CN104199551A

CN104199551A - Information processing method and device

Info

Publication number: CN104199551A
Application number: CN201410455054.7A
Authority: CN
Inventors: 赵谦; 王文辉
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-09-09
Filing date: 2014-09-09
Publication date: 2014-12-10
Anticipated expiration: 2034-09-09
Also published as: CN104199551B

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

Information processing method and device

Technical field

The present invention relates to field of computer technology, more specifically, the present invention relates to a kind of information processing method and device.

Background technology

In recent years, the portable electric appts such as mobile phone, multimedia player, personal digital assistant (PDA), intelligent watch, intelligent bracelet is universal all the more.And, along with the fast development of electronic technology, make the volume of electronic equipment in constantly dwindling, integrated function is but in continuous increase, by increasing various functions, for terminal user provides a lot of convenience.

For example, this electronic equipment not only can be used for communication, can also be used for account, alarm clock etc.In addition,, along with the variation of user's request, electronic equipment has also engendered the additional function that compass, thermometer etc. are humanized.

In daily life, people often will be to the market of farm produce or supermarket remove to buy some daily living articles.For example, whether everybody before determining to choose, conventionally can be accustomed to them to take and weigh in the hand in the time buying the article such as fruit, vegetables, multiple to estimate probably to have.But, only specially trained, otherwise this estimates conventionally to exist very large error.

But current electronic equipment also cannot provide weight assessment function.

Summary of the invention

In order to solve the problems of the technologies described above, according to an aspect of the present invention, a kind of information processing method is provided, described method is applied to electronic equipment, described electronic equipment can depend on user's body part, it is characterized in that, described method comprises: when described user to the first object apply the first external force, when driving described the first object to move along first direction according to predetermined mode of motion, detect described user first parameter relevant to described body part in the time applying described the first external force; Obtain described user second parameter relevant to described body part in the time applying the second external force, wherein, described user applies described the second external force to the second object, to drive described the second object to move along described first direction according to described predetermined mode of motion; And determine the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter.

In one example, the step of the described user of described detection first parameter relevant to described body part in the time applying described the first external force can comprise: detect described user in the time applying described the first external force described in the tight degree of the first muscle of body part, and described in obtain described user second parameter relevant to described body part in the time applying the second external force step can comprise: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the tight degree of the second muscle of body part, wherein, described the second external force is different from described the first external force, and be respectively used to drive described the second object and described the first object to move along described first direction with identical acceleration.

In one example, describedly determine that according to described the first parameter and described the second parameter the step of the weight relationships between described the first object and described the second object can comprise: determine the weight relationships between described the first object and described the second object according to the tight degree of described the first muscle and the tight degree of described the second muscle, wherein, described the first object is proportional to described user with the ratio of the weight of described the second object and is applying the ratio of the tight degree of described the first muscle with the tight degree of described the second muscle.

In one example, the step of the described user of described detection first parameter relevant to described body part in the time applying described the first external force can comprise: detect described user in the time applying described the first external force described in the first acceleration of moving along described first direction of body part, and described in obtain described user second parameter relevant to described body part in the time applying the second external force step can comprise: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the second acceleration of moving along described first direction of body part, wherein, described the second external force is identical with described the first external force, and be respectively used to drive described the second object and described the first object to move along described first direction in the case of identical external force.

In one example, describedly determine that according to described the first parameter and described the second parameter the step of the weight relationships between described the first object and described the second object can comprise: determine the weight relationships between described the first object and described the second object according to described the first acceleration and described the second acceleration, wherein, described the first object and the ratio of the weight of described the second object are inversely proportional to the ratio of described the first acceleration and described the second acceleration.

In one example, described method can also comprise: obtain the pivot weight as described second object of reference body; And determine the weight to be detected of described the first object according to the pivot weight of the weight relationships between described the first object and described the second object and described the second object.

In addition, according to a further aspect in the invention, a kind of signal conditioning package is provided, described application of installation is in electronic equipment, described electronic equipment can depend on user's body part, it is characterized in that, described device comprises: parameter detecting unit, for when described user to the first object apply the first external force, when driving described the first object to move along first direction according to predetermined mode of motion, detect described user first parameter relevant to described body part in the time applying described the first external force; Parameter acquiring unit, for obtaining described user second parameter relevant to described body part in the time applying the second external force, wherein, described user applies described the second external force to the second object, to drive described the second object to move along described first direction according to described predetermined mode of motion; And be related to determining unit, for determining the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter.

