The present disclosure relates to a technology for analyzing running styles of marathon runners.
In long-distance running such as marathons, “high cadence running” and “long stride running” are known as running styles of runners. In general, the former is considered as a running style with relatively high cadence (the number of steps per unit time) and relatively short stride length (the length of one step), and the latter as a running style with relatively low cadence and relatively long stride length; however, there is no clear definition.
In recent years, running shoes suitable for the high cadence running and those suitable for the long stride running have been developed respectively. Therefore, a runner may be able to select more suitable shoes by knowing whether his or her running style is the high cadence type or the long stride type (see Patent Literature 1, for example).
However, except in cases where the tendency of the cadence or the stride length is particularly pronounced, there have been conventionally no clear criteria for determining whether the running style of a runner falls under the high cadence type or the long stride type. Accordingly, such determining has had to rely on subjective judgment.
Under such circumstances, as a result of analyzing the running records of a large number of runners, the inventors have found a method for distinguishing between the both types, with objective criteria based on the running style tendency.
The present disclosure has been made in view of such an issue, and a purpose thereof is to provide a technology for analyzing the running style of a runner.
In response to the above issue, a running style analysis device according to one embodiment of the present disclosure includes: a first cadence acquirer that acquires, with regard to running of a subject, a cadence at a first running speed as a first cadence; a second cadence acquirer that acquires, with regard to running of the subject, a cadence at a second running speed that is different from the first running speed, as a second cadence; a judgment unit that makes judgment as to which of multiple running style types, which include a long stride type and a high cadence type, running of the subject falls under, based on the difference between the first cadence and the second cadence with respect to the difference between the first running speed and the second running speed; and a result output unit that outputs a result of the judgment.
The “running style analysis device” may be implemented by a combination of a server and a server program running on a web server or in the cloud, or by a combination of a device, such as a smartphone, a tablet, any other information terminal, or a personal computer, and a program running on such a device. Alternatively, the running style analysis device may be implemented by a combination of a wearable device with various sensors embedded therein, and a program running on such a wearable device. The “first cadence acquirer” and the “second cadence acquirer” may acquire cadence information from the running data of the subject measured in advance or may acquire cadence information from information regarding the subject during running acquired by a predetermined sensor. The “first running speed” and the “second running speed” may be set to relatively high speeds, mainly assuming advanced runners whose marathon completion time is within 3 hours. For example, two running speeds with a difference of 1 m/s therebetween included in the range of 4.17 m/s (corresponding to 4 min/km pace) to 5.56 m/s (corresponding to 3 min/km pace) may be set as the first running speed and the second running speed. The increase in stride length with respect to the increase in running speed may tend to be greater in the long stride type than in the high cadence type, and the increase in cadence with respect to the increase in running speed may tend to be greater in the high cadence type than in the long stride type. The “judgment unit” may judge the running style type based on the increase in cadence with respect to the increase in running speed in the subject's running. The “multiple running style types” include the long stride type and the high cadence type and may further include an intermediate type positioned therebetween. According to this embodiment, whether the runner's running style is the high cadence type or the long stride type can be judged simply by acquiring the cadence at multiple running speeds and analyzing the cadence change with respect to the speed change, thereby obtaining information useful for shoe selection.
When at least one of the first cadence or the second cadence is greater than or equal to a judgment criterion value obtained based on a predetermined criterion, the judgment unit may judge that the subject's running falls under the high cadence type, regardless of the difference in cadence. The “judgment criterion value obtained based on a predetermined criterion” may be a variable value calculated using a certain linear equation with the running speed as a variable or may be a certain fixed value determined in advance based on an experiment, analysis, or knowledge. According to this embodiment, when the runner's cadence is greater than or equal to the judgment criterion value, the running can be immediately judged as the high cadence type without any other calculation or analysis, simplifying the judgment method.
The judgment unit may judge that the subject's running falls under the high cadence type when the difference in cadence is within a predetermined first reference range and may judge that the subject's running falls under the long stride type when the difference in cadence is within a predetermined second reference range, which is lower than the first reference range. The “difference in cadence” may be the increase in cadence with respect to the increase in running speed in the subject's running. The entire range of cadence may be divided into two ranges of the “first reference range” and the “second reference range” with a predetermined value as the boundary, so that which one the difference in cadence is included in may be judged. Also, the entire range of cadence may be divided into multiple reference ranges including other reference ranges, so that which one the difference in cadence is included in may be judged. According to this embodiment, as long as the difference in cadence between multiple running speeds in the subject's running can be acquired, whether the running falls under the high cadence type or the long stride type can be accurately judged.
