JP2019057215A - Device for evaluating a sense of release - Google Patents

Abstract

To precisely evaluate a sense of release that a person feels when seeing a wall surface with a plurality of openings.SOLUTION: A line-of-sight direction determination unit 22 determines a plurality of directions of lines of sight determined according to a normal distribution with a reference direction as its center. A measurement data acquisition unit 24 acquires the length to an object in each of the directions of lines of sight. A filter application unit 26 applies a filter to the length of line of sight acquired for each of the directions. A load averaging unit 28 evaluates a sense of release at a measurement position based on the result of application of the filter to the length to the object in each of the acquired directions of lines of sight.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an openness evaluation apparatus.

  Conventionally, a technique for forming an opening in a wall surface of a building for light shielding and line-of-sight cut is known (see, for example, Patent Documents 1 and 2). In the technique described in Patent Document 1, a light-shielding device capable of shielding light from a moving light source is arranged in parallel with the plate surfaces facing each other, and a plurality of light-shielding plate members having a plurality of light-transmitting apertures, A position holding member that supports the plurality of light shielding plate members in a state having a light passage region between the adjacent light shielding plate members. Thereby, when sunlight is looked up from the indoor side, sunlight can be made to feel spatial expansion.

  Moreover, in the technique described in Patent Document 2, the inner wall surface positioned in the lateral direction facing the opening provided in the outer wall of the building is inclined in the same direction in the out-of-plane direction of the outer wall. Thereby, taking in direct light can be suppressed, ensuring a view.

JP 2017-66614 A JP 2017-66687 A

  However, the techniques described in Patent Documents 1 and 2 do not evaluate the feeling of opening that a person feels when looking at a wall surface.

  In view of the above facts, the present invention has an object to accurately evaluate a feeling of openness felt by a person looking at a wall surface having a plurality of openings.

  An open feeling evaluation apparatus according to the present invention is an open feeling evaluation apparatus that evaluates an open feeling felt by a person looking at a wall surface having a plurality of openings, and is a plurality of gaze directions from a measurement position to the wall surface. A line-of-sight direction determining unit that determines a plurality of line-of-sight directions determined according to a predetermined line-of-sight distribution centered on a reference direction, and a length to the object in the line-of-sight direction for each of the plurality of line-of-sight directions A measurement data acquisition unit that acquires the measurement data, and an evaluation unit that evaluates the sense of openness at the measurement position based on the length to the object acquired for each of the plurality of line-of-sight directions. Yes.

  According to the open feeling evaluation apparatus according to the present invention, the line-of-sight direction determination unit determines a plurality of line-of-sight directions from the measurement position to the wall surface according to a predetermined line-of-sight distribution centered on the reference direction. A plurality of gaze directions are determined. In addition, the measurement data acquisition unit acquires the length to the object in the line-of-sight direction for each of the plurality of line-of-sight directions. The evaluation unit evaluates the sense of openness at the measurement position based on the length to the object acquired for each of the plurality of line-of-sight directions.

  Thus, a plurality of gaze directions determined according to a predetermined gaze distribution centered on the reference direction are determined, and the length to the object in the gaze direction is acquired for each of the plurality of gaze directions. Thus, by evaluating the feeling of opening at the measurement position, it is possible to accurately evaluate the feeling of opening felt by a person looking at the wall surface having a plurality of openings.

  The open feeling evaluation apparatus according to the present invention converts the length of the line of sight acquired for each of the plurality of line-of-sight directions so as to be within the range of a predetermined upper limit value and lower limit value. A filter application unit that applies the filter, wherein the evaluation unit includes the opening in the line-of-sight direction in a filter application result for the length to the object acquired for each of the plurality of line-of-sight directions. The sense of openness at the measurement position can be evaluated by calculating a weighted average by applying a weighting coefficient according to whether or not. Thereby, emphasis can be placed on the effect of the opening on the feeling of opening, and the feeling of opening can be evaluated.

  The open feeling evaluation apparatus according to the present invention repeats the processes of the line-of-sight direction determination unit, the measurement data acquisition unit, and the evaluation unit for each measurement position in the evaluation target space, and each measurement in the evaluation target space. It may further include a visualization unit that visualizes the evaluation result of the feeling of opening regarding the position. Thereby, distribution of a feeling of opening in space can be shown.

  The line-of-sight distribution can be a normal distribution centered on the reference direction. Accordingly, it is possible to accurately evaluate the sense of openness in consideration of the characteristics of human attention distribution.

