CN107632716A - A kind of method for inputting information processor and its processing input information - Google Patents

Abstract

The invention provides a kind of method for inputting information processor and its processing input information, wherein, device includes：Wearable part, power supply module, detection process module, wireless communication module, at least one positive electrode and at least one negative electrode；Wearable part is worn on the hand of user so that each positive electrode and negative electrode are in contact with hand；Power supply module provides operating voltage by each positive electrode and to negative electrode to hand；Detection process module is in user using each finger joint of at least one driven finger of hand as an input block, and when controlling an active finger and a target input block generation contact action for hand, target input block curent change information according to caused by the operating voltage that power supply module provides is detected, and forms corresponding input information；Wireless communication module sends the input information that detection process module is formed to the electronic equipment of outside.Pass through technical scheme, better user experience.

Description

Input information processing device and method for processing input information

Technical Field

The present invention relates to the field of information technology, and in particular, to an input information processing apparatus and a method for processing input information.

Background

In order to facilitate a user to send input information to an electronic device so that the electronic device can implement a corresponding service according to the input information, the electronic device generally needs to be connected to an input information processing apparatus.

At present, a mechanical keyboard is mainly used as an input information processing device to be connected with an electronic device, and a user can respectively send different input information to the electronic device by triggering different functional keys on the mechanical keyboard.

However, the mechanical keyboard is usually required to be placed at a designated position where the electronic device connected to the mechanical keyboard is located, and a user needs to keep a corresponding posture at the designated position to trigger a corresponding function key on the mechanical keyboard to send corresponding input information to the electronic device, which is poor in user experience.

Disclosure of Invention

The embodiment of the invention provides an input information processing device and a method for processing input information thereof, which have better user experience.

In a first aspect, an embodiment of the present invention provides an input information processing apparatus, including:

the device comprises a wearable component, a power supply module, a detection processing module, a wireless communication module, at least one positive electrode and at least one negative electrode; wherein,

the wearable component is used for being worn on the hand of a user, so that the at least one positive electrode and the at least one negative electrode are in contact with the hand;

the power supply module is used for providing working voltage for the hand through the at least one positive electrode and the at least one negative electrode;

the detection processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module and forming corresponding input information according to the current change information when a user takes each knuckle of at least one driven finger of a hand as an input unit and controls one active finger of the hand to generate contact action with one target input unit in each input unit;

and the wireless communication module is used for transmitting the input information formed by the detection processing module to external electronic equipment.

Preferably, the first and second electrodes are formed of a metal,

the wearable item, comprising: the bracelet and at least two finger rings; wherein,

the power supply module, the detection processing module and the wireless communication module are all arranged in the bracelet;

each finger ring is internally provided with one positive electrode or one negative electrode;

the bracelet is worn on the wrist of a user;

the at least two finger rings are used for being worn on at least two fingers of a human body, so that the at least one positive electrode and the at least one negative electrode are respectively contacted with the corresponding fingers;

the detection processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module and forming corresponding input information according to the current change information when a user takes each knuckle of each finger wearing the ring with the negative electrode as an input unit and controls one finger wearing the ring with the positive electrode to be in contact action with one target input unit in the input units.

Preferably, the first and second electrodes are formed of a metal,

the input information processing apparatus includes: one said positive electrode and four said negative electrodes;

a finger ring mounted with the positive electrode for wearing on a thumb of a left or right hand of a user;

4 finger rings provided with the negative electrodes are used for being worn on the index finger, the middle finger, the ring finger and the tail finger of the left hand or the right hand of a user in sequence.

Preferably, the first and second electrodes are formed of a metal,

the detection processing module comprises: a detection unit and a processing unit; wherein,

the detection unit is used for determining a driven finger corresponding to a target input unit from the index finger, the middle finger, the ring finger and the tail finger when a user takes each knuckle of the index finger, the middle finger, the ring finger and the tail finger as one input unit and controls the thumb to generate contact action with one target input unit in the input units, and detecting current change information generated by the target input unit according to the working voltage provided by the power supply module;

and the processing unit is used for forming corresponding input information according to the determined driven finger and the current change information.

