WO2010021192A1 - Dispositif de traitement d'informations de travail, programme et procédé de traitement d'informations de travail - Google Patents

Dispositif de traitement d'informations de travail, programme et procédé de traitement d'informations de travail Download PDF

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Publication number
WO2010021192A1
WO2010021192A1 PCT/JP2009/060889 JP2009060889W WO2010021192A1 WO 2010021192 A1 WO2010021192 A1 WO 2010021192A1 JP 2009060889 W JP2009060889 W JP 2009060889W WO 2010021192 A1 WO2010021192 A1 WO 2010021192A1
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information
time
work
detection
value
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PCT/JP2009/060889
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English (en)
Japanese (ja)
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石田 智利
雄志 坂本
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株式会社日立製作所
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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C9/00Individual registration on entry or exit
    • G07C9/30Individual registration on entry or exit not involving the use of a pass
    • G07C9/32Individual registration on entry or exit not involving the use of a pass in combination with an identity check
    • G07C9/37Individual registration on entry or exit not involving the use of a pass in combination with an identity check using biometric data, e.g. fingerprints, iris scans or voice recognition

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  • the present invention relates to a technique for analyzing an operation of an operator.
  • Patent Document 1 In order to improve the work efficiency of an operator, there is a technique for measuring the operation of the operator with a camera or the like and analyzing the operation (Patent Document 1).
  • Patent Document 1 since it is necessary to photograph an operator's action with an optical device such as a camera, measurement of work in a dark place or when there is an obstacle between the camera and the object, etc. It was inconvenient because the worker could not be photographed.
  • an object of the present invention is to provide a technique for analyzing a work operation that is not easily influenced by a measurement environment such as a dark place.
  • the technology for processing work information associates detection values from sensors attached to the worker with previously stored detection information, and identifies deviations in those times. .
  • a storage unit and a control unit that preliminarily store detection information for specifying a detection value of a sensor that detects an operation and a time when the detection value is detected are provided, and the control unit is detected by a sensor that an operator has.
  • the detected value and the time when the detected value was detected are received as evaluation target information, and the detected value of the similar evaluation target information is associated with each detection value of the detection information, and the associated evaluation Information relating to a time deviation between the detection value of the target information and the detection value of the detection information is specified.
  • FIG. 1 is a diagram showing a work information processing system 1000 according to an embodiment of the present invention.
  • the work information processing system 1000 includes sensors 161A and 161B (hereinafter referred to as a sensor 161 unless particularly distinguishing individual sensors) and a detection information processing apparatus 100.
  • the sensor 161 is a sensor that detects the operation of the person to whom the sensor 161 is attached.
  • the acceleration sensor measures acceleration in three orthogonal directions (X direction, Y direction, and Z direction).
  • the sensor 161 detects acceleration in units of 1/1000 G.
  • the present invention is not limited to this, and the sensor 161 may detect the detection value by canceling the gravitational acceleration component.
  • the senor 161 is not limited to an acceleration sensor, and may be any sensor that can detect the motion of an attached person.
  • the sensor 161 may be a position sensor, a direction sensor, a temperature sensor, or a current sensor.
  • the senor 161A is attached to the left hand of the worker, and the sensor 161B is attached to the right foot.
  • the present invention is not limited to this mode. It is only necessary to be able to detect this operation.
  • the sensor 161 transmits the detection value to the detection information processing apparatus 100 via wireless.
  • the detection information processing apparatus 100 receives the detection value transmitted from the sensor 161 by the antenna 150.
  • FIG. 2 is a schematic diagram of the detection information processing apparatus 100.
  • the detection information processing apparatus 100 includes a storage unit 120, a control unit 130, an input unit 141, an output unit 142, and a communication unit 143.
  • the storage unit 120 includes a detection information storage area 121 and a corresponding time information storage area 122.
  • a detection information table 200 for storing detected information and a reference detection information table 400 are stored.
  • FIG. 3 shows a configuration example of the detection information table 200.
  • the detection information table 200 includes a time column 201, an ID column 202, a left hand acceleration column 203, and a right foot acceleration column 204.
  • the time column 201 stores information for specifying the time when the detection value detected by the sensor 161 is detected. In the present embodiment, information for specifying the time when the detection value detected by the sensor 161 is received is stored.
  • the detection value is periodically transmitted from the sensor 161, and the specific time is managed by the detection information processing apparatus 100 in correspondence with the value stored in the time column 201.
  • the time of the record can be specified. For example, “1”, “2”, “3”,..., “N” are “1/20 seconds later”, “2/20 seconds later”,. It corresponds to the detected value of “after 20 seconds”.
  • ID column 202 information specifying an ID, which is identification information for identifying the worker to which the sensor 161 is attached, is stored.
  • one ID is assigned to a set of sensors 161A and 161B attached to one worker.
  • a detection value (acceleration) detected by the sensor 161A among the set of sensors 161 specified by the ID column 202 is stored.
