CN104199551B - Information processing method and device - Google Patents
Information processing method and device Download PDFInfo
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- CN104199551B CN104199551B CN201410455054.7A CN201410455054A CN104199551B CN 104199551 B CN104199551 B CN 104199551B CN 201410455054 A CN201410455054 A CN 201410455054A CN 104199551 B CN104199551 B CN 104199551B
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Abstract
The invention discloses an information processing method and device. The method is applied to electronic equipment which can be attached to body parts of a user. The method includes the steps that when the user applies first external force to a first object to drive the first object to move in the first direction according to a predetermined motion mode, first parameters related to the body parts when the user applies the first external force are detected; second parameters related to the body parts when the user applies second external force are obtained, wherein the user applies the second external force to a second object to drive the second object to move in the first direction according to the predetermined motion mode; the weight relation between the first object and the second object is determined according to the first parameters and the second parameters. Thus, the requirements of the user for the weight estimation function of the electronic equipment are met.
Description
Technical field
The present invention relates to field of computer technology, more particularly it relates to a kind of information processing method and device.
Background technology
In recent years, such as mobile phone, multimedia player, personal digital assistant (PDA), intelligent watch, Intelligent bracelet
Etc portable electric appts popularize all the more.Also, with the fast development of electronic technology so that the volume of electronic equipment exists
While constantly reducing, integrated function is but being continuously increased, by increasing various functions, for terminal user provides
Many convenience.
For example, this electronic equipment is used not only for communication, additionally it is possible to for keeping record, alarm clock etc..Additionally, with
The variation of family demand, electronic equipment has also engendered the humanized additional function such as compass, thermometer.
In daily life, people will often go to buy some daily living articles to the market of farm produce or supermarket.For example, big
Family when water fruits and vegetables and other items are bought, before deciding whether to choose, it will usually which custom takes them weighs in the hand,
To estimate probably to have multiple.But, only specially trained, otherwise, this estimates generally there is very big error.
However, current electronic equipment cannot also provide weight assessment function.
The content of the invention
In order to solve the above-mentioned technical problem, according to an aspect of the invention, there is provided a kind of information processing method, described
Method is applied to electronic equipment, and the electronic equipment can depend on the body part of user, it is characterised in that methods described bag
Include:Apply the first external force to the first object as the user, driving first object according to predetermined motion mode along first
When direction is moved, the user first parameter related to the body part when first external force is applied is detected;Obtain
The user second parameter related to the body part when the second external force is applied, wherein, the user is to the second object
Apply second external force, to drive second object to be moved along the first direction according to the predetermined motion mode;With
And according to first parameter and second parameter come determine the weight between first object and second object close
System.
In one example, the detection user is related to the body part when first external force is applied
The step of first parameter, can include:Detect the first muscle of user body part when first external force is applied
Tight degree, and the step for obtaining the user second parameter related to the body part when the second external force is applied
Suddenly can include:When the user applies second external force to second object, detect that the user is applying described
The tight degree of second muscle of body part during the second external force, wherein, second external force is different from first external force,
And it is respectively used to drive second object and first object to be moved along the first direction with identical acceleration.
In one example, it is described that first object and institute are determined according to first parameter and second parameter
The step of stating the weight relationships between the second object can include:According to the tight degree of the first muscle and second muscle
Tight degree determines the weight relationships between first object and second object, wherein, first object and institute
The weight ratio for stating the second object is proportional to the user to apply the tight degree of the first muscle tight with second muscle
The ratio between taut degree.
In one example, the detection user is related to the body part when first external force is applied
The step of first parameter, can include:Detect the user apply first external force when body part along described first
First acceleration of direction motion, and the acquisition user is related to the body part when the second external force is applied
The step of second parameter, can include:When the user applies second external force to second object, the use is detected
Family second acceleration for being moved along the first direction of the body part when second external force is applied, wherein, described the
Two external force are identical with first external force, and are respectively used to drive second object and first object outside identical
Moved along the first direction in the case of power.
In one example, it is described that first object and institute are determined according to first parameter and second parameter
The step of stating the weight relationships between the second object can include:According to first acceleration and second acceleration come really
Fixed weight relationships between first object and second object, wherein, first object and second object
Weight ratio is inversely proportional to the ratio between first acceleration and described second acceleration.
In one example, methods described can also include:Obtain the benchmark as second object of reference body
Weight;And according to the weight relationships between first object and second object and the pivot weight of second object
To determine the measured weight to be checked of first object.