  The evaluation unit according to the present invention is based on the length up to the object acquired for each of the plurality of line-of-sight directions and a learned model learned in advance for evaluating the feeling of openness at the measurement position. The feeling of opening can be evaluated. Thereby, a feeling of openness can be accurately evaluated using the learned model.

  The open feeling evaluation apparatus according to the present invention converts the length of the line of sight acquired for each of the plurality of line-of-sight directions so as to be within the range of a predetermined upper limit value and lower limit value. A filter application unit that applies the filter, wherein the evaluation unit determines whether or not the opening portion exists in the line-of-sight direction in the filter application result for the line-of-sight length acquired for each of the plurality of line-of-sight directions. The sense of openness at the measurement position can be evaluated based on the result of applying a weighting factor corresponding to the above and the learned model. Thereby, emphasis can be placed on the effect of the opening on the feeling of opening, and the feeling of opening can be evaluated.

  As described above, according to the open feeling evaluation apparatus of the present invention, the effect of accurately evaluating the open feeling felt by a person looking at a wall surface having a plurality of openings can be obtained.

It is a block diagram which shows the open feeling evaluation apparatus which concerns on the 1st Embodiment of this invention. It is a functional block diagram which shows the open feeling evaluation apparatus which concerns on the 1st Embodiment of this invention. (A) It is a figure which shows a gaze direction, and (B) is a figure which shows normal distribution. It is a figure which shows distribution of the gaze direction determined. It is a figure which shows the length to each object of a gaze direction. It is a figure which shows the example which visualized the evaluation result of a feeling of openness. It is a flowchart which shows the content of the open feeling evaluation process routine of the open feeling evaluation apparatus which concerns on the 1st Embodiment of this invention. It is a functional block diagram which shows the open feeling evaluation apparatus which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the content of the open feeling evaluation process routine of the open feeling evaluation apparatus which concerns on the 2nd Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

[First Embodiment]
<Configuration of the feeling of opening evaluation device according to the first embodiment of the present invention>
As shown in FIG. 1, an openness evaluation apparatus 100 according to an embodiment of the present invention includes a CPU 12, a graphic card 13, a GPU 14, a RAM 16, an HDD 18, a communication interface 21, and a bus 23 for connecting them to each other. I have.

  The CPU 12 and the GPU 14 execute various programs. The RAM 16 is used as a work area when the CPU 12 executes various programs. The HDD 18 as a recording medium stores various programs and various data including a program for executing a feeling of openness evaluation processing routine which will be described later.

  The open feeling evaluation apparatus 100 according to the present embodiment is expressed as a functional block in accordance with a program for executing the open feeling evaluation processing routine as shown in FIG. The feeling of openness evaluation apparatus 100 includes an input unit 10, a calculation unit 20, and an output unit 50.

  The input unit 10 is a three-dimensional model data (for example, three-dimensional model data generated using BIM (Building Information Modeling)) representing a building in which a wall surface having a plurality of openings is installed as an exterior of the building, and Information about the room to be evaluated for the building is received as an input.

  The calculation unit 20 includes a line-of-sight direction determination unit 22, a measurement data acquisition unit 24, a filter application unit 26, a weighted average unit 28, and a visualization unit 30. The weighted average unit 28 is an example of an evaluation unit.

  Based on the data of the three-dimensional model representing the building and the information on the room that is the evaluation target of the building, the line-of-sight direction determination unit 22 applies the measurement position to the wall surface for each measurement position in the evaluation target room. A plurality of gaze directions determined according to a predetermined gaze distribution centered on the reference direction are determined. In the present embodiment, the reference direction is a direction toward a predetermined reference position with respect to the wall surface, and a normal distribution centered on the reference direction as shown in FIG. 3 is used as the visual line distribution. Thereby, the density of the determined line-of-sight direction increases as the line-of-sight direction is closer to the reference direction, and the density of the determined line-of-sight direction decreases as the line-of-sight direction moves away from the reference direction (see FIG. 4). There may be a plurality of reference directions. For example, a plurality of reference positions on the wall surface may be set, and for each reference position, the plurality of viewing directions may be determined based on the distribution of the viewing line with the direction toward the reference position as the reference direction.

