CN114120602A - Method and system for correcting posture of jumping ropes simultaneously by using big data - Google Patents

Abstract

The invention relates to a method and a system for correcting the posture of both feet skipping ropes simultaneously by big data, belonging to the technical field of sports fitness and sensors. The device comprises a left foot and foot pressure acquisition assembly, a right foot and foot pressure acquisition assembly, a forearm upper arm acquisition assembly, a wireless transceiver, a processor, a memory, terminal equipment and a wireless player; the invention provides feasible rope skipping posture adjusting equipment and implementation steps, which can acquire key data of each key part of an adjuster in rope skipping in real time, carry out corresponding vibration reminding and voice reminding of each key part according to the real-time data of the rope skipping person (particularly can timely adjust the pressure difference when two feet land simultaneously and the pressure difference when the two feet land simultaneously is in a normal range), realize real-time feedback, realize accurate and quick reminding of the corresponding part and good correcting effect, and simultaneously correct the rope skipping postures of hundreds of people and rope skipping persons in different areas by one processor.

Description

Method and system for correcting posture of jumping ropes simultaneously by using big data

Technical Field

The invention relates to a method and a system for correcting the posture of both feet skipping ropes simultaneously by big data, belonging to the technical field of sports fitness and sensors.

Background

The skipping rope is a body-building exercise which is necessary to be examined by students, can effectively train the reaction and endurance of the students, and is beneficial to keeping the personal posture, body building and coordination of the students, thereby achieving the purposes of improving the skipping rope score and building the body.

However, after a period of rope skipping, pain occurs on the middle upper part and the heel of the foot, or the pressure difference between the two feet when the two feet touch the ground is too large due to the reason that the two feet touch the ground at different times, and the like, so that the uncomfortable phenomenon of the foot (including knees and the like) with too large pressure is caused, or the number measuring standard of the rope skipping at the corresponding stage is difficult to reach, which is caused by the fact that most people lack professional guidance and adopt incorrect rope skipping postures.

Also, due to uncertainty in the location of the jump rope (e.g. different classes in different areas of school, the students jumping the rope home, etc.), too much processor and power is required for processing, which is too costly and battery intensive.

Disclosure of Invention

In order to solve the problems, the invention provides a method and a system for correcting the posture of the two feet of a user for rope skipping simultaneously by big data.

In order to achieve the technical purpose, the invention adopts the technical scheme that: a method and a system for correcting the posture of two feet skipping ropes simultaneously by big data comprise a left foot and foot pressure acquisition assembly, a right foot and foot pressure acquisition assembly, a forearm and upper arm acquisition assembly, a wireless transceiver, a processor, a memory, terminal equipment and a wireless player.

Left side foot portion pressure acquisition subassembly includes first district, the second district, and the wireless transceiver A of third district and health end, first district includes big toe pressure acquisition and fourth toe pressure acquisition, the second district includes well upper left pressure acquisition, well upper right pressure acquisition and well upper middle-height acquisition, the third district is pressure acquisition in the heel, every pressure acquisition department all is provided with corresponding pressure sensor.

The right foot pressure acquisition assembly comprises a first area, a second area, a third area and a body end wireless transceiver B, the first area comprises big toe pressure acquisition and fourth toe pressure acquisition, the second area comprises middle upper left pressure acquisition, middle upper right pressure acquisition and middle upper middle and high acquisition, the third area is heel middle pressure acquisition, and each pressure acquisition part is provided with a corresponding pressure sensor.

The forearm upper arm acquisition assembly comprises a forearm inclination acquisition device, an upper arm inclination acquisition device and a body end wireless transceiver C, wherein the forearm inclination acquisition device is provided with a vibration chip, the upper arm inclination acquisition device is provided with a vibration chip, and the forearm upper arm inclination acquisition device is an angle sensor, an inclinometer and a gyroscope.

The terminal equipment receives signals of the body end wireless transceiver A, the body end wireless transceiver B and the body end wireless transceiver C and transmits the signals to the processor through the wireless transceivers.

The treater is used for acquireing each and gathers the data that send through terminal equipment and come, through calculating the contrast back, starts corresponding vibrations chip through terminal equipment and shakes and remind and carry out corresponding voice prompt with wireless player, the memory can carry out each item pressure, position numerical value and gradient numerical value's setting according to everyone's particular case.