Preferably, the first and second electrodes are formed of a metal,

the detection processing module further comprises: a storage unit; wherein,

the detection unit is further used for detecting a first reference current on the index finger when the thumb is in contact with the fingertip of the index finger; detecting a second reference current on the middle finger when the thumb is in contact with the middle finger; detecting a third reference current on the ring finger when the thumb is in contact with the ring finger; detecting a fourth reference current on the tail finger when the thumb is in contact with the tail finger;

the storage unit is configured to store the first reference current, the second reference current, the third reference current, and the fourth reference current;

and the processing unit is used for reading the target reference current corresponding to the determined driven finger from the storage unit and forming corresponding input information according to the read target reference current, the determined driven finger and the current change information.

Preferably, the first and second electrodes are formed of a metal,

the current change information includes: one or more of a maximum current value, a minimum current value, and a current trend.

In a second aspect, an embodiment of the present invention provides a method for processing input information by using the input information processing apparatus according to any one of the first aspects, including:

wearing the wearable component on a hand of a user such that the at least one positive electrode and the at least one negative electrode are in contact with the hand;

providing an operating voltage to the hand through the at least one positive electrode and the at least one negative electrode using the power supply module;

when a user uses each knuckle of at least one driven finger of a hand as an input unit and controls one active finger of the hand to make contact with one target input unit of the input units by using the detection processing module, detecting current change information generated by the target input unit according to working voltage provided by the power supply module and forming corresponding input information according to the current change information;

and transmitting the input information formed by the detection processing module to an external electronic device by using the wireless communication module.

Preferably, the first and second electrodes are formed of a metal,

when the wearable part comprises a bracelet and at least two finger rings,

said wearing the wearable component on a hand of a user such that the at least one positive electrode and the at least one negative electrode are in contact with the hand, comprising: wearing the bracelet on the wrist of a user and wearing the at least two finger rings on at least two fingers of the user, so that the at least one positive electrode and the at least one negative electrode are respectively contacted with the corresponding fingers;

then, the detecting and processing module, when a user uses each knuckle of at least one driven finger of the hand as an input unit and controls one active finger of the hand to make contact with one target input unit of the input units, detects current change information generated by the target input unit according to the working voltage provided by the power supply module, and includes: and the detection processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module when a user takes each knuckle of each driven finger wearing the ring with the negative electrode as an input unit and controls one active finger wearing the ring with the positive electrode to contact with one target input unit in each input unit.

Preferably, the first and second electrodes are formed of a metal,

when the input information processing apparatus includes one of the positive electrodes and four of the negative electrodes,

the wearing the at least two finger rings on at least two fingers of a user, comprising: the finger ring provided with the positive electrode is worn on the thumb of the left hand or the right hand of a user, and the four finger rings provided with the negative electrodes are sequentially worn on the index finger, the middle finger, the ring finger and the tail finger of the left hand or the right hand of the user;

then, the detecting and processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module when a user takes each knuckle of each slave finger wearing the ring with the negative electrode as an input unit and controls one active finger wearing the ring with the positive electrode to make contact with one target input unit in each input unit, and the detecting and processing module includes:

when a user uses each knuckle of a forefinger, a middle finger, a ring finger and a tail finger as an input unit and controls a thumb to generate a contact action with one target input unit in the input units, a detection unit of the detection processing module is utilized to determine a driven finger corresponding to the target input unit from the forefinger, the middle finger, the ring finger and the tail finger and detect current change information generated by the target input unit according to the working voltage provided by the power supply module;

and forming corresponding input information according to the determined driven finger and the current change information by utilizing a processing unit of the detection processing module.

Preferably, the first and second electrodes are formed of a metal,

before the forming, by the processing unit of the detection processing module, corresponding input information according to the determined driven finger and the current change information, further comprising:

executing, with a detection unit of the detection processing module: detecting a first reference current on the index finger when the thumb is in contact with the tip of the index finger; detecting a second reference current on the middle finger when the thumb is in contact with the middle finger; detecting a third reference current on the ring finger when the thumb is in contact with the ring finger; detecting a fourth reference current on the tail finger when the thumb is in contact with the tail finger;

storing the first reference current, the second reference current, the third reference current and the fourth reference current detected by the detection unit by using a storage unit of the detection processing module;

then, the forming, by the processing unit of the detection processing module, corresponding input information according to the determined driven finger and the current change information includes: and reading a target reference current corresponding to the determined driven finger from the storage unit by using a processing unit of the detection processing module, and forming corresponding input information according to the read target reference current, the determined driven finger and the current change information.

