Classifications

• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B69/00—Training appliances or apparatus for special sports
  • A63B69/12—Arrangements in swimming pools for teaching swimming or for training
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B24/00—Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
  • A63B24/0003—Analysing the course of a movement or motion sequences during an exercise or trainings sequence, e.g. swing for golf or tennis
  • A63B24/0006—Computerised comparison for qualitative assessment of motion sequences or the course of a movement
  • A63B2024/0012—Comparing movements or motion sequences with a registered reference

Definitions

• the present invention relates to a detection device, a detection system, a portable device, and a program.
• the present invention relates to a detection device, a detection system, a mobile device, and a program for detecting a history of a user's movement in a pool.
• Exercise in the pool is an effective exercise for shape-up and muscle strength.
• Japanese Patent Application Laid-Open No. 2000-288-148 discloses that an identification code of an ID tag attached to a user's body is received from an antenna installed at a predetermined position in a user's passage and received. The exercise time of the user is calculated based on the time.
• an object of the present invention is to provide a detection device, a detection system, a portable device, and a program that can solve the above-described problems. This object is achieved by a combination of features described in the independent claims.
• the dependent claims define further advantageous embodiments of the present invention. Disclosure of the invention
• a detection device for detecting a history of a user's exercise in a pool, comprising: a portable device carried by the user; A plurality of receiving units for receiving user identification information for identifying the user; and a receiving unit identification information for identifying the one receiving unit when one of the receiving units receives the user identification information.
• a recording unit that records in association with the user identification information; and an exercise amount calculation unit that calculates the amount of exercise of the user based on a history of the reception unit identification information stored in association with the user identification information.
• the exercise amount calculation unit is configured to store, based on a distance between the two reception units, at which the time at which the user identification information is received is stored in a history of the reception unit identification information corresponding to the user identification information. The amount of exercise may be calculated.
• the recording unit further records time information indicating when the corresponding user identification information is received in association with the reception unit identification information, and the exercise amount calculation unit includes the reception unit identification information and the time.
• the exercise amount may be calculated based on the information.
• a user information holding unit that holds user information including a weight of the user; and a calorie calculation unit that calculates calorie consumption consumed by the user based on the held weight and the exercise amount. Is also good.
• the recording unit further records time information indicating a time when the corresponding user identification information is received, in association with the reception unit identification information, and the exercise amount calculation unit includes the reception unit identification information and the time information. Calculating a moving distance and a moving speed included in the amount of exercise of the user, the calorie calculating unit calculates the calorie consumption based on the moving distance, the moving speed, and the user information. You may.
• the user information may further include a height of the user, and the calorie calculation unit may further calculate the calorie consumption based on the height of the user.
• the recording unit further records, as the receiving unit identification information, time information indicating a time when the corresponding user identification information is received from the mobile device, and further based on the time information, A stay time calculation unit that calculates a stay time located in the pool, and a calorie calculation unit that calculates a consumption power consumption consumed by the user based on the amount of exercise and the stay time may be further provided. Good.
• the plurality of receiving units may be provided at both ends of a predetermined lane in the pool.
• the plurality of receiving units may be provided on a bottom surface of the pool.
• the plurality of receiving units may be provided in a lattice pattern on a bottom surface of the pool.
• the portable device may transmit the user identification information at a predetermined time interval.
• the device may further include an exercise amount transmitting unit that transmits the exercise amount to a portable device carried by the user.
• the exercise amount transmitting unit is provided in the vicinity of the receiving unit corresponding to the receiving unit, and corresponds to the one receiving unit when the one receiving unit receives the user identification information.
• the exercise amount may be transmitted from the exercise amount transmission unit to the portable device of the user.
• a pool state acquisition unit that acquires a pool state that is an internal state of the pool; and a calorie calculation unit that calculates calories consumed by the user based on the movement amount and the pool state. Is also good.
• the pool state acquisition unit has a water temperature acquisition unit that acquires a water temperature of the pool as the pool state, and the calorie calculation unit is based on the exercise amount and the water temperature, and the consumed calories consumed by the user. May be calculated.
• the user information further includes a pre-measured body temperature of the user, the calorie calculation unit calculates the amount of exercise and the consumption consumed by the user based on a difference between the body temperature of the user and the water temperature. You may calculate the lip strength.
• the pool state acquisition unit has a water flow information acquisition unit that acquires water flow information including the strength of the water flow of the pool as the pool state, and the calorie calculation unit is based on the amount of exercise and the water flow information. , The consumption power consumed by the user may be calculated.
• the pool may include a water flow generation device that generates a water flow, and the water flow information obtaining unit may obtain, as the pool state, water flow information including a strength of the water flow generated by the water flow generation device.
• the pool state acquisition unit may be configured to determine whether the plurality of users in the pool are based on a history of the reception unit identification information received from the plurality of portable devices carried by the plurality of users.