Additionally, according to another aspect of the present invention, there is provided a kind of information processor, described device is applied to electronics and sets
Standby, the electronic equipment can depend on the body part of user, it is characterised in that described device includes:Parameter detecting unit,
For applying the first external force to the first object as the user, to drive first object according to predetermined motion mode along first
When direction is moved, the user first parameter related to the body part when first external force is applied is detected;Parameter
Acquiring unit, second parameter related to the body part when the second external force is applied for obtaining the user, wherein, institute
State user and apply second external force to the second object, to drive second object according to the predetermined motion mode along described
First direction is moved;And relation determination unit, for determining described according to first parameter and second parameter
Weight relationships between one object and second object.
In one example, the parameter detecting unit can detect that the user is applying described the by following operation
First parameter related to body part during one external force:Detect user body when first external force is applied
The tight degree of first muscle at position, and the parameter acquiring unit can obtain the user in applying by following operation
Second parameter related to body part during the second external force:When the user applies outside described second to second object
During power, the tight degree of the second muscle of user body part when second external force is applied is detected, wherein, it is described
Second external force is different from first external force, and is respectively used to drive second object and first object with identical
Acceleration is moved along the first direction.
In one example, the relation determination unit can be by following operation according to first parameter and described the
Two parameters determine the weight relationships between first object and second object:According to the tight degree of the first muscle
And the tight degree of the second muscle determines the weight relationships between first object and second object, wherein, institute
State the first object and the weight ratio of second object be proportional to the user apply the tight degree of the first muscle with
The ratio between described tight degree of second muscle.
In one example, the parameter detecting unit can detect that the user is applying described the by following operation
First parameter related to body part during one external force:Detect user body when first external force is applied
The first acceleration that position is moved along the first direction, and the parameter acquiring unit can obtain institute by following operation
State user's second parameter related to the body part when the second external force is applied:When the user applies to second object
Plus during second external force, detect that user body part when second external force is applied is transported along the first direction
The second dynamic acceleration, wherein, second external force is identical with first external force, and is respectively used to drive second thing
Body and first object are moved in the case of identical external force along the first direction.
In one example, the relation determination unit can be by following operation according to first parameter and described the
Two parameters determine the weight relationships between first object and second object:According to first acceleration and described
Second acceleration determines the weight relationships between first object and second object, wherein, first object with
The weight ratio of second object is inversely proportional to the ratio between first acceleration and described second acceleration.
In one example, described device can also include:Benchmark acquiring unit, for obtaining as the institute of reference body
State the pivot weight of the second object;And weight determining unit, for according between first object and second object
Weight relationships and the pivot weight of second object determine the measured weight to be checked of first object.
Compared with prior art, using information processing method and device according to embodiments of the present invention, when user is using certainly
Oneself particular body portion, when driving different objects to be moved according to model identical, can be specific with this by measuring
The related parameter of body part is closed come the relative weight between the absolute weight or different objects of determining different objects itself
System.It therefore meets demand of the user for the weight assessment function on electronic equipment.
Other features and advantages of the present invention will be illustrated in the following description, also, the partly change from specification
Obtain it is clear that or being understood by implementing the present invention.The purpose of the present invention and other advantages can be by specification, rights
Specifically noted structure is realized and obtained in claim and accompanying drawing.
Brief description of the drawings
Accompanying drawing is used for providing a further understanding of the present invention, and constitutes a part for specification, with reality of the invention
Applying example is used to explain the present invention together, is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 illustrates information processing method according to embodiments of the present invention.
Fig. 2A to Fig. 2 D respectively illustrate first configuration example to the 4th configuration example of fixing device in electronic equipment.
Fig. 3 illustrates information processor of the invention.
Fig. 4 illustrates electronic equipment according to embodiments of the present invention.
Specific embodiment
Will be described in detail with reference to the accompanying drawings each embodiment of the invention.Here it is to be noted that it in the accompanying drawings,
The substantially part with same or like 26S Proteasome Structure and Function is assigned by identical reference, and will be omitted on it
Repeated description.
First, basic realization principle according to embodiments of the present invention will be described.
It is well known that the common statement of Newton interpolation algorithm is:The size of object acceleration is directly proportional with active force,
Be inversely proportional with the quality of object, and be directly proportional to the inverse of mass of object, and acceleration direction with active force direction phase
Together.Additionally, Newton interpolation algorithm can also be represented using below equation (1):
F=ma equatioies (1)
Wherein F with newton, m with kilogram, a is with m/s2It is unit.
What embodiments herein was exactly realized using Newton interpolation algorithm, use in actual life for meeting
Demand of the family for weight assessment function.
Specifically, as described by background technology, everybody is deciding whether to choose when water fruits and vegetables and other items are bought
Before, it will usually which they are taken and weigh in the hand by custom, to estimate probably to have multiple, and weigh in the hand this action be can
Captured with the electronic equipment for being depended on user, also, for this action for weighing thing in the hand, the body of different people
The attitude of body region is substantially coincident.