In one example, described parameter detecting unit can be by first parameter relevant to described body part in the time applying described the first external force of user described in following operation detection: detect described user in the time applying described the first external force described in the tight degree of the first muscle of body part, and described parameter acquiring unit can be obtained described user second parameter relevant to described body part in the time applying the second external force by following operation: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the tight degree of the second muscle of body part, wherein, described the second external force is different from described the first external force, and be respectively used to drive described the second object and described the first object to move along described first direction with identical acceleration.

In one example, describedly be related to that determining unit can determine the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter by following operation: determine the weight relationships between described the first object and described the second object according to the tight degree of described the first muscle and the tight degree of described the second muscle, wherein, described the first object is proportional to described user with the ratio of the weight of described the second object and is applying the ratio of the tight degree of described the first muscle with the tight degree of described the second muscle.

In one example, described parameter detecting unit can be by first parameter relevant to described body part in the time applying described the first external force of user described in following operation detection: detect described user in the time applying described the first external force described in the first acceleration of moving along described first direction of body part, and described parameter acquiring unit can be obtained described user second parameter relevant to described body part in the time applying the second external force by following operation: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the second acceleration of moving along described first direction of body part, wherein, described the second external force is identical with described the first external force, and be respectively used to drive described the second object and described the first object to move along described first direction in the case of identical external force.

In one example, describedly be related to that determining unit can determine the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter by following operation: determine the weight relationships between described the first object and described the second object according to described the first acceleration and described the second acceleration, wherein, described the first object and the ratio of the weight of described the second object are inversely proportional to the ratio of described the first acceleration and described the second acceleration.

In one example, described device can also comprise: benchmark acquiring unit, for obtaining the pivot weight as described second object of reference body; And weight determining unit, for determine the weight to be detected of described the first object according to the pivot weight of the weight relationships between described the first object and described the second object and described the second object.

Compared with prior art, adopt according to the information processing method of the embodiment of the present invention and device, when user utilize the particular body portion of oneself, while driving different object movements according to model identical, can be by measuring the parameter relevant to this particular body portion, determine the relative weight relation between absolute weight or the different objects of different objects self.Therefore, met the demand of user for the weight assessment function on electronic equipment.

Other features and advantages of the present invention will be set forth in the following description, and, partly from instructions, become apparent, or understand by implementing the present invention.Object of the present invention and other advantages can be realized and be obtained by specifically noted structure in instructions, claims and accompanying drawing.

Brief description of the drawings

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for instructions, for explaining the present invention, is not construed as limiting the invention together with embodiments of the present invention.In the accompanying drawings:

Fig. 1 illustrates the information processing method according to the embodiment of the present invention.

Fig. 2 A illustrates respectively the first ios dhcp sample configuration IOS DHCP to the four ios dhcp sample configuration IOS DHCPs of stationary installation in electronic equipment to Fig. 2 D.

Fig. 3 illustrates according to signal conditioning package of the present invention.

Fig. 4 illustrates the electronic equipment according to the embodiment of the present invention.

Embodiment

Describe in detail with reference to the accompanying drawings according to each embodiment of the present invention.Here, it should be noted that in the accompanying drawings, identical Reference numeral is given and substantially had ingredient identical or similar structures and function, and will omit being repeated in this description about them.

First, substantially realize principle by describing according to the embodiment of the present invention.

As everyone knows, the common statement of newton's second law of motion is: the size of object acceleration is directly proportional with acting force, be inversely proportional to, and be directly proportional to the inverse of mass of object, and the direction of acceleration is identical with the direction of acting force with the quality of object.In addition, newton's second law of motion also can use following equation (1) to represent:

F=ma equation (1)

Wherein F with newton, m with kilogram, a is with m/s ²for unit.

The application's embodiment utilizes newton's second law of motion to realize just, for meeting in actual life user for the demand of weight assessment function.

Particularly; as described in background technology; everybody is in the time buying the article such as fruit, vegetables; before determining whether to choose, conventionally can be accustomed to them to take and weigh in the hand, multiple to estimate probably to have; that the electronic equipment that can be depended on user captures and weigh this action in the hand; and for weighing this action of thing in the hand, the attitude of different people's body part is consistent substantially.