  • the left hand acceleration column 203 since the sensor 161 detects triaxial acceleration, the left hand acceleration column 203 includes an X axis column 211 that is an X axis acceleration, a Y axis column 212 that is an Y axis acceleration, and a Z axis. Are subdivided into a Z-axis column 213 which is the acceleration of
  • the acceleration in the X-axis direction of the sensor device 161A is positive.
  • the direction is “113 mm”
  • the acceleration in the Y-axis direction is “997 mm” in the positive direction
  • the acceleration in the Z-axis direction is “113 mm” in the negative direction.
  • the detection value (acceleration) detected by the sensor 161B is stored in the right foot acceleration column 204.
  • the right foot acceleration column 204 since the sensor 161 detects triaxial acceleration, the right foot acceleration column 204 includes an X axis column 214 that is an X axis acceleration, a Y axis column 215 that is a Y axis acceleration, and a Z axis. Are subdivided into a Z-axis column 216 which is the acceleration of
  • the detection information processing apparatus 100 manages the ID corresponding to the sensor ID by attaching the sensor ID, which is identification information uniquely assigned to each sensor, to the detection value transmitted from the sensor 161.
  • the detection values detected by the respective sensors 161 can be stored in the respective columns 203 and 204.
  • FIG. 4 shows a reference detection information table 400 in which another example of measurement results stored in the detection information storage area 121 is stored.
  • the reference detection information table 400 since the reference detection information table 400 has the same configuration as the detection information table 200, the description of the data structure is omitted. In this example, the result of measuring the operation of another worker (for example, a veteran worker) as another recording target by the sensor 161 is stored in the reference detection information table 400.
  • another worker for example, a veteran worker
  • a time deviation table 500 and an interval difference table 700 for storing information on deviations of the time axes of the two measurement results to be compared are stored.
  • FIG. 5 shows a configuration example of the time deviation table 500.
  • the time deviation table 500 includes a reference work time field 501, a time deviation field 502, and an evaluation target work time field 503.
  • the reference work time column 501 stores information specifying the time from the start of work of the measurement result that is the reference, which is stored in the reference detection information table 400. For example, “1”, “2”,..., “N”, etc. are values corresponding to the values stored in the hour column 401 of the reference detection information table 400.
  • the time deviation column 502 stores information on time deviations that associate the detected values of the reference work stored in the reference detection information table 400 with the detected values of the evaluation target work.
  • the detection value of the evaluation target work refers to information on the detection result selected by the evaluator among the detection results measured by the sensor 161.
  • the detection value of the reference work refers to a measurement result of an exemplary work by, for example, an ideal or efficient worker, which becomes a reference when evaluating the evaluation target information.
  • evaluation target work time column 503 information specifying the time from the start of work of the measurement result to be evaluated, stored in the detection information table 200, is stored. For example, “1”, “2”,..., “N”, and the like are values corresponding to the value in the hour column 201 of the detection information table 200.
  • the value of the reference work time column 501 is “5”
  • the value of the time deviation column 502 is “ ⁇ 1”
  • the value of the evaluation target work time column 503 is “4”
  • the value detected at the time is associated with the value detected at the time corresponding to “4” of the work to be evaluated. That is, when the value of the time deviation column 502 is a positive value, the larger the value, the more the evaluation target work is delayed from the reference work at that time. When the value is a negative value, the smaller the value, the more the evaluation target work precedes the reference work at that time.
  • FIG. 6 shows a configuration example of the section difference table 700.
  • the section difference table 700 includes a reference work time field 701, an evaluation target work time field 702, and a section difference field 703.
  • reference work time column 701 information for specifying the time from the start of the work of the reference measurement result stored in the reference detection information table 400 is stored. For example, “1”, “2”,..., “N”, etc. are values corresponding to the values stored in the hour column 401 of the reference detection information table 400.
  • evaluation target work time column 702 information specifying the time from the start of work of the measurement result to be evaluated, stored in the detection information table 200, is stored. For example, “1”, “2”,..., “N”, and the like are values corresponding to the value in the hour column 201 of the detection information table 200.
  • each record record whose difference between the values stored in the reference work time field 701 becomes a predetermined value (in this embodiment, “2” for “two sections”) is recorded.
  • the difference between the values stored in the evaluation target work time column 702 is stored for two records corresponding to the preceding and following times.
  • a record in which the value stored in the reference work time column 701 is “5”, the value stored in the corresponding evaluation target work time column 702 is “4”, and the value stored in the reference work time column 701 are In the section difference field 703 of the record corresponding to the reference work time “6” having “7”, the record whose value stored in the corresponding evaluation target work time field 702 is “8”, and the preceding and succeeding records,
  • the difference between the values “8” and “4” in the evaluation target work time column 702 corresponding to the previous and subsequent times “5” and “7”, that is, “4” is stored.
  • the control unit 130 includes an input information reception unit 131, an output information generation unit 132, a detection information management unit 133, a corresponding time initialization unit 134, a similarity comparison unit 135, and a corresponding time change unit 136. .
  • the input information reception unit 131 receives information input via the input unit 141 described later.