  The measurement data acquisition unit 24 determines the measurement position in the room to be evaluated by the gaze direction determination unit 22 based on the data of the three-dimensional model representing the building and the information on the room to be evaluated of the building. For each of the plurality of line-of-sight directions, the length from the measurement position to the object in the line-of-sight direction is acquired (see FIG. 5). At this time, as shown in FIG. 5, when there is an opening on the wall surface in the line-of-sight direction, the length to the object in the line-of-sight direction becomes long.

  The filter application unit 26 determines the range of the upper limit value and the lower limit value of the predetermined distance with respect to the length to the object acquired for each of the plurality of gaze directions for each measurement position in the room to be evaluated. Apply a filter to convert to be inside. As a result, when the length to the object is very short, such as when there is a floor surface in the line-of-sight direction, the length to the object is changed to the lower limit value by applying a filter. Further, when there is an opening on the wall surface in the line-of-sight direction and the length to the object is very long, the length to the object is changed to the upper limit value by applying a filter.

  The weighted average unit 28 has a wall surface opening in the line-of-sight direction in the filter application result for the length to the object acquired for each of the plurality of line-of-sight directions for each measurement position in the room to be evaluated. By multiplying the weighting coefficient according to whether or not, the weighted average is calculated, thereby evaluating the sense of openness felt by the person looking at the wall surface at the measurement position. Specifically, when a wall surface opening exists in the line-of-sight direction, a predetermined large weighting factor is applied. On the other hand, when there is no wall surface opening in the line-of-sight direction, a weight is applied. The coefficient is 1.

  As described above, the processes of the line-of-sight direction determination unit 22, the measurement data acquisition unit 24, the filter application unit 26, and the weighted average unit 28 are repeatedly executed for each measurement position in the room to be evaluated.

  The visualization unit 30 visualizes the evaluation result of the feeling of openness for each measurement position in the room to be evaluated, and outputs it by the output unit 50. For example, as shown in FIG. 6, the distribution of the feeling of openness according to the position in the room can be grasped by visualizing the evaluation result of the feeling of openness at each measurement position in the room by color-coding.

<Operation of openness evaluation device>
Next, the operation of the open feeling evaluation apparatus 100 according to the first embodiment of the present invention will be described.

  When the input unit 10 receives, as input, data of a three-dimensional model representing a building in which a wall surface having a plurality of openings is installed as an exterior of the building and information on a room to be evaluated for the building, the feeling of openness evaluation apparatus 100 The open feeling evaluation process routine shown in FIG. 7 is executed.

  First, in step S100, a measurement position to be processed is set in a room to be evaluated.

  In step S102, the line-of-sight direction determination unit 22 determines a plurality of line-of-sight directions from the measurement position to be processed to the wall surface based on the data of the three-dimensional model representing the building and the information on the room to be evaluated for the building. Thus, a plurality of gaze directions determined according to a predetermined gaze distribution centered on the reference direction are determined.

  In step S104, the measurement data acquisition unit 24, for each of the plurality of line-of-sight directions determined in step S102, based on the data of the three-dimensional model representing the building and the information regarding the room to be evaluated for the building. The length from the measurement position to be processed to the object in the line-of-sight direction is acquired.

  In step S106, the filter application unit 26 sets an upper limit value of a predetermined distance with respect to the length to the object acquired for each of the plurality of line-of-sight directions acquired in step S104 for the measurement position to be processed. And a filter for conversion so as to be within the range of the lower limit value.

  In step S108, the weighted average unit 28 calculates the processing target measurement position in the line-of-sight direction based on the filter application result for the lengths up to the object acquired for each of the plurality of line-of-sight directions obtained in step S106. By applying a weighting factor according to whether or not there is an opening on the wall surface and calculating a weighted average, the feeling of openness felt by the person who viewed the wall surface at the measurement position is evaluated.

  In step S110, it is determined whether or not the processing in steps S100 to S108 has been executed for all measurement positions in the room to be evaluated. If there is a measurement position where the processes in steps S100 to S108 are not performed, the process returns to step S100, and the measurement position is set as a processing target. On the other hand, when the processes in steps S100 to S108 have been executed for all measurement positions in the room to be evaluated, the process proceeds to step S112.

  In step S112, the evaluation result of the open feeling at each measurement position in the room to be evaluated is visualized and output by the output unit 50, and the open feeling evaluation processing routine is terminated.

  As described above, according to the open feeling evaluation apparatus according to the first embodiment of the present invention, a plurality of gaze directions determined according to the normal distribution centered on the reference direction are determined, and a plurality of gaze directions are determined. For each of these, the length from the measurement position to the object in the line-of-sight direction is obtained, and the sense of openness at the measurement position is evaluated to accurately evaluate the sense of openness felt by a person looking at the wall surface having multiple openings can do.