The correction method comprises the following steps:

according to the specific situation of each person, various pressure values, height values and gradient values are input into the processor and stored in the memory.

The rope skipping person equips the correction system, equips left foot pressure acquisition subassembly and right foot pressure acquisition subassembly respectively on the corresponding position of rope skipping person's left sole and right sole, with the gradient collection device setting in forearm upper arm collection subassembly in the middle part of the forearm and the upper arm of rope skipping person, wear the wireless player on the ear, place wireless transceiver, treater and memory combined assembly at the professional equipment fixed point to access net twine.

The left foot pressure acquisition assembly and the right foot pressure acquisition assembly respectively acquire pressure value data of each acquisition point, time and position data generated by pressure values, and transmit the pressure value data to the processor through the terminal equipment, and then the processor judges each pressure value and position data of the foot as follows:

when the time of generating the pressure value acquired by the first area is later than the time of generating the pressure values acquired by the second area and the third area, the processor starts the wireless transceiver device through the terminal equipment to send an instruction to the body end wireless transceiver device A and the body end wireless transceiver device B and starts the first area vibration chip to perform vibration reminding, and simultaneously performs voice playing in the wireless player to prompt that the part contacting the ground needs to be adjusted;

when the time of the pressure value acquired by the second area is earlier than the time generated by the pressure value acquired by the first area, the processor starts the wireless transceiver device through the terminal equipment to send an instruction to the body end wireless transceiver device A and the body end wireless transceiver device B and starts the second area vibration chip to perform vibration reminding, and meanwhile, the wireless player performs voice playing to prompt that the first area needs to touch the ground before the second area;

when the pressure value acquired by the second area is larger than the maximum pressure threshold value set in the memory, the processor starts the wireless transceiver device through the terminal equipment to send an instruction to the body end wireless transceiver device A and the body end wireless transceiver device B and starts a corresponding vibration chip in the second area to perform vibration reminding, and meanwhile voice playing is performed in the wireless player to prompt that the grounding force of the second area is too large, and the pressure of the first area is properly adjusted to divide the pressure of the second area;

when the pressure value is collected in the third area, the processor starts the wireless transceiver to send an instruction to the body end wireless transceiver C through the terminal equipment and starts a corresponding vibration chip in the area to perform vibration reminding, and meanwhile, the heel is played in a wireless player in a voice mode and is required to be adjusted to be free from being touched.

When the pressure value acquired by the first areas of the left foot and the right foot is not in the preset foot balance alarm threshold value, the processor starts a vibration chip at the position of the sensor with higher pressure through the terminal equipment, simultaneously carries out voice playing in the wireless player to prompt that the pressure of the two feet is unbalanced, and requires adjusting the pressure value data of the first areas of the two feet which land simultaneously to keep in the preset foot balance alarm threshold value;

when the pressure values acquired by the second areas of the left foot and the right foot are not in the preset foot balance alarm threshold value, the processor starts a vibration chip at the position of the sensor with higher pressure through the terminal equipment, simultaneously carries out voice playing in the wireless player to prompt that the pressures of the two feet are unbalanced, and requires adjusting the pressure value data of the second areas of the two feet which land simultaneously to keep in the preset foot balance alarm threshold value;

when the left foot and the right foot touch the ground, the processor calculates the position data of the left foot and the right foot, the height data of the left foot and the right foot from the ground, which is obtained after the processor calculates the position data of the left foot and the right foot, is lower than or higher than the preset height threshold value in the memory, and the processor starts the wireless player to play and prompt the left foot and the right foot to correspondingly adjust to the preset height threshold value in the memory.

After the inclination data of the forearm and the upper arm collected by the forearm upper arm collecting assembly are transmitted to the processor, the processor prompts that the movement locus of the forearm and the upper arm needs to be adjusted through the wireless player when judging that the inclination of the forearm and the upper arm is not within a preset normal threshold range of the inclination of the forearm and the upper arm, so that the inclination data of the forearm and the upper arm are kept within the preset normal threshold range of the inclination of the forearm and the upper arm.