  • the output information generation unit 132 configures an output screen by combining the information to be output and the screen layout, and causes the output unit 142 to be described later to display the output screen.
  • the detection information management unit 133 performs processing for storing the detection value received from each sensor 161 in the detection information table 200 via the communication unit 143 described later.
  • the detection information management unit 133 stores the correspondence between the sensor ID of each sensor 161 and the ID for identifying the set of the sensors 161A and 161B attached to the worker.
  • the ID corresponding to the sensor ID attached to the received measurement value is stored in the ID column 202 of the detection information table 200.
  • the time which received the measured value is stored in the area
  • the corresponding time initialization unit 134 is the same as the information specified as the reference among the information stored in the reference detection information table 400 for the information specified as the evaluation target among the information stored in the detection information table 200. Compression / extension is performed so that the recording time is the length, and processing for obtaining a time deviation between information specified as an evaluation target and information specified as a reference is performed.
  • the corresponding time initialization unit 134 The information designated as the evaluation target is evenly compressed to 15 minutes.
  • the corresponding time initialization unit 134 specifies the time corresponding to each time of the information specified as the reference from the time of the information specified as the evaluation target, and calculates the difference as a time deviation.
  • the corresponding time initialization unit 134 compresses / compresses the information specified as the evaluation target. Calculate the ratio of the time from the start to the end of the work before compression / extension to the time from the start to the end of the work after expansion, and the time obtained as a result of integrating the ratio calculated at each time of the information specified as the reference The corresponding time.
  • the corresponding time initialization unit 134 stores the correspondence in the time deviation table 500.
  • the processing performed by the corresponding time initialization unit 134 is not necessarily limited to compression / expansion by proportional distribution.
  • the expansion / contraction rate may be changed between the first half and the second half of the information designated as the evaluation target.
  • the similarity comparison unit 135 calculates the comparison similarity between the detection information about the evaluation target work stored in the detection information table 200 and the detection information about the reference work stored in the reference detection information table 400 as a time. Calculate according to the deviation.
  • the similarity comparison unit 135 reads information (detection value) at a specific time from the information stored in the designated reference detection information table 400, and adds the time deviation to the value in the time column 401 of the record from which the time deviation is read. Thus, the corresponding time is calculated, and information (detection value) corresponding to the calculated time is read out from the information stored in the designated detection information table 200.
  • the similarity comparison unit 135 obtains a difference between the detection information in the read reference detection information table 400 and the detection information in the read detection information table 200, and squares the obtained difference, thereby comparing the similarities at the time. Calculate as degrees.
  • the detected values are three types of values: the X-axis, the Y-axis, and the Z-axis.
  • the Z-axis difference is squared and summed to calculate the comparison similarity.
  • the similarity comparison unit 135 calculates the comparison similarity at each time of the detection information in the read reference detection information table 400, adds up the comparison similarities at all times, and inverts the sign, The comparison similarity is calculated.
  • the comparison similarity is specified within a negative value or a range of zero. For this reason, it can be said that the larger the value of the comparative similarity, the more similar.
  • the corresponding time changing unit 136 changes the value of the time deviation that associates the time axis between the information stored in the detection information table 200 and the information stored in the reference detection information table 400.
  • the corresponding time changing unit 136 changes the value of the time deviation corresponding to the time column 401 for the predetermined information among the information stored in the reference detection information table 400, and the time deviation of the surrounding time is changed. Change the value as well.
  • the corresponding time changing unit 136 selects predetermined information from the information stored in the reference detection information table 400 using a random value such as a random number (hereinafter referred to as “T”), and corresponds to the selected information.
  • T a random value
  • the value of the time deviation is increased or decreased according to a random value such as a random number (hereinafter referred to as “ ⁇ (delta) T”).
  • the corresponding time change unit 136 specifies T by randomly selecting from the values in the time column 401 of the information stored in the reference detection information 400.
  • the corresponding time changing unit 136 applies a random value within a predetermined range (for example, the time when ⁇ T is applied to the value in the time column 201 of information stored in the detection information table 200 to increase or decrease the reference detection information 400.
  • a predetermined range for example, the time when ⁇ T is applied to the value in the time column 201 of information stored in the detection information table 200 to increase or decrease the reference detection information 400.
  • the integer of the range that falls within the value range of the time column 401 of the stored information is specified as ⁇ T.
  • the corresponding time changing unit 136 sets the time deviation so that the time before the time specified by T is uniformly compressed if ⁇ T is a negative value for the information before the time specified by T. If ⁇ T is a positive value, the time deviation is increased so that the time of information before the time specified by T is evenly expanded.
  • the corresponding time changing unit 136 causes the time of the information after the time specified by T to be uniformly expanded if ⁇ T is a negative value for the detection information after the time specified by T. If the value of time deviation is increased and ⁇ T is a positive value, the time deviation is increased so that the time of information after the time specified by T is evenly compressed.
  • the information stored in the reference detection information table 400 stores the values “0”, “1”, “2”, “3”,.
