JP2005056062A - Schedule managing system and method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve productivity while reducing the level of long term fatigue of an employee. <P>SOLUTION: This schedule managing system 11 includes a management computer 12, and the management computer 12 is connected through a general telephone line network 25 or the like to a mobile phone 14 carried by each of a plurality of employees. The mobile phone set 14 is connected to a detection device 16, and physical condition data PCD detected by the detection device 16 are transmitted from the mobile phone set 14 to the management computer 12. The management computer 12 stores schedule data before reorganization of the employee, and compares the received physical condition data PCD with a threshold, and prepares schedule data after reorganization on the basis of the comparison result. The management computer 12 prepares change contents data CHD showing the change of the schedule of the employee on the basis of the schedule data before reorganization and the schedule data after reorganization, and transmits it to the mobile phone set 14 of the pertinent employee. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a schedule management system, a schedule management method, and a program.

  In recent years, there are an increasing number of companies operating and operating 24 hours a day, such as retail and service industries. And in such a company that operates 24 hours a day, it has been known that the working hours of employees are divided into a plurality of times, for example, adopting a work shift system such as a two shift system or a three shift system. .

  By the way, in such a two shift system or a three shift system, one employee sometimes works at different times of the day. For example, a night shift is performed the next day after a day shift. As described above, it has been known that working at irregular hours depending on the day is burdensome for employees and fatigue is likely to accumulate. In addition, the arousal level is reduced due to the accumulation of fatigue, and the work ability of the employee may be reduced.

  Therefore, as shown in Patent Document 1, an arousal control device that applies a stimulus according to the degree of arousal or awakes a driver of an automobile has been proposed. Specifically, the wakefulness control device includes a wakefulness rhythm cycle measuring device, and calculates the wakefulness rhythm cycle based on the measurement result of the driver's brain waves and the like. In addition, the wakefulness control device includes a wakefulness maintaining device, and based on the calculated wakefulness rhythm period, the driver is stimulated by music or the like to prevent a decrease in the wakefulness level of the driver. .

Furthermore, this wakefulness control device is provided with a wake-up device and can prompt the user to fall asleep so that the driver can recover from fatigue in a short time. From the above, it was expected to reduce the accumulation of employee fatigue and improve productivity.
JP-A-7-108847

  By the way, in the wakefulness control device in the above-mentioned patent document 1, the driver is forced to prevent a decrease in the wakefulness level by a stimulus, a warning, or the like. On the contrary, there was a possibility that fatigue would accumulate. In order to avoid the accumulation of long-term fatigue, it was thought that the driver would be actively rested by using a slumber device. However, while the driver was resting, sales and operations were not possible. Since it stopped, there was a possibility that productivity would be reduced.

  The present invention has been made in view of the above problems, and provides a schedule management system, a schedule management method, and a program capable of improving productivity while reducing the degree of long-term fatigue of employees and the like. There is to do.

In order to solve the above problems, the invention according to claim 1 is a schedule management system including a management computer connectable to a plurality of communication devices, wherein the management computer determines an owner of the communication device. It is possible to derive the fatigue state of the owner from the pre-reform schedule information storage means for storing the associated owner information to be identified and schedule information representing the contents of the current schedule of the owner and the communication device. Based on the comparison results of the receiving means capable of receiving the fatigue information, the threshold storing means for storing the threshold, the comparing means for comparing the fatigue information received by the receiving means with the threshold, and the comparing means , Replacing the owner information stored in the schedule information storage means with replaced owner information that is the other owner information, And 換後 owner information, and summarized in that and a replacement means for storing in the reorganization after the schedule information storage means in association with the schedule information.

  According to a second aspect of the present invention, in the schedule management system according to the first aspect, the management computer stores a communication device information storing unit that associates and stores communication device information for identifying the communication device and the owner information. And at least the pre-replacement owner information or the post-replacement owner information that is the owner information before replacement is extracted from at least the pre-reform schedule information storage means or the post-reform schedule information storage means. Extraction means; and second extraction means for extracting the communication equipment information corresponding to the pre-replacement owner information or the post-replacement owner information extracted by the extraction means from the communication equipment information storage means; Using the communication device information extracted by the second extraction means, at least the pre-reorganization schedule information storage means There is summarized in that a schedule change information based on the schedule information stored in the schedule information storage means after the reorganization, and a transmitting unit capable of transmitting to the communication device.

  According to a third aspect of the present invention, in the schedule management system according to the second aspect, the vehicle is mounted with the communication device and is connected to the communication device, and the communication device receives from the transmission unit of the management computer. The gist is provided with a vehicle speed adjusting means for adjusting the vehicle speed of the vehicle based on the schedule change information.

  According to a fourth aspect of the present invention, in the schedule management system according to any one of the first to third aspects, the plurality of communication devices and a detecting unit connected to the communication devices and capable of acquiring the fatigue information. And the summary.

  According to a fifth aspect of the present invention, in the schedule management system according to any one of the first to fourth aspects, the fatigue information includes at least physical condition information indicating the physical condition of the owner, and the threshold value is The gist is that the physical condition information is a value capable of determining whether or not the owner information is a value suitable for working of the owner.

  The invention according to claim 6 is connectable to a plurality of communication devices, owner information for identifying an owner of the communication device, and schedule information indicating the contents of the current schedule of the owner; The management computer having schedule information storage means before reorganization for storing the information in association with the threshold storage means for storing the threshold value receives fatigue information representing the working status of the owner from the communication device via the reception means. Based on the comparison result in the comparison stage via the reception stage, the comparison stage for comparing the fatigue information with the threshold value stored in the threshold value storage means through the comparison means, and the replacement means. Thus, the owner information associated with the schedule information stored in the pre-reform schedule information storage means is replaced with other owner information. Post owner to replace the information, and summarized in that and a replacement step to be stored in the reorganization after the schedule information storage means in association with the substituted after owner information and the schedule information.