An embodiment of the present invention provides an input information processing apparatus and a method for processing input information thereof, the input information processing device consists of a wearable component, a power supply module, a detection processing module, a wireless communication module, at least one positive electrode and at least one negative electrode, the wearable component can be worn on the hand of the user, so that the at least one positive electrode and the at least one negative electrode are in contact with the designated part of the hand, because the hand of the user is a conductor, the user can take each knuckle of at least one driven finger of the hand as an input unit, when one active finger of the user control hand respectively generates contact action with different input units, under the condition that the working voltage provided by the power supply module through each positive electrode and negative electrode is constant, different current change information can be generated on each input unit; therefore, the detection processing module can detect the current change information generated by the target input unit according to the working voltage provided by the power supply module when one active finger of the user control hand is in contact with one target input unit in each input unit, form corresponding input information according to the current change information, and then send the formed input information to the external electronic equipment through the wireless communication module. In summary, the input information processing apparatus does not need to be placed at the designated position of the corresponding electronic device, and the user does not need to keep the corresponding posture at the designated position; by taking each knuckle of at least one driven finger as an input unit, corresponding input information can be sent to the electronic equipment through the input information processing device by controlling a contact action between one active finger and a corresponding target input unit, and user experience is good.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an input information processing apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a detection processing module in an input information processing apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another detection processing module in an input information processing apparatus according to an embodiment of the present invention;

fig. 4 is a flowchart of a method for processing input information by using the input information processing apparatus shown in fig. 1 according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an input information processing apparatus, including:

a wearable part 101, a power supply module 102, a detection processing module 103, a wireless communication module 104, at least one positive electrode 105, and at least one negative electrode 106; wherein,

the wearable part 101 is worn on the hand of a user, so that the at least one positive electrode 105 and the at least one negative electrode 106 are in contact with the hand;

the power supply module 102 is used for providing an operating voltage to the hand through the at least one positive electrode 105 and the at least one negative electrode 106;

the detection processing module 103 is configured to detect current change information generated by a target input unit according to a working voltage provided by the power supply module 102 when a user uses each knuckle of at least one driven finger of a hand as an input unit and controls one active finger of the hand to make a contact action with one target input unit in each input unit, and form corresponding input information according to the current change information;

the wireless communication module 104 is configured to send the input information formed by the detection processing module 103 to an external electronic device.

As shown in fig. 1, the input information processing apparatus is composed of a wearable part, a power supply module, a detection processing module, a wireless communication module, at least one positive electrode and at least one negative electrode, wherein the wearable part can be worn on the hand of a user, so that the at least one positive electrode and the at least one negative electrode are in contact with a designated part of the hand, and since the hand of the user is a conductor, the user can use each knuckle of at least one driven finger of the hand as an input unit, and when a contact action is generated between one active finger of the user-controlled hand and different input units, different current change information can be generated on the input units under the condition that the working voltage provided by the power supply module through the positive electrode and the negative electrode is constant; therefore, the detection processing module can detect the current change information generated by the target input unit according to the working voltage provided by the power supply module when one active finger of the user control hand is in contact with one target input unit in each input unit, form corresponding input information according to the current change information, and then send the formed input information to the external electronic equipment through the wireless communication module. In summary, the input information processing apparatus does not need to be placed at the designated position of the corresponding electronic device, and the user does not need to keep the corresponding posture at the designated position; by taking each knuckle of at least one driven finger as an input unit, corresponding input information can be sent to the electronic equipment through the input information processing device by controlling a contact action between one active finger and a corresponding target input unit, and user experience is good.

In one embodiment of the present invention, the current variation information includes, but is not limited to, one or more of a maximum current value, a minimum current value, and a current variation trend.

The safe voltage that human body can sustain is usually not more than 24V, that is, the working voltage that the power supply module provides to the hand through at least one positive electrode and at least one negative electrode should not be more than 24V, and the working voltage is relatively small, when the active finger and the target input unit generate the contact action and form a corresponding current loop with the power supply module, at least one positive electrode and at least one negative electrode, if the resistance value that the hand is connected to the current loop is too large, the current in the formed current loop is relatively small, and the detection processing module is not easy to detect the current change information generated on the target input unit in the formed current loop.