• a density calculation unit that calculates density information indicating the density of the pool as the pool state, and the power point calculation unit calculates the calorie consumption of the user based on the exercise amount and the density information. May be.
• the pool state acquisition unit is configured to determine whether the plurality of receiving units move based on a history of the receiving unit identification information received from a plurality of portable devices carried by the plurality of users.
• a water flow information indicating a generated water flow in the pool
• a water flow calculation unit that calculates the pool state as the pool state
• the calorie calculation unit is configured to consume the power consumed by the user based on the exercise amount and the water flow information.
• the resource may be calculated.
• a detection system for detecting a history of a user's exercise in a pool, wherein the user carries the user and transmits user identification information for identifying the user.
• a mobile device and a detection device that receives the user identification information from the mobile device and calculates the amount of exercise of the user.
• the detection device performs the use from the mobile device carried by the user.
• a plurality of receiving units for receiving the user identification information for identifying a user; and when one of the receiving units receives the user identification information, receiving unit identification information for identifying the one receiving unit.
• a recording unit that records in association with the user identification information; and an exercise amount calculation unit that calculates the amount of exercise of the user based on a history of the reception unit identification information stored in association with the user identification information.
• a program for a detecting device for detecting a history of a user's exercise in a pool wherein the detecting device is provided from the portable device carried by the user.
• a recording unit configured to record in association with the user identification information; and a history of the reception unit identification information stored in association with the user identification information.
• a program is provided which is operated as an exercise amount calculation unit for calculating an exercise amount of a user.
• a detection device for detecting a history of a user's exercise in a pool, wherein the history of the user's exercise is exchanged with a portable device carried by the user.
• a plurality of transmitting unit identification information received and stored by the portable device from a plurality of transmitting units transmitting different transmitting unit identification information to the mobile device;
• a detection device comprising: an exercise amount calculation unit configured to calculate an exercise amount of the user based on the plurality of transmission unit identification information.
• the exercise amount calculation unit is configured to determine, based on a distance between the two transmission units, that the time at which the transmission unit identification information is received is different in each of the plurality of transmission unit identification information acquired by the acquisition unit, May be calculated.
• a portable device for detecting a history of a user's exercise in a pool comprising: a plurality of transmitting units provided in the pool and transmitting mutually different transmitting unit identification information.
• a receiving unit that receives the transmitting unit identification information, a storage unit that stores the received transmitting unit identification information, and the transmitting unit identification information that is stored in the storage unit as the user's exercise history.
• a portable device characterized by comprising a transfer unit for transferring to the outside.
• a detection system for detecting a history of a user's exercise in a pool, comprising: a plurality of transmitting units transmitting mutually different transmitting unit identification information; A mobile device that receives and stores a plurality of the transmission unit identification information; and a detection device that calculates the amount of exercise of the user based on the plurality of transmission unit identification information stored in the mobile device,
• the portable device includes: a receiving unit that receives the transmission unit identification information from any of the transmission units; a storage unit that stores the received transmission unit identification information; and the plurality of transmission units stored in the storage unit
• a transfer unit configured to transfer the identification information to the detection device, wherein the detection device obtains the plurality of transmission unit identification information stored in the storage unit from the transfer unit; Based on the plurality of transmission portions identification information part is obtained, to provide a detection system, characterized in that it comprises a motion amount calculation unit for calculating an exercise amount of the user.
• a history of the user's exercise in the pool is detected. 2003/006976
• FIG. 6 is a program for a detecting device, wherein the detecting device transmits different transmitting unit identification information to a portable device carried by the user as a history of the exercise of the user.
• An acquisition unit that acquires a plurality of the transmission unit identification information received and stored by the device from the portable device; and calculates an exercise amount of the user based on the plurality of transmission unit identification information acquired by the acquisition unit.
• a program is provided which is operated as a momentum calculation unit.
• FIG. 1 shows a configuration of a detection system 100 according to the embodiment of the present invention.
• FIG. 2 shows a configuration of the detection server 160 according to the embodiment of the present invention.
• FIG. 3 shows a configuration of the portable device 130 according to the embodiment of the present invention.
• FIG. 4 shows an example of the position history database 210 according to the embodiment of the present invention in a table format.
• FIG. 5 shows an example of the receiving section database 225 according to the embodiment of the present invention in a table format.
• FIG. 6 shows an example of the user information holding unit 250 according to the embodiment of the present invention in a table format.
• FIG. 7 shows a processing flow of the detection system 100 according to the embodiment of the present invention.
• FIG. 8 shows a configuration of a detection system 700 according to a modification of the embodiment of the present invention.
• FIG. 9 shows a configuration of a detection server 760 according to a modification of the embodiment of the present invention.
