signal as described above, the dozing detection signal communication unit 41 and the dozing detection signal communication unit 41 are output by outputting the dozing detection signal. The sleepiness alarm calling unit 43 operates in the same manner as when a doze detection signal is output. In addition, when the sleepiness wake-up mail transmission unit 45 is provided, the sleepiness wake-up mail transmission unit 45 operates in the same manner as when a doze detection signal is output. For this reason, a call is made from the personal computer 25 to the mobile phone 27 by the output of the dozing re-detection signal. Further, a Bluetooth (registered trademark) standard radio wave carrying a dozing detection signal is output from the personal computer 25. Further, when a sleepiness alarm mail transmission unit 45 is provided, an electronic mail is transmitted from the personal computer 25 to the mobile phone 27. By the operation of the personal computer 25, the mobile phone 27 gives the operator of the personal computer 25 the stimulus by the calling operation, similarly to the case where the dozing detection signal is output. Further, the portable telephone 27 gives a low frequency current stimulus to the operator of the personal computer 25. Further, the mobile phone 27 gives the operator of the personal computer 25 the stimulus by the incoming mail notification operation. That is, the mobile phone 27 performs a sleepiness-awakening operation.

  That is, in the snoozing prevention system of the fourth embodiment, the portable telephone 27 makes the sleepiness similar to the second and third embodiments according to the output of the dozing detection signal of the dozing determination unit 39 of the personal computer 25. Perform a wake-up action. If the sleepiness wake-up operation of the portable telephone 27 fails to wake up the sleepiness of the operator of the personal computer 25, the sleepiness determination unit 39 of the personal computer 25 outputs a sleepiness redetection signal. Thereby, it is possible to cause the mobile phone 27 to perform the sleepiness-awakening operation again. That is, the snooze function of the dozing prevention system operates.

  Since the dozing prevention system of the fourth embodiment has the same dozing prevention function as the dozing prevention systems of the second and third embodiments, the dozing prevention system of the second and third embodiments and Similar effects can be obtained. Furthermore, since the snooze prevention system of the fourth embodiment has a snooze function that repeats the sleepiness wake-up operation with a certain time interval, the sleepiness wakeup of the operator of the personal computer 25 can be performed more reliably. Thereby, the reliability with respect to the sleepiness alarm function can be improved.

(Fifth embodiment)
The fifth embodiment will be described below.

  FIG. 8 shows a configuration related to dozing detection and dozing prevention of the personal computer 61 that is the information processing apparatus of the fifth embodiment. In the fifth embodiment, the configuration related to the dozing detection and the dozing prevention of the personal computer 61 does not include the telephone function (soft phone function). That is, in the fifth embodiment, the configuration related to the detection of snoozing and prevention of snoozing of the personal computer 61 is almost the same as that of the personal computer 25 shown in the second to fourth embodiments, but the telephone function unit 42 and the sleepiness alarm are provided. The calling unit 43 is omitted.

  In the fifth embodiment, since the telephone function unit is not provided, the dozing determination unit 39 does not use the information on the presence or absence of a call when determining the dozing. That is, the dozing determination unit 39 detects that the operation status of the keyboard 31 and the mouse 32 is a predetermined status, and detects that the operation according to the command of the display means 33 by the operation command unit 36 is not performed. If this happens, a doze detection signal is output.

  The doze detection signal output in this way is added to the doze detection signal communication unit 41. Further, when the sleepiness alarm mail transmission unit 45 is provided, the dozing detection signal is also applied to the sleepiness alarm mail transmission unit 45. As in the second to fourth embodiments, the Bluetooth (registered trademark) standard radio wave carrying the doze detection signal is output from the personal computer 61 by the operations of the doze detection signal communication unit 41 and the direct communication function unit 40. Is done. Further, when the sleepiness wake-up mail transmission unit 45 is provided, the operation of the sleepiness wake-up mail transmission unit 45 and the e-mail communication function unit 44 causes the personal computer 61 to move to the portable telephone 27 of the operator of the personal computer 61. An e-mail is sent.