The invention according to claim 7 is connectable to a plurality of communication devices, owner information for identifying an owner of the communication device, and schedule information representing the contents of the current schedule of the owner; Fatigue information representing the working status of the owner is received from the communication device via a receiving means to a management computer comprising a pre-reform schedule information storage means for storing the information in association with each other and a threshold value storage means for storing a threshold value. Based on the comparison result in the comparison stage via the reception stage, the comparison stage for comparing the fatigue information with the threshold value stored in the threshold value storage means through the comparison means, and the replacement means. Thus, the owner information associated with the schedule information stored in the pre-reform schedule information storage means is replaced with other owner information. Replaced by post owner information, wherein the post-replacement owner information, and summarized in that to execute the replacement step to be stored in the reorganization after the schedule information storage means in association with the schedule information.
(Function)
According to the first, sixth, and seventh aspects of the invention, the management computer that can be connected to a plurality of communication devices includes the schedule information storage unit and the threshold storage unit. When the management computer receives the fatigue information from the communication device via the receiving means, the comparing means compares the fatigue information with the threshold value of the threshold value storage means. In addition, the management computer replaces the owner information associated with the schedule information in the schedule information storage unit with the replaced owner information by the replacing unit based on the comparison result by the comparing unit. Then, the post-replacement owner information and the schedule information are associated with each other and stored in the post-reorganization schedule information storage means.

  Therefore, the owner information associated with the schedule information in the schedule information storage unit is replaced based on the comparison result between the fatigue information from the communication device and the threshold value, and is stored in the post-reorganization schedule information storage unit. . That is, for example, when the owner of the communication device is in a state such as poor physical condition, fatigue information indicating the state is transmitted to the management computer and compared with a threshold value in the management computer. Then, the degree of fatigue of the owner can be determined. And, for example, if it is determined that the owner is in a fatigue state that makes it difficult to work, the owner information associated with the schedule information is replaced with the replaced owner information, and the schedule of the working owner is Then, after the replacement, the schedule is changed to another owner identified by the owner information. Therefore, since the schedule of each owner is appropriately modified based on the owner's fatigue information, the owner can work in a state where the degree of long-term fatigue is reduced. Further, the owner with less fatigue can always be kept in a working state, and the overall productivity can be improved.

  According to the second aspect of the present invention, the communication device information storing means for storing the communication device for identifying the communication device and the owner information in association with each other is provided. At least the pre-replacement owner information or the post-replacement owner information is extracted by the first extraction means, and the communication device information corresponding to the extracted pre-replacement owner information or post-replacement owner information is extracted second. It was extracted by means. Further, by using the extracted communication device information, schedule information representing a schedule change based on the pre-reform schedule information storage unit and the post-reform schedule information storage unit is transmitted to the communication device via the transmission unit. did.

  Therefore, every time the owner information associated with the schedule information stored in the schedule information storage means is replaced and the replacement owner information is stored in the post-reorganization schedule information storage means, at least the owner before replacement The schedule information is transmitted to the communication device of the owner corresponding to the information or the owner information after replacement. As a result, the owner can understand that the schedule has been revised based on the schedule information received by the communication device. Therefore, the owner corresponding to the schedule reorganization can be notified in real time that the schedule has been reorganized, and work shifts and the like can be performed smoothly.

  According to the invention described in claim 3, the vehicle is equipped with a communication device and vehicle speed adjusting means for adjusting the vehicle speed of the vehicle. The vehicle speed adjusting means is connected to the communication device, and the vehicle speed adjusting means adjusts the vehicle speed based on the schedule change information received from the transmission means of the management computer.

Therefore, the owner can understand that the schedule has been revised by changing the vehicle speed. As a result, work shifts and the like can be performed more smoothly.
According to the invention described in claim 4, the detection means connected to the communication device is provided. The fatigue information acquired by the detection means is transmitted to the reception means of the management computer via the communication device.

  Therefore, the fatigue information is automatically acquired by the detecting means, and the owner does not need to manually input the fatigue information to the communication device. As a result, fatigue information can be acquired more easily.

  According to the fifth aspect of the present invention, the fatigue information is physical condition information representing the physical condition of the owner. The threshold value is a value that can determine whether or not the physical condition information is a value suitable for the owner's fatigue. Therefore, the degree of fatigue of the owner can be determined more directly, and the owner can be more surely reduced in the degree of long-term fatigue.

  According to the present invention, productivity can be improved while reducing the degree of long-term fatigue of employees and the like.

Hereinafter, an embodiment embodying the present invention will be described with reference to FIGS. FIG. 1 shows a system configuration diagram of the schedule management system 11.
As shown in FIG. 1, the schedule management system 11 according to the present embodiment includes a management computer 12 owned by a certain company and communication devices carried by employees as a plurality of owners belonging to the same company. A mobile phone 14 and a detection device 16 connected to the mobile phone 14 are provided.

  The management computer 12 receives from the mobile phone 14 the physical condition data PCD as fatigue information and physical condition information acquired by the detection device 16. Further, the management computer 12 transmits change content data CHD representing a change in the work schedule of each employee to the mobile phone 14.