The invention has the advantages and positive effects that: the practical rope skipping posture adjusting device and the implementation steps can acquire key data of each key part of an adjuster in rope skipping in real time, carry out corresponding vibration reminding and voice prompt of each key part according to the real-time data of the rope skipping, particularly timely adjust pressure difference when two feet land simultaneously and the two feet land in a normal range, realize real-time feedback, prompt of the corresponding parts is accurate and quick, the correcting effect is good, and meanwhile, one processor can correct rope skipping postures of hundreds of people and rope skipping persons in different areas.

Drawings

FIG. 1 is a block diagram of a method and system for correcting a simultaneous rope skipping posture of both feet using big data.

Fig. 2 is a schematic diagram of the distribution of the components of the left foot pressure acquisition assembly on the sole of the foot.

Fig. 3 is a schematic view of the distribution of the components of the pressure acquisition assembly for the right foot on the sole.

Wherein: 1. big toe pressure sensor, 2, fourth toe pressure sensor, 3, big toe vibrations chip, 4, fourth toe vibrations chip, 5, middle upper left pressure sensor, 6, middle upper right pressure sensor, 7, middle upper left vibrations chip, 8, middle upper right vibrations chip, 9, middle upper middle position sensor 9, 10, heel middle pressure sensor, 11, heel middle vibrations chip.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

A method and a system for correcting the posture of double feet skipping ropes by big data are disclosed, as shown in figure 1, the system comprises a left foot pressure acquisition component, a right foot pressure acquisition component, a forearm upper arm acquisition component, a wireless transceiver, a processor, a memory, a terminal device and a wireless player.

Left foot portion pressure acquisition subassembly includes first district, the second district, and the wireless transceiver A of third district and health end, first district includes big toe pressure acquisition and fourth toe pressure acquisition, the second district includes well upper left pressure acquisition, well upper right pressure acquisition and well upper middle-height acquisition, the third district is pressure acquisition in the heel, every pressure acquisition department all is provided with corresponding pressure sensor.

The right foot pressure acquisition assembly comprises a first area, a second area, a third area and a body end wireless transceiver B, the first area comprises big toe pressure acquisition and fourth toe pressure acquisition, the second area comprises middle upper left pressure acquisition, middle upper right pressure acquisition and middle upper middle and high acquisition, the third area is heel middle pressure acquisition, and each pressure acquisition part is provided with a corresponding pressure sensor.

The forearm upper arm acquisition assembly comprises a forearm inclination acquisition device, an upper arm inclination acquisition device and a body end wireless transceiver C, wherein the forearm inclination acquisition device is provided with a vibration chip, the upper arm inclination acquisition device is provided with a vibration chip, and the forearm upper arm inclination acquisition device is an angle sensor, an inclinometer and a gyroscope.

The terminal equipment receives the signals of the body end wireless transceiver A, the body end wireless transceiver B and the body end wireless transceiver C and transmits the signals to the processor through the wireless transceivers.

The treater is used for acquireing each and gathers the data that send through terminal equipment and come, through calculating the contrast back, starts corresponding vibrations chip through terminal equipment and shakes and remind and carry out corresponding voice prompt with wireless player, the memory can carry out the setting of each item pressure numerical value, position numerical value and gradient numerical value according to everyone's particular case.

The correction method comprises the following steps:

according to the specific situation of each person, various pressure values, height values and gradient values are input into the processor and stored in the memory.

The rope skipping person equips the correcting system, equip the left foot pressure acquisition assembly and right foot pressure acquisition assembly on the corresponding position of the rope skipping person's left sole and right sole respectively, as shown in fig. 2 and fig. 3, wherein, the first area foot pressure acquisition assembly includes big toe pressure sensor 1 arranged on the big toe position, fourth toe pressure sensor 2 arranged on the fourth toe position, big toe vibration chip 3 is also arranged at big toe pressure sensor 1, fourth toe vibration chip 4 is also arranged at fourth toe pressure sensor 2, the vibration chip is best attached to the skin or socks contacted with the corresponding toe, so as to generate accurate vibration prompt for the rope skipping person;

the left foot and right foot second area foot pressure acquisition assembly comprises a middle-upper left pressure sensor 5, a middle-upper right pressure sensor 6 and a middle-upper middle position sensor 9 which are arranged at the middle position of a sole of a foot, wherein the middle position of the sole of the foot is not the center of the sole of the foot, but the front sole of the foot is slightly close to the middle position of the sole of the foot (namely the position of a first contact point of the foot and the ground). The middle-upper left pressure sensor 5 is also provided with a middle-upper left vibration chip 7, the middle-upper right pressure sensor 6 is also provided with a middle-upper right vibration chip 8, and the middle-upper middle-high acquisition area is also provided with a middle-upper middle position sensor 9.