Such as, when shaddock is run in supermarket, the small brachiocylloosis of user simultaneously forms the near normal and the five fingers are curved with large arm
It is bent, palm turned upwards, to hold object, then, by having an effect upwards, overcomes the gravity of object, slightly lifts target object, connect down
Come, cancel applied external force so that object free-falling due to gravity, and by having an effect repeatedly and removing power, come substantially
Estimate the weight of object.
The above-mentioned regulation of the general principle according to Newton interpolation algorithm, it is clear that weighed in the hand when using identical pattern
During thing with Different Weight (quality), resulting result is different certainly.However, when the mass difference of article is little
When, this difference is often very trickle, possibly cannot be perceived by people, but, but can be by the change in electronic signal
Change and distinguish.
Therefore, in embodiments herein, target object is driven to produce fortune using specific body part in user
When dynamic, by the physical parameter for depending on the electronic equipment of the body part to measure related to the body part, so as to realize
For the weight measurement of target object.
Below, information processing method according to embodiments of the present invention will be described with reference to Figure 1.
Fig. 1 illustrates information processing method according to embodiments of the present invention.
Information processing method illustrated in Fig. 1 is applied to an electronic equipment.For example, the electronic equipment can depend on use
The body part at family.
In one embodiment, in order to more easily electronic equipment is fixed in the particular body portion of user, for example,
The electronic equipment can be Wearable electronic equipment, and it can be worn on the arm of user, wrist or finger etc., so that
Form arm belt electronic equipment (for example, being in armlet form), Wrist belt-type electronic equipment (for example, in wrist-watch or bracelet form)
Or refer to belt electronic equipment (in ring form) etc..
Therefore, the Wearable electronic equipment can at least include:Body apparatus and fixing device.The fixing device and institute
State body apparatus connection.For example, the fixing device at least includes a stationary state, it is described local under the stationary state
Device and described fixing device a combination of both or the fixing device itself can form an annulus or a proximate annular
Space, the annulus or the proximate annular space can be centered around the user body parts for being as a rule rendered as column
(for example, arm, wrist, finger) periphery.
Hereinafter, Fig. 2A to Fig. 2 D will be further referenced to describe the first configuration example of fixing device in electronic equipment to
Four configuration examples.
Specifically, Fig. 2A and Fig. 2 B respectively illustrate two kinds that the fixing device 102 is connected with the body apparatus 101
Stationary state.Under the first stationary state as shown in Figure 2 A, the fixing device 102 is formed with the body apparatus 101 and closed
The annulus of ring, wherein the fixing device 102 respectively constitutes a part for annulus with the body apparatus 101.
Under the second stationary state as shown in Figure 2 B, the fixing device 102 forms near with small opening with the body apparatus 101
Like annulus, wherein the fixing device 102 respectively constitutes a part for annulus with the body apparatus 101.
In one embodiment of the invention, for example, the body apparatus 101 can be the dial plate part of intelligent watch,
And the fixing device 102 is the band portion of intelligent watch.For example, in the dial plate part of the intelligent watch, can arrange
There are processing unit (for example, central processing unit), output device (for example, liquid crystal display, microphone), input unit (for example, pressing
Button or touch input area), multimedia capture device (for example, camera, microphone) etc..Obviously, said apparatus can also portion
Divide ground or be fully integrated in the band portion of intelligent watch.
Under the second stationary state shown in the first stationary state as shown in Figure 2 A or Fig. 2 B, by the body apparatus
The annulus or the proximate annular space that both 101 and the fixing device 102 are formed can be centered around as institute
Around the wrist of the user for stating the intelligent watch of column, and the diameter in the annulus or the proximate annular space is big
The diameter of user's fist is less than in the diameter of user's wrist.Additionally, under the second stationary state as shown in Figure 2 B, this is approximate
Diameter of the openings of sizes of the small opening of annulus less than user's wrist.
Additionally, Fig. 2 C and Fig. 2 D respectively illustrate other two that the fixing device 102 is connected with the body apparatus 101
Plant stationary state.The annulus or the proximate annular space can certainly be independently formed by the fixing device 102.
As shown in Figure 2 C and 2 D shown in FIG., the body apparatus 101 can be arranged in the fixing device 102 (that is, described body apparatus
101 are attached to the fixing device 102 in the way of face contacts), itself formed for outer to only have the fixing device 102
Around the annulus (Fig. 2 C) or the proximate annular space (Fig. 2 D) of the column.The fixing device 102 is arranged
There is the fixed mechanism (not shown) of hasp, fastener, slide fastener etc..
