CN102928614B - Motion data monitoring system - Google Patents
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- CN102928614B CN102928614B CN201210407197.1A CN201210407197A CN102928614B CN 102928614 B CN102928614 B CN 102928614B CN 201210407197 A CN201210407197 A CN 201210407197A CN 102928614 B CN102928614 B CN 102928614B
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 26
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- 238000007405 data analysis Methods 0.000 claims abstract description 53
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- 238000006243 chemical reaction Methods 0.000 claims abstract description 18
- 238000012806 monitoring device Methods 0.000 claims abstract description 16
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Abstract
The invention provides a motion data monitoring system. The system comprises a mobile terminal and a monitoring device, wherein the mobile terminal is provided with a screen, and the monitoring device can monitor the motion of non-motor vehicles and send a signal to the mobile terminal; the mobile terminal comprises a setting module, a signal receiving module, a clocking module, a noise filtration processing module, an analog-to-digital conversion module, a data analysis and recording module, a motion data processing module and an output displaying module, wherein the setting module sets real-time parameters; the signal receiving module receives the signal sent by the monitoring device, the signal is processed by the noise filtration processing module and the analog-to-digital conversion module in sequence to obtain a digital signal; the data analysis and recording module obtains and records the motion route information according to the digital signal; the motion data processing module processes the recorded data to obtain motion parameters in the moving process; and the output displaying module outputs and displays the motion parameters on the screen. The system is convenient to carry, easy to use, efficient and effective.
Description
Technical field
The present invention relates to a kind of exercise data monitoring system, especially a kind of exercise data monitoring system with mobile terminal and monitoring device.
Background technology
Have now a lot of people to like motion, particularly like environment-friendly type to move, the most common have this kind of exercise motion utilizing bicycle to carry out of riding.This type games not only can carry out out of doors, also can carry out in gymnasium, and people demands of individuals can determine amount of exercise.Although now more existing can be exclusively used in the equipment of monitoring people exercise data, not to be that build is huge be inconvenient to carry this kind equipment, uses inconvenience exactly, wants the moment to monitor oneself momental user very inconvenient for those.Especially those can not the people of excessive movement according to health, seems particularly important to the Real-Time Monitoring of oneself exercise data.
Summary of the invention
The object of the invention is to for above-mentioned deficiency, a kind of simple and convenient, exercise data detection system is efficiently and effectively provided.
A kind of exercise data monitoring system, comprise a mobile terminal and one and described mobile terminal with the use of monitoring device, mobile terminal has a display screen, described monitoring device monitoring bicycle motion conditions, and send one for calculating the signal of bicycle operation commute information to mobile terminal; Described mobile terminal comprises one and arranges module; one signal receiving module; one timing module be electrically connected with signal receiving module, a filter be electrically connected with signal receiving module are made an uproar processing module; one to make an uproar the analog-to-digital conversion module that processing module is electrically connected with filter, a data analysis logging modle be electrically connected with analog-to-digital conversion module, an exercise data processing module be electrically connected with data analysis logging modle and an output display module be electrically connected with exercise data processing module; The described module that arranges arranges real-time parameter according to user's actual motion situation; Described signal receiving module receives signal that described monitoring device sends and is processed to filter processing module of making an uproar by this Signal transmissions, starts timing to described timing module this Signal transmissions simultaneously; Signal after processing module of making an uproar after filtration process is sent to analog-to-digital conversion module and is converted to a digital signal, described data analysis logging modle is analyzed and record travel information according to described digital signal, described exercise data processing module processes recorded data in described data analysis logging modle, obtains at least one kinematic parameter in whole motion process; The kinematic parameter output display that the process of described exercise data processing module obtains by described output display module is on mobile terminal display screen.
Described data analysis logging modle is also electrically connected with timing module; Described data analysis logging modle often receives once the digital signal that described analog-to-digital conversion module transmits, a just access timing module, described data analysis logging modle obtains a current driving distance numerical information according to described digital signal, and the real-time time recorded by timing module in this visit process and this traveling distance numerical information carry out record as a two-dimensional combination; Traveling distance numerical information in described record is each time in units of rice, and the real-time time in described record each time in seconds.