Such as, when at supermarket top shaddock, user's little brachiocylloosis and form near normal and the five fingers bending with large arm, palm turned upwards, to hold object, then,, by upwards having an effect, overcome the gravity of object, slightly lift target object, next, cancel institute's externally applied forces, make object free-falling due to gravity, and by repeatedly having an effect and removing power, roughly estimate the weight of object.

According to the afore mentioned rules of the ultimate principle of newton's second law of motion, obviously, in the time adopting identical pattern to weigh in the hand to have Different Weight the thing of (quality), the result obtaining is different certainly.But in the time that the quality of article is more or less the same, this difference is often very trickle, possibly cannot be perceived by people, still, but can distinguish by the variation in electronic signal.

Therefore, in the application's embodiment, in the time that user drives target object to produce motion with specific body part, measure the physical parameter relevant to this body part by depending on the electronic equipment of this body part, thereby realize the weight measurement for target object.

With reference to Fig. 1, the information processing method according to the embodiment of the present invention is described below.

The illustrated information processing method of Fig. 1 is applied to an electronic equipment.For example, described electronic equipment can depend on user's body part.

In one embodiment, in order more easily electronic equipment to be fixed in user's particular body portion, for example, described electronic equipment can be Wearable electronic equipment, it can be worn on user's arm, wrist or finger etc., thereby form arm belt electronic equipment (for example,, 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.

For this reason, this Wearable electronic equipment at least can comprise: body apparatus and stationary installation.Described stationary installation is connected with described body apparatus.For example, described stationary installation at least comprises a stationary state, under described stationary state, the combination of described local device and described stationary installation or described stationary installation self can form an annulus or an approximate annulus, described annulus or described approximate annulus can be centered around the periphery, user's body position (for example, arm, wrist, finger) that is as a rule rendered as column.

Below, will the first ios dhcp sample configuration IOS DHCP to the four ios dhcp sample configuration IOS DHCPs of stationary installation in electronic equipment be described to Fig. 2 D with further reference to Fig. 2 A.

Particularly, Fig. 2 A illustrates respectively with Fig. 2 B two kinds of stationary states that described stationary installation 102 is connected with described body apparatus 101.Under the first stationary state as shown in Figure 2 A, described stationary installation 102 and described body apparatus 101 form the annulus of closed loop, and wherein said stationary installation 102 and described body apparatus 101 form respectively a part for annulus.Under the second stationary state as shown in Figure 2 B, described stationary installation 102 forms the approximate annulus with little opening with described body apparatus 101, and wherein said stationary installation 102 and described body apparatus 101 form respectively a part for annulus.

In one embodiment of the invention, for example, described body apparatus 101 can be the dial plate part of intelligent watch, and the watchband part that described stationary installation 102 is intelligent watch.For example, in the dial plate part of this intelligent watch, (for example can be furnished with treating apparatus, central processing unit), output unit (for example, liquid crystal display, microphone), input media (for example, button or touch input area), multimedia capture device (for example, camera, microphone) etc.Obviously, said apparatus also can be integrated in the watchband part of intelligent watch partially or entirely.

Under the second stationary state shown in the first stationary state or Fig. 2 B as shown in Figure 2 A, the described annulus that both form by described body apparatus 101 and described stationary installation 102 or described approximate annulus can be centered around around the wrist as the user of the intelligent watch of described column, and the diameter of described annulus or described approximate annulus is greater than the diameter of user's wrist and is less than the diameter of user's fist.In addition,, under the second stationary state as shown in Figure 2 B, the openings of sizes of the little opening of this approximate annulus is less than the diameter of user's wrist.

In addition, Fig. 2 C illustrates respectively with Fig. 2 D other two kinds of stationary states that described stationary installation 102 is connected with described body apparatus 101.Described annulus or described approximate annulus can certainly be formed separately by described stationary installation 102.As shown in Figure 2 C and 2 D shown in FIG., (described body apparatus 101 can be arranged in described stationary installation 102, described body apparatus 101 is attached to described stationary installation 102 in the mode of face contact), to only there is described stationary installation 102 self to be formed for outer described annulus (Fig. 2 C) or described approximate annulus (Fig. 2 D) around described column.Described stationary installation 102 is furnished with the fixed mechanism (not shown) such as hasp, fastener, slide fastener etc.