• FIG. 10 shows a configuration of a portable device 730 according to a modification of the embodiment of the present invention.
• FIG. 11 shows a hardware configuration of the computer 100 according to the embodiment of the present invention.
• FIG. 1 shows a configuration of a detection system 100 according to the embodiment of the present invention.
• the detection system 100 includes: a puno 110, a mobile device 130, a plurality of receiving units 140, a pool state measuring unit 144, a detection server 160, and a plurality of momentum transmissions. Section 170 is provided.
• the receiving unit 140, the detection server 160, and the exercise amount transmitting unit 170 according to the present embodiment are an example of a detection device that detects a history of a user's exercise in the pool.
• Pool 110 is provided for lane A112 and lane B114 provided for swimming of user 120, and for swimming free underwater of user 120. 1 area.
• the pool 110 may have a plurality of users.
• a description will be given mainly of a case where a history of exercise of the user 120 representing a plurality of users is detected.
• the portable device 130 is carried by the user 120 and wirelessly transmits user identification information for identifying the user 120.
• the portable device 130 may be a wristband-shaped portable information device, a non-contact IC card, or the like that is fixed to the arm, head, or foot of the user 120.
• Each of the receivers 140 is used to identify the user 120 when the portable device 130 carried by the user 120 approaches within a predetermined distance (for example, 50 cm). The identification information is received and transmitted to the detection server 160.
• Some of the receiving units 140 are provided on the side walls of the pool 110 at both ends of the lane A112 and the lane B114. Further, another part of the receiving unit 140 is provided in a grid pattern on the bottom surface of the pool 110 in the free area 116.
• the pool state measuring unit 144 measures the pool state, which is the internal state of the pool 110, and sends it to the detection server 160.
• the pool state measuring section 145 includes a water temperature measuring section 150, a water flow generating device 152, and a water flow measuring section 154.
• the water temperature measuring section 150 measures the water temperature of the pool 110 as the pool state, and transmits it to the detection server 160.
• the water flow generating device 152 generates, for example, a horizontal water flow and / or a vertical water flow (such as a wave) in the pool 110. Further, the water flow generation device 152 transmits the water flow information including the strength of the generated water flow to the detection server 160 as a pool state.
• the water flow measurement section 154 is generated in the pool state by the strength of the water flow generated by the water flow generation device 152 and / or when multiple users move in the pool. Obtain water flow information including the strength of water flow in the pool.
• the water flow measuring section 154 may further obtain the direction of the water flow in the pool as the water flow information.
• the water flow measurement unit 154 may acquire the magnitude of the wave in the pool as the water flow information by using a water level meter that measures the water level, for example.
• the pool state measuring unit 144 may further measure the seventh place of the pool 110, the density of users, and the like as the pool state.
• the detection server 160 detects the exercise history of the user 120 based on the user identification information received from the portable device 130 via the receiving unit 140. Then, the detection server 160 calculates the amount of exercise of the user 120 based on the history of exercise of the user 120, and calculates the calorie consumption consumed by the user 120 using this. In addition, the detection server 160 transmits the calculated amount of exercise of the user 120 to the portable device 130, and notifies the user 120.
• the exercise amount transmission section 170 receives the exercise amount of the user 120 from the detection server 160. Then, the exercise amount transmitting unit 170 transmits the exercise amount of the user 120 to the portable device 130 carried by the user 120 wirelessly.
• each of the momentum transmitting sections 170 is provided in the vicinity of the receiving section 140 corresponding to the receiving section 140. Then, when a certain receiving unit 140 receives the user identification information, the detection server 160 transmits the exercise amount transmitting unit 170 corresponding to the receiving unit 140 to the mobile device 130. Sends momentum, etc.
• FIG. 2 shows a configuration of the detection server 160 according to the embodiment of the present invention.
• the detection server 160 includes a recording unit 200, a position history database 210, a momentum calculating unit 215, a stay time calculating unit 240, a user information storing unit 250, It has a pool state acquisition section 2502 and a lip-opening calculation section 280.
• the recording unit 2000 associates the receiving unit 140 with the receiving unit identification information that identifies the receiving unit 140,
• the user identification information and time information indicating the time when the user identification information is received are recorded in the position history database 210.
• the recording unit 200 may record information consisting of a date and time or information consisting only of time as the B temple time information. Ma
• the recording unit 200 may record the time as the time information, or may record the elapsed time from a specific time.
• the position history database 210 stores a set of user identification information, reception unit identification information, and time information recorded by the recording unit 200 as the position history of the user 120.
• the exercise amount calculation unit 2 15 calculates the exercise amount of the user 120 based on the history of the reception unit identification information stored in the position history database 210 in association with the user identification information.
• the exercise amount calculation unit 215 according to the present embodiment calculates the moving distance and the moving speed of the user 120 as the amount of exercise of the user 120.