  Specifically, the physical condition data PCD from the mobile phone 14 is transmitted as a radio signal from the antenna 18 of the mobile phone 14. The radio signal is received by the base station antenna 23 of the mobile phone base station 21 and transmitted to the management computer 12 via the general telephone network 25. On the contrary, the change content data CHD from the management computer 12 is transmitted as a radio signal from the base station antenna 23 of the mobile phone base station 21 via the general telephone line network 25. The radio wave signal transmitted from the base station antenna 23 is received by the antenna 18 of the mobile phone 14 and transmitted to the mobile phone 14. That is, the management computer 12 and the mobile phone 14 are connected via a so-called wireless Internet.

Note that the general telephone line network 25 may not be interposed between the management computer 12 and the mobile phone 14. For example, on the mobile phone 14 side, a radio transceiver, TA (terminal adapter) and DSU (digital service unit)
) And the like, and a method of directly connecting the management computer 12 and the mobile phone 14 via the wireless Internet may be employed.

By the way, the physical condition data PCD acquired by the detection device 16 is constituted by body temperature data TD and pulse rate data PD in the present embodiment. Specifically, as shown in FIG. 2, the detection device 16 is attached to each employee's wrist 26 and the like, so that the body temperature data TD representing the body temperature of each employee, and the pulse rate data PD representing the pulse rate, Is acquired every predetermined time (for example, every 10 minutes). The detection device 16 may use any device as long as it can acquire the body temperature data TD and the pulse rate data PD.

Next, the management computer 12 will be described in detail with reference to FIGS. FIG. 3 shows a block diagram of the management computer 12 in this embodiment.
As shown in FIG. 3, the management computer 12 includes a CPU 31, a ROM 33, a RAM 35, a HDD (Hard Disk Drive) 37, a data transmission / reception device 39, a display 41, a keyboard 43, and a mouse 45. Connected. The CPU 31 corresponds to a receiving unit, a comparing unit, a replacing unit, a first extracting unit, a second extracting unit, and a transmitting unit. The HDD 37 corresponds to a schedule information storage unit before modification, a threshold value storage unit, a schedule information storage unit after modification, and a communication device information storage unit.

  The CPU 31 operates in accordance with various programs stored in the ROM 33 and stores the calculation processing result and the like in the temporary RAM 35. The ROM 33 stores a minimum program and data necessary for starting the management computer 12 and the like. In the RAM 35, a resident area and a work area for various programs stored in the ROM 33 and the HDD 37 are secured. The HDD 37 stores various control programs executed by the CPU 31, various software, and various data.

  The CPU 31 can access the data transmission / reception device 39, the display 41, the keyboard 43, and the mouse 45. The data transmitter / receiver 39 is connected to the general telephone network 25 (see FIG. 1), and the CPU 31 inputs the physical condition data PCD transmitted from the mobile phone 14 via the data transmitter / receiver 39. . Further, the CPU 31 outputs change content data CHD to be transmitted to the mobile phone 14 via the data transmitting / receiving device 39.

  The display 41 is a display device such as a CRT or a liquid crystal display, for example, and displays various images based on various image data output from the CPU 31. The keyboard 43 and the mouse 45 input various characters, numbers, image data, and various operation instruction signals to the CPU 31.

  As shown in FIG. 4, the HDD 37 stores pre-reform schedule data 51, post-reform schedule data 52, contact data 53, threshold data 54, and physical condition determination data 55. Further, the HDD 37 stores change data 56, a physical condition determination program 57, a contact program 58, and a schedule reorganization program 59.

  In this embodiment, the pre-reorganization schedule data 51 is data for representing a schedule of each employee carrying the mobile phone 14 (see FIG. 1). Specifically, as shown in FIG. 5, the pre-reorganization schedule data 51 is formed of a set of data including data such as month / day data, day-of-week data, work style data, and employee name data. The HDD 37 stores a plurality of pre-reorganization schedule data 51 using the date data and the work style data as main keys. In the present embodiment, employee name data corresponds to owner information and pre-replacement owner information. Further, the date data, day of the week data, and work style data correspond to schedule information.

Note that the date data is data such as “November 1” for identifying an employee's working day. The day-of-week data is data for identifying the day of the work day such as “Wed”. Furthermore, the work format data is data such as “E” or “L”, where “E” represents data for day shifts and “L” represents data for night shifts. Furthermore, the employee name data is data such as “employee B”, which is data for identifying the name of the employee.

  In this embodiment, the pre-reorganization schedule data 51 configured as described above is updated and stored in the HDD 37 by the CPU 31 when the user inputs various information via the keyboard 43 and the mouse 45. And When the user is updating the pre-reform schedule data 51, as shown in FIG. 6, an image G1 based on the pre-reform schedule data 51 stored in the HDD 37 is displayed on the display 41 (FIG. 3). (See above) You may make it display on. As a result, the user can easily understand the pre-reform schedule data 51 stored in the HDD 37.

  As shown in FIG. 7, the post-reorganization schedule data 52 is formed of a set of data such as month / day data, day-of-week data, work style data, and employee name data, in the same manner as the pre-reorganization schedule data 51. This data is used to represent the employee's schedule after reorganization. In the present embodiment, the employee name data corresponds to the owner information after replacement, and the date data, day data, and work style data correspond to the schedule information.

  In this embodiment, the post-reorganization schedule data 52 is created by the CPU 31 editing the pre-reorganization schedule data 51 according to a schedule reorganization program 59 described later, and updated and stored in the HDD 37. .