The left foot, the right foot, the third area foot pressure acquisition component and the left foot, the third area foot pressure acquisition component and the right foot are heel middle pressure sensors 10 arranged in the middle positions of heels, the middle positions of the heels are first contact points of the heels and the ground, and a right heel middle vibration chip 11 is further arranged at the heel middle pressure sensors 10.

The inclination acquisition devices in the forearm upper arm acquisition assembly are arranged in the middle of the forearm and the middle of the upper arm of a rope skipping person, the wireless player is worn on the ear, and the wireless transceiver, the processor and the memory combined assembly are placed at a fixed point of the special equipment and are connected with a network cable.

The left foot pressure acquisition assembly and the right foot pressure acquisition assembly respectively acquire pressure value data of each acquisition point, time and position data generated by pressure values, and transmit the data to the processor through the terminal equipment, and then the processor judges the pressure values, the pressure time and the position data of the feet as follows:

when the time that the pressure value that the first district was gathered produced is later than the time that the pressure value that the second district and the third district were gathered produced, then the treater starts wireless transceiver to the wireless transceiver A of health end and the wireless transceiver B of health end through terminal equipment and sends the instruction and open first district vibrations chip and shake and remind, carries out speech playback in wireless player simultaneously: please adjust the toe-first touchdown of the first zone (this is to allow the toe of the first zone to share a small portion of the pressure value and to relieve the pressure value in the second zone);

when the time of the pressure value of gathering in the second district is earlier than the time that the pressure value of gathering in the first district produced, then the treater starts wireless transceiver to send the order and open second district vibrations chip through terminal equipment and shake and remind to health end wireless transceiver A and health end wireless transceiver B, and wireless player carries out voice play simultaneously: please adjust the toe of the first area to touch the ground first;

when the pressure value that the second district was gathered is greater than the maximum pressure threshold value that sets up in the memory, then the treater starts wireless transceiver to send the instruction and open the corresponding vibrations chip in the second district and shake through terminal equipment to health end wireless transceiver A and health end wireless transceiver B and remind, carries out voice playback in wireless player simultaneously: the contact force in the middle of the second area is too large, and a part of the contact force is scattered to the tiptoe of the first area (the pressure of the first area is properly adjusted to divide the pressure of the second area, or the height of take-off is reduced);

when the third area collects the pressure value, the processor starts the wireless transceiver to send an instruction to the body end wireless transceiver C through the terminal equipment and starts the corresponding vibration chip in the area to perform vibration reminding, and simultaneously performs voice playing in the wireless player: "heel strike, please adjust to keep the heel from striking the ground" (heel strike will affect the speed of skipping rope).

When the pressure value acquired by the first areas of the left foot and the right foot is not in the preset foot balance alarm threshold value, the processor starts the wireless transceiver to send an instruction to the wireless transceiver A at the body end through the terminal equipment and starts the vibration chip at the position of the sensor with higher pressure, and simultaneously carries out voice playing in the wireless player, namely the pressure of the two feet is unbalanced, and the pressure value data of the first areas, which are touched by the two feet at the same time, is required to be adjusted to be kept in the preset foot balance alarm threshold value, so that the phenomenon that the pressure difference is overlarge when the two toes are touched by the two toes caused by the reason that the two toes in the first areas are not touched by the feet at the same time, and the discomfort phenomenon that the pressure is overlarge, is caused by different degrees of the two toes is caused);

when the pressure value acquired by the second areas of the left foot and the right foot is not in the preset foot balance alarm threshold value, the processor starts the wireless transceiver to send an instruction to the wireless transceiver B at the body end through the terminal equipment and starts the vibration chip at the position of the sensor with higher pressure, and simultaneously carries out voice playing in the wireless player, namely the pressure of the two feet is unbalanced, the pressure value data of the second areas of the two feet which are simultaneously landed is required to be adjusted to be kept in the preset foot balance alarm threshold value, and the phenomenon that the discomfort of the middle parts of the two feet with overlarge pressure is caused by overlarge pressure difference when the middle parts of the two feet are landed due to the reason that the middle parts of the two feet in the second areas are not landed simultaneously and the like is caused by different degrees is avoided;