Accordingly, in order to enable the detection processing module to more accurately detect the current variation information on the target input unit to form corresponding input information, in an embodiment of the present invention, the wearable component 101 includes: a bracelet (not shown in the drawings) and at least two finger rings (not shown in the drawings); wherein the power supply module 102, the detection processing module 103 and the wireless communication module 104 are all arranged in the bracelet; each finger ring is internally provided with one positive electrode 105 or one negative electrode 106; the bracelet is worn on the wrist of a user; the at least two finger rings are used for being worn on at least two fingers of a user, so that the at least one positive electrode 105 and the at least one negative electrode 106 are respectively contacted with the corresponding fingers; the detection processing module 103 is configured to detect current change information generated by the target input unit according to the working voltage provided by the power supply module 102 and form corresponding input information according to the current change information when a user uses each knuckle of each finger wearing the ring on which the negative electrode 106 is installed as an input unit and controls one finger wearing the ring on which the positive electrode 105 is installed to make contact with one target input unit of the input units.

In the above embodiment of the present invention, the wearable component is composed of a bracelet and at least two finger rings, each finger ring is internally provided with a positive electrode or a negative electrode, when the at least two finger rings are worn on at least two fingers of a user, the at least one positive electrode and the at least one negative electrode can both contact with the corresponding fingers, when a contact action is generated between a target input unit on a target finger wearing the finger ring equipped with the positive electrode and a target finger wearing the finger ring equipped with the negative electrode, a tissue in a current loop formed by a user accessing only includes the active finger and the driven finger generating the contact action, a resistance of the current loop formed by the user accessing the wearable component is relatively small, and correspondingly, under the condition that a working voltage provided by the power supply module is constant (for example, the working voltage is 24V), a current in the formed current loop is relatively large, the detection processing module can easily detect the current change information generated on the formed current loop final target input unit, so that the detection processing module can more accurately form corresponding input information according to the detected current change information.

In one embodiment of the present invention, the input information processing apparatus includes: one said positive electrode 105 and four said negative electrodes 106; a finger ring fitted with the positive electrode 105 for wearing on the thumb of the user's left or right hand; and the four finger rings provided with the negative electrodes 106 are used for being worn on the index finger, the middle finger, the ring finger and the tail finger of the left hand or the right hand of the user in sequence.

In the embodiment, 5 finger rings can be worn on 5 fingers of a left hand or a right hand of a human body, the finger ring provided with a positive electrode is worn on a thumb, four finger rings arranged on a negative electrode are sequentially worn on an index finger, a middle finger, a ring finger and a tail finger of the left hand or the right hand, the thumb is very easy to contact with each finger section on the index finger, the middle finger, the ring finger and the tail finger, a user can control the thumb (active finger) to contact with each input unit on each finger wearing the finger ring provided with the negative electrode according to actual requirements, and a plurality of different input information can be sent to the electronic equipment through the input information processing device.

Based on the above embodiment, when the four finger rings with the negative electrodes are sequentially worn on the index finger, the middle finger, the ring finger, and the tail finger, in order to realize that different input information can be formed when the input units on the thumb, which is worn with the finger ring with the positive electrode, and different fingers such as the index finger, the middle finger, the ring finger, and the tail finger respectively make contact motions, as shown in fig. 2, in an embodiment of the present invention, the detection processing module 103 includes: a detection unit 1031 and a processing unit 1032; the detection unit 1031 is configured to, when a user uses each knuckle of an index finger, a middle finger, a ring finger, and a tail finger as an input unit and controls a thumb to make a contact action with one target input unit of the input units, determine a driven finger corresponding to the target input unit from the index finger, the middle finger, the ring finger, and the tail finger, and detect current change information generated by the target input unit according to a working voltage provided by the power supply module; the processing unit 1032 is configured to form corresponding input information according to the determined driven finger and the current change information.