  In the fifth embodiment, the personal computer 61 makes a doze determination based on the operation status of the keyboard 31 and the mouse 32 and the presence / absence of an operation according to the command. For this reason, as in each of the embodiments described above, the detection of a nap is performed without wearing a sensor for detecting a nap, without using a conspicuous accessory device such as a camera, and without being noticed by surrounding people. The effect that it is possible can be acquired.

  Further, the configuration relating to the detection of dozing and the prevention of dozing in the personal computer 61 of the fifth embodiment does not include a telephone function unit. For this reason, this 5th Embodiment is applicable also to the personal computer (information processing apparatus) which does not have a telephone function (soft fan function). In other words, by applying the fifth embodiment to a personal computer (information processing apparatus) that does not have a telephone function, even if the personal computer (information processing apparatus) does not have a telephone function, the detection of dozing and the prevention of falling asleep are achieved. Can have a function.

  FIG. 9 schematically shows a dozing prevention system 62 including the personal computer 61 according to the fifth embodiment. This dozing prevention system 62 includes a personal computer 61 and a portable wireless communication device 63. The portable wireless communication device 63 is, for example, a PDA (Personal Digital Assistant), a portable game machine, a portable phone, or the like.

  FIG. 10 shows a configuration related to the dozing prevention of the portable wireless communication device 63. In other words, the configuration related to the dozing prevention of the portable wireless communication device 63 includes the portable direct communication function unit 54 and the low-frequency current output unit 55. The portable-side direct communication function unit 54 is the same as the portable-side direct communication function unit 54 shown in the second to fourth embodiments. The portable direct communication function unit 54 and the direct communication function unit 40 of the personal computer 61 allow the portable wireless communication device 63 and the personal computer 61 to communicate with each other via Bluetooth (registered trademark) standard wireless communication (direct wireless communication 49). ) Makes it possible to exchange signals.

  The low frequency current output unit 55 is the same as the low frequency current output unit 55 shown in the second to fourth embodiments. That is, when the low-frequency current output unit 55 detects that the dozing detection signal is received by the mobile-side direct communication function unit 54, the low-frequency current output unit 55 gives sleepiness to the operator of the personal computer 61 (the owner of the portable wireless communication device 63). It has a function to output a low-frequency current that gives an awakening stimulus.

  By the way, the personal computer 61 may be provided with the electronic mail communication function part 44 and the sleepiness alarm mail transmission part 45 which are shown by the dotted line of FIG. In this case, the portable wireless communication device 63 includes at least one of a speaker 52 and a vibrator motor 53 as shown by a dotted line in FIG. 10, an electronic mail communication function unit 58, and an incoming mail notification unit 59. Are preferably provided.

  In the dozing prevention system 62 according to the fifth embodiment, when a dozing detection signal is output from the dozing determination unit 39 of the personal computer 61, a Bluetooth (registered trademark) standard radio wave carrying the dozing detection signal is output from the personal computer 61. The When the portable wireless communication device 63 exists within the communicable area of the radio wave and the portable direct communication function unit 54 of the portable radio communication device 63 receives the radio wave, the low frequency current output unit 55 Enables low-frequency current output. In this state, when the low-frequency current output pad 56 of the low-frequency current output unit 55 is touching (or touching) the operator of the personal computer 61 (the owner of the portable wireless communication device 63), the operator The low-frequency current is stimulated by the low-frequency current output unit 55. That is, the sleepiness alarm of the operator of the personal computer 61 is achieved.

  Further, when the personal computer 61 has a function of transmitting an e-mail according to the output of the dozing detection signal, the portable wireless communication device 63 includes an e-mail communication function unit 58 and a mail arrival notification unit 59. By providing, further sleepiness awakening can be aimed at. That is, when the e-mail transmitted from the personal computer 61 by the output of the dozing detection signal is received by the portable wireless communication device 63, the portable wireless communication device 63 performs an incoming e-mail notification operation. The sleepiness of the operator of the personal computer 61 is aroused by the sound and vibration stimulation generated by the notification operation. That is, in addition to the low-frequency current stimulus, the sleepiness alarm of the operator of the personal computer 61 is also achieved by the sound or vibration stimulus by the notification operation, so that the effect of the sleepiness alarm can be enhanced.