  • the information stored in the table 200 stores values of “0”, “1”, “2”, “3”,..., “30” in the time column 201, that is, all time deviations are stored.
  • a specific operation example of the corresponding time changing unit 136 when the time is “0” will be described below.
  • the corresponding time changing unit 136 equally sets the time deviation corresponding to T, that is, the time before “10”, to “0”, “ ⁇ 0.3”, “ ⁇ 0.6”, “ ⁇ 0.9”,..., “ ⁇ 3” (in this embodiment, since each value is actually an integer, The first place is rounded to the integer value).
  • the corresponding time changing unit 136 equals the time deviations corresponding to T, that is, the time after “10” to “ ⁇ 3”, “ ⁇ 2.85”, “ ⁇ 2.7”, and “ ⁇ 2. 55 ”,...“ 0 ”(in this embodiment, since each value is actually an integer, the first decimal place is rounded off to an integer value). In this way, the change in the time deviation of ⁇ T can be gradually changed as it moves away from T and reflected in information at other times than T.
  • the change is reflected in this way, but of course, the present invention is not limited to this, and the time deviation may be set by another method so that the amount of change in the time deviation decreases as the time difference from T increases. .
  • the input unit 141 receives input of information from the operator.
  • the output unit 142 outputs information.
  • the communication unit 143 transmits and receives information via the antenna 150.
  • FIG. 7 is a diagram illustrating a hardware configuration of the detection information processing apparatus 100 according to the present embodiment.
  • the detection information processing apparatus 100 is a computer such as a client PC (personal computer), a workstation, a server apparatus, various mobile phone terminals, and a PDA (Personal Digital Assistant).
  • a client PC personal computer
  • a workstation a workstation
  • a server apparatus various mobile phone terminals
  • PDA Personal Digital Assistant
  • the detection information processing apparatus 100 includes an input device 111, an output device 112, an arithmetic device 113, a main storage device 114, an external storage device 115, a communication device 116, and a bus 117 that connects the respective devices to each other.
  • the input device 111 is a device that accepts input from, for example, a keyboard, mouse, touch pen, or other pointing device.
  • the output device 112 is a device that performs display such as a display, for example.
  • the arithmetic device 113 is an arithmetic device such as a CPU (Central Processing Unit).
  • the main storage device 114 is a memory device such as a RAM (Random Access Memory).
  • the external storage device 115 is a nonvolatile storage device such as a hard disk device or a flash memory.
  • the communication device 116 is a communication device such as a wireless communication unit that performs wireless communication via an antenna.
  • the input information reception unit 131, the output information generation unit 132, the detection information management unit 133, the corresponding time initialization unit 134, the similarity comparison unit 135, and the corresponding time change unit 136 of the detection information processing apparatus 100 are This is realized by a program that causes the arithmetic unit 113 of the detection information processing apparatus 100 to perform processing.
  • This program is stored in the main storage device 114 or the external storage device 115, loaded onto the main storage device 114 for execution, and executed by the arithmetic device 113.
  • the storage unit 120 of the detected information processing apparatus 100 is realized by the main storage device 114 or the external storage device 115 of the detected information processing apparatus 100.
  • the input unit 141 of the detection information processing apparatus 100 is realized by the input device 111 of the detection information processing apparatus 100.
  • the output unit 142 of the detection information processing apparatus 100 is realized by the output device 112 of the detection information processing apparatus 100.
  • the communication unit 143 of the detected information processing apparatus 100 is realized by the communication apparatus 116 of the detected information processing apparatus 100.
  • FIG. 8 is a flowchart showing the flow of detection processing.
  • the output information generation unit 132 displays the detection start screen 300 (step S001).
  • FIG. 9 shows an example of the detection start screen 300 displayed in step S001.
  • the detection start screen 300 includes a detection information display area including a vertical axis 301 indicating acceleration when displaying information detected by the sensor 161 as a graph, and a horizontal axis 302 indicating elapsed time from the start of detection, and a detection target A sensor designation input area 303 for accepting designation of the sensor 161 and a recording start button display area 304 for accepting an instruction to start detection.
  • the input information receiving unit 131 receives the designation of the sensor ID input to the sensor designation input area 303 and the input to the recording start button in the recording start button display area 304 (step) S002).
  • the output information generation unit 132 displays the detection information display screen 350 (step S003).
  • FIG. 10 shows an example of the detection information display screen 350 displayed in step S003.
  • the detection information display screen 350 includes a detection information display area including a vertical axis 351 indicating acceleration when the detected information is displayed as a graph, and a horizontal axis 352 indicating elapsed time from the start of detection, and ends detection.
  • the output information generation unit 132 displays a graph indicating the detection information received in step S004, which will be described later, in the detection information display area at a predetermined timing (for example, in units of one second). For example, the output information generation unit 132 receives the detection information about the X axis, the Y axis, and the Z axis received from the sensor 161A attached to the left hand of the worker, respectively, and the locus 360 of the X axis value, The graph is displayed as a graph having three trajectories: a Y-axis value trajectory 361 and a Z-axis value trajectory 362.