Although it should be noted that describe the form of electronic equipment as an example with Wearable electronic equipment above,
It is, the application not limited to this.For example, in other embodiments, the electronic equipment can also be non-Wearable electronic equipment, i.e.,
Common morphological electronic equipment, it can depend on the particular body portion of user (for example, the hand of user by gripping or clamping
Portion), or can also be by specific wearable device (for example, the carry bag being banded at arm, wrist or finger, tied rope
Deng) and depend on the particular body portion (for example, hand of user) of user.So, can well ensure that electronic equipment exists
The versatility for using and carrying, meets the conventional requirement of various users.
As illustrated in figure 1, described information processing method includes:
In step s 110, when the user to the first object apply the first external force, with drive first object according to
When predetermined motion mode is moved in the first direction, detect the user when first external force is applied with the body part phase
The first parameter closed.
In the step s 120, the user second ginseng related to the body part when the second external force is applied is obtained
Number, wherein, the user applies second external force to the second object, to drive second object according to the predetermined motion
Mode is moved along the first direction.
In step s 130, determined first object with described according to first parameter and second parameter
Weight relationships between two objects.
As can be seen here, using information processing method according to embodiments of the present invention, when user utilizes the given body of oneself
Position, when driving different objects to be moved according to model identical, can be related to the particular body portion by measuring
Parameter come the relative weight relation between the absolute weight or different objects of determining different objects itself.It therefore meets
Demand of the user for the weight assessment function on electronic equipment.
Below, information processing method according to embodiments of the present invention will be illustrated in multiple specific examples.Described
In specific example, it will be assumed that the electronic equipment is intelligent watch, the intelligent watch can be by the watchband as fixing device
It is fixed in the wrist of user.
However, it is necessary to explanation, the invention is not restricted to this.The electronic equipment can be any kind of portable electronic
Equipment, even non-portable electronic device, it is included but is not limited to:It is notebook, panel computer, mobile phone, many
Media player, personal digital assistant, Intelligent bracelet, intelligent ring, intelligent bangle etc..Further, it is also possible to will be according to the present invention
The information processing method of embodiment is applied to any other treatment in electronic equipment.
In first specific example, it is assumed that user applies different force to drive them with phase for the object of Different Weight
Same acceleration is moved in the first direction.
At this moment, step S110 can include:Apply the first external force to the first object as the user, to drive described the
When one object is moved in the first direction according to certain acceleration, user body when first external force is applied is detected
The tight degree of first muscle of body region.
Step S120 can include:Apply the second external force to the second object as the user, driving second thing
When body according to moving in the first direction with the first object identical acceleration, detect the user when second external force is applied
The tight degree of second muscle of the body part.
That is, in step S110 and step S120, first external force and second external force are respectively used to drive
Move first object and second object is moved with identical acceleration along the first direction.
According to the regulation of Newton interpolation algorithm, when the first object and the second object have different weight (quality)
When, in order that they when being moved with identical acceleration, first external force for being used and second external force
Should be correspondingly different.
Next, step S130 can include:It is tight according to the tight degree of the first muscle and second muscle
Degree determines the weight relationships between first object and second object.
Because user obviously more exerts oneself than user when larger external force is applied when smaller external force is applied, so in hair
The tight degree of muscle during power is obviously also higher.Therefore, the weight ratio direct ratio of first object and second object
Applying the ratio between the tight degree of the first muscle and described tight degree of second muscle in the user.
Specifically, when user picks up two shaddocks for varying in weight (or more generally, certain objects) respectively, in order to
So that two shaddocks are moved with identical acceleration, the strength lifted upwards that user applies respectively twice obviously also must
It is so different.
However, when the weight between two shaddocks is more or less the same, user possibly cannot subjectively perceive oneself and have an effect
Difference.At this moment, the tense situation of the bicipital muscle of arm of user can be accurately measured for example, by arm belt electronic equipment.
Therefore, the ring-type that can be formed in electronic equipment or proximate annular space inner set induction installation, it can be with
It is the array of pressure sensors comprising multiple pressure sensors, that is, is arranged as multiple pressure sensors of array.Work as electronic equipment
It is worn on when on user's arm, the array of pressure sensors in induction installation is contacted with user's arm, to detect in arm
When movable, wrist and/or arm muscles group, bone site change caused by pressure change, and produce pressure detecting
As a result, so as to finally judge the tight degree of user's the muscles of the arm.
In the case of sensor is sensitive enough, the slight change of user's muscle can be well distinguished, so as to differentiate
Which is more important to go out the object that two weight are more or less the same.
In order to more accurately perform measurement operation, thickness that can in advance according to user's arm is come the pendant to electronic equipment
Wear and be adjusted so that the inner side of electronic equipment is brought into close contact with user's arm, pressure is carried out in order to array of pressure sensors
Detection.