Described monitoring device comprises an induction module and a signal transmitting module be electrically connected with induction module; Described induction module induction Wheel for non maneuverable vehicle rotates, and often rotate one week, described induction module produces a pulse signal; This pulse signal is sent to described signal receiving module by described signal transmitting module, and mobile terminal calculates described non-automotive vehicle distance numerical information according to described pulse signal.
The described real-time parameter arranging module installation comprises described Wheel for non maneuverable vehicle girth and calculates the sample interval of real-time speed; Described arrange module comprise a girth arrange module and a real-time speed sampling module is set; Described girth arranges module according to actual conditions, and arrange the Wheel for non maneuverable vehicle girth that user's current kinetic is used, described girth is in units of rice; Described real-time speed sampling arranges module and arranges the sample interval calculating real-time speed according to demands of individuals.
Described data analysis logging modle also with module be set be electrically connected; The described module that arranges comprises a reseting module, and described reseting module is opened according to user's request, and when reseting module is opened, it sends a control signal control data analytic record module removing to data analysis logging modle and records data before this.
Described signal receiving module often receives a pulse signal, just this pulse signal is delivered to make an uproar processing module and analog-to-digital conversion module of filter to process, and obtain a digital signal, the numerical value representing a bicycle wheel circumference distance is simply added with the distance numerical value in the data once recorded before described data analysis logging modle according to described digital signal by described data analysis logging modle, carries out record as the traveling distance numerical value in this record; Described data analysis logging modle often receives a digital signal, just does once record.
Described exercise data processing module comprises a distance processing module, an average velocity processing module and a real-time speed processing module; Traveling distance numerical value in last record in described data analysis logging modle extracts by described distance processing module, and is converted into the distance numerical value in units of km; Traveling distance numerical value in last record in described data analysis logging modle and time carry out being divided by and obtain the average velocity numerical value that is unit with " meter per second " by described average velocity processing module; Described real-time speed processing module by described data analysis logging modle each time record in traveling distance numerical value and the time carry out being divided by obtain for each record the average velocity numerical value being unit with " meter per second ".
Described exercise data processing module also comprises a real-time data record module; Described real-time data record module is by each record in described data analysis logging modle and be integrated into a three-dimensional array carry out record through average velocity numerical value for each record that the process of described real-time speed processing module obtains, and each three-dimensional record described comprises and travels distance numerical value, the time numerical value corresponding to distance numerical value and the average velocity numerical value corresponding with the two.
Described kinematic parameter comprises traveling distance, running time, average velocity; Described output display module by kinematic parameter output display on mobile terminal display screen; The traveling distance numerical value that the process of described distance processing module obtains by described output display module and the time corresponding with this traveling distance numerical value output to mobile terminal display screen and show; Described output display module also exports the average velocity numerical value that the process of described average velocity processing module obtains and shows to mobile terminal display screen; Described output display module arranges the sample interval of module installation according to described real-time speed sampling, starting point is recorded as with first of described real-time data record module, with this sample interval for interval, extract multiple record, and be X-axis with time, speed is Y-axis, be ordinate using the average velocity in each record of extracting as horizontal ordinate, time, find out the point that it is corresponding in X-axis, the determined plane of Y-axis, with a level and smooth curve, each point is coupled together, obtain speed and time plot on a two dimensional surface; This curve map is outputted to mobile terminal display screen display by described output display module.
Exercise data monitoring system of the present invention is more easy to carry than traditional monitoring equipment, uses simple, effective and rapid, can provide real time data, for user brings convenience for user.
Accompanying drawing explanation
Fig. 1 is the system architecture schematic diagram of exercise data monitoring system preferred forms of the present invention.