  In the dozing prevention system 62 of the fifth embodiment, as described above, when the dozing of the operator of the personal computer 61 is detected by the personal computer 61, the operator is awakened by the stimulation of the low frequency current. be able to. As a result, as in the second to fourth embodiments, it is possible to obtain an effect that it is possible to wake up a dozing operator without being noticed by surrounding people.

(Sixth embodiment)
The sixth embodiment will be described below.

  FIG. 11 shows a simplified configuration related to dozing detection and dozing prevention of the personal computer 66 that is the information processing apparatus of the sixth embodiment. The configuration related to dozing detection and dozing prevention of the personal computer 66 in the sixth embodiment is the same as those in the second to fourth embodiments except for the differences described below. That is, in the sixth embodiment, the direct communication function unit 40 and the dozing detection signal communication unit 41 shown in the second to fourth embodiments are omitted in the configuration related to the dozing detection and the dozing prevention of the personal computer 66. Yes. In the sixth embodiment, a personal detection unit 67 is provided in the personal computer 66.

  The person detection unit 67 has a function of detecting the presence of a person within a predetermined range around the personal computer 66. Furthermore, the person detection unit 67 has a function of returning the presence / absence of a person when a person detection result transmission request signal is received from the dozing determination unit 39. As a specific example, for example, the human detection unit 67 includes an infrared light emitting unit (not shown) and a light receiving unit (not shown) provided in the vicinity of the screen of the display unit 33. In the human detection unit 67, when a human detection result transmission request signal is received from the dozing determination unit 39, infrared rays are emitted from the light emitting unit. Soon after, when the infrared detection is detected by the light receiving unit, the human detection unit 67 returns a human presence signal notifying the presence of a person around the personal computer 66 to the dozing determination unit 39. In addition, when infrared light reception cannot be detected after infrared light emission, the person detection unit 67 returns a person absent signal to the dozing determination unit 39 informing that no person is present around the personal computer 66. . In the case of the specific example as described above, the predetermined range in which the human detection unit 67 detects the presence of a person is a range in which the presence of the person can be detected with reliable accuracy using infrared rays. For example, the range is from the infrared light emitting part to about 1 m.

  In the sixth embodiment, the dozing determination unit 39 makes a dozing detection determination in consideration of the presence or absence of a person around the personal computer 66. That is, the dozing determination unit 39 has a predetermined operation state of the keyboard 31 and the mouse 32, is not operated according to the instruction of the display means 33, is not in a call, and is in the personal computer 66. When a person is detected in the surroundings, a doze detection signal is output.

  FIG. 12 shows a flowchart showing an operation example related to the detection of dozing and prevention of dozing of the personal computer 66 according to the sixth embodiment. The flowchart of FIG. 12 differs from the flowchart of FIG. 7 described above in that step S206 for determining presence / absence of human detection shown in FIG. 12 is performed between steps S105 and S106 shown in FIG. It is in being provided. That is, in FIG. 12, if it is determined in step S205 that the call is not in progress, in step S206, the dozing determination unit 39 is based on the information of the person detection unit 67 and there is a person around the personal computer 66. Judge whether or not. If it is determined that no person is present, the operator of the personal computer 66 is away from his / her seat, and it is determined that he / she does not fall asleep around the personal computer 66, and the operation related to the detection of the sleep is terminated.

  On the other hand, if the dozing determination unit 39 determines in step S206 that there is a person around the personal computer 66, the dozing determination unit 39 outputs a dozing detection signal in step S207. This doze detection signal is applied to the sleepiness alarm calling unit 43. In step S208, the sleepiness alarm calling unit 43 performs a call operation to the portable wireless communication device of the operator of the personal computer 66. . In addition, when the personal computer 66 includes the electronic mail communication function unit 44 and the drowsiness alarm transmission unit 45 indicated by the dotted line in FIG. 11, the doze detection signal is also applied to the drowsiness alarm transmission unit 45. As a result, the sleepiness alarm e-mail transmission unit 45 transmits an e-mail from the personal computer 66 to the portable wireless communication device 63 of the operator of the personal computer 66 in step S208.