Although it should be noted that above to detect that the tight degree of muscle is described as an example by pressure,
But, the application not limited to this.For example, in other embodiments, the electronic equipment can also be by the physical signs of user
Parameter (for example, muscle is electric, pulse, heartbeat, blood pressure etc.) detect or estimate the tight degree of muscle.
In second specific example, it is assumed that user applies identical external force to drive them with not for the object of Different Weight
Same acceleration is moved in the first direction.
At this moment, step S110 can include:Apply the first external force to the first object as the user, to drive described the
When one object is moved in the first direction according to the first acceleration, user body when first external force is applied is detected
The first acceleration that position is moved along the first direction.
Step S120 can include:When the user to the second object apply with the first external force identical second outside
Power, to drive second object to be moved in the first direction according to the second acceleration when, detect that the user is applying described the
The second acceleration that the body part is moved along the first direction during two external force.
That is, in step S110 and step S120, first external force and second external force are respectively used to drive
Move second object and first object is moved in the case of identical external force along the first direction.
According to the regulation of Newton interpolation algorithm, the situation of identical external force is being applied to the first object and the second object
Under, when the first object and the second object have different weight (quality), first object and second object should
Moved according to different acceleration.
Next, step S130 can include:According to first acceleration and second acceleration to determine
State the weight relationships between the first object and second object.
Because user is when identical external force is applied, the big object of weight obviously wants the small object of which movement movement degree of weight/power ratio
It is smaller.Therefore, first object is inversely proportional to first acceleration and described second with the weight ratio of second object
The ratio between acceleration.
Specifically, when user picks up two shaddocks for varying in weight (or more generally, certain objects) respectively, if
The strength lifted upwards that user applies respectively twice is identical, then two shaddocks are necessarily moved with different acceleration.
However, when the weight between two shaddocks is more or less the same, user possibly cannot subjectively perceive oneself arm
The difference of motion state.At this moment, the acceleration of the hand of user can be accurately measured for example, by arm belt electronic equipment,
It is, the acceleration of electronic equipment itself.
Therefore, induction installation can be set in the electronic device, it can be accelerometer, for measuring carrier (i.e.,
Electronic equipment) linear acceleration.When electronic equipment is worn in user's wrist, accelerometer can be set by sensing electronics
The acceleration of user's hand exercise is judged for the acceleration of itself, so as to finally give adding when object is weighed in the hand or rocked
Speed.
In the case of sensor is sensitive enough, the slight change of acceleration can be well distinguished, so as to tell
Which is more important for the object that two weight is more or less the same.
In third specific example, it is assumed that the second object is the reference body of known its weight, and assume the first object
It is the examined object of unknown its weight.
At this moment, the applying external force for including in step S110 is driving what the first object (that is, examined object) was moved
Action can in real time be performed by user.That is, when user wishes the measured weight to be checked for knowing examined object,
He/her can to the first object apply the first external force, with drive first object according to predetermined motion mode in the first direction
Motion.At this moment, the user first parameter related to the body part when first external force is applied can be detected.
On the contrary, the applying external force that step S120 includes with drive the second object (that is, reference body) move
Action was first carried out by user, or performed in real time after step silo by user in advance before step S110
's.That is, in order to determine the absolute weight as the first object of examined object, involved by step S120 second
Object should be the reference body of its absolute weight known to, as the benchmark for comparing.
Next, the pivot weight as second object of reference body can also be obtained further.Finally, in step
After rapid S130, can be according to the weight relationships between first object and second object and the base of second object
Quasi- weight determines the measured weight to be checked of first object.
Specifically, when user wants to know the approximate weight of some shaddock (or more generally, certain objects), use
Family can pick up a base for known weight before or after pick up this shaddock according to same predetermined motion mode
Quasi- object (for example, one bottle mineral water, box Yoghourt etc.), to obtain the weight relationships between two objects, and is manually entered
Or the weight of the reference body is obtained by the mode such as barcode scanning, bluetooth, infrared.So, by weight relationships and this benchmark
Weight, it is possible to estimate the weight of shaddock.
For example, in the case of first specific example, when judging that the tight degree of the first muscle is the tight journey of the second muscle
Degree 2 times when, it is known that the first external force is the twice of the second external force, thus can finally judge as examined object
The weight of the first object is the twice of the weight as the second object of reference body.
And for example, in the case of second specific example, when judge that the first acceleration is the second acceleration 2 times, can
Finally to judge that the weight as the first object of examined object is the one of the weight of the second object as reference body
Half.
In order to obtain more accurate estimated result, it is preferable that the weight of selected this reference body can be as far as possible
, so as to obtain user be easier to hold applied strength, error is reduced close to the weight of physics to be detected in ground.
Although it should be noted that in three specific examples above with object is lifted by weighing in the hand upwards action as an example
It is described, but, the application not limited to this.For example, in other embodiments, can also be by being lifted up object, a left side
It is right to shake animal body, even promote object (for example, in the case that the object is extremely weighed) to determine different objects to horizontal direction
Relative weight relation between itself absolute weight or different objects.