  As shown in FIG. 8, the contact data 53 is formed of a set of data including employee name data as owner information and e-mail address data as communication device information. This is data for identifying the e-mail address of the mobile phone 14. The employee name data is data for identifying the employee name, similar to the employee name data included in the pre-reorganization schedule data 51 and the like. The e-mail address data is data representing an e-mail address such as “yamada@○△□.jp”. This e-mail address is an address unique to the mobile phone 14 owned by the corresponding employee. By sending various data from the CPU 31 using this e-mail address, each e-mail address is sent to each mobile phone 14. Various data can be transmitted. In the present embodiment, the contact data 53 is updated and stored in the HDD 37 by the CPU 31 when the administrator of the management computer 12 inputs various information via the keyboard 43 and the mouse 45. And

  As shown in FIG. 9, the threshold data 54 is a set of data formed by threshold name data and value data, and is data for specifying a threshold used in a physical condition determination program 57 described later. Yes. Specifically, the threshold name data is data for specifying various threshold values such as “TL”, “PL”, “mL”, and “nL”. Further, the value data is data such as “36.3 ° C.”, “55 times / minute”, and “6”, and is data for representing a specific numerical value of each threshold value. In the present embodiment, the threshold data 54 is updated and stored in the HDD 37 by the CPU 31 when an administrator of the management computer 12 inputs various information via the keyboard 43 and the mouse 45. To do.

As shown in FIG. 10, the physical condition determination data 55 is a set of data formed by employee name data and determination value data. A determination value m and a determination value n used in a physical condition determination program 57 described later. It is data to identify. The employee name data is data for identifying the employee name, similar to the employee name data included in the pre-reorganization schedule data 51, the contact data 53, and the like. The determination value data is data represented by numerical values such as “0” and “3”, and is data for specifying specific numerical values of the determination value m and the determination value n for each employee. It has become. In this embodiment, the physical condition determination data 55 is data that is appropriately updated and stored in the HDD 37 by the CPU 31 of the management computer 12 performing a process according to a physical condition determination program 57 described later.

  As shown in FIG. 11, the change data 56 includes a set of data including employee name data, month / day data, and change content data CHD. The pre-reorganization schedule data 51 and the post-reorganization schedule data 52 The data represents the changes between the two. The employee name data is data for identifying the employee name, similar to the employee name data included in the pre-reorganization schedule data 51 and the like. Further, the date data is data for identifying the day on which the employee works, similarly to the date data included in the pre-reorganization schedule data 51 and the like. The change content data CHD is data for representing the change content of the work style, such as “L → off” and “off → L”. Note that “off” represents vacation.

  In the present embodiment, the change data 56 is data that is created by the CPU 31 performing processing in accordance with a communication program 58 described later, and is appropriately updated and stored in the HDD 37.

  As shown in FIG. 4, the physical condition determination program 57 is a program for determining whether the physical condition of each employee is suitable for employment based on the physical condition data PCD of each employee received by the management computer 12. is there. The physical condition determination program 57 is a program executed by the CPU 31 every time the CPU 31 of the management computer 12 receives the physical condition data PCD via the data transmitting / receiving device.

  Specifically, in the physical condition determination program 57, when the CPU 31 inputs the physical condition data PCD via the data transmitting / receiving device 39, the CPU 31 first includes the body temperature data TD included in the physical condition data PCD in the threshold data 54 of the HDD 37. This is a program for determining whether or not the value is smaller than the threshold value TL. When the CPU 31 determines that the body temperature data TD is smaller than the threshold value TL, the physical condition determination program 57 is a program for updating and storing the determination value m of the determination value data of the physical condition determination data 55 with 1 added. It is. Furthermore, when the CPU 31 determines that the body temperature data TD is equal to or greater than the threshold TL, the physical condition determination program 57 is a program for updating and storing the determination value m of the physical condition determination data 55 in a state of 0.

  Then, when the CPU 31 receives the physical condition data PCD, the physical condition determination program 57 determines whether or not the pulse rate data PD included in the physical condition data PCD is smaller than the threshold value PL included in the threshold data 54 of the HDD 37. It is a program for. The physical condition determination program 57 is a program for causing the CPU 31 to update and store the threshold value n data of the physical condition determination data 55 in a state where 1 is added if the pulse rate data PD is smaller than the threshold value PL. Further, the physical condition determination program 57 is a program for updating and storing the CPU 31 in a state where the determination value n of the physical condition determination data 55 is set to 0 if the pulse rate data PD is equal to or greater than the threshold value PL.

In addition, the physical condition determination program 57 determines whether the determination value m and the determination value n of the physical condition determination data 55 for each employee are larger than the threshold value mL and the threshold value nL included in the threshold value data 54, respectively. Is a program for causing the CPU 31 to determine.

  Therefore, when receiving the physical condition data PCD, the CPU 31 determines whether or not the body temperature data TD included in the received physical condition data PCD is smaller than the threshold value TL according to the physical condition determination program 57. If the CPU 31 determines that the body temperature data TD is smaller than the threshold value TL according to the physical condition determination program, the CPU 31 updates and stores the determination value m of the physical condition determination data 55 by one. Conversely, if the CPU 31 determines that the body temperature data TD is equal to or greater than the threshold TL, the CPU 31 updates and stores the determination value m in a state where the determination value m is 0.

  Further, when receiving the physical condition data PCD, the CPU 31 determines whether or not the pulse rate data PD included in the received physical condition data PCD is smaller than the threshold value PL according to the physical condition determination program 57. When the CPU 31 determines that the pulse rate data PD is smaller than the threshold value PL according to the physical condition determination program, the CPU 31 updates and stores the determination value n of the physical condition determination data 55 by one. Conversely, if the CPU 31 determines that the pulse rate data PD is greater than or equal to the threshold value PL, the CPU 31 updates and stores the determination value n in a state where the determination value n is 0.

  In addition, when the CPU 31 updates the determination value m and the determination value n, according to the physical condition determination program 57, at least one of the determination value m and the determination value n is greater than the threshold value mL and the threshold value nL of the threshold value data 54. Determine whether it is larger.