• the exercise amount calculation unit 215 includes a movement distance calculation unit 220, a reception unit database 225, and a movement speed calculation unit 230.
• the moving distance calculation unit 220 calculates the moving distance of the user 120 based on the position history of the user 120 stored in the position history database 210. More specifically, the moving distance calculating unit 220 stores the history of the receiving unit identification information corresponding to the user identification information of the user 120 from the position history database 210 via the recording unit 200. get. Then, the movement distance calculation unit 220 calculates the distance between the two reception units 140 at which the time when the user identification information was received is earlier or later in the history of the obtained reception unit identification information, thereby obtaining the amount of exercise. Is calculated. Here, the moving distance calculation unit 220 according to the present embodiment calculates the distance between the two reception units 140 based on the position information of each reception unit 140 stored in the reception unit database 225. calculate.
• the moving speed calculating section 230 calculates the moving speed of the user 120 based on the position history of the user 120 stored in the position history database 210. Specifically, the moving speed calculation unit 230 stores the history of the reception unit identification information and the time information corresponding to the user identification information of the user 120 into the position history database via the recording unit 200. Obtained from 210. Then, the moving speed calculation unit 230 calculates a distance and a time difference between the two reception units 140 at which the time when the user identification information is received is earlier or later in the history of the obtained reception unit identification information, The moving speed included in the momentum is calculated.
• the moving speed calculating section 230 calculates the distance between the two receiving sections 140 in the same manner as the moving distance calculating section 220.
• the moving speed calculation unit 230 determines that the user 120 is taking a break based on, for example, the condition that the reception unit identification information has not been received for a certain period of time. It may be detected. In this case, the moving speed calculation unit 230 can calculate the moving speed using the time excluding the time during which the user 120 was taking a break.
• the stay time calculation unit 240 calculates the stay time at which the user is located in the pool based on the time information about the user 120 stored in the location history database 210.
• the staying time calculation unit 240 according to the present embodiment is configured such that, in the history of the time information corresponding to the user identification information of the user 120 stored in the location history database 210, The difference between the time information and the last time information is regarded as the stay time of the user 120 in the pool 110.
• the detection system 100 may further include an input device for inputting when the user 120 enters the pool 110 and when the user 120 exits the pool 110.
• the stay time calculation unit 240 may acquire the time of entering the pool and the time of leaving the pool from this input device.
• the detection system 100 may further include a pool entry / exit check receiving unit that receives user identification information from the portable device 130 in part or all around the pool 110.
• the staying time calculation unit 240 for example, every time the pool entry / exit check receiving unit receives the user identification information of the user 120, calculates the time of entering the pool or exiting the Boolean. It may be obtained alternately.
• the user information holding unit 250 holds user information including the weight and height of the user 120 in association with the user 120.
• the pool status acquisition unit 252 acquires a pool status that is an internal status of the pool 110.
• the pool state acquisition unit 255 includes a density calculation unit 255, a water flow calculation unit 260, a water temperature acquisition unit 270, and a water flow information acquisition unit 275.
• the plurality of receiving units 140 Based on the receiving unit identification information stored in the position history database 210, the plurality of receiving units 140 receives the plurality of receiving units 140 from the plurality of portable devices 130, Calculates the density information indicating the density of the users in the pool as the pool state.
• the density calculation unit 255 calculates, for example, the number of users located in the pool 110 based on the reception unit identification information, and divides the number of users by the area or volume of the pool. The user density in the entire pool 110 may be calculated. Instead, the density calculation unit 255 may determine, for each section obtained by dividing the pool 110 into a predetermined area or volume, The user density may be calculated.
• the water flow calculation unit 260 calculates the water flow generated by the movement of a plurality of users in the pool 110 as the pool state. More specifically, the water flow calculating unit 260 receives the plurality of receiving units 140 from a plurality of portable devices 130 from the plurality of mobile devices 130 based on the receiving unit identification information stored in the position history database 210. The direction and amount of movement of the plurality of users in the pool 110 are calculated. Then, based on the direction and amount of movement of each user, a local water flow at each user's position is determined, and the pool 11 1 whole water flow is calculated from these local water flows. It is calculated using a method such as fluid analysis.
• the water temperature acquisition unit 270 acquires the water temperature of the pool 110 measured by the water temperature measurement unit 150 from the water temperature measurement unit 150 as the pool state.
• the water flow information acquisition unit 275 acquires the water flow information including the strength of the water flow of the pool 110 from the water flow generators 152 and Z or the water flow measurement unit 154 as the pool state.
• the calorie calculation unit 280 includes a movement amount including the moving distance and the movement speed calculated by the movement amount calculation unit 215, the stay time calculated by the stay time calculation unit 240, and the user information storage unit 25.