  • the unit of the vertical axis 351 indicating the acceleration is millimeter G (1/1000 of the gravitational acceleration G), and the unit of the horizontal axis 352 indicating the elapsed time is 1/20 second. .
  • the detection information management unit 133 receives the detection value transmitted from the sensor 161 via the communication unit 143 at a predetermined interval (for example, an interval of 1/20 second) (step S004).
  • the detection information management unit 133 receives the detection value transmitted from the sensor 161 via the communication unit 143, stores the detection value in the detection information table 200, and passes the detection value to the output information generation unit 132. . And the detection information management part 133 receives a detected value until it receives the instruction
  • the input information receiving unit 131 receives an input to the recording end button display area 355 of the detection information display screen 350, the input information receiving unit 131 ends the detection process.
  • the input information reception unit 131 instructs the detection information management unit 133 to end the process of step S004, and outputs the output information.
  • the generation unit 132 is instructed to stop updating the graph display.
  • the detection information management part 133 memorize
  • the detection information processing apparatus 100 can record information measured by the sensor 161.
  • the output information generation unit 132 displays the comparison start screen 600 (step S101).
  • FIG. 12 shows an example of the comparison start screen 600 displayed in step S101.
  • the comparison start screen 600 includes an evaluation target work designation area 610 that accepts designation of an evaluation target work, a reference work designation area 620 that accepts designation of a reference work, a comparison start button display area 630 that accepts a comparison start instruction, Have
  • the evaluation target work designation area 610 has an execution date input field 611, an end time input field 612, and an ID input field 613 as information for designating detection information of work to be evaluated.
  • the execution date input column 611 is a column that accepts input of information specifying the date on which the work is recorded.
  • the end time column 612 is a column that accepts input of information specifying the time when the work was recorded.
  • the ID input column 613 is a column that accepts input of an ID for identifying the worker who recorded the work.
  • the reference work specification area 620 includes an execution date input field 621, an end time input field 622, an ID input field 623, and a model specification field 624 as information for specifying the detection information of the work that is a reference for evaluation. Have.
  • the implementation date input column 621 is a column that accepts input of information specifying the date on which the standard work is recorded.
  • the end time column 622 is a column that accepts input of information specifying the time at which the reference work is recorded.
  • the ID input column 623 is a column that accepts input of an ID for identifying the worker who records the reference work.
  • the model designation field 624 is an input for designating a work set in advance as a model work as a reference work regardless of the input in the execution date input field 621, the end time input field 622, and the ID input field 623. Is a column for accepting.
  • the comparison start button display area 630 receives an instruction to start comparison between the information input to the evaluation target work designation area 610 and the information input to the reference work designation area 620.
  • the input information receiving unit 131 receives the information input in the evaluation target work designation area 610 of the comparison start screen 600 and the information input in the reference work designation area 620.
  • the work to be accepted and the evaluation work and the reference work are specified (step S102).
  • the input information receiving unit 131 specifies the recording date and time of the evaluation target work from the values input in the execution date input field 611 and the end time input field 612, and stores it in an area of the storage unit 120 (not shown).
  • the record having the ID input in the ID input field 613 is specified from the record of the detection information table 200 that matches the stored recording date and time.
  • the input information receiving unit 131 specifies the recording date and time of the reference work from the values input in the execution date input field 621 and the end time input field 622, and is stored in an area of the storage unit 120 (not shown).
  • the record having the ID input in the ID input field 623 is specified from the record of the reference detection information table 400 that matches the recording date and time.
  • the corresponding time initialization unit 134 matches the total length of the detection information of the evaluation target work with the total length of the detection information of the reference work (step S103).
  • the similarity comparison unit 135 specifies a detection value similar to the evaluation target work specified in step S102 and the reference work, and specifies the relative time (step S104).
  • the similarity comparing unit 135 and the corresponding time changing unit 136 perform a similar operation specifying process and specify a time deviation as described later (see FIG. 13).
  • the output information generation unit 132 displays the relative time as a graph (step S105).
  • the output information generation unit 132 stores the time deviation specified in step S104 in the time deviation column 502 of the time deviation table 500, and information on the evaluation target work time stored in the reference work time column 501.
  • the value calculated by adding the information stored in the time deviation column 502 is stored in the evaluation target work time column 503.
  • the output information generation unit 132 stores the evaluation target work time information stored in the reference work time column 501 of the time deviation table 500 in the reference work time column 701 of the section difference table 700, and the evaluation target work time column 503. Is stored in the evaluation target work time 702 of the section difference table 700, the section difference is calculated and stored in the section difference column 703.
  • the output information generation unit 132 creates and displays an output screen including any one or both of the work time correspondence graph 650 shown in FIG. 14 and the interval difference graph 680 shown in FIG.
  • FIG. 14 is a diagram showing a display example of the work time correspondence graph 650.
  • the vertical axis 651 indicates the time of the evaluation target work
  • the horizontal axis 652 indicates the time of the reference work
  • the information on the time stored in the evaluation target work time column 503 of the time deviation table 500 is displayed vertically.