It should be noted that, although described the form of electronic equipment above using Wearable electronic equipment as example,, the application is not limited to this.For example, in other embodiments, described electronic equipment can be also non-Wearable electronic equipment, it is common form electronic equipment, it can for example, by gripping or clamp the particular body portion (, user's hand) that depends on user, or also can be by specific wearable device (for example, be banded in carry bag, the tied rope etc. at arm, wrist or finger place) and depend on user's particular body portion (for example, user's hand).Like this, can ensure well that electronic equipment, in the versatility that uses and carry, meets various users' conventional demand.

As illustrated in figure 1, described information processing method comprises:

In step S110, when described user to the first object apply the first external force, when driving described the first object to move along first direction according to predetermined mode of motion, detect described user first parameter relevant to described body part in the time applying described the first external force.

In step S120, obtain described user second parameter relevant to described body part in the time applying the second external force, wherein, described user applies described the second external force to the second object, to drive described the second object to move along described first direction according to described predetermined mode of motion.

In step S130, determine the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter.

As can be seen here, adopt according to the information processing method of the embodiment of the present invention, when user utilize the particular body portion of oneself, while driving different object movements according to model identical, can be by measuring the parameter relevant to this particular body portion, determine the relative weight relation between absolute weight or the different objects of different objects self.Therefore, met the demand of user for the weight assessment function on electronic equipment.

Below, will in multiple concrete examples, illustrate according to the information processing method of the embodiment of the present invention.In described concrete example, be intelligent watch by this electronic equipment of hypothesis, this intelligent watch can be by being fixed in user's wrist as the watchband of stationary installation.

But, it should be noted that, the invention is not restricted to this.This electronic equipment can be the portable electric appts of any type, or even non-portable electronic equipment, it includes but not limited to: notebook, panel computer, mobile phone, multimedia player, personal digital assistant, intelligent bracelet, intelligent ring, intelligent bangle etc.In addition, can also any other processing in electronic equipment will be applied to according to the information processing method of the embodiment of the present invention.

In the first concrete example, suppose that user applies different force for the object of Different Weight and drives them to move along first direction with identical acceleration.

At this moment, this step S110 can comprise: when described user to the first object apply the first external force, when driving described the first object to move along first direction according to certain acceleration, detect described user in the time applying described the first external force described in the tight degree of the first muscle of body part.

This step S120 can comprise: when described user to the second object apply the second external force, when driving described the second object to move along first direction according to the acceleration identical with the first object, detect described user in the time applying described the second external force described in the tight degree of the second muscle of body part.

That is to say, in step S110 and step S120, described the first external force and described the second external force are respectively used to drive described the first object and described the second object to move along described first direction with identical acceleration.

According to the regulation of newton's second law of motion, in the time that the first object and the second object have different weight (quality), when they are moved with identical acceleration, described the first external force using also should be correspondingly different from described the second external force.

Next, this step S130 can comprise: determine the weight relationships between described the first object and described the second object according to the tight degree of described the first muscle and the tight degree of described the second muscle.

Because user obviously more exerts oneself in the time applying less external force than user in the time applying larger external force, so the tight degree of muscle in the time having an effect is obviously also higher.Therefore, described the first object is proportional to described user with the ratio of the weight of described the second object and is applying the ratio of the tight degree of described the first muscle with the tight degree of described the second muscle.

Specifically, when user picks up respectively two shaddocks that vary in weight (or more generally, certain objects) time, for two shaddocks are moved with identical acceleration, the strength of upwards lifting that user applies respectively for twice is obviously also inevitable different.

But in the time that the weight between two shaddocks is more or less the same, user possibly cannot subjectively perceive the difference of oneself having an effect.At this moment, can accurately measure by for example arm belt electronic equipment the tense situation of user's the bicipital muscle of arm.

For this reason, the ring-type that can form at electronic equipment or approximate annulus inner side arrange induction installation, and it can be the array of pressure sensors that comprises multiple pressure transducers, is arranged as multiple pressure transducers of array.In the time that electronic equipment is worn on user's arm, array of pressure sensors in induction installation contacts with user's arm, to detect when arm movable, wrist and/or arm muscle group, bone position change and the pressure change that causes, and produce pressure detection result, thereby finally judge the tight degree of user's the muscles of the arm.

In the situation that sensor is enough sensitive, can distinguish well the slight change of user's muscle, thereby tell the object that two weight are more or less the same, which is more important.