when the left foot and the right foot touch the ground, the processor calculates the position data of the left foot and the right foot, and the obtained height data of the left foot and the right foot in the ground is lower than and higher than a preset height threshold value in the memory, and the processor starts the voice player to play and prompt: "the left and right feet are adjusted to the height threshold value in the preset memory;

after the inclination data of the forearm and the upper arm collected by the forearm upper arm collecting assembly are transmitted to the processor through the terminal equipment, when the processor judges that the inclination of the forearm and the upper arm is not within a preset normal threshold range of the inclination of the forearm and the upper arm, the processor starts the wireless player through the terminal equipment to prompt that the movement locus of the forearm and the upper arm needs to be adjusted, so that the inclination data of the forearm and the upper arm are kept within the preset normal threshold range of the inclination of the forearm and the upper arm.

The system can process the data of all rope skipper in one area through one processor (for example, in a school, only one processor is needed, the data of all rope skipper in the school is received, analyzed, processed and sent through the mobile phone of a sports teacher or a handheld terminal device, etc.), or the data of all rope skipper in different areas (for example, after a student returns home, the data of the rope skipper of a student at home can be received, analyzed, processed and sent through the processor in the school, a parent mobile phone or a computer, etc.), so as to correct the rope skipping postures of all rope skipper.

The technical means disclosed by the scheme of the invention are not limited to the technical means disclosed by the above embodiment, but also comprise the technical scheme (such as bending over and jumping with two feet at the same time) formed by any combination of the above technical features. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications (such as increasing the head/waist tilt acquisition, etc.) can be made, and these improvements and modifications are also considered to be within the scope of the present invention.

Claims (7)

1. A method and a system for correcting the posture of two feet skipping ropes simultaneously by big data are characterized by comprising a left foot pressure acquisition component, a right foot pressure acquisition component, a forearm upper arm acquisition component, a wireless transceiver, a processor, a memory, terminal equipment and a wireless player.

2. The method and system for correcting the posture of the double-foot simultaneous skipping rope according to claim 1, wherein the left foot pressure acquisition component comprises a first area, a second area, a third area and a body end wireless transceiver A, the first area comprises the big toe pressure acquisition and the fourth toe pressure acquisition, the second area comprises the middle-upper left pressure acquisition, the middle-upper right pressure acquisition and the middle-upper middle-high acquisition, the third area is the heel middle pressure acquisition, and each pressure acquisition is provided with a corresponding pressure sensor.

3. The system and method for correcting the posture of a pair of feet skipping simultaneously with big data according to claim 1, wherein said right foot pressure collecting assembly comprises a first area, a second area, a third area and a body end wireless transceiver B, said first area comprises big toe pressure collecting and fourth toe pressure collecting, said second area comprises middle-upper left pressure collecting, middle-upper right pressure collecting and middle-upper middle-high pressure collecting, said third area is heel middle pressure collecting, each pressure collecting is provided with a corresponding pressure sensor.

4. The system and method for correcting the posture of the two feet skipping simultaneously according to the big data of claim 1, wherein the forearm upper arm collecting component comprises a forearm inclination collecting device, an upper arm inclination collecting device and a body end wireless transceiver device C, the forearm inclination collecting device is provided with a vibration chip, the upper arm inclination collecting device is provided with a vibration chip, and the forearm upper arm inclination collecting device is an angle sensor, an inclinometer or a gyroscope.

5. The system and method for correcting the posture of the two feet skipping simultaneously with big data as claimed in claim 1, wherein the terminal device receives the signals of the body end wireless transceiver A, the body end wireless transceiver B and the body end wireless transceiver C and transmits the signals to the processor through the wireless transceivers.

6. The method and system for correcting the posture of the two feet jumping the rope simultaneously with the big data according to claim 1, wherein the processor is used for acquiring the data sent by the terminal equipment, after calculation and comparison, the terminal equipment starts the corresponding vibrating chip to perform vibration reminding and the wireless player to perform corresponding voice prompt, and the memory can set the pressure, the position value and the gradient value according to the specific situation of each person.