The judgment unit may judge that the subject's running falls under the high cadence type when the difference in cadence is within a predetermined first reference range, may judge that the subject's running falls under the long stride type when the difference in cadence is within a predetermined second reference range, which is lower than the first reference range, and may judge that the subject's running falls under an intermediate type when the difference in cadence is within a predetermined third reference range, which is lower than the first reference range and higher than the second reference range. The “intermediate type” may refer to a running style that cannot be said to be either the high cadence type or the long stride type, or a running style that does not have remarkable characteristics but can be said to fall under either the high cadence type or the long stride type, if anything. According to this embodiment, as long as the difference in cadence between multiple running speeds in the subject's running can be acquired, whether the running falls under the high cadence type, the long stride type, or the intermediate type can be accurately judged.
The running style analysis device may further include a recommendation output unit that outputs, based on a result of the judgment, information recommending at least one of multiple shoes including a shoe suitable for a high cadence type runner and a shoe suitable for a long stride type runner.
According to this embodiment, as long as the difference in cadence between multiple running speeds in the subject's running can be acquired, information on shoes suitable for the running style can be accurately obtained.
Another embodiment of the present disclosure relates to a running style analysis method. The method includes: acquiring, with regard to running of a subject, a cadence at a first running speed as a first cadence; acquiring, with regard to running of the subject, a cadence at a second running speed that is different from the first running speed, as a second cadence; making judgment as to which of multiple running style types, which include a long stride type and a high cadence type, the subject's running falls under, based on the difference between the first cadence and the second cadence with respect to the difference between the first running speed and the second running speed; and outputting a result of the judgment.
According to this embodiment, whether the runner's running style is the high cadence type or the long stride type can be judged simply by acquiring the cadence at multiple running speeds and analyzing the cadence change with respect to the speed change, thereby obtaining information useful for shoe selection.
Optional combinations of the aforementioned constituting elements, and implementation of the present disclosure, including the constituting elements and expressions, in the form of methods, apparatuses, programs, transitory or non-transitory storage medium storing programs, or systems may also be practiced as additional modes of the present disclosure.
The disclosure will now be described by reference to the preferred embodiments. This does not intend to limit the scope of the present invention, but to exemplify the invention.
In the following, the present disclosure will be described based on a preferred embodiment with reference to each drawing. In the embodiment and modifications, like reference characters denote like or corresponding constituting elements, and the repetitive description will be omitted as appropriate. In each drawing, parts less important in describing the embodiment may be omitted.
In the present embodiment, it is premised that a user, who is a runner and wants to know whether running shoes (hereinafter, simply referred to as “shoes”) for high cadence running or shoes for long stride running are suitable for him or her, performs running style analysis by himself or herself. First, the user wears various wearable devices during running, acquires information necessary for analysis with various sensors, and transmits the information to the user's terminal. Thereafter, the user transmits the information from the terminal to a server and obtains analysis results from the server.
In a modification, instead of a wearable device 16, a positioning module or a motion sensor built into a smartphone as the user terminal 10 may be used. In another modification, as data indicating the running state of the subject, the running speed data and cadence data may be acquired from images captured by a high-speed camera using a technology such as motion capture or may be acquired by detecting floor reaction force using a force plate. In such a case, an operator other than the user (e.g., a salesperson in a store) may operate the user terminal 10 to acquire the running state data for the subject and allow the running style analysis server 20 to perform running style analysis.
The “cadence” information is, for example, a numerical value in units of steps per minute (spm). When a runner whose marathon completion time is within 3 hours and 30 minutes runs at race pace, the cadence generally falls within the range of 175 to 205 spm on average. Also, the “stride length” (also called step length) information is an average step length (m), which is obtained by dividing the running distance per minute by the cadence.
In the case of the long stride type runner shown in
In contrast, the cadence of the long stride type runner gradually increases by a narrow range from 169 spm to 183 spm in proportion to the increase in running speed. The slope of a cadence change 111, which is a regression line indicating the increase in stride length with respect to the increase in running speed, is slight and nearly flat. In particular, with respect to the increase in running speed from 4.17 m/s (4 min/km pace) to about 5.56 m/s (3 min/km pace), the cadence increases by only +8 spm from 169 spm to 177 spm.
Meanwhile, in the case of the high cadence type runner shown in
In contrast, the cadence of the high cadence type runner increases greatly by a wide range from 170 spm to 230 spm in proportion to the increase in running speed. The slope of a cadence change 113, which is a regression line indicating the increase in cadence with respect to the increase in running speed, is greater than that of the long stride type. In particular, with respect to the increase in running speed from 4.17 m/s (4 min/km pace) to about 5.56 m/s (3 min/km pace), the cadence increases by +28 spm from 170 spm to 198 spm.
As described above, it can be seen that long stride type runners tend to increase the running speed by greatly increasing the stride length rather than by greatly increasing the cadence. On the other hand, high cadence type runners tend to increase the running speed by greatly increasing the cadence while also increasing the stride length to some extent. The running style analysis system of the present embodiment judges whether the running style of the subject is the long stride type or the high cadence type, using an analysis method that focuses on which of the above two contrasting approaches the subject uses to increase his or her running speed.