  • the axis 651 is a line graph 653 in which information on the time stored in the reference work time column 501 is plotted on the horizontal axis 652.
  • the line graph 653 has a reference line where the reference work time and the evaluation target work time are equal. 654.
  • the line graph 653 is below the reference line 654, it means that the evaluation target work is progressing in a shorter time than the reference work, that is, the work speed is faster than the reference work.
  • the line graph 653 exceeds the reference line 654, it means that the evaluation target work has progressed in a longer time than the reference work, that is, the work speed is slower than the reference work.
  • FIG. 15 is a diagram showing a display example of the interval difference graph 680.
  • the vertical axis 681 indicates the evaluation target work section difference
  • the horizontal axis 682 indicates the reference work time
  • the information stored in the section difference column 703 of the section difference table 700 is displayed on the vertical axis 681.
  • the interval difference graph 680 the increase / decrease in the work time of the evaluation target at the time of the standard work can be clearly shown.
  • the line graph 683 indicates that the reference work time interval difference is “2”. It matches the reference line 684 that is the same value as.
  • the line graph 683 is below the reference line 684, it means that the work to be evaluated has progressed in a shorter time than the reference work, that is, the work speed is faster than the reference work, and the line graph 683 shows the reference line 684.
  • exceeding it means that the work to be evaluated proceeds in a longer time than the standard work, that is, the work speed is slower than the standard work.
  • section difference graph 680 the tendency of the work speed indicated by the work time correspondence graph 650 can be shown more simply.
  • FIG. 13 shows a flow of the similar action specifying process performed in step S104 of the comparison process.
  • the similarity comparison unit 135 receives information on a detected value for a work to be evaluated and information on a detected value for a reference work (step S201).
  • the similarity comparison unit 135 calculates the comparison similarity between the detection information about the work to be evaluated received in step S201 and the detection information about the reference work as a reference similarity (step S202). .
  • the similarity comparison unit 135 obtains a difference between the detected values of the evaluation target work corresponding to the detected value of the reference work for each time when the detected value of the reference work is recorded, and squares the obtained difference. Then, the comparison similarity is calculated by adding up all the times when the detection values of the reference work are recorded.
  • the corresponding time changing unit 136 changes the time deviation of the detected value of the evaluation target work from the detected value of the reference work, and the detected value of the evaluation target work and the detected value of the reference work after the time deviation is changed. Are compared (step S203).
  • the similarity comparison unit 135 determines whether or not the number of times of performing the comparison process in step S205 described later exceeds a predetermined number of times (for example, time (seconds) for standard work ⁇ 20 times) (step S205). S204).
  • the similarity comparison unit 135 ends the process.
  • the similarity comparison unit 135 determines whether or not the comparison similarity calculated in step S203 is greater than or equal to the reference similarity. Is determined (step S205).
  • step S203 If the comparison similarity calculated in step S203 is not equal to or higher than the reference similarity (“No” in step S205), the similarity comparison unit 135 returns the process to step S203.
  • step S203 If the comparison similarity calculated in step S203 is greater than or equal to the reference similarity (“Yes” in step S205), the similarity comparison unit 135 sets the comparison similarity calculated in step S203 as the reference similarity, and step S203 Is stored in the time deviation column 502 of the time deviation table 500, and the process returns to step S203.
  • FIG. 16 is a schematic diagram of a detection information processing apparatus 800 according to the second embodiment of the present invention.
  • detection information processing apparatus 800 according to the second embodiment of the present invention is basically the same as the detection information processing apparatus 100 according to the first embodiment, differences will be described below.
  • the control unit 830 includes an input information reception unit 131, an output information generation unit 132, a detection information management unit 133, a corresponding time initialization unit 134, a similarity comparison unit 135, a corresponding time change unit 136, and a work item.
  • An input reception unit 837 and a work time calculation unit 838 are provided.
  • the work item input acceptance unit 837 accepts designation of a work item (work name) with respect to a reference work detection value, stores the designated work item in the reference detection information table 400, and is associated with a time deviation. The same work item is also stored in the record of the detection information table 200 in which the detection value of the target work is stored.
  • the work time calculation unit 838 adds work times for the same work item among the records stored in the reference detection information table 400 and the detection information table 200, thereby adding the work time for each work item. Is calculated.
  • the detection information table 200 of the detection information processing apparatus 800 in the second embodiment has a work item column 205 in addition to the detection information table 200 in the first embodiment.
  • the work item column 205 stores a work item name as information for identifying a work. For example, “rail lifting”, “rail mounting”, “screwing”, and the like.
  • the reference detection information table 400 of the detection information processing apparatus 800 in the second embodiment has a work item column 405 in addition to the reference detection information table 400 in the first embodiment.
  • the work item column 405 stores a work item name as information for identifying a work. For example, “rail lifting”, “rail mounting”, “screwing”, and the like.
  • the hardware configuration of the detection information processing apparatus 800 of the second embodiment is the same as in FIG. 7, for example, a client PC (personal computer), a workstation, a server apparatus, various mobile phone terminals, a PDA (Personal Digital Assistant), etc. It is a calculator.