  Operations other than those described above related to dozing detection and dozing prevention are the same as the operations of the flowchart shown in FIG. 7, and here, duplicate description of common parts is omitted.

  In the personal computer 66 of the sixth embodiment, dozing detection is performed in consideration of the presence or absence of a person around the personal computer 66. The person detection can be performed without using a conspicuous accessory device such as a camera. From this, as in the second to fourth embodiments, without wearing a sensor for detection of dozing, without using a conspicuous accessory device such as a camera, without being noticed by surrounding people It is possible to obtain an effect that it is possible to detect dozing.

  Here, the configuration related to the detection of snoozing and the prevention of snoozing in the personal computer 66 has been described as including the telephone function unit 42 and the drowsiness calling unit 43 as essential. On the other hand, the telephone function unit 42 and the drowsiness calling unit 43 may be omitted, and the e-mail communication function unit 44 and the drowsiness alarm sending unit 45 may be essential instead. In this case, the personal computer 66 performs the e-mail transmission operation without performing the call operation by the output of the dozing detection signal.

  The personal computer 66 of the sixth embodiment as described above can construct a dozing prevention system together with a portable wireless communication device having at least one of a telephone function and an electronic mail communication function. In the dozing prevention system according to the sixth embodiment, the personal computer 66 sends a call and sends an e-mail to the portable wireless communication device possessed by the operator of the personal computer 66 by outputting the dozing detection signal. Do at least one of them. As a result, the portable wireless communication device detects an incoming call or e-mail reception, and performs a call operation or a mail arrival notification operation. By the stimulation by such an operation, the sleepiness of the operator of the personal computer 66 can be awakened. In such a dozing prevention system, the same effects as those of the second to fourth embodiments can be obtained.

(Other embodiments)
The present invention is not limited to the first to sixth embodiments, and various embodiments can be employed. For example, in the second to sixth embodiments, the operation status detection unit 35 of the personal computers 25, 61, 66 detects the operation status of both the keyboard 31 and the mouse 32. On the other hand, of course, when one of the keyboard 31 and the mouse 32 is not provided, the operation status detection unit 35 displays the operation status of only the keyboard 31 and the mouse 32 provided. To detect.

  In addition, as a means for operating the cursor displayed on the display means 33, a personal computer may be equipped with, for example, a touch pad as a pointing device other than the mouse 32. In each of the second to sixth embodiments, the movement amount of the mouse 32 is detected by the movement amount of the cursor. For this reason, even when a pointing device other than the mouse 32 is provided, the personal computer can detect the operation status in the same manner as described above by detecting the movement amount of the cursor as the operation amount of the equipped pointing device. Can be detected. The same applies when a plurality of pointing devices are provided.

  Furthermore, in each of the second to sixth embodiments, the movement amount of the mouse 32 is detected by the movement amount of the cursor. On the other hand, information on the amount and direction of movement of the mouse 32 is output from the mouse 32 to the personal computer. Therefore, the movement amount output from the mouse 32 may be used to detect the movement amount of the mouse 32.

  Furthermore, in each of the second to sixth embodiments, a personal computer has been described as an example of the information processing apparatus. However, the present invention can be applied to an information processing apparatus other than a personal computer. For example, the present invention is also applied to an information processing device provided in a device for manipulating a product manufacturing device, or an information processing device provided in a monitoring device for monitoring a predetermined monitoring region or a monitoring object. be able to.

  Furthermore, in each of the second to sixth embodiments, the operation command unit 36 causes the display unit 33 to display a predetermined command. In contrast, for example, when an operator of an information processing apparatus wears an earphone or a headphone connected to the information processing apparatus during operation of the apparatus, the sound from the earphone or the headphone is heard. It is good also as a structure which gives the said instruction | command.