7. The method and system for correcting the posture of the two feet skipping simultaneously by big data according to claim 1, wherein the correcting method comprises the following steps:

inputting various pressure values, height values and gradient values into a processor according to the specific conditions of each person, and storing the pressure values, the height values and the gradient values into a memory;

the rope skipping person is provided with a correction system, a left foot and foot pressure acquisition assembly and a right foot and foot pressure acquisition assembly are respectively arranged on corresponding parts of a left sole and a right sole of the rope skipping person, an inclination acquisition device in a forearm and upper arm acquisition assembly is arranged in the middle of a forearm and the middle of an upper arm of the rope skipping person, a wireless player is worn on an ear, and a wireless transceiver, a processor and a memory combined assembly are placed at a special equipment fixing point and are connected with a network cable;

the left foot pressure acquisition assembly and the right foot pressure acquisition assembly respectively acquire pressure value data of each acquisition point, time and position data generated by pressure values, and transmit the pressure value data to the processor through the terminal equipment, and then the processor judges each pressure value and position data of the foot as follows:

when the time of generating the pressure value acquired by the first area is later than the time of generating the pressure values acquired by the second area and the third area, the processor starts the wireless transceiver device through the terminal equipment to send an instruction to the body end wireless transceiver device A and the body end wireless transceiver device B and starts the first area vibration chip to perform vibration reminding, and simultaneously performs voice playing in the wireless player to prompt that the part contacting the ground needs to be adjusted;

when the time of the pressure value acquired by the second area is earlier than the time generated by the pressure value acquired by the first area, the processor starts the wireless transceiver device through the terminal equipment to send an instruction to the body end wireless transceiver device A and the body end wireless transceiver device B and starts the second area vibration chip to perform vibration reminding, and meanwhile, the wireless player performs voice playing to prompt that the first area needs to touch the ground before the second area;

when the pressure value acquired by the second area is larger than the maximum pressure threshold value set in the memory, the processor starts the wireless transceiver device through the terminal equipment to send an instruction to the body end wireless transceiver device A and the body end wireless transceiver device B and starts a corresponding vibration chip in the second area to perform vibration reminding, and meanwhile voice playing is performed in the wireless player to prompt that the grounding force of the second area is too large, and the pressure of the first area is properly adjusted to divide the pressure of the second area;

when the pressure value is acquired in the third area, the processor starts the wireless transceiver device through the terminal equipment to send an instruction to the body end wireless transceiver device C and starts a corresponding vibration chip in the area to perform vibration reminding, and meanwhile, the processor plays in a voice mode that the heel touches the ground and adjusts the heel not to touch the ground;

when the pressure value acquired by the first areas of the left foot and the right foot is not in the preset foot balance alarm threshold value, the processor starts a vibration chip at the position of the sensor with higher pressure through the terminal equipment, simultaneously carries out voice playing in the wireless player to prompt that the pressure of the two feet is unbalanced, and requires adjusting the pressure value data of the first areas of the two feet which land simultaneously to keep in the preset foot balance alarm threshold value;

when the pressure values acquired by the second areas of the left foot and the right foot are not in the preset foot balance alarm threshold value, the processor starts a vibration chip at the position of the sensor with higher pressure through the terminal equipment, simultaneously carries out voice playing in the wireless player to prompt that the pressures of the two feet are unbalanced, and requires adjusting the pressure value data of the second areas of the two feet which land simultaneously to keep in the preset foot balance alarm threshold value;

when the left foot and the right foot touch the ground in the second area, the processor calculates the position data of the left foot and the right foot, and the obtained height data of the left foot and the right foot in the second area from the ground is lower than or higher than a preset height threshold value in the memory, and the processor starts the wireless player to play and prompt the left foot and the right foot to be correspondingly adjusted to the preset height threshold value in the memory;

after the inclination data of the forearm and the upper arm collected by the forearm upper arm collecting assembly are transmitted to the processor, the processor prompts that the movement locus of the forearm and the upper arm needs to be adjusted through the wireless player when judging that the inclination of the forearm and the upper arm is not within a preset normal threshold range of the inclination of the forearm and the upper arm, so that the inclination data of the forearm and the upper arm are kept within the preset normal threshold range of the inclination of the forearm and the upper arm.

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