• User information including the weight and height of the user 120 stored in 0, and the pool including the water temperature, water flow information, and density information of the pool 110 calculated or obtained by the Boolean status obtaining unit 252 Based on the state, the calorie consumed by the user 120 is calculated.
• the calorie calculation unit 280 transmits the exercise amount of the user 120 to the portable device 130 wirelessly via the exercise amount transmission unit 170.
• the water temperature acquisition unit 270 and the power mouth calculation unit 280 perform processing on the received user identification information while the user 120 is located near the reception unit 140.
• the calorie calculator 2 8 0, the portable device I 1 3 0 from momentum transmitter 1 7 0 corresponding to the receiving unit 1 4 0 to transmit the momentum and / or calories, and the like.
• the calorie calculation unit 280 calculates calorie consumption by using the following method.
• the calorie calculation unit 280 includes: the amount of exercise, the stay time, the density information, Calculate calories burned from exercise based on the information and z or body weight. For example, the calorie calculation unit 280 calculates the type of exercise (underwater walking, swimming, etc.) and the exercise intensity of the user 120 from the moving speed. In addition, the calorie calculation unit 280 regards the moving distance or the staying time as the exercise time. Then, the calorie calculating unit 280 calculates the calorie consumption from the exercise intensity, the exercise time, and the weight as the user information held in the user information holding unit 250. Here, the calorie calculation unit 280 may further acquire the age and / or gender of the user 120 from the user information storage unit 250 and adjust the calorie consumption using these.
• the calorie calculation unit 280 uses the water flow information calculated by the water flow calculation unit 260 and / or the water flow information acquired by the water flow information acquisition unit 275 to provide the user From the direction and strength of the water flow at the location and the direction and speed of movement of the user 120, the intensity of exercise of the user 120 is calculated, and the calorie consumption of the user 120 is calculated using this. You may. This allows the calorie calculation unit 280 to further increase the calorie consumption of the user 120 when determining that the resistance of the water flow to the user 120 is higher. Alternatively, the calorie calculating unit 280 may further increase the calorie consumption of the user 120 when the water flow information indicates that the wave in the pool is larger.
• the calorie calculating unit 280 calculates the calorie consumption due to staying in the pool 110 based on the staying time, weight, height, water temperature, or the like.
• the calorie calculation unit 280 is a user 1 stored in the user information storage unit 250.
• the body surface area of the user 120 is calculated from the weight and height of 20.
• the heat release amount of the user 120 is calculated from the time when the user 120 stayed in the pool 110, the water temperature of the pool 110, and the body surface area of the user 120.
• the calorie calculation unit 280 calculates the power consumption amount of the user 120 based on the calculated heat release amount.
• the calorie calculation unit 280 may calculate the calories consumed by the user 120 based on the difference between the body temperature and the water temperature of the user 120. More specifically, the calories consumed by the user 120 staying in the pool 110 may be calculated by “j8 X (user's body temperature-water temperature)”. Here, the coefficient may be set in advance according to the height, weight, and stay time, or may be a value approximated by multiplying the stay time by a standard value determined independently of height and weight. Good. The calorie calculation unit 280 further increases the calorie consumption of the user 120 when the difference between the water temperature of the pool 110 and the predetermined appropriate water temperature of the pool 110 is larger. You may.
• the calorie calculator 280 holds a table storing, for example, statistics such as the relationship between exercise intensity and consumption power as variables, and calculates calorie consumption using the variables in the table. May go.
• FIG. 3 shows a configuration of the portable device 130 according to the embodiment of the present invention.
• the mobile device 130 according to the present embodiment includes a user identification information holding unit 300, a user identification information transmission unit 310, an exercise amount reception unit 320, and a display unit 330.
• the user identification information holding unit 300 holds the user identification information of the user 120.
• the user identification information transmitting unit 310 transmits the user identification information held in the user identification information holding unit 300 at, for example, a predetermined time interval. Instead, the user identification information transmitting unit 310 sends the user identification information held in the user identification information holding unit 3000 when approaching any of the receiving units 140. You may. That is, for example, the receiving unit 140 transmits a radio wave urging transmission to the user identification information transmitting unit 310, and the user identification information transmitting unit 310 receives the radio wave and transmits the radio wave. The user identification information held in 00 may be transmitted.
• the momentum receiving unit 320 transmits the momentum and the consumption power of the user 120 by the calorie calculating unit 280 in the detection server 160 transmitting via the momentum transmitting unit 170.
• the display section 330 displays the exercise amount information such as the exercise amount and / or calorie consumption of the user 120 received via the exercise amount transmission section 170.
• the display unit 330 may further display, for example, information such as the stay time calculated by the stay time calculating unit 240 and the water temperature of the pool 110 obtained by the water temperature obtaining unit 270.