Embodiment
As shown in Figure 1, exercise data monitoring system of the present invention, comprise a mobile terminal and one and described mobile terminal with the use of monitoring device, mobile terminal has a display screen, described monitoring device monitoring bicycle motion conditions, and send one for calculating the signal of bicycle operation commute information to mobile terminal; Described mobile terminal comprises one and arranges module; one signal receiving module; one timing module be electrically connected with signal receiving module, a filter be electrically connected with signal receiving module are made an uproar processing module; one to make an uproar the analog-to-digital conversion module that processing module is electrically connected with filter, a data analysis logging modle be electrically connected with analog-to-digital conversion module, an exercise data processing module be electrically connected with data analysis logging modle and an output display module be electrically connected with exercise data processing module; The described module that arranges arranges real-time parameter according to user's actual motion situation; Described signal receiving module receives signal that described monitoring device sends and is processed to filter processing module of making an uproar by this Signal transmissions, starts timing to described timing module this Signal transmissions simultaneously; Signal after processing module of making an uproar after filtration process is sent to analog-to-digital conversion module and is converted to a digital signal, described data analysis logging modle is analyzed and record travel information according to described digital signal, described exercise data processing module processes recorded data in described data analysis logging modle, obtains at least one kinematic parameter in whole motion process; The kinematic parameter output display that the process of described exercise data processing module obtains by described output display module is on mobile terminal display screen.
Described data analysis logging modle is also electrically connected with timing module; Described data analysis logging modle often receives once the digital signal that described analog-to-digital conversion module transmits, a just access timing module, described data analysis logging modle obtains a current driving distance numerical information according to described digital signal, and the real-time time recorded by timing module in this visit process and this traveling distance numerical information carry out record as a two-dimensional combination; This record stores with D (S, T) array form, with D
n(S
n, T
n) represent n-th record, wherein n is more than or equal to 1, T
nrepresent the time of recording in timing module when recording each time, S
nrepresent T
nthe distance of non-automotive vehicle in time; Traveling distance numerical information S in described record each time
nin units of rice, the real-time time T in described record each time
nin seconds.
Described monitoring device comprises an induction module and a signal transmitting module be electrically connected with induction module; Described induction module induction Wheel for non maneuverable vehicle rotates, and often rotate one week, described induction module produces a pulse signal; This pulse signal is sent to described signal receiving module by described signal transmitting module, and mobile terminal calculates described non-automotive vehicle distance numerical information according to described pulse signal.
The described real-time parameter arranging module installation comprises described Wheel for non maneuverable vehicle girth and calculates the sample interval of real-time speed; Described arrange module comprise a girth arrange module and a real-time speed sampling module is set; Described girth arranges module according to actual conditions, and arrange the Wheel for non maneuverable vehicle girth that user's current kinetic is used, described girth is in units of rice; Described real-time speed sampling arranges module and arranges the sample interval calculating real-time speed according to demands of individuals.
Described data analysis logging modle also with module be set be electrically connected; The described module that arranges comprises a reseting module, and described reseting module is opened according to user's request, and when reseting module is opened, it sends a control signal control data analytic record module removing to data analysis logging modle and records data before this.
Described signal receiving module often receives a pulse signal, just this pulse signal is delivered to make an uproar processing module and analog-to-digital conversion module of filter to process, and obtain a digital signal, the numerical value representing a bicycle wheel circumference distance is simply added with the distance numerical value in the data once recorded before described data analysis logging modle according to described digital signal by described data analysis logging modle, carries out record as the traveling distance numerical value in this record; Described data analysis logging modle often receives a digital signal, just does once record.
Described exercise data processing module comprises a distance processing module, an average velocity processing module and a real-time speed processing module; Traveling distance numerical value in last record in described data analysis logging modle extracts by described distance processing module, and is converted into the distance numerical value in units of km; Traveling distance numerical value in last record in described data analysis logging modle and time carry out being divided by and obtain the average velocity numerical value that is unit with " meter per second " by described average velocity processing module; Described real-time speed processing module by described data analysis logging modle each time record in traveling distance numerical value and the time carry out being divided by obtain for each record the average velocity numerical value being unit with " meter per second ".
Described exercise data processing module also comprises a real-time data record module; Described real-time data record module is by each record in described data analysis logging modle and be integrated into a three-dimensional array carry out record through average velocity numerical value for each record that the process of described real-time speed processing module obtains, each three-dimensional record described comprises traveling distance numerical value, the time numerical value corresponding to distance numerical value and the average velocity numerical value corresponding with the two, each three-dimensional array described is with W(S, T, R) array form stores, with W
n(S
n, T
n, R
n) represent n-th record, wherein n is more than or equal to 1, T
nrepresent the time of recording in timing module when recording each time, S
nrepresent T
nthe distance of non-automotive vehicle in time, R
nrepresent T
naverage velocity in time; Traveling distance numerical information S in described record each time
nin units of rice, the real-time time T in described record each time
nin seconds, R
nin units of meter per second.