  The communication program 58 is a program for reorganizing each employee's schedule based on the physical condition of each employee determined by the physical condition determination program 57 and for notifying each employee of changes in the schedule. is there. In the communication program 58, the CPU 31 includes at least one of the determination value m and the determination value n of the physical condition determination data 55 for each instructor in the threshold data 54 according to the physical condition determination program 57. If it is determined that the threshold value is greater than the threshold value mL and the threshold value nL, the program is executed by the CPU 31.

  Specifically, in the communication program 58, first, when the CPU 31 determines that at least one of the determination value m and the determination value n is larger than the threshold value mL and the threshold value nL, the CPU 31 determines the employee who has been determined. Is a program for identifying employee names. Further, the contact program 58 is a program for the CPU 31 to extract matching employee name data from the pre-reorganization schedule data 51 based on the identified employee name and the date of the day.

  Furthermore, when the CPU 31 extracts employee name data from the pre-reorganization schedule data 51, the CPU 31 stores the post-reorganization schedule data 52 based on the pre-reorganization schedule data 51 according to the schedule reorganization program 59 described later. It is a program for creating.

  Furthermore, when the CPU 31 creates the post-reorganization schedule data 52, the communication program 58 is a program for the CPU 31 to detect a change between the pre-reformation schedule data 51 and the post-reformation schedule data 52 created. Further, based on the detected change, the CPU 31 extracts employee name data, month / day data, and change content data CHD that have been changed, and updates and stores them in the HDD 37 as the change data 56. It is a program for.

Further, when the CPU 31 updates and stores the change data 56, the contact program 58 corresponds to the employee name data included in the change data 56 based on the change data 56 and the contact data 53. A program for extracting e-mail address data. Furthermore, the contact program 58 is a program for the CPU 31 to transmit the change content data CHD included in the change data 56 to the mobile phone 14 of the corresponding employee using the extracted e-mail address. .

  Accordingly, when the CPU 31 determines that at least one of the determination value m and the determination value n is greater than the threshold value mL and the threshold value nL according to the physical condition determination program 57, the determination value determined according to the communication program 58 is determined. The employee name corresponding to m or the judgment value n is specified. Then, the CPU 31 extracts matching employee name data from the employee data of the pre-reorganization schedule data 51 based on the identified employee name and the date of the day.

  Thereafter, the CPU 31 executes the schedule reorganization program 59 in accordance with the communication program 58 and creates post-reorganization schedule data 52 based on the pre-reform schedule data 51. Further, the CPU 31 compares the pre-reform schedule data 51 with the post-reform schedule data 52 according to the communication program 58 and detects a change point. Then, the CPU 31 extracts employee name data, month / day data, and change content data CHD having changed points based on the detected changed points, and updates and stores them in the HDD 37 as changed data 56.

  Further, when the CPU 31 updates and stores the change data 56, the e-mail address data corresponding to the employee name data included in the change data 56 based on the change data 56 and the contact data 53 according to the contact program 58. To extract. Further, the CPU 31 transmits the change content data CHD included in the change data 56 to the mobile phone 14 of the corresponding employee using the extracted e-mail address.

The schedule reorganization program 59 is a program for the CPU 31 to read the pre-reform schedule data 51, create post-reform schedule data 52 based on the read pre-reform schedule data 51, and store it in the HDD 37. The Schedule Reorganization Program 59 is a Tr developed by Circadian Technologies, Inc.
It is possible to use a known program such as ainMatch Software.

  In this embodiment, when the CPU 31 extracts employee name data from pre-reform schedule data according to the communication program 58, the schedule reorganization program 59 converts the extracted employee name data into other employee name data. It is assumed that the program is for replacement. The schedule reorganization program 59 is a program for storing data created by replacing the employee name data in the HDD 37 as the reorganized schedule data 52.

  Further, in the present embodiment, the schedule reorganization program 59 uses the values of the determination value m and the determination value n of the physical condition determination data 55 as the new employee name data used for replacement of the employee name data. It is assumed that this is a program that preferentially selects and uses employee name data having the smallest number.

  The schedule reorganization program 59 may use other programs as long as it can replace the employee name data extracted in the pre-reorganization schedule data 51 with other employee name data. .

Next, the operation of the schedule management system 11 configured as described above will be described.
As shown in FIGS. 1 and 2, the detection device 16 detects the body temperature and the pulse rate of the employee every predetermined time, and the physical condition data based on the body temperature data TD and the pulse rate data PD each time it is detected. The PCD is transmitted from the mobile phone 14 to the mobile phone base station 21. The transmitted physical condition data PCD is transmitted to the management computer 12 via the general telephone line network 25.

  Then, as shown in FIG. 12, in the receiving stage, the physical condition data PCD transmitted to the management computer 12 is input to the CPU 31 via the data transmitter / receiver 39 (see FIG. 3) (step S11). Then, when the CPU 31 proceeds to the comparison stage and inputs the physical condition data PCD, first, according to the physical condition determination program 57, it is determined whether or not the body temperature data TD included in the physical condition data PCD is smaller than the threshold value TL of the HDD 37 (step). S12).

  For example, it is assumed that the threshold TL is stored as “36.3 ° C.” in the threshold data 54. In such a case, for example, if the body temperature of the employee A represented by the body temperature data TD represents a numerical value such as “36.0 ° C.”, the CPU 31 determines that the body temperature data TD is lower than the threshold value TL. Then (YES in step S12), the determination value m of the physical condition determination data 55 is updated and stored in a state in which 1 is added (step S13).