  • the item input reception unit 837 and the work time calculation unit 838 are realized by a program that causes the arithmetic device 113 of the detection information processing apparatus 800 to perform processing.
  • FIG. 19 is a diagram showing a flow of work time calculation processing in the second embodiment.
  • the output information generation unit 132 displays a work item input reception screen 850 in order to receive work information serving as a reference (step S301).
  • FIG. 20 shows an example of the work item input acceptance screen 850 displayed in step S301.
  • the work item input reception screen 850 includes a reference work time display area 851 for displaying the time of the reference work, a work item input reception area 852 for receiving input of work items, and a confirmation button display area 853 for receiving input information confirmation instructions. Have.
  • the reference work time display area 851 displays the values in the reference work time column 401 received in step S102 of the corresponding time calculation process in the order of time.
  • the work item input receiving area 852 is an area for receiving input of information such as characters for identifying the work corresponding to the reference work time.
  • the confirmation button display area 853 is an area for accepting an instruction for confirming the work item received in the work item input acceptance area 852.
  • the work item input accepting unit 837 accepts an input of the work name and enters the work item column 405 of the reference detection information table 400.
  • the work name is stored (step S302).
  • the work item input receiving unit 837 stores the work name stored in step S302 in the work item column 205 of the detection information table 200 of the evaluation target work associated with the time deviation (step S303).
  • the work item input receiving unit 837 reads the value stored in the time deviation column 502 of the time deviation table 500, and calculates the time deviation corresponding to the value of the time column 401 of each record of the reference detection information table 400.
  • the record of the detection information table 200 of the corresponding evaluation target work is specified.
  • the work item input receiving unit 837 stores the work name stored in step S302 in each work item column 205 of the identified record.
  • the work time calculation unit 838 calculates the required time for each work item for the evaluation target work and the reference work (step S304).
  • the work time calculation unit 838 reads the detection information table 200 and obtains the required time from the difference between the minimum value and the maximum value in the time field 201 for each record having the same value in the work item field 205. . Then, the work time calculation unit 838 reads the reference detection information table 400 and obtains a required time from the difference between the minimum value and the maximum value in the time field 401 for each record having the same value in the work item field 405.
  • the output information generation unit 132 graphs the required time calculated in step S304, and creates and displays the required time display screen 900 (step S305).
  • FIG. 21 shows an example of the required time display screen 900 displayed in step S305.
  • the required time display screen 900 has a required time display area 901.
  • a bar graph with work items on the horizontal axis 910 and required time on the vertical axis 911 is displayed.
  • a bar graph is displayed so that it can be understood that the required time is “2” in the standard work and the required time is “1” in the evaluation target work.
  • the difference in required time for each work item between the reference work and the evaluation target work can be grasped at a glance. Therefore, the work to be improved can be grasped for each work item.
  • the detection information processing apparatus 800 specifies the work item of the work to be evaluated, and the detected value of the work to be evaluated
  • the graph can be presented to the user so that it can be easily compared with the detected value of the reference work.
  • the received detection value is not used as it is, but the high-frequency component is removed from the detection value and used. Also good.
  • the received detection values are not used as they are, but the detection values of the X axis, the Y axis, and the Z axis are used. It is also possible to combine and use one vector.
  • the video information captured when the reference work information or the evaluation target work information is recorded is also recorded.
  • the video may be displayed in accordance with the time deviation.
  • the start time (the origin on the time axis)
  • the present invention is not limited to this, and it is also possible to fix the time points with the largest amount of change in the detected value and compress and expand the time before and after evenly.
  • the processing load for calculating the comparative similarity is the same even if the time points with the least amount of change in the detected value are fixed and the time before and after is evenly compressed / expanded instead of having a large feature point. Can be lightened.
  • time axis can be flexibly changed, so that it is possible to increase the possibility that a reasonable comparison similarity can be calculated.
  • the detection information processing apparatus 100 or 800 is configured to operate alone, but is not limited thereto.
  • a network is used as a server apparatus that provides a service using a communication protocol such as HTTP (Hyper Text Transfer Protocol).
  • HTTP Hyper Text Transfer Protocol
  • an input instruction may be received from another terminal device, and an output may be displayed on the terminal device.
  • the user can operate the detection information processing apparatus 100 or 800 via another terminal connected to the network, and the degree of freedom of device configuration and the convenience of the user are increased. Can be made.
  • the work to be detected is not limited to the work in the factory, but can be a variety of work such as work in a restaurant kitchen or sports athletes.
  • the detection information processing apparatus 100 or 800 is not only a transaction target as a device, but can also be a transaction target in units of program parts that realize the operation of the device.