The running log recorder 50 acquires various detection data from a wearable device 16 via a communication module such as short-range wireless communication and records the data as a running log. The detection data acquired from a wearable device 16 include position information received from a satellite positioning system, such as the GPS (Global Positioning System), information indicating the acquisition date and time thereof, and information on the cadence per unit time (e.g., the number of steps per minute). Based on the detection data acquired from a wearable device 16, the running log recorder 50 records, as a running log, information such as the running time, running distance, running speed for each predetermined distance or each predetermined time, and cadence per unit time, in a predetermined storage area.
The operation processor 56 accepts operation input for an instruction from the user. Based on the user's instruction via the operation processor 56, the display unit 52 displays, on a screen, a running log recorded by the running log recorder 50. Also, based on the user's instruction via the operation processor 56, the data processor 54 extracts data of cadence at multiple running speeds from the running logs recorded by the running log recorder 50 and transmits the extracted data as the subject's running logs to the running style analysis server 20 via the data communication unit 58. For example, the data processor 54 extracts data of cadence at running speeds of 4.17 m/s (4 min/km pace) or higher from all the running logs and transmits the extracted data as the subject's running logs to the running style analysis server 20. The data of lower than 4.17 m/s is cut and not used because, during running at relatively high speeds, the relationship between the running speed and the cadence is more stable, and a clear trend appears. In a modification, the data processor 54 may transmit all the running logs to the running style analysis server 20 via the data communication unit 58, and necessary data may be extracted on the running style analysis server 20 side.
The data receiver 70 receives, from the user terminal 10, running speed data and cadence data included in a running log of the subject and stores those data in the data accumulation unit 72. In the present embodiment, the data receiver 70 receives, as a running log, the data of cadence at a running speed of 4.17 m/s or higher extracted by the data processor 54 of the user terminal 10. In a modification, the data receiver 70 may receive all the running logs of the subject and store the running logs in the data accumulation unit 72. With regard to the subject's running, the cadence acquirer 74 acquires the data of cadence at multiple running speeds from the subject's running logs stored in the data accumulation unit 72. The data of cadence acquired by the cadence acquirer 74 is, for example, data of cadence at a running speed of 4.17 m/s or higher. The cadence acquirer 74 includes a regression analyzer 75, a first cadence acquirer 76, and a second cadence acquirer 77.
The regression analyzer 75 obtains a regression equation by regression analysis using the cadence as the objective variable and the running speed as the explanatory variable, based on the running logs stored in the data accumulation unit 72. The regression analyzer 75 performs regression analysis on at least two data points as data indicating the relationship between the running speed and the cadence. The more data to be analyzed, the fewer the errors in the regression equation and the higher the accuracy, so that it is desirable to analyze three or more data points.
Based on the regression equation obtained by the regression analyzer 75, the first cadence acquirer 76 acquires the cadence at a first running speed, which is a predetermined running speed of 4.17 m/s (4 min/km pace) or higher. Also, based on the regression equation obtained by the regression analyzer 75, the second cadence acquirer 77 acquires the cadence at a second running speed, which is a running speed 1 m/s higher than the first running speed. Although the second running speed is set to a running speed 1 m/s higher than the first running speed in the present embodiment, the speed difference therebetween is not limited to 1 m/s. The first running speed and the second running speed may be set with a larger difference therebetween or may be set with a difference of less than 1 m/s as long as a certain difference is ensured.
The judgment unit 80 judges which of multiple running style types, including the long stride type and the high cadence type, the subject's running falls under. The judgment unit 80 includes a cadence change calculator 82 and a judgment processor 84. The cadence change calculator 82 calculates the difference between a first cadence and a second cadence with respect to the difference between the first running speed and the second running speed.
Based on the difference between the first cadence and the second cadence with respect to the difference between the first running speed and the second running speed, the judgment processor 84 judges which of multiple running style types, including the long stride type and the high cadence type, the subject's running falls under. First, when the cadence at an arbitrary running speed is greater than or equal to a predetermined judgment criterion value, the judgment processor 84 judges that the running falls under the high cadence type, regardless of the magnitude of the cadence change with respect to the running speed change. More specifically, with the running speed as x, the variable value obtained from the linear equation “9.6x+145 spm” is used as the judgment criterion value. With the cadence as y, when y≥9.6x+145 spm, the judgment processor 84 judges that the running falls under the high cadence type. As a modification, a fixed value obtained in advance through an experiment or analysis, such as “190 spm”, may be used as the judgment criterion value. In this case, the fixed value may be adopted only when the cadence is measured at a running speed of 5.56 m/s (3 min/km pace) or lower, for example. In general, as the running speed increases, even a long stride type runner may considerably increase the cadence to be comparable to a high cadence type runner. Therefore, rather than using a fixed value as the judgment criterion, it is desirable to use a variable value based on a linear equation proportional to the running speed as the judgment criterion in order to maintain the judgment accuracy. However, when the running speed (pace) is limited to about 3 min/km or less, it is possible to judge with high accuracy even with a fixed value as the judgment criterion.