  For example, if the body temperature of the employee A represented by the body temperature data TD represents a numerical value such as “36.7 ° C.”, the CPU 31 determines that the body temperature data TD represents a body temperature equal to or higher than the threshold TL ( In step S12, NO), the determination value m of the physical condition determination data 55 is updated and stored in a state of 0 (step S14).

  Subsequently, when the process according to step S13 or step S14 is completed, the CPU 31 determines whether or not the pulse rate data PD included in the physical condition data PCD is smaller than the threshold value PL of the HDD 37 (step S15). For example, it is assumed that the threshold value PL is stored as “55 times / minute” in the threshold value data 54. In such a case, for example, if the pulse rate of the employee A represented by the pulse rate data PD represents a numerical value such as “53 times / minute”, the CPU 31 indicates that the pulse rate data PD is greater than the threshold value PL. Are determined to be less (YES in step S15). Then, the CPU 31 updates and stores the determination value n of the physical condition determination data 55 with 1 added (step S16).

  Further, for example, if the pulse rate of the employee A represented by the pulse rate data PD represents a numerical value such as “60 times / minute”, the CPU 31 determines that the pulse rate data PD is equal to or greater than the threshold value PL (step The CPU 31 updates and stores the determination value n of the physical condition determination data 55 in a state of 0 (NO in S15) (step S17).

  And CPU31 will determine whether the determination value m contained in the data 55 for physical condition determination is larger than the threshold value mL, if the process according to the said step S16 or step S17 is complete | finished (step S18). For example, it is assumed that the threshold value mL is stored as “6” in the threshold value data 54.

  In such a case, for example, if the determination value m represents a numerical value of 6 or less such as “3”, the CPU 31 determines that the determination value m is less than or equal to the threshold value mL (NO in step S18). The process proceeds to step S19. Then, the CPU 31 determines whether or not the determination value n included in the physical condition determination data 55 is larger than the threshold value nL (step S19).

  For example, it is assumed that the threshold value nL is stored as “6” in the threshold value data 54. In such a case, for example, if the determination value n represents a numerical value of 6 or less such as “2”, the CPU 31 determines that the determination value n is equal to or less than the threshold value nL (NO in step S18). The processing of the physical condition determination program 57 is terminated, and the process waits for the next input of physical condition data PCD from each employee.

  On the other hand, for example, when at least one of the determination value m or the determination value n is a value larger than 6, such as “7”, the CPU 31 determines at least one of the determination value m or the determination value n. It is determined that one of them is greater than or equal to threshold value mL or threshold value nL (YES in step S18 or step S19). Then, as shown in FIG. 13, the CPU 31 proceeds to step 21 as a replacement stage.

  CPU31 will identify the name of the employee who is the owner of the mobile telephone 14 which is the transmission origin of physical condition data PCD according to the contact program 58, if it moves to step 21. FIG. And CPU31 will extract the matching employee name data from the schedule data 51 before a revision based on an employee name and the date of the day, if an employee is specified.

  For example, the employee identified by the CPU 31 in step 21 is “employee A”, the contents of the pre-reorganization schedule data 51 are as shown in FIG. 5, and the date of the day is “11”. Month 1 ”. Then, the CPU 31 extracts data “employee A” stored in association with “November 1” in the pre-reorganization schedule data 51 (step S21).

  Subsequently, the CPU 31 creates post-reorganization schedule data 52 based on the pre-reform schedule data 51 in accordance with the schedule reorganization program 59. In this embodiment, the data “employee A” stored in association with “November 1” in the pre-reorganization schedule data 51 is replaced with the data “employee E”. Assume that post-reorganization schedule data 52 as shown in FIG. 7 is created.

  Subsequently, as shown in FIG. 13, the CPU 31 compares the pre-reform schedule data 51 with the post-reform schedule data 52 according to the communication program 58 and detects a change point. Then, the CPU 31 creates change data 56 based on the detected change point, and updates and stores it in the HDD 37 (step S22).

  Note that, for example, the CPU 31 compares the pre-reform schedule data 51 shown in FIGS. 5 and 7 with the post-reform schedule data 52. Then, as shown in FIG. 11, the CPU 31 first stores the change data 56 with the employee data “employee A”, the date data “November 1”, and the change content data CHD “L → off”. One is created and updated and stored in the HDD 37. Further, the CPU 31 creates one more change data 56 in which the employee data is “employee E”, the date data is “November 1”, and the change content data CHD is “off → L”. Update memorize.

  Subsequently, as shown in FIG. 13, the CPU 31 performs e-mail corresponding to the employee name data included in the change data 56 based on the change data 56 updated and stored and the contact data 53 according to the contact program 58. Extract address data. Further, the CPU 31 transmits the change content data CHD included in the change data 56 to the mobile phone 14 of the corresponding employee using the extracted e-mail address.

  For example, when the contact data 53 is as shown in FIG. 8 and the change data 56 is as shown in FIG. 11, first, the CPU 31 starts from the contact data 53 shown in FIG. E-mail data corresponding to employee data that matches employee A and employee E is extracted. Then, using the extracted e-mail address, CPU 31 transmits change content data CHD included in change data 56 shown in FIG. 11 to mobile phone 14 of the corresponding employee.

  That is, the change content data CHD such as “L → off” is transmitted to the mobile phone 14 owned by the employee A using the e-mail address “yamada@○Δ□.jp”. Further, the change content data CHD such as “off → L” is transmitted to the mobile phone 14 owned by the employee E using the electronic mail address “kobayashi@○Δ□.jp”.