[Second Embodiment]
Next, a feeling of openness evaluation apparatus according to the second embodiment will be described. In addition, about the part which becomes the structure similar to 1st Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  In the second embodiment, in order to calculate the evaluation value of the feeling of openness, a first point is that a learned model that uses the length to the object acquired for each of the plurality of gaze directions as an input is used. This is different from the embodiment.

<Configuration of the feeling of openness evaluation according to the second embodiment of the present invention>
The open feeling evaluation apparatus 200 according to the present embodiment is expressed as a functional block in accordance with a program for executing the open feeling evaluation processing routine as shown in FIG. The open feeling evaluation apparatus 200 includes an input unit 10, a calculation unit 220, and an output unit 50.

  The calculation unit 220 includes a line-of-sight direction determination unit 22, a measurement data acquisition unit 24, a filter application unit 26, a weighting unit 228, an evaluation unit 229, and a visualization unit 30. Note that the weighting unit 228 and the evaluation unit 229 are examples of the evaluation unit.

  For each measurement position in the room to be evaluated, the weighting unit 228 has a wall surface opening in the line-of-sight direction in the filter application result for the length to the object acquired for each of the plurality of line-of-sight directions. Weighting is performed by applying a weighting coefficient according to whether or not. Specifically, when a wall surface opening exists in the line-of-sight direction, a predetermined large weighting factor is applied. On the other hand, when there is no wall surface opening in the line-of-sight direction, a weight is applied. The coefficient is 1.

  The evaluation unit 229 inputs a value obtained by weighting the filter application result with respect to the length to the object acquired for each of a plurality of gaze directions for each measurement position in the room to be evaluated, and looks at the wall surface Using the learned model for estimating the evaluation value of the feeling of openness felt by the person, the evaluation value of the feeling of openness felt by the person looking at the wall surface at the measurement position is estimated.

  The learned model may be learned in advance as follows. For example, the filter application result for the length from the measurement position to the object acquired for each of the plurality of line-of-sight directions is multiplied by a weighting factor according to whether or not a wall surface opening exists in the line-of-sight direction. A plurality of learning data for a pair of a measured value and an evaluation value of a feeling of openness felt by a person looking at the wall surface from the measurement position, up to an object acquired for each of a plurality of gaze directions based on the learning data A model that outputs an evaluation value of the feeling of openness felt by a person looking at the wall surface is input using a value obtained by weighting the filter application result with respect to the length of.

  As described above, each process of the line-of-sight direction determination unit 22, the measurement data acquisition unit 24, the filter application unit 26, the weighting unit 228, and the evaluation unit 229 is repeatedly executed for each measurement position in the room to be evaluated. .

<Operation of openness evaluation device>
Next, the operation of the openness evaluation apparatus 200 according to the second embodiment of the present invention will be described. In addition, about the process similar to 1st Embodiment, the same code | symbol is attached | subjected and detailed description is abbreviate | omitted.

  When the input unit 10 receives, as input, data of a three-dimensional model representing a building in which a wall surface having a plurality of openings is installed as an exterior of the building, and information about a room to be evaluated for the building, the feeling of openness evaluation apparatus 200 The open feeling evaluation processing routine shown in FIG. 9 is executed.

  First, in step S100, a measurement position to be processed is set in a room to be evaluated.

  In step S <b> 102, the line-of-sight direction determination unit 22 determines a plurality of line-of-sight directions from the measurement position to be processed to the wall surface based on the data of the three-dimensional model representing the building and the information on the room to be evaluated for the building. To do.

  In step S104, the measurement data acquisition unit 24 determines a plurality of the measurement positions determined in step S102 based on the data of the three-dimensional model representing the building and the information on the room that is the evaluation target of the building. For each of the gaze directions, the length to the object in the gaze direction is acquired.

  In step S106, the filter application unit 26 applies a filter to the length to the object acquired for each of the plurality of line-of-sight directions acquired in step S104 for the measurement position to be processed.

  In step S200, the weighting unit 228 uses the filter application result for the lengths up to the object acquired for each of the plurality of gaze directions obtained in step S106 for the measurement position to be processed as a wall surface in the gaze direction. Weighting is performed by applying a weighting factor according to whether or not there is an opening.