In order to carry out and to measure operation more exactly, can regulate wearing of electronic equipment according to the thickness of user's arm in advance, the inner side of electronic equipment and user's arm are fitted tightly, so that array of pressure sensors carries out pressure detection.

It should be noted that, although be described as example to detect the tight degree of muscle by pressure above,, the application is not limited to this.For example, in other embodiments, described electronic equipment also can the physical signs parameter (for example, muscle electricity, pulse, heartbeat, blood pressure etc.) by user detects or estimates the tight degree of muscle.

In the second concrete example, suppose that user applies identical external force for the object of Different Weight and drives them to move along first direction with different acceleration.

At this moment, this step S110 can comprise: when described user to the first object apply the first external force, when driving described the first object to move along first direction according to the first acceleration, detect described user in the time applying described the first external force described in the first acceleration of moving along described first direction of body part.

This step S120 can comprise: when described user to the second object apply second external force identical with described the first external force, when driving described the second object to move along first direction according to the second acceleration, detect described user in the time applying described the second external force described in the second acceleration of moving along described first direction of body part.

That is to say, in step S110 and step S120, described the first external force and described the second external force are respectively used to drive described the second object and described the first object to move along described first direction in the case of identical external force.

According to the regulation of newton's second law of motion, in the situation that applying identical external force to the first object and the second object, in the time that the first object and the second object have different weight (quality), described the first object and described the second object should move according to different acceleration.

Next, this step S130 can comprise: determine the weight relationships between described the first object and described the second object according to described the first acceleration and described the second acceleration.

Because user is in the time applying identical external force, the object that weight is large obviously wants the object of which movement movement degree that weight/power ratio is little less.Therefore, described the first object and the ratio of the weight of described the second object are inversely proportional to the ratio of described the first acceleration and described the second acceleration.

Specifically, in the time that user picks up respectively two shaddocks that vary in weight (or more generally, certain objects), if the strength of upwards lifting that user applies respectively for twice is identical, two shaddocks are inevitable move with different acceleration.

But in the time that the weight between two shaddocks is more or less the same, user possibly cannot subjectively perceive the difference of own arm motion state.At this moment, can accurately measure by for example arm belt electronic equipment the acceleration of user's hand, namely, the acceleration of electronic equipment self.

For this reason, induction installation can be set in electronic equipment, it can be accelerometer, for measuring the linear acceleration of carrier (, electronic equipment).In the time that electronic equipment is worn in user's wrist, accelerometer can be judged by the acceleration of sensing electronic equipment self acceleration of user's hand exercise, thus the acceleration when finally obtaining object and being weighed in the hand or rock.

In the situation that sensor is enough sensitive, can distinguish well the slight change of acceleration, thereby tell the object that two weight are more or less the same, which is more important.

In the 3rd concrete example, suppose that the second object is the reference body of known its weight, and hypothesis the first object is the examined object of unknown its weight.

At this moment the external force that applies, comprising at this step S110 can be by user's execution in real time with the action that drives the first object (, examined object) motion.That is to say, in the time that user wishes to know the weight to be detected of examined object, he/her can apply the first external force to the first object, to drive described the first object to move along first direction according to predetermined mode of motion.At this moment, can detect described user first parameter relevant to described body part in the time applying described the first external force.

On the contrary, what comprise at this step S120 applies external force and can before step S110, be carried out in advance by user with the action that drives the second object (, reference body) motion, also can be by user's execution in real time step S110 after.That is to say, in order to determine the absolute weight as the first object of examined object, the second related object of step S120 should be the reference body of known its absolute weight, with benchmark as a comparison.

Next, can also further obtain the pivot weight as described second object of reference body.Finally, after step S130, can determine according to the pivot weight of the weight relationships between described the first object and described the second object and described the second object the weight to be detected of described the first object.

Specifically, when user wants to know that some shaddocks (or more generally, certain objects) approximate weight time, user can be before or after picking up this shaddock, the reference body of picking up a known weight according to identical with it predetermined mode of motion (for example, one bottle of mineral water, a box Yoghourt etc.), to obtain two weight relationships between object, and manually input or obtain the weight of this reference body by barcode scanning, bluetooth, the mode such as infrared.Like this, by weight relationships and this pivot weight, just can estimate the weight of shaddock.