• FIG. 4 shows an example of the position history database 210 according to the embodiment of the present invention in a table format.
• the location history database 210 is used by the receiver identification information that identifies the receiver 140 that has received the user identification information, in association with the user identification information received from the mobile device. And time information indicating when the user identification information is received.
• the first to third lines in FIG. 4 indicate that the user identified by the user identification information A is the receiver 1 identified by the receiver identification information 01 and the receiver identification information 02, respectively. Indicates a round trip between 40 and 30 seconds.
• the user identification information A is considered to be swimming back and forth in lane A112.
• lines 100 and 101 in FIG. 4 indicate that the user identified by the user identification information B is located near the receiver 140 identified by the receiver identification information 09. It indicates that it has moved to the vicinity of the receiving unit 140 identified by the receiving unit identification information 0 15 over 1 minute and 10 seconds.
• the momentum calculator 2 15 by referring to the history of the receiver identification information recorded in the database 2 1 0, the movement in the free zone 1 1 6 of the user identified by a Subscriber identification information B can detection child.
• the time information may be information indicating when the recording unit 200 has received the user identification information from the receiving unit 140.
• the time information may include information indicating when the receiving unit 140 no longer receives the user identification information, in addition to when the receiving unit 140 receives the user identification information.
• FIG. 5 is a table format showing an example of the receiving unit database 225 according to the embodiment of the present invention. Shown.
• the receiving unit database 225 stores, for each receiving unit 140, an X coordinate and a Y coordinate, which are an example of position information of the receiving unit 140 in the pool 110.
• the moving distance calculating unit 220 and the moving speed calculating unit 230 store the user identification information in the history of the receiving unit identification information stored in the position history database 210 corresponding to the user 120.
• FIG. 6 shows an example of the user information holding unit 250 according to the embodiment of the present invention in a table format.
• the user information holding unit 250 holds user information including the weight, height, and pre-measured body temperature of the user corresponding to the user identification information of each user. .
• the user information holding unit 250 may further hold, for example, information such as the user's age and gender as the user information.
• FIG. 7 shows a processing flow of exercise amount update processing performed by the detection system 100 according to the embodiment of the present invention every time user identification information is transmitted.
• the receiving unit 140 receives the user identification information from the portable device 130, and combines it with the receiving unit identification information for identifying the receiving unit 140. Transfer to 0 (S600).
• the recording unit 200 adds time information indicating the time of reception to the received reception unit identification information and user identification information, and records the information in the position history database 210 (S610).
• the moving distance calculating unit 220 calculates the moving distance of the user 120 based on the history of the receiving unit identification information of the user 120 stored in the position history database 210. Then, the moving distance calculating unit 220 sends the calculated moving distance to the power point calculating unit 280 (S620).
• the moving speed calculation unit 230 calculates the moving speed of the user 120 based on the history of the receiving unit identification information and the time information of the user 120 stored in the position history database 210. I do. Then, the moving speed calculating section 230 transmits the calculated moving speed to the calorie calculating section 280 (S630). Next, the stay time calculation unit 240, based on the time information about the user 120 stored in the location history database 210, Calculate the staying time at which the user is located in pool ⁇ . Then, the stay time calculation unit 240 sends the calculated stay time to the calorie calculation unit 280 (S640).
• the user information storage unit 250 acquires the user information including the weight and height of the user 120 and transmits the information to the power source calculation unit 280 (S650).
• the water temperature obtaining unit 270 obtains the water temperature of the pool 110 from the water temperature measuring unit 150 and transmits it to the calorie calculating unit 280 (S660).
• the density calculating unit 255 determines that the plurality of receiving units 140 receive from the plurality of portable devices 130 and the pool 1 based on the receiving unit identification information stored in the location history database 210.
• the density information indicating the densities of a plurality of users in 10 is calculated (S666).
• the water flow calculation unit 260 calculates the water flow caused by the movement of a plurality of users in the pool 110, and the water flow information acquisition unit 275 performs the water flow generation device 152 and / or the water flow measurement. Water flow information is obtained from the part 154 (S6664).
• the calorie calculation unit 280 includes the exercise amount including the movement distance and the movement speed calculated by the exercise amount calculation unit 215, the stay time calculated by the stay time calculation unit 240, and the user information storage unit. Including the user information including the weight and height of the user 120 stored in 250 and the water temperature, water flow information, and density information of the pool 110 calculated or obtained by the pool state obtaining unit 252 Based on the pool state, the calorie consumption of the user 120 is calculated (S670). Next, the calorie calculation unit 280 transmits the exercise amount information including the amount of exercise and the calorie consumption via the exercise amount transmission unit 170 corresponding to the reception unit 140 that received the user identification information in S600. To the portable device 130 (S680). Then, the portable device 130 displays the exercise amount information received via the exercise amount transmission section 170 on the display section 330 (S690).