Described kinematic parameter comprises traveling distance, running time, average velocity; Described output display module by kinematic parameter output display on mobile terminal display screen; The traveling distance numerical value that the process of described distance processing module obtains by described output display module and the time corresponding with this traveling distance numerical value output to mobile terminal display screen and show; Described output display module also exports the average velocity numerical value that the process of described average velocity processing module obtains and shows to mobile terminal display screen; Described output display module arranges the sample interval of module installation according to described real-time speed sampling, starting point is recorded as with first of described real-time data record module, with this sample interval for interval, extract multiple record, and take time as transverse axis and X-axis, speed is the longitudinal axis and Y-axis, be ordinate using the average velocity in each record of extracting as horizontal ordinate, time, find out the point that it is corresponding in X-axis, the determined plane of Y-axis, with a level and smooth curve, each point is coupled together, obtain speed and time plot on a two dimensional surface; This curve map is outputted to mobile terminal display screen display by described output display module.
Exercise data monitoring system of the present invention is more easy to carry than traditional monitoring equipment, uses simple, effective and rapid, can provide real time data, for user brings convenience for user.
The above; be only the present invention's preferably embodiment; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; be equal to according to technical scheme of the present invention and inventive concept thereof and replace or change, all should be encompassed within protection scope of the present invention.
Claims (9)
1. an exercise data monitoring system, comprise a mobile terminal and one and described mobile terminal with the use of monitoring device, mobile terminal has a display screen, it is characterized in that,
Described monitoring device monitoring bicycle motion conditions, and send one for calculating the signal of bicycle operation commute information to mobile terminal;
Described mobile terminal comprises one and arranges module, one signal receiving module, one timing module be electrically connected with signal receiving module, a filter be electrically connected with signal receiving module are made an uproar processing module, one to make an uproar the analog-to-digital conversion module that processing module is electrically connected with filter, a data analysis logging modle be electrically connected with analog-to-digital conversion module, an exercise data processing module be electrically connected with data analysis logging modle and an output display module be electrically connected with exercise data processing module;
The described module that arranges arranges real-time parameter according to user's actual motion situation; The described real-time parameter arranging module installation comprises described Wheel for non maneuverable vehicle girth and calculates the sample interval of real-time speed; Described arrange module comprise a girth arrange module and a real-time speed sampling module is set; Described girth arranges module according to actual conditions, and arrange the Wheel for non maneuverable vehicle girth that user's current kinetic is used, described girth is in units of rice; Described real-time speed sampling arranges module and arranges the sample interval calculating real-time speed according to demands of individuals;
Described signal receiving module receives signal that described monitoring device sends and is processed to filter processing module of making an uproar by this Signal transmissions, starts timing to described timing module this Signal transmissions simultaneously; Signal after processing module of making an uproar after filtration process is sent to analog-to-digital conversion module and is converted to a digital signal, described data analysis logging modle is analyzed and record travel information according to described digital signal, described exercise data processing module processes recorded data in described data analysis logging modle, obtains at least one kinematic parameter in whole motion process; The kinematic parameter output display that the process of described exercise data processing module obtains by described output display module is on mobile terminal display screen.
2. exercise data monitoring system according to claim 1, is characterized in that, described data analysis logging modle is also electrically connected with timing module;
Described data analysis logging modle often receives once the digital signal that described analog-to-digital conversion module transmits, a just access timing module, described data analysis logging modle obtains a current driving distance numerical information according to described digital signal, and the real-time time recorded by timing module in this visit process and this traveling distance numerical information carry out record as a two-dimensional combination;
Traveling distance numerical information in described record is each time in units of rice, and the real-time time in described record each time in seconds.
3. exercise data monitoring system according to claim 2, is characterized in that,
Described monitoring device comprises an induction module and a signal transmitting module be electrically connected with induction module;
Described induction module induction Wheel for non maneuverable vehicle rotates, and often rotate one week, described induction module produces a pulse signal; This pulse signal is sent to described signal receiving module by described signal transmitting module, and mobile terminal calculates described non-automotive vehicle distance numerical information according to described pulse signal.