For example, the in the situation that of the first concrete example, in the time that to judge the tight degree of the first muscle be 2 times of the tight degree of the second muscle, can know that the first external force is the twice of the second external force, thereby can finally to judge as the weight of the first object of examined object be the twice as the weight of the second object of reference body.

And for example, the in the situation that of the second concrete example, in the time that to judge the first acceleration be 2 times of the second acceleration, can finally judge as the weight of the first object of examined object is the half as the weight of the second object of reference body.

In order to obtain estimated result more accurately, preferably, the weight of selected this reference body can, as best one can close to the weight of physics to be detected, more easily be held applied force amount so that obtain user, reduces error.

It should be noted that, although be described as example using the action of lifting object by upwards weighing in the hand in three concrete examples above,, the application is not limited to this.For example, in other embodiments, can also for example, determine the relative weight relation between absolute weight or the different objects of different objects self by upwards mentioning object, double swerve object or even promoting object (in the situation that, this object extremely weighs) to horizontal direction.

Fig. 3 illustrates according to signal conditioning package of the present invention, and Fig. 4 illustrates the electronic equipment according to the embodiment of the present invention.

Fig. 1 is illustrated can be realized by the illustrated signal conditioning package 100 of Fig. 3 according to the information processing method of the embodiment of the present invention, and this signal conditioning package 100 can be applied to the illustrated one or more electronic equipments 10 of Fig. 4.

For example, electronic equipment can depend on user's body part described in described electronic equipment 10, and can be among the form of Wearable electronic equipment or non-Wearable electronic equipment.

As illustrated in Fig. 4, from the angle of functional module, this electronic equipment 10 can comprise: signal conditioning package 100.In addition, in order to realize some additional functions, this electronic equipment 10 can also comprise: induction installation 200, input media 300 and output unit 400.

This signal conditioning package 100 can be for utilizing the particular body portion of oneself as user, while driving different object movements according to model identical, by measuring the parameter relevant to this particular body portion, determine the relative weight relation between absolute weight or the different objects of different objects self.

This induction installation 200 can be the array of pressure sensors that comprises multiple pressure transducers, is arranged as multiple pressure transducers of array.In the time that electronic equipment is worn on user's arm, array of pressure sensors in induction installation contacts with user's arm, to detect when arm movable, wrist and/or arm muscle group, bone position change and the pressure change that causes, and produce pressure detection result, thereby finally judge the tight degree of user's the muscles of the arm.

Alternatively, this induction installation 200 can be also accelerometer, for measuring carrier linear acceleration.In the time that electronic equipment is worn in user's wrist, accelerometer can be judged by the acceleration of sensing electronic equipment self acceleration of user's hand exercise, thus the acceleration when finally obtaining object and being weighed in the hand or rock.

This input media 300 can receive the input signal from user, for example, and the pivot weight of reference body.For example, or this input media 300 also can receive the identifier (, bar code etc.) of reference body, to make it possible to automatically confirm by local data base or cloud server the weight of this reference body.

This output unit 400 can be to user's output signal, for example, and the relative weight relation between absolute weight or the different objects of different objects self.For example, this output unit 400 can be display, shows the weight of examined object for the mode by image to user.Alternatively, this output unit 400 can be also loudspeaker, shows the weight of examined object for the mode by sound to user.

In addition, this signal conditioning package 100 can communicate by any mode and electronic equipment 10.

In one example, this signal conditioning package 100 can be used as a software module and/or hardware module and is integrated in this electronic equipment 10, and in other words, this electronic equipment 10 can comprise this signal conditioning package 100.For example, in the time that electronic equipment 10 is mobile phone, a software module in the operating system that this signal conditioning package 100 can be this mobile phone, or can be aimed at the application program that this mobile phone is developed; Certainly, this signal conditioning package 100 can be one of numerous hardware modules of this mobile phone equally.

Alternatively, in another example, this signal conditioning package 100 can be also the equipment separating with this electronic equipment 10, and this signal conditioning package 100 can be connected to this electronic equipment 10 by wired and/or wireless network, and transmits interactive information according to the data layout of agreement.

As illustrated in Fig. 3, can comprise according to the signal conditioning package 100 of the embodiment of the present invention: parameter detecting unit 110, parameter acquiring unit 120 and be related to determining unit 130.

This parameter detecting unit 110 can for when described user to the first object apply the first external force, when driving described the first object to move along first direction according to predetermined mode of motion, detect described user first parameter relevant to described body part in the time applying described the first external force.