  Then, when the employee A and the employee E receive the change content data CHD, the mobile phone 14 confirms the received change content data CHD with a voice or an image. Then, the employee A confirms that his / her work style has been changed from “L”, that is, night shift to “off”, that is, vacation. Furthermore, the employee E confirms that his / her work style has been changed from “off”, that is, a state of vacation, to “L”, that is, night shift. Then, employee A and employee E stop working or start working according to the contents of the received change content data CHD.

  Therefore, according to the schedule management system 11 described above, the work style of each employee is changed on the basis of the physical condition data PCD representing the physical condition such as the body temperature and the pulse rate of each employee, and the changed point is determined by each employee. Is transmitted as change content data CHD to the mobile phone 14 owned by the user. Therefore, employees who are fatigued can be sequentially replaced with employees who are less fatigued. As a result, the degree of long-term fatigue of employees belonging to the company can be reduced. In addition, it is possible to maintain a working employee in a state that does not have much fatigue, and an improvement in productivity can be expected.

According to the above embodiment, the following effects can be obtained.
(1) In the embodiment described above, the management computer 12 can be connected to the mobile phone 14 individually owned by a plurality of employees. In addition, the HDD 37 of the management computer 12 stores pre-reorganization schedule data 51 and threshold data 54. Then, when the CPU 31 of the management computer 12 receives the physical condition data PCD from the mobile phone 14, the body temperature data TD and the pulse rate data PD constituting the physical condition data PCD are converted into the threshold value TL and threshold value of the threshold data 54 according to the physical condition determination program. Compared with PL. Then, based on the comparison result, the CPU 31 creates post-reorganization schedule data 52 based on the pre-reform schedule data 51 in accordance with the schedule reorganization program 59.

  Therefore, it is possible to determine whether or not the employee is currently in a fatigue state by comparing the body temperature data TD and the threshold value TL, and the pulse rate data PD and the threshold value PL. When the CPU 31 determines that the state is fatigued, the post-reorganization schedule data 52 is created. Therefore, the schedule is appropriately modified based on the fatigue state of the employee, and the schedule can be appropriately changed to replace the tired employee with another employee. As a result, each employee can work with a reduced degree of long-term fatigue. Moreover, it becomes possible to make only an employee with little fatigue become working state, and it becomes possible to improve overall productivity.

  (2) In the above embodiment, the contact data 53 constituted by the employee name data and the e-mail address data is stored in the HDD 37 of the management computer 12. Then, the CPU 31 creates change data 56 composed of employee name data and change content data CHD in accordance with the communication program 58. In addition, the CPU 31 uses the e-mail address data corresponding to the employee name data based on the created change data 56 and contact data 53, and the mobile phone 14 owned by the corresponding employee of the change content data CHD. On the other hand, the change content data CHD is transmitted.

Therefore, since the change content data CHD is transmitted to the mobile phone 14 owned by the corresponding employee, the employee can understand that the work schedule has been revised by the mobile phone 14. Therefore, it is possible to notify the employee who corresponds to the schedule reorganization in real time that the schedule has been reorganized, and the shift of work can be performed smoothly.

  (3) In the above embodiment, the physical condition data PCD is automatically detected every predetermined time by the detection device 16 worn on the wrist of the employee and transmitted from the mobile phone 14 to the management computer 12. I did it. Therefore, since the employee does not need to perform a manual input operation or the like in order to obtain the physical condition data PCD, the physical condition data PCD can be obtained more easily.

  (4) In the above embodiment, the physical condition data PCD is constituted by the body temperature data TD and the pulse rate data PD. Therefore, the degree of employee fatigue is determined by data closely related to the physical condition, and the CPU 31 of the management computer 12 can determine the degree of employee fatigue more accurately. As a result, the degree of long-term fatigue of employees can be reduced more reliably.

In addition, you may change the said embodiment as follows.
In the above embodiment, the fatigue information is embodied in the physical condition data PCD composed of the body temperature data TD and the pulse rate data PD. This may be embodied in other data that can derive the employee's fatigue state. For example, it should be embodied in data representing brain waves, number of blinks, driving conditions (number of braking operations, vehicle speed, mileage, running time, etc.), environmental temperature, workplace brightness, employee breath alcohol concentration, etc. May be.

Then, in the case of realizing such data, the detection device 16 may be changed to a device capable of detecting these data.
In the above embodiment, the mobile phone 14 is embodied as a communication device. This may be embodied in other communication devices such as a car navigation system, a PDA, a personal computer, and the like.

  In the above embodiment, the employee carries the mobile phone 14. Alternatively, the mobile phone 14 may be provided in a vehicle driven by an employee. In such a case, the mobile phone 14 is further connected to a vehicle speed adjusting means provided in the vehicle, and the vehicle speed adjusting means is driven based on a signal from the mobile phone 14 to The vehicle speed may be changed.

  In this way, the vehicle speed of the vehicle driven by the employee can be adjusted by the change content data CHD transmitted from the management computer 12 to the mobile phone 14. Therefore, the vehicle speed can be changed by the change content data CHD transmitted based on the fatigue state of the employee, and for example, the vehicle speed of the vehicle can be reduced during a sleep driving due to overwork. It becomes. In addition, the employee can easily understand that the schedule has been reorganized based on the change in the vehicle speed, and the shift of work can be performed more smoothly.

  In the above embodiment, the physical condition data PCD is detected by the detection device 16 connected to the mobile phone 14. Alternatively, the detection device 16 may not be provided. In such a case, the employee may manually input the physical condition data PCD to the mobile phone 14.

  In the above embodiment, when the CPU 31 creates the change data 56, the contact program 58 transmits the change content data CHD to the corresponding mobile phone 14 based on the created change data 56 and the contact data 53. It was made to be a program that does. This may be changed to a program that does not transmit the change content data CHD to the corresponding mobile phone 14.