4. exercise data monitoring system according to claim 3, is characterized in that,
Described data analysis logging modle also with module be set be electrically connected;
The described module that arranges comprises a reseting module, and described reseting module is opened according to user's request, and when reseting module is opened, it sends a control signal control data analytic record module removing to data analysis logging modle and records data before this.
5. exercise data monitoring system according to claim 3, is characterized in that,
Described signal receiving module often receives a pulse signal, just this pulse signal is delivered to make an uproar processing module and analog-to-digital conversion module of filter to process, and obtain a digital signal, the numerical value representing a bicycle wheel circumference distance is simply added with the distance numerical value in the data once recorded before described data analysis logging modle according to described digital signal by described data analysis logging modle, carries out record as the traveling distance numerical value in this record;
Described data analysis logging modle often receives a digital signal, just does once record.
6. exercise data monitoring system according to claim 4, is characterized in that;
Described signal receiving module often receives a pulse signal, just this pulse signal is delivered to make an uproar processing module and analog-to-digital conversion module of filter to process, and obtain a digital signal, the numerical value representing a bicycle wheel circumference distance is simply added with the distance numerical information in the data once recorded before described data analysis logging modle according to described digital signal by described data analysis logging modle, carries out record as the traveling distance numerical information in this record;
Described data analysis logging modle often receives a digital signal, just does once record.
7. exercise data monitoring system according to claim 6, is characterized in that,
Described exercise data processing module comprises a distance processing module, an average velocity processing module and a real-time speed processing module;
Traveling distance numerical value in last record in described data analysis logging modle extracts by described distance processing module, and is converted into the distance numerical value in units of km;
Traveling distance numerical value in last record in described data analysis logging modle and time carry out being divided by and obtain the average velocity numerical value that is unit with " meter per second " by described average velocity processing module;
Described real-time speed processing module by described data analysis logging modle each time record in traveling distance numerical value and the time carry out being divided by obtain for each record the average velocity numerical value being unit with " meter per second ".
8. exercise data monitoring system according to claim 7, is characterized in that,
Described exercise data processing module also comprises a real-time data record module;
Described real-time data record module is by each record in described data analysis logging modle and be integrated into a three-dimensional array carry out record through average velocity numerical value for each record that the process of described real-time speed processing module obtains, and each three-dimensional record described comprises and travels distance numerical value, the time numerical value corresponding to distance numerical value and the average velocity numerical value corresponding with the two.
9. exercise data monitoring system according to claim 8, is characterized in that,
Described kinematic parameter comprises traveling distance, running time, average velocity; Described output display module by kinematic parameter output display on mobile terminal display screen;
The traveling distance numerical value that the process of described distance processing module obtains by described output display module and the time corresponding with this traveling distance numerical value output to mobile terminal display screen and show;
Described output display module also exports the average velocity numerical value that the process of described average velocity processing module obtains and shows to mobile terminal display screen;
Described output display module arranges the sample interval of module installation according to described real-time speed sampling, starting point is recorded as with first of described real-time data record module, with this sample interval for interval, extract multiple record, and be X-axis with time, speed is Y-axis, be ordinate using the average velocity in each record of extracting as horizontal ordinate, time, find out the point that it is corresponding in X-axis, the determined plane of Y-axis, with a level and smooth curve, each point is coupled together, obtain speed and time plot on a two dimensional surface; This curve map is outputted to mobile terminal display screen display by described output display module.
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US4352063A (en) * | 1981-05-08 | 1982-09-28 | Jones Peter W J | Self-calibrating speedometer/odometer |
US4592001A (en) * | 1983-07-22 | 1986-05-27 | Lindsay E. Austin | Speed gauging indicator |
CN201583546U (en) * | 2009-10-14 | 2010-09-15 | 李清彰 | Bicycle detecting device |
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Publication number | Priority date | Publication date | Assignee | Title |
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US4352063A (en) * | 1981-05-08 | 1982-09-28 | Jones Peter W J | Self-calibrating speedometer/odometer |
US4592001A (en) * | 1983-07-22 | 1986-05-27 | Lindsay E. Austin | Speed gauging indicator |
CN201583546U (en) * | 2009-10-14 | 2010-09-15 | 李清彰 | Bicycle detecting device |
Non-Patent Citations (1)
Title |
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