This parameter acquiring unit 120 can be for obtaining described user second parameter relevant to described body part in the time applying the second external force, wherein, described user applies described the second external force to the second object, to drive described the second object to move along described first direction according to described predetermined mode of motion.

This is related to that determining unit 130 can be for determining the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter.

In one example, described parameter detecting unit 110 can be by first parameter relevant to described body part in the time applying described the first external force of user described in following operation detection: detect described user in the time applying described the first external force described in the tight degree of the first muscle of body part, and described parameter acquiring unit 120 can be obtained described user second parameter relevant to described body part in the time applying the second external force by following operation: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the tight degree of the second muscle of body part, wherein, described the second external force is different from described the first external force, and be respectively used to drive described the second object and described the first object to move along described first direction with identical acceleration.

In one example, describedly be related to that determining unit 130 can determine the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter by following operation: determine the weight relationships between described the first object and described the second object according to the tight degree of described the first muscle and the tight degree of described the second muscle, wherein, described the first object is proportional to described user with the ratio of the weight of described the second object and is applying the ratio of the tight degree of described the first muscle with the tight degree of described the second muscle.

In one example, described parameter detecting unit 110 can be by first parameter relevant to described body part in the time applying described the first external force of user described in following operation detection: detect described user in the time applying described the first external force described in the first acceleration of moving along described first direction of body part, and described parameter acquiring unit 120 can be obtained described user second parameter relevant to described body part in the time applying the second external force by following operation: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the second acceleration of moving along described first direction of body part, wherein, described the second external force is identical with described the first external force, and be respectively used to drive described the second object and described the first object to move along described first direction in the case of identical external force.

In one example, describedly be related to that determining unit 130 can determine the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter by following operation: determine the weight relationships between described the first object and described the second object according to described the first acceleration and described the second acceleration, wherein, described the first object and the ratio of the weight of described the second object are inversely proportional to the ratio of described the first acceleration and described the second acceleration.

In addition, in order to determine the absolute weight of object, can also comprise according to the signal conditioning package 100 of the embodiment of the present invention: benchmark acquiring unit 140 and weight determining unit 150.

This benchmark acquiring unit 140 can be for obtaining the pivot weight as described second object of reference body.

This weight determining unit 150 can be for determining the weight to be detected of described the first object according to the pivot weight of the weight relationships between described the first object and described the second object and described the second object.

In the information processing method of having described with reference to figure 1 in the above according to the concrete configuration of each device in unit and electronic equipment 10 in the signal conditioning package 100 of the embodiment of the present invention and operation, introduce in detail, and therefore, by omission, it is repeated in this description.

As can be seen here, adopt according to the signal conditioning package of the embodiment of the present invention, when user utilize the particular body portion of oneself, while driving different object movements according to model identical, can be by measuring the parameter relevant to this particular body portion, determine the relative weight relation between absolute weight or the different objects of different objects self.Therefore, met the demand of user for the weight assessment function on electronic equipment.

In addition, although the executive agent using above-mentioned unit as each step illustrates each embodiment of the present invention herein,, those skilled in the art can understand, and the invention is not restricted to this.The executive agent of each step can be by other one or more units, unit, even module is served as.

For example, above-mentioned parameter detecting unit 110, parameter acquiring unit 120, be related to that each performed step of determining unit 130, benchmark acquiring unit 140 and weight determining unit 150 can be realized by the CPU (central processing unit) in electronic equipment (CPU) uniformly.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add essential hardware platform by means of software and realize, and can certainly all implement by software or hardware.Based on such understanding, what technical scheme of the present invention contributed to background technology can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, as ROM/RAM, disk, CD etc., comprise that some instructions (can be personal computers in order to make a computer equipment, server, or the network equipment etc.) carry out the method described in some part of each embodiment of the present invention or embodiment.

Describe each embodiment of the present invention in the above in detail.But, it should be appreciated by those skilled in the art that without departing from the principles and spirit of the present invention, can carry out various amendments to these embodiment, combination or sub-portfolio, and such amendment should fall within the scope of the present invention.

Claims

1. an information processing method, described method is applied to electronic equipment, and described electronic equipment can depend on user's body part, it is characterized in that, and described method comprises:

When described user to the first object apply the first external force, when driving described the first object to move along first direction according to predetermined mode of motion, detect described user first parameter relevant to described body part in the time applying described the first external force;

Obtain described user second parameter relevant to described body part in the time applying the second external force, wherein, described user applies described the second external force to the second object, to drive described the second object to move along described first direction according to described predetermined mode of motion; And

Determine the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter.