Fig. 3 illustrates information processor of the invention, and Fig. 4 illustrates electronics according to embodiments of the present invention
Equipment.
Information processing method according to embodiments of the present invention illustrated in Fig. 1 can be by the information processing illustrated in Fig. 3
Device 100 is realized, and the information processor 100 can apply to one or more electronic equipments 10 illustrated in Fig. 4.
For example, electronic equipment described in the electronic equipment 10 can depend on the body part of user, and may be at
Among the form of Wearable electronic equipment or non-Wearable electronic equipment.
As illustrated in figure 4, from the angle of functional module, the electronic equipment 10 can include:Information processor
100.Additionally, in order to realize some additional functions, the electronic equipment 10 can also include:Induction installation 200, input unit 300,
With output device 400.
The information processor 100 can be used for when user using oneself particular body portion, according to model identical come
When driving different objects to be moved, different objects are determined by measuring the parameter related to the particular body portion
Relative weight relation between itself absolute weight or different objects.
The induction installation 200 can be the array of pressure sensors comprising multiple pressure sensors, that is, be arranged as array
Multiple pressure sensors.When electronic equipment is worn on user's arm, array of pressure sensors and use in induction installation
The contact of family arm, with detect arm it is movable when, caused by wrist and/or arm muscles group, bone site change
Pressure change, and pressure sensing result is produced, so as to finally judge the tight degree of user's the muscles of the arm.
Alternatively, the induction installation 200 can also be accelerometer, for measuring carrier linear acceleration.When electronics sets
Standby to be worn on when in user's wrist, accelerometer can judge user's hand by sensing the acceleration of electronic equipment itself
The acceleration of portion's motion, so as to finally give acceleration when object is weighed in the hand or rocked.
The input unit 300 can receive the input signal from user, for example, the pivot weight of reference body.Or,
The input unit 300 can also receive the identifier (for example, bar code etc.) of reference body, enable to by local data
Storehouse or cloud server confirm the weight of the reference body automatically.
The output device 400 can be to user's output signal, for example, the absolute weight or different objects of different objects itself
Between relative weight relation.For example, the output device 400 can be display, for aobvious to user by way of image
Show the weight of examined object.Alternatively, the output device 400 can also be loudspeaker, for by way of sound to
Family shows the weight of examined object.
Additionally, the information processor 100 can be communicated by any mode with electronic equipment 10.
In one example, the information processor 100 can be integrated as a software module and/or hardware module
To in the electronic equipment 10, in other words, the electronic equipment 10 can include the information processor 100.For example, working as electronic equipment
10 when being mobile phone, and the information processor 100 can be a software module in the operating system of the mobile phone, or
Person can be aimed at the application program that the mobile phone is developed;Certainly, the information processor 100 equally can be
One of numerous hardware modules of the mobile phone.
Alternatively, in another example, the information processor 100 and the electronic equipment 10 can also be separate set
It is standby, and the information processor 100 can be connected to the electronic equipment 10 by wired and or wireless network, and according to
The data form of agreement transmits interactive information.
As illustrated in fig. 3, information processor 100 according to embodiments of the present invention can include:Parameter detecting unit
110th, parameter acquiring unit 120 and relation determination unit 130.
The parameter detecting unit 110 can be used for applying the first external force, described to drive to the first object as the user
When first object is moved in the first direction according to predetermined motion mode, the user is detected when first external force is applied and institute
State the first related parameter of body part.
The parameter acquiring unit 120 can be used for obtaining the user when the second external force is applied with the body part phase
The second parameter closed, wherein, the user applies second external force to the second object, to drive second object according to institute
Predetermined motion mode is stated to be moved along the first direction.
The relation determination unit 130 can be used for determining described first according to first parameter and second parameter
Weight relationships between object and second object.
In one example, the parameter detecting unit 110 can detect that the user is applying institute by following operation
State the first parameter related to the body part during the first external force:Detect the user described in when first external force is applied
The tight degree of first muscle of body part, and the parameter acquiring unit 120 can obtain the use by following operation
Family second parameter related to the body part when the second external force is applied:When the user applies institute to second object
When stating the second external force, the tight degree of the second muscle of user body part when second external force is applied is detected,
Wherein, second external force is different from first external force, and is respectively used to drive second object and first thing
Body is moved with identical acceleration along the first direction.
In one example, the relation determination unit 130 can be by following operation according to first parameter and institute
The second parameter is stated to determine the weight relationships between first object and second object:It is tight according to first muscle
Degree and the tight degree of the second muscle determine the weight relationships between first object and second object, its
In, first object is proportional to the user and is applying the tight journey of the first muscle with the weight ratio of second object
Degree is the ratio between with the tight degree of the second muscle.