  In step S202, the evaluation unit 229 assigns a value obtained by weighting the filter application result to the length to the object acquired in each of the plurality of line-of-sight directions obtained in step S200 for the measurement position to be processed. Using the learned model as an input, the evaluation value of the feeling of openness felt by the person looking at the wall surface at the measurement position is estimated.

  In step S110, it is determined whether or not the processes in steps S100 to S106, S200, and S202 have been executed for all measurement positions in the room to be evaluated. When there is a measurement position where the processes of steps S100 to S106, S200, and S202 are not executed, the process returns to step S100, and the measurement position is set as a processing target. On the other hand, when the processes in steps S100 to S106, S200, and S202 are executed for all measurement positions in the room to be evaluated, the process proceeds to step S112.

  In step S112, the evaluation result of the open feeling at each measurement position in the room to be evaluated is visualized and output by the output unit 50, and the open feeling evaluation processing routine is terminated.

  As described above, according to the open feeling evaluation apparatus according to the second embodiment of the present invention, using the learned model, the open feeling felt by the person who sees the wall surface having a plurality of openings can be accurately obtained. Can be evaluated.

  Note that the present invention is not limited to the above-described embodiment, and various modifications and applications are possible without departing from the gist of the present invention.

  For example, a case where data of a three-dimensional model representing a building is input has been described as an example. However, the present invention is not limited to this, and data measured in an actual building may be input. For example, for each of a plurality of determined line-of-sight directions from each measurement position, the length to the object in the line-of-sight direction may be measured and used.

  In addition, when a filter is applied to the length to the object acquired for each of the plurality of line-of-sight directions, and a weighting factor is applied according to whether or not there is an opening on the wall surface in the line-of-sight direction However, the present invention is not limited to this. The feeling of openness may be evaluated by using the lengths up to the object acquired for each of the plurality of line-of-sight directions as they are without performing filter application or weighting.

  The program of the present invention may be provided by being stored in a storage medium.

DESCRIPTION OF SYMBOLS 10 Input part 20, 220 Calculation part 22 Gaze direction determination part 24 Measurement data acquisition part 26 Filter application part 28 Weighted average part 30 Visualization part 50 Output part 100,200 Open feeling evaluation apparatus 228 Weighting part 229 Evaluation part

Claims (6)

An opening feeling evaluation device for evaluating the feeling of opening felt by a person looking at a wall surface having a plurality of openings,
A plurality of gaze directions from the measurement position to the wall surface, and a gaze direction determination unit that determines a plurality of gaze directions determined according to a predetermined gaze distribution centered on a reference direction;
For each of the plurality of gaze directions, a measurement data obtaining unit that obtains the length to the object in the gaze direction;
An evaluation unit that evaluates the feeling of opening at the measurement position based on the length to the object acquired for each of the plurality of gaze directions;
An openness evaluation device. A filter application unit that applies a filter for converting the line-of-sight length acquired for each of the plurality of line-of-sight directions so as to be within a range of a predetermined upper limit value and lower limit value; Including
The evaluation unit multiplies the filter application result for the length to the object acquired for each of the plurality of line-of-sight directions by applying a weighting factor according to whether the opening exists in the line-of-sight direction, The open feeling evaluation apparatus according to claim 1, wherein the open feeling at the measurement position is evaluated by calculating a weighted average. For each measurement position in the evaluation target space, repeat the processing of the line-of-sight direction determination unit, the measurement data acquisition unit, and the evaluation unit,
The open feeling evaluation apparatus according to claim 1, further comprising a visualization unit that visualizes the evaluation result of the open feeling for each measurement position in the evaluation target space.   The feeling of openness evaluation according to any one of claims 1 to 3, wherein the line-of-sight distribution is a normal distribution centered on the reference direction.   The evaluation unit, based on the length to the object acquired for each of the plurality of line-of-sight directions and a learned model learned in advance for evaluating the feeling of opening, the feeling of opening at the measurement position. The open feeling evaluation apparatus according to claim 1 which evaluates. A filter application unit that applies a filter for converting the line-of-sight length acquired for each of the plurality of line-of-sight directions so as to be within a range of a predetermined upper limit value and lower limit value; Including
The evaluation unit is a result of multiplying a filter application result for the length of the line of sight acquired for each of the plurality of line-of-sight directions by a weighting factor according to whether the opening exists in the line-of-sight direction; 6. The feeling of opening evaluation according to claim 5, wherein the feeling of opening at the measurement position is evaluated based on the learned model.