2. according to the method for claim 1, it is characterized in that,

The step of the described user of described detection first parameter relevant to described body part in the time applying described the first external force comprises:

Detect described user in the time applying described the first external force described in the tight degree of the first muscle of body part, and

The described step of obtaining described user second parameter relevant to described body part in the time applying the second external force comprises:

In the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the tight degree of the second muscle of body part,

Wherein, described the second external force is different from described the first external force, and is respectively used to drive described the second object and described the first object to move along described first direction with identical acceleration.

3. according to the method for claim 2, it is characterized in that, describedly determine that according to described the first parameter and described the second parameter the step of the weight relationships between described the first object and described the second object comprises:

Determine the weight relationships between described the first object and described the second object according to the tight degree of described the first muscle and the tight degree of described the second muscle,

Wherein, described the first object is proportional to described user with the ratio of the weight of described the second object and is applying the ratio of the tight degree of described the first muscle with the tight degree of described the second muscle.

4. according to the method for claim 1, it is characterized in that,

Detect described user in the time applying described the first external force described in the first acceleration of moving along described first direction of body part, and

In the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the second acceleration of moving along described first direction of body part,

Wherein, described the second external force is identical with described the first external force, and is respectively used to drive described the second object and described the first object to move along described first direction in the case of identical external force.

5. according to the method for claim 4, it is characterized in that, describedly determine that according to described the first parameter and described the second parameter the step of the weight relationships between described the first object and described the second object comprises:

Determine the weight relationships between described the first object and described the second object according to described the first acceleration and described the second acceleration,

Wherein, described the first object and the ratio of the weight of described the second object are inversely proportional to the ratio of described the first acceleration and described the second acceleration.

6. according to the method for claim 1, it is characterized in that, described method also comprises:

Obtain the pivot weight as described second object of reference body; And

Determine the weight to be detected of described the first object according to the pivot weight of the weight relationships between described the first object and described the second object and described the second object.

7. a signal conditioning package, described application of installation is in electronic equipment, and described electronic equipment can depend on user's body part, it is characterized in that, and described device comprises:

Parameter detecting unit, for when described user to the first object apply the first external force, when driving described the first object to move along first direction according to predetermined mode of motion, detect described user first parameter relevant to described body part in the time applying described the first external force;

Parameter acquiring unit, for obtaining described user second parameter relevant to described body part in the time applying the second external force, wherein, described user applies described the second external force to the second object, to drive described the second object to move along described first direction according to described predetermined mode of motion; And

Be related to determining unit, for determining the weight relationships between described the first object and described the second object according to described the first parameter and described the second parameter.

8. according to the device of claim 7, it is characterized in that,

Described parameter detecting unit is by first parameter relevant to described body part in the time applying described the first external force of user described in following operation detection: detect described user in the time applying described the first external force described in the tight degree of the first muscle of body part, and

Described parameter acquiring unit is obtained described user second parameter relevant to described body part in the time applying the second external force by following operation: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the tight degree of the second muscle of body part

9. device according to Claim 8, is characterized in that, is describedly related to that determining unit determines the weight relationships between described the first object and described the second object by following operation according to described the first parameter and described the second parameter:

10. according to the device of claim 7, it is characterized in that,

Described parameter detecting unit is by first parameter relevant to described body part in the time applying described the first external force of user described in following operation detection: detect described user in the time applying described the first external force described in the first acceleration of moving along described first direction of body part, and

Described parameter acquiring unit is obtained described user second parameter relevant to described body part in the time applying the second external force by following operation: in the time that described user applies described the second external force to described the second object, detect described user in the time applying described the second external force described in the second acceleration of moving along described first direction of body part

11. according to the device of claim 10, it is characterized in that, is describedly related to that determining unit determines the weight relationships between described the first object and described the second object by following operation according to described the first parameter and described the second parameter:

12. according to the device of claim 7, it is characterized in that, described device also comprises:

Benchmark acquiring unit, for obtaining the pivot weight as described second object of reference body; And

Weight determining unit, for determining the weight to be detected of described the first object according to the pivot weight of the weight relationships between described the first object and described the second object and described the second object.