In one example, the parameter detecting unit 110 can detect that the user is applying institute by following operation
State the first parameter related to the body part during the first external force:Detect the user described in when first external force is applied
The first acceleration that body part is moved along the first direction, and the parameter acquiring unit 120 can be by following behaviour
Make to obtain the user second parameter related to the body part when the second external force is applied:When the user is to described
When two objects apply second external force, detect the user when second external force is applied the body part along described the
Second acceleration of one direction motion, wherein, second external force is identical with first external force, and is respectively used to drive institute
State the second object and first object is moved in the case of identical external force along the first direction.
In one example, the relation determination unit 130 can be by following operation according to first parameter and institute
The second parameter is stated to determine the weight relationships between first object and second object:According to first acceleration and
Second acceleration determines the weight relationships between first object and second object, wherein, first thing
Body and the weight ratio of second object are inversely proportional to the ratio between first acceleration and described second acceleration.
Additionally, the absolute weight in order to determine object, information processor 100 according to embodiments of the present invention can also be wrapped
Include:Benchmark acquiring unit 140 and weight determining unit 150.
The benchmark acquiring unit 140 can be used for obtaining the pivot weight as second object of reference body.
The weight determining unit 150 can be used for according to the weight relationships between first object and second object
The measured weight to be checked of first object is determined with the pivot weight of second object.
Each dress in unit and electronic equipment 10 in information processor 100 according to embodiments of the present invention
The concrete configuration and operation put have been described above being discussed in detail in the information processing method described with reference to Fig. 1, and therefore, will omit
Its repeated description.
As can be seen here, using information processor according to embodiments of the present invention, when user utilizes the given body of oneself
Position, when driving different objects to be moved according to model identical, can be related to the particular body portion by measuring
Parameter come the relative weight relation between the absolute weight or different objects of determining different objects itself.It therefore meets
Demand of the user for the weight assessment function on electronic equipment.
Although additionally, herein using above-mentioned unit as the executive agent of each step come illustrate it is of the invention each
Embodiment, but, it will be appreciated to those of skill in the art that the invention is not restricted to this.The executive agent of each step can be with
Served as by other one or more units, unit, even module.
For example, above-mentioned parameter detecting unit 110, parameter acquiring unit 120, relation determination unit 130, benchmark obtain single
Each step performed by unit 140 and weight determining unit 150 can uniformly by the CPU in electronic equipment
(CPU) realize.
Through the above description of the embodiments, those skilled in the art can be understood that the present invention can be by
Realized in the mode of software plus required hardware platform, naturally it is also possible to all implemented by software or hardware.Based on this
The understanding of sample, what technical scheme contributed to background technology in whole or in part can be in the form of software product
Embody, the computer software product can be stored in storage medium, such as ROM/RAM, disk, CD, including it is some
Instruction is used to so that a computer equipment (can be personal computer, server, or network equipment etc.) performs the present invention
Method described in some parts of each embodiment or embodiment.
Each embodiment of the invention has been described in detail above.However, it should be appreciated by those skilled in the art that not taking off
In the case of principle of the invention and spirit, these embodiments can be carried out with various modifications, combination or sub-portfolio, and so
Modification should fall within the scope of the present invention.
Claims (12)
1. a kind of information processing method, methods described is applied to electronic equipment, and the electronic equipment can depend on the body of user
Body region, it is characterised in that methods described includes:
Apply the first external force to the first object as the user, driving first object according to predetermined motion mode along first
When direction is moved, the user first parameter related to the body part when first external force is applied is detected;
Obtain the user second parameter related to the body part when the second external force is applied, wherein, the user to
Second object applies second external force, to drive second object according to the predetermined motion mode along the first direction
Motion;And
The weight between first object and second object is determined according to first parameter and second parameter
Relation.
2. method according to claim 1, it is characterised in that
The step of detection user the first parameter related to the body part when first external force is applied bag
Include:
The tight degree of the first muscle of user body part when first external force is applied is detected, and
It is described to include the step of obtain the user the second parameter related to the body part when the second external force is applied:
When the user applies second external force to second object, detect that the user is applying second external force
The tight degree of second muscle of Shi Suoshu body parts,
Wherein, second external force is different from first external force, and is respectively used to drive second object and described the
One object is moved with identical acceleration along the first direction.
3. method according to claim 2, it is characterised in that described to be determined according to first parameter and second parameter
The step of weight relationships between first object and second object, includes:
Determined first object with described according to the tight degree of the first muscle and the tight degree of the second muscle
Weight relationships between two objects,
Wherein, first object is proportional to the user in applying first muscle with the weight ratio of second object
The ratio between tight degree and described tight degree of second muscle.