• the order of processing from S620 to S660 described above may be an arbitrary order other than the above.
• the receiving unit 140 near the portable device 130 carried by the user 120 receives the user identification information from the portable device 130.
• the detection server 160 transmits the user information including the position of the receiving unit 140 that received the user identification information, the time of reception, the weight and height of the user 120, and the pool 110.
• Momentum and consumption of user 120 based on pool conditions such as water temperature, water flow and user density Calories can be calculated.
• the user 120 and the detection server 160 can detect the momentum and the power consumption of the user 120 easily.
• FIG. 8 shows a configuration of a detection system 700 according to a modification of the embodiment of the present invention.
• the detection system 700 includes a pool 710, a portable device 730, a water temperature measurement unit 750, a pool state measurement unit 745, a detection server 760, and a transmission unit 770.
• the detection server 760 according to the present modification is an example of a detection device that detects a history of a user's exercise in a pool.
• Pool 7 10 is provided for lane A 7 12 and lane B 7 14 provided for users 7 20 to swim and lane B 7 14 provided for users 7 20 to freely underwater exercise. It has a free area 7 16.
• the pool 7110 may have a plurality of users.
• a description will be given focusing on a case where a history of exercise of a user 720 representing a plurality of users is detected.
• Each of the transmission units 770 transmits transmission unit identification information, which is identification information different from each other, to the portable device 730 carried by the user 720 by radio.
• transmitting section 770 may always transmit transmitting section identification information, or may transmit transmitting section identification information at predetermined time intervals.
• the portable device 730 is carried by the user 720 and receives and stores transmitting unit identification information transmitted by the transmitting unit 770 within a predetermined distance (for example, a radius of 5 Ocm).
• the portable device 730 may be a wristband-shaped portable information device, a non-contact IC card, or the like, which is fixed to the arm, head, or foot of the user 120.
• the bouonole state measuring unit 745 measures the pool state, which is the internal state of the pool 110, and sends it to the detection server 760.
• the pool condition measuring section 745 includes a water temperature measuring section 750, a water flow generator 752, and a water flow measuring section 754.
• the water temperature measurement section 750 sets the pool state, measures the water temperature of the pool 710, and transmits it to the detection server 760.
• the water flow generator 752 generates, for example, a horizontal water flow and a Z or vertical water flow (such as a wave) in the pool 7110.
• the water flow generator 752 detects the water flow information including the strength of the generated water flow as a pool state.
• Send to The water flow measurement section 754 sets, as the pool state, the strength of the water flow generated by the water flow generator 752 and / or the strength of the water flow in the pool caused by a plurality of users moving in the pool. Acquire the information of the water flow including.
• the detection server 760 detects the history of the exercise of the user 720 based on the history of the transmitter identification information stored in the portable device 730. Then, the detection server 760 calculates the amount of exercise and the calorie consumption of the user 720 in the same manner as the detection server 160 shown in FIG.
• FIG. 9 shows a configuration of a detection server 760 according to a modification of the embodiment of the present invention.
• the detection server 760 according to this modified example is the same as the detection server 160 shown in FIG.
• the base 2 25 is replaced with a transmission section database 8 25 for storing the position information of the transmission section 7 70 in the same manner as the reception section database 2 25, and a display section 8 10 is added.
• the exercise amount calculation unit 2 15, stay time calculation unit 240, user information storage unit 250, pool state acquisition unit 250 2, and rickshaw calculation unit 280 in FIG. 9 are shown in FIG. 2. In order to take a configuration almost the same as that of the corresponding member, the following description focuses on the differences.
• the acquisition unit 800 stores, as the history of the user's exercise, the user identification information registered in the mobile device 730, the transmission unit identification information received and stored by the mobile device 730, and the transmission unit identification. Time information indicating the time when the information was received is acquired from the portable device 730.
• the acquisition unit 800 may acquire the transmission unit identification information and the time information wirelessly or via a connector provided in the portable device 730. Further, the acquisition unit 800 may further include a position history database 210, and may store the transmission unit identification information and the time information in association with the user identification information.
• the density calculation unit 255 and the water flow measurement unit 260 are connected to the pool 11 1 in the same manner as the density calculation unit 255 and the water flow measurement unit 260 in the detection device 160 in FIG. The density of a plurality of users at 0 and the water flow generated by the movement of the plurality of users can be calculated respectively.
• the exercise amount calculation unit 2 15, stay time calculation unit 240, user information storage unit 2 ′ 50, and water temperature acquisition unit 270 in FIG. 9 are almost the same as the corresponding members shown in FIG. 2. Is performed.