  • Detection information processing device 111: Input device, 112: Output device, 113: Arithmetic device, 114: Main storage device, 115: External storage device, 116: Communication device, 117: Bus, 120: Storage unit, 121: Detection information storage area, 122: Corresponding time information storage area, 130: Control section, 131: Input information reception section, 132: Output information generation section, 133: Detection information management section, 134: Corresponding time initialization section, 135: Similarity Degree comparison unit, 136: corresponding time change unit, 141: input unit, 142: output unit, 143: communication unit, 150: antenna, 161: sensor, 200: detection information table, 300: component table, 700: interval difference Table, 800: detection information processing apparatus, 830: control unit, 837: work item input reception unit, 838: work time calculation unit, 1000: work information processing system

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  • Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • General Factory Administration (AREA)
  • Management, Administration, Business Operations System, And Electronic Commerce (AREA)

Abstract

Jusqu'ici, une technique pour mesurer l'action d'un ouvrier ou similaire avec un appareil photo ou similaire et pour analyser une action de travail nécessitait la photographie de l'action de l'ouvrier avec un dispositif optique tel qu'un appareil photo. Cependant, la technique est difficilement applicable à la mesure du travail dans un espace sombre ou lorsqu'il existe un obstacle entre l'appareil photo et un objet. Par conséquent, une technique de traitement d'informations de travail qui ne peut pas être facilement affectée par un environnement dans lequel la mesure est effectuée est proposée. Un dispositif de traitement d'informations de détection (100) fait varier la longueur d'un axe temporel de telle sorte que les valeurs détectées par divers types de détecteurs (161A) sont similaires à la valeur de détection de référence et permet d'obtenir la longueur la plus similaire de l'axe temporel. Ainsi, le dispositif de traitement d'informations de détection (100) effectue l'association de l'axe temporel entre les valeurs détectées et la valeur de détection de référence, identifie un écart temporel et affiche l'écart temporel.
PCT/JP2009/060889 2008-08-22 2009-06-15 Dispositif de traitement d'informations de travail, programme et procédé de traitement d'informations de travail WO2010021192A1 (fr)

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JP5339234B2 (ja) * 2009-11-06 2013-11-13 公立大学法人首都大学東京 操作性評価装置、操作性評価方法、操作性評価プログラム、及び操作性評価システム
JP5757479B2 (ja) * 2011-04-13 2015-07-29 トヨタ自動車東日本株式会社 トレーシングシステム
JP6156840B2 (ja) * 2013-07-02 2017-07-05 トヨタ自動車東日本株式会社 作業管理システム

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01158579A (ja) * 1987-09-09 1989-06-21 Aisin Seiki Co Ltd 像認識装置
JPH09330400A (ja) * 1996-06-11 1997-12-22 Gijutsu Kenkyu Kumiai Shinjoho Shiyori Kaihatsu Kiko ジェスチャ認識装置および方法
JP2000180162A (ja) * 1998-12-11 2000-06-30 Hitachi Plant Eng & Constr Co Ltd 作業分析装置
JP2002310617A (ja) * 2001-04-18 2002-10-23 Matsushita Electric Works Ltd 作業分析システム及びその方法
JP2003275259A (ja) * 2002-03-26 2003-09-30 Mitsubishi Electric Corp インタラクションシステム及び方法
JP2003295754A (ja) * 2002-04-05 2003-10-15 Hitachi Ltd 手話教育用システム及び該システムを実現するためのプログラム
JP2005157942A (ja) * 2003-11-28 2005-06-16 National Institute Of Advanced Industrial & Technology 動作体運動データ分節処理装置。
JP2006350577A (ja) * 2005-06-14 2006-12-28 Fuji Xerox Co Ltd 動作分析装置
JP2008108008A (ja) * 2006-10-24 2008-05-08 Omron Corp 移動パターン特定装置、移動パターン特定方法、移動パターン特定プログラム、およびこれを記録した記録媒体

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01158579A (ja) * 1987-09-09 1989-06-21 Aisin Seiki Co Ltd 像認識装置
JPH09330400A (ja) * 1996-06-11 1997-12-22 Gijutsu Kenkyu Kumiai Shinjoho Shiyori Kaihatsu Kiko ジェスチャ認識装置および方法
JP2000180162A (ja) * 1998-12-11 2000-06-30 Hitachi Plant Eng & Constr Co Ltd 作業分析装置
JP2002310617A (ja) * 2001-04-18 2002-10-23 Matsushita Electric Works Ltd 作業分析システム及びその方法
JP2003275259A (ja) * 2002-03-26 2003-09-30 Mitsubishi Electric Corp インタラクションシステム及び方法
JP2003295754A (ja) * 2002-04-05 2003-10-15 Hitachi Ltd 手話教育用システム及び該システムを実現するためのプログラム
JP2005157942A (ja) * 2003-11-28 2005-06-16 National Institute Of Advanced Industrial & Technology 動作体運動データ分節処理装置。
JP2006350577A (ja) * 2005-06-14 2006-12-28 Fuji Xerox Co Ltd 動作分析装置
JP2008108008A (ja) * 2006-10-24 2008-05-08 Omron Corp 移動パターン特定装置、移動パターン特定方法、移動パターン特定プログラム、およびこれを記録した記録媒体

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