  Further, a mouse 70 as shown in FIG. 13 may be provided in a personal computer having a dozing detection function as described above. The mouse 70 is provided with a low frequency current output unit 55 similar to the low frequency current output unit 55 described in the second embodiment. That is, the low frequency current output unit 55 of the mouse 70 includes a low frequency current output pad 56 provided on the operation button surface of the mouse 70 and a low frequency current generation circuit 57 built in the mouse 70. The low-frequency current output unit 55 can output a low-frequency current for awakening of the operator in the same manner as described above when the doze detection unit 39 detects that the doze detection signal is output. It becomes a state. At this time, if the operator's hand, for example, is touching the low-frequency current output pad 56, a low-frequency current stimulus is applied to the operator, and sleepiness is aroused.

DESCRIPTION OF SYMBOLS 1 Information processing apparatus 2,35 Operation condition detection part 3,36 Operation command part 4,39 Dozing judgment part 6, 11, 26,62 Dozing prevention system

Claims (27)

An operation status detector for detecting a predetermined operation status;
An operation command unit that outputs a command to prompt a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A doze determination unit to output,
An information processing apparatus comprising: A doze detection signal communication unit that outputs an instruction to transmit a predetermined signal as a doze detection signal when it is detected that the doze detection signal is output;
In response to the instruction, the direct communication function unit that outputs the predetermined signal on a radio wave for performing wireless communication directly;
The information processing apparatus according to claim 1, further comprising: A human detection unit that detects the presence of a person within a predetermined range of the surrounding area;
The dozing determination unit detects not only the detection of the operation status and that the operation based on the command is not performed, but also the detection of the presence of the person in addition to the detection thereof. Outputting the doze detection signal,
The information processing apparatus according to claim 1 or 2. In addition, at least one of a keyboard and a mouse as operation means is further provided,
The operation status detection unit has a function of detecting an operation amount of at least one of the keyboard and mouse provided as the operation status,
The dozing determination unit has a function of detecting that the operation status is the predetermined status based on the operation amount.
The information processing apparatus according to claim 1, claim 2, or claim 3.   The information processing apparatus according to claim 4, further comprising a low-frequency current output unit that is provided in the mouse and outputs a low-frequency current by outputting the doze detection signal. When detecting the output of the doze detection signal, a sleepiness alarm calling unit that outputs an instruction to make a call to a predetermined telephone number;
In response to the instruction, a telephone function unit for calling the predetermined telephone number;
The information processing apparatus according to any one of claims 1 to 5, further comprising: In addition, a telephone function unit for functioning as a telephone is provided,
The dozing determination unit outputs the dozing detection signal when not only a plurality of the detections, but also detecting that a call by the telephone function unit is not performed, in addition to the detections.
The information processing apparatus according to any one of claims 1 to 5.   The information processing apparatus according to claim 7, further comprising a sleepiness alarm calling unit that outputs an instruction to call a predetermined telephone number to the telephone function unit when the output of the dozing detection signal is detected. . When detecting the output of the dozing detection signal, a sleepiness alarm e-mail transmission unit that outputs an instruction to transmit a predetermined e-mail addressed to a predetermined e-mail address;
In response to the instruction, an e-mail communication function unit that transmits the e-mail; and
The information processing apparatus according to any one of claims 1 to 8, further comprising: The dozing determination unit further includes a function of outputting a dozing re-detection signal when a predetermined dozing continuation state is detected when a predetermined time has elapsed since the output of the dozing detection signal.
The information processing apparatus according to any one of claims 1 to 9. In the information processing device,
A function to detect a predetermined operation situation;
A function for outputting a command prompting a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A function to output,
A program to give In addition to the information processing apparatus,
12. The method according to claim 11, wherein when it is detected that the dozing detection signal is output, a function of outputting a predetermined signal as a dozing detection signal on a radio wave for performing wireless communication directly is provided. program. In addition to the information processing apparatus,
In addition to the detection of the operation status and the detection that the operation based on the command is not performed, in addition to the detection, information on the detection result of the presence of a person within a predetermined range around 13. The program according to claim 11 or 12, for providing a function of outputting the dozing detection signal when the presence of the person is also detected based on the detection result. In addition to the information processing apparatus,