• the unit 250 replaces the user identification information, the receiver identification information, and the time information recorded in the position history database 210 in FIG. 2 with the user identification information acquired from the portable device 730, Transmitter identification information and time information are used. Therefore, the exercise amount calculation unit 2 15 calculates the exercise amount based on the plurality of transmission unit identification information acquired by the acquisition unit 800.
• the moving distance calculating unit 220 and the moving speed calculating unit 230 receive the transmitting unit identification information in each of the plurality of transmitting unit identification information acquired by the acquiring unit 800.
• the moving distance and the moving speed are calculated based on the distance between the two transmitting units 770 whose time is changed before and after.
• the display unit 8100 displays the exercise amount information such as the exercise amount calculated by the exercise amount calculation unit 215 and the power consumption amount calculated by the power amount calculation unit 280.
• the display unit 8100 may further display, for example, information such as the staying time calculated by the staying time calculation unit 240 and the water temperature of the pool 7110 acquired by the water temperature acquisition unit 270.
• FIG. 10 shows a configuration of a portable device 730 according to a modification of the embodiment of the present invention.
• the mobile device 730 according to the present modification includes a user identification information holding unit 300, a position information receiving unit 910, an exercise history storage unit 920, and an exercise history transfer unit 930.
• the position information receiving section 9110 is an example of a receiving section in the portable device according to the present invention.
• the exercise history storage section 920 is an example of a storage section in the portable device according to the present invention.
• the exercise history transfer unit 930 is an example of the transfer unit according to the present invention.
• the user identification information holding unit 300 holds user identification information of the user 720.
• the location information receiving section 91 ⁇ wirelessly receives transmitting section identification information from a nearby transmitting section 770.
• the exercise history storage unit 920 stores the transmission unit identification information received from the transmission unit 770 in association with time information indicating when the transmission unit identification information was received.
• the exercise history transfer unit 930 stores the user identification information held by the user identification information storage unit 3000 and the exercise history storage unit 9200 after the user 720 exits the pool 710.
• the stored transmitting unit transmits the identification information and the history of the time information to the obtaining unit 800.
• the portable device 130 receives and stores transmission unit identification information transmitted by the nearby transmission unit 770.
• the detection server 760 sets the user identification information, the transmitter identification information, and the time.
• the history of the time information is acquired from the portable device 730.
• the detection server 160 determines the position of the transmitting unit 770 that transmitted the transmitting unit identification information, the time at which the transmitting unit identification information was received, the weight and height of the user 720, and the water temperature of the pool 710. Based on the above, it is possible to calculate the amount of movement and calorie consumption of the user 720.
• FIG. 11 shows a hardware configuration of the computer 100 according to the embodiment of the present invention.
• the functions of the detection server 160 or the detection server 760 according to the present embodiment are as follows: CPU 110, R ⁇ M 102, RAM 130, communication interface 104, hard disk Input device for input from drive 1 050, receiver 1 4 0 and water temperature measurement 1 5 0 or water temperature measurement 7 5 0 0, output device for output to momentum transmitter 1 7 0
• the computer 100 0 may further include a flexible disk drive 1 075 and / or a CD-ROM drive 1 800.
• the program that implements the detection server 160 includes a recording module, an exercise amount calculation module, a stay time calculation module, a water temperature acquisition module, and a calorie calculation module. These modules include a computer 100, a recording unit 200, an operation amount calculation unit 2 15, a stay time calculation unit 240, a water temperature acquisition unit 270, and a power unit calculation unit 28. This is a program that operates as 0. Further, the hard disk drive 150 may be used to store data recorded or stored in the position history database 210, the receiving unit database 225, and the user information storing unit 250. Further, the program for realizing the detection server 760 includes an acquisition module, a momentum calculation module, a stay time calculation module, a water temperature acquisition module, a calorie calculation module, and a display module. These modules include a computer 100, an acquisition unit 800, a momentum calculation unit 215, a stay time calculation unit 240, and a water temperature acquisition unit.
• the hard disk drive 150 may be used to store data recorded or retained in the receiving unit database 222 and the user information retaining unit 250.
• the programs or modules described above may be stored in an external storage medium.
• a storage medium in addition to the flexible disk 109, CD-ROM 109, and 0?
• An optical recording medium such as 0, a magneto-optical recording medium such as an MD, a tape medium, and a semiconductor memory such as an IC card can be used.
• a storage device such as a hard disk or a RAM provided in a server system connected to a dedicated communication network or the Internet is used as a recording medium, and is connected via an external network or a network connected to the computer 100.
• the program may be provided to the computer 1000.

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• 2002
  • 2002-07-18 JP JP2002210308A patent/JP4002146B2/ja not_active Expired - Fee Related
• 2003
  • 2003-06-03 WO PCT/JP2003/006976 patent/WO2004009189A1/ja not_active Ceased
  • 2003-06-03 AU AU2003241881A patent/AU2003241881A1/en not_active Abandoned
• 2005
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