When the cadence y is less than the judgment criterion value (y<9.6x+145 spm), if the difference (increase) between the first cadence and the second cadence before and after the running speed increases by 1 m/s is within a first range (e.g., 16 times or more), it will be judged as the high cadence type; if the difference (increase) is within a second range (less than 10 times), which is lower than the first range, it will be judged as the long stride type. If the difference between the first cadence and the second cadence is within a third range (10 times or more and less than 16 times), which is lower than the first reference range and higher than the second reference range, it will be judged as an intermediate type. In the case of the intermediate type, when the difference between the first cadence and the second cadence is 10 times or more and less than 13 times, it is judged as “rather on the long stride type side” or “the intermediate type close to the long stride type”; when the difference between the first cadence and the second cadence is 13 times or more and less than 16 times, it is judged as “rather on the high cadence type side” or “the intermediate type close to the high cadence type”. In the case of the “intermediate type”, although it is considered that wearing either shoes for the high cadence type or shoes for the long stride type will not have a significant effect on running, which one is more likely to improve performance somewhat is judged here.
The output unit 90 includes a result output unit 92, a recommendation output unit 94, and a data transmitter 96. The result output unit 92 outputs the result of the judgment by the judgment unit 80 to the user terminal 10 via the data transmitter 96. More specifically, the result output unit 92 transmits to the user terminal 10 the judgment result as to whether the subject's running style corresponds to the high cadence type, long stride type, or intermediate type so as to display the judgment result on the screen of the user terminal 10.
Based on the result of the judgment by the judgment unit 80, the recommendation output unit 94 selects shoes suitable for the subject's running style from among multiple options. The recommendation output unit 94 generates information recommending at least one of the multiple shoe candidates and outputs the information to the user terminal 10 via the data transmitter 96. When the subject is judged as the long stride type, the recommendation output unit 94 selects shoes suitable for long stride type runners. When the subject is judged as the high cadence type, the recommendation output unit 94 selects shoes suitable for high cadence type runners. Running shoes for the long stride type have better sole repulsion than those for the high cadence type, for example. When it is judged as the intermediate type and also as “rather on the long stride type side”, recommendation information is generated that recommends both the shoes for the long stride type and the shoes for the high cadence type but recommends the shoes for the long stride type more strongly. Also, when it is judged as the intermediate type and also as “rather on the high cadence type side”, recommendation information is generated that recommends both the shoes for the long stride type and the shoes for the high cadence type but recommends the shoes for the high cadence type more strongly.
A sixth column 125 shows an experimental result of a running experiment performed by each subject actually wearing each of shoes for the high cadence type and shoes for the long stride type, indicating which running style type of shoes the subject could run faster with. The judgement result shown in the fifth column 124 and the experimental result shown in the sixth column 125 are compared, and, when the results match each other, “o” is shown as a correct/incorrect result in a seventh column 126; when the results do not match each other, “x” is shown as the correct/incorrect result in the seventh column 126. With regard to the experimental result of the subject “13”, since no difference has been observed between the shoes for the high cadence type and the shoes for the long stride type, “-” is shown to indicate that either the high cadence type shoes or the long stride type shoes may be used. According to the above, except for one subject “8”, the experimental results of 13 out of 14 subjects match with their judgment results, which confirms that the judgement processing shown in
The present disclosure has been described with reference to an embodiment. The embodiment is intended to be illustrative only, and it will be obvious to those skilled in the art that various modifications to a combination of constituting elements or processes could be developed and that such modifications also fall within the scope of the present disclosure. In the following, modifications will be described.
The abovementioned embodiment describes an example in which a running log is acquired by a wearable device 16, and running style analysis is performed based on the running log. In a modification, the user may enter numerical values of cadence for at least two running speeds, in the form of text entry in a predetermined field on a web browser, to send the information to the running style analysis server 20, so as to allow the running style analysis server 20 to perform running style analysis.
The abovementioned embodiment describes an example in which running style analysis is performed with the running style analysis system 30 including the user terminal 10 and the running style analysis server 20. In a modification, each function for the running style analysis may be implemented on a device, such as a smartphone, tablet, or personal computer, directly operated by the user, rather than on the running style analysis server 20.
Filing Document | Filing Date | Country | Kind |
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PCT/JP2021/019866 | 5/25/2021 | WO |