  In the above embodiment, the contact data 53 is constituted by employee name data and e-mail address data as communication device information. Data other than e-mail address data such as telephone number data may be used as the communication device information.

  In the above embodiment, the schedule management system 11 includes the display 41, the keyboard 43, the mouse 45, and the like. Alternatively, the schedule management system 11 may further include a printer (not shown). Then, the image G1 displayed on the display 41 may be output while being printed on a recording medium such as paper from a printer. In addition, an image based on the change content data CHD may be output in a state of being printed on a recording medium from a printer.

  In the above embodiment, the content of the post-reorganization schedule data 52 of the HDD 37 is updated by the CPU 31 performing processing according to the schedule reorganization program 59. This may be changed so that the update history is retained for a predetermined period. In this way, the update history can be used to statistically analyze the turnover due to employee fatigue.

The system block diagram which shows the structure of the schedule management system in this embodiment. Similarly, the conceptual diagram of a detection apparatus. Similarly, the block diagram of a management computer. Similarly, the figure which shows the memory content of HDD. Similarly, explanatory drawing of schedule data before reorganization. Similarly, the conceptual diagram of the image displayed on a display. Similarly, explanatory drawing of schedule data after reorganization. Similarly, explanatory drawing of contact data. Similarly, explanatory drawing of threshold value data. Similarly, explanatory drawing of the data for physical condition determination. Similarly, explanatory drawing of change data. Similarly, the flowchart figure explaining the effect | action of a schedule management system. Similarly, the flowchart figure explaining the effect | action of a schedule management system.

Explanation of symbols

  CHD: change content data as schedule change information, PCD: physical condition data as fatigue information and physical condition information, mL, nL, PL, TL ... threshold, 11 ... schedule management system, 12 ... management computer, 14 ... communication equipment Mobile phone, 16 ... detecting means, 31 ... receiving means, comparing means, replacing means, first extracting means, second extracting means, PCU as transmitting means, 37 ... pre-reorganization schedule information storing means, threshold storing means, HDD as schedule information storage means after reorganization and communication equipment information storage means.

Claims (7)

In a schedule management system having a management computer connectable to a plurality of communication devices,
The management computer is
Pre-reorganization schedule information storage means for storing the owner information for identifying the owner of the communication device and the schedule information representing the contents of the current schedule of the owner in association with each other;
Receiving means capable of receiving fatigue information capable of deriving the fatigue state of the owner from the communication device;
Threshold storage means for storing the threshold;
Comparison means for comparing the fatigue information received by the receiving means with the threshold;
Based on the comparison result of the comparison means, the owner information stored in the schedule information storage means is replaced with replacement owner information that is the other owner information, and the replacement owner information and A schedule management system comprising replacement means for associating the schedule information with the schedule information storage means after reorganization. In the schedule management system according to claim 1,
The management computer is
Communication device information storing means for storing the communication device information for identifying the communication device and the owner information in association with each other;
First extraction means for extracting at least pre-replacement owner information or post-replacement owner information that is the owner information before replacement from at least the pre-reform schedule information storage means or the post-reform schedule information storage means When,
Second extraction means for extracting the communication equipment information corresponding to the pre-substitution owner information or the post-substitution owner information extracted by the extraction means from the communication equipment information storage means;
Using the communication device information extracted by the second extraction means, at least schedule change information based on the schedule information stored in the pre-reform schedule information storage means or the post-reform schedule information storage means A schedule management system comprising: a transmission unit capable of transmitting the message to the communication device. In the schedule management system according to claim 2,
A vehicle equipped with the communication device;
Schedule management, comprising: vehicle speed adjustment means connected to the communication equipment, wherein the communication equipment adjusts the vehicle speed of the vehicle based on the schedule change information received from the transmission means of the management computer. system. In the schedule management system according to any one of claims 1 to 3,
The plurality of communication devices;
A schedule management system comprising: a detecting unit connected to the communication device and capable of acquiring the fatigue information. In the schedule management system according to any one of claims 1 to 4,
The fatigue information includes at least physical condition information representing the physical condition of the owner,
The schedule management system according to claim 1, wherein the threshold value is a value capable of determining whether or not the physical condition information is a value suitable for working of the owner. It can be connected to multiple communication devices,
Pre-reorganization schedule information storage means for storing the owner information for identifying the owner of the communication device and the schedule information representing the contents of the current schedule of the owner in association with each other;
A management computer comprising threshold storage means for storing the threshold,
Receiving the fatigue information representing the working state of the owner from the communication device via the receiving means; and
A comparison step of comparing the fatigue information with the threshold value stored in the threshold value storage means via a comparison means;
The owner information associated with the schedule information stored in the pre-reform schedule information storage means is the other owner information based on the comparison result in the comparison stage via the replacement means. A schedule management method comprising: a substitution step of substituting post-replacement owner information, and storing the post-replacement owner information and the schedule information in association with each other in a post-reorganization schedule information storage unit. It can be connected to multiple communication devices,
Pre-reorganization schedule information storage means for storing the owner information for identifying the owner of the communication device and the schedule information representing the contents of the current schedule of the owner in association with each other;
In a management computer provided with threshold storage means for storing a threshold,
Receiving the fatigue information representing the working state of the owner from the communication device via the receiving means; and
A comparison step of comparing the fatigue information with the threshold value stored in the threshold value storage means via a comparison means;
The owner information associated with the schedule information stored in the pre-reform schedule information storage means is the other owner information based on the comparison result in the comparison stage via the replacement means. A program that replaces the owner information after replacement, and executes a replacement step that associates the owner information after replacement with the schedule information and stores the information in the post-reorganization schedule information storage unit.

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