4. method according to claim 1, it is characterised in that
The step of detection user the first parameter related to the body part when first external force is applied bag
Include:
Detect the user the first acceleration that the body part is moved along the first direction when first external force is applied
Degree, and
It is described to include the step of obtain the user the second parameter related to the body part when the second external force is applied:
When the user applies second external force to second object, detect that the user is applying second external force
The second acceleration that Shi Suoshu body parts are moved along the first direction,
Wherein, second external force is identical with first external force, and is respectively used to drive second object and described the
One object is moved in the case of identical external force along the first direction.
5. method according to claim 4, it is characterised in that described to be determined according to first parameter and second parameter
The step of weight relationships between first object and second object, includes:
Determined according to first acceleration and second acceleration between first object and second object
Weight relationships,
Wherein, first object is inversely proportional to first acceleration and adds with described second with the weight ratio of second object
The ratio between speed.
6. method according to claim 1, it is characterised in that methods described also includes:
Obtain the pivot weight as second object of reference body;And
Pivot weight according to the weight relationships between first object and second object and second object is come really
The measured weight to be checked of fixed first object.
7. a kind of information processor, described device is applied to electronic equipment, and the electronic equipment can depend on the body of user
Body region, it is characterised in that described device includes:
Parameter detecting unit, for when the user to the first object apply the first external force, with drive first object according to
When predetermined motion mode is moved in the first direction, detect the user when first external force is applied with the body part phase
The first parameter closed;
Parameter acquiring unit, second ginseng related to the body part when the second external force is applied for obtaining the user
Number, wherein, the user applies second external force to the second object, to drive second object according to the predetermined motion
Mode is moved along the first direction;And
Relation determination unit, for being determined first object with described according to first parameter and second parameter
Weight relationships between two objects.
8. device according to claim 7, it is characterised in that
The parameter detecting unit by following operation detect the user when first external force is applied with the body
The first related parameter of position:Detect the tight journey of the first muscle of user body part when first external force is applied
Degree, and
The parameter acquiring unit by following operation obtain the user when the second external force is applied with the body part phase
The second parameter closed:When the user applies second external force to second object, detect that the user is applying institute
The tight degree of the second muscle of body part during the second external force is stated,
Wherein, second external force is different from first external force, and is respectively used to drive second object and described the
One object is moved with identical acceleration along the first direction.
9. device according to claim 8, it is characterised in that the relation determination unit is by following operation according to described first
Parameter and second parameter determine the weight relationships between first object and second object:
Determined first object with described according to the tight degree of the first muscle and the tight degree of the second muscle
Weight relationships between two objects,
Wherein, first object is proportional to the user in applying first muscle with the weight ratio of second object
The ratio between tight degree and described tight degree of second muscle.
10. device according to claim 7, it is characterised in that
The parameter detecting unit by following operation detect the user when first external force is applied with the body
The first related parameter of position:Detect that user body part when first external force is applied is transported along the first direction
The first dynamic acceleration, and
The parameter acquiring unit by following operation obtain the user when the second external force is applied with the body part phase
The second parameter closed:When the user applies second external force to second object, detect that the user is applying institute
The second acceleration that the body part is moved along the first direction when stating the second external force,
Wherein, second external force is identical with first external force, and is respectively used to drive second object and described the
One object is moved in the case of identical external force along the first direction.
11. devices according to claim 10, it is characterised in that the relation determination unit is by following operation according to described the
One parameter and second parameter determine the weight relationships between first object and second object:
Determined according to first acceleration and second acceleration between first object and second object
Weight relationships,
Wherein, first object is inversely proportional to first acceleration and adds with described second with the weight ratio of second object
The ratio between speed.
12. devices according to claim 7, it is characterised in that described device also includes:
Benchmark acquiring unit, for obtaining the pivot weight as second object of reference body;And
Weight determining unit, for according to the weight relationships between first object and second object and second thing
The pivot weight of body determines the measured weight to be checked of first object.
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Citations (2)
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CN102739859A (en) * | 2012-06-05 | 2012-10-17 | 北京百纳威尔科技有限公司 | Mobile phone with weighing function |
CN103892847A (en) * | 2013-12-25 | 2014-07-02 | 北京师范大学 | Portable muscle isotonic contraction power curve testing system |
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US8021297B2 (en) * | 2004-07-07 | 2011-09-20 | Koninklijke Philips Electronics N.V. | Wearable device |
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CN102739859A (en) * | 2012-06-05 | 2012-10-17 | 北京百纳威尔科技有限公司 | Mobile phone with weighing function |
CN103892847A (en) * | 2013-12-25 | 2014-07-02 | 北京师范大学 | Portable muscle isotonic contraction power curve testing system |
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