A function of detecting an operation amount of at least one of a keyboard and a mouse included in the information processing apparatus as the operation state;
A function of detecting that the operation state is the predetermined state based on the operation amount;
The program according to claim 11, claim 12, or claim 13. In addition to the information processing apparatus,
The program according to claim 14 for providing a function of outputting a low-frequency current from a low-frequency current output unit provided in the mouse when the output of the dozing detection signal is detected. In addition to the information processing apparatus,
In addition to the plurality of detections, in addition to the detection, when the telephone function unit provided in the information processing apparatus detects that a call is not being performed, the doze detection signal is output. The program according to any one of claims 11 to 15, which has a function to perform the function. In addition to the information processing apparatus,
The program according to any one of claims 11 to 16, for providing a function of calling a predetermined telephone number when an output of the dozing detection signal is detected. In addition to the information processing apparatus,
The program according to any one of claims 11 to 17, which has a function of transmitting a predetermined e-mail addressed to a predetermined e-mail address when an output of the dozing detection signal is detected. . In addition to the information processing apparatus,
Any one of claims 11 to 18 for providing a function of outputting a dozing re-detection signal when a predetermined dozing continuation state is detected when a predetermined time has elapsed since the output of the dozing detection signal. The program according to one. A mobile-side direct communication function unit for direct wireless communication;
A low frequency current output unit that outputs a low frequency current when it is detected that a predetermined doze detection signal is included in the reception signal of the mobile-side direct communication function unit;
A portable wireless communication device comprising: Including information processing devices and portable wireless communication devices that can be connected via a telephone communication network,
The information processing apparatus includes:
An operation status detector for detecting a predetermined operation status;
An operation command unit that outputs a command to prompt a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A doze determination unit to output,
When detecting the output of the dozing detection signal, a sleepiness alarm calling unit that outputs an instruction to call the telephone number of the portable wireless communication device;
In response to the instruction, a telephone function unit for calling the telephone number;
With
The portable wireless communication device is:
A dozing prevention system having a function of performing a predetermined call operation for the call that has passed through the telephone communication network. Including an information processing device capable of electronic mail communication using an information communication network and a portable wireless communication device,
The information processing apparatus includes:
An operation status detector for detecting a predetermined operation status;
An operation command unit that outputs a command to prompt a predetermined operation;
When detecting that the detected operation status is a predetermined status and detecting that the predetermined operation is not performed even after a predetermined timing after outputting the command, a doze detection signal is generated. A doze determination unit to output,
When detecting the output of the doze detection signal, a sleepiness alarm mail transmission unit that outputs an instruction to transmit a predetermined e-mail addressed to an e-mail address of the portable wireless communication device;
In response to the instruction, an e-mail communication function unit that transmits the e-mail; and
With
The portable wireless communication device is:
A dozing prevention system having a function of performing a predetermined mail arrival notification operation when the reception of the electronic mail is detected. An information processing device according to claim 2;
A portable wireless communication device according to claim 20;
Doze prevention system including. Detect the operating status of a given device,
Outputting a command prompting a predetermined operation of the device;
The operation of the apparatus is detected when it is detected that the detected operation situation is a predetermined situation, and it is detected that the predetermined operation is not performed even after a predetermined timing after outputting the command. Determine that the person is asleep
How to detect dozing. Furthermore, the presence of a person within a predetermined range around the device is detected,
In addition to the detection of the predetermined operation status of the device and the detection that the operation based on the command is not performed, in addition to the detection, the device also detects the presence of the person. It is determined that the operator of the
The dozing detection method according to claim 24. Furthermore, the operation amount of at least one of a keyboard and a mouse provided in the device is detected as the operation status,
Detecting that the operation status is the predetermined status based on the operation amount;
The dozing detection method according to claim 24 or 25. In addition to the plurality of detections, in addition to these detections, when it is further detected that the operator of the device is not making a call using the telephone function provided in the device, Determine that the operator is dozing,
The dozing detection method according to claim 24, claim 25, or claim 26.

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