Based on the foregoing embodiment, as shown in fig. 3, in an embodiment of the present invention, the detection processing module 103 further includes: a memory unit 1033; wherein,

the detection unit 1031, further configured to detect a first reference current on the index finger when the thumb is in contact with the fingertip of the index finger; detecting a second reference current on the middle finger when the thumb is in contact with the middle finger; detecting a third reference current on the ring finger when the thumb is in contact with the ring finger; detecting a fourth reference current on the tail finger when the thumb is in contact with the tail finger;

the storage unit 1033 is configured to store the first reference current, the second reference current, the third reference current, and the fourth reference current;

the processing unit 1032 is configured to read a target reference current corresponding to the determined slave finger from the storage unit 1033, and form corresponding input information according to the read target reference current, the determined slave finger, and the current variation information.

In the above embodiment of the present invention, since environmental factors (such as temperature, humidity, etc.) may affect the electrical conductivity of the human body, before the user sends input information to the electronic device through the input information processing apparatus, the user may sequentially contact the thumb wearing the ring with the positive electrode with the fingertips wearing the index finger, middle finger, ring finger, and tail finger wearing the ring with the negative electrode, and detect and obtain the first reference current, the second reference current, the third reference current, and the fourth reference current flowing through the index finger, middle finger, ring finger, and tail finger, respectively, and each reference current may be stored in the storage unit of the detection processing module; in the subsequent process, when the thumb and the target input unit on the corresponding driven finger (the index finger, the middle finger, the ring finger or the tail finger wearing the ring with the negative electrode) generate a contact action to form a corresponding current loop, the detection unit of the detection processing module can firstly determine the driven finger on the target input unit and detect the current change information on the target input unit, the processing unit can read the target reference current corresponding to the driven finger from the storage unit, and the corresponding input information is more accurately formed according to the read target reference current, the determined driven finger and the current change information.

Specifically, the user may set a corresponding input information formation rule in accordance with an actual service requirement, and the detection processing module forms corresponding input information according to the read target reference current, the determined driven finger, and the detected current change information, using the set information formation rule as a standard.

Taking the example that the index finger, the middle finger, the ring finger or the tail finger wearing the ring provided with the negative electrode virtually corresponds to 12 keys of the nine-grid input method in a corresponding way, each knuckle of the index finger, the middle finger, the ring finger and the tail finger can be respectively used as an input unit and corresponds to the 12 keys of the nine-grid input method one by one; each finger ring provided with a negative electrode is worn on one knuckle of a corresponding finger adjacent to the palm, and the finger ring provided with a positive electrode is worn on one knuckle of a thumb not adjacent to the palm; meanwhile, taking the nine-grid-shaped digital numbers "4", "5" and "6" of the knuckles of the middle finger from the direction adjacent to the palm to the direction away from the palm as an example, the knuckle corresponding to the nine-grid-shaped digital number "5" may correspond to three input information j, k and l; taking the second reference current as 0.6A as an example, when the detection unit of the detection processing module determines that the driven finger is the middle finger, the target reference current corresponding to the middle finger is 0.6A, since the resistance values of the knuckles of the same finger are similar under the same environment, the variation ranges of the currents on the three knuckles corresponding to the squared figure numbers of "4", "5" and "6" in the current loops formed when the three knuckles corresponding to the squared figure numbers of "4", "5" and "6" on the thumb and the middle finger respectively generate the contact action can be calculated through corresponding algorithms, specifically, the variation ranges of the currents on the knuckles corresponding to the squared figure number of "4" are 1.2A to 1.5A, the variation ranges of the currents on the knuckles corresponding to the squared figure number of "5" are 0.9A to 1.2A, and the variation ranges of the currents on the knuckles corresponding to the squared figure number of "6" are 0.6A to 0.9A, when the current change information includes the maximum current value, the minimum current value and the current change trend of the formed current loop, taking setting the information formation rule of the knuckle corresponding to the nine-grid number "5" as an example, the information formation rule of the knuckle corresponding to the nine-grid number "5" may be set as: the determined driven finger is a middle finger, the maximum current value and the minimum current value are not less than 0.9A, the maximum current value and the minimum current value are not more than 1.2A, and when the current change trend is from small to large, input information j is formed; when the determined driven finger is a middle finger, the maximum current value and the minimum current value are not less than 0.9A, the maximum current value and the minimum current value are not more than 1.2A, and the current change trend is from large to small, input information k is formed; and when the determined driven finger is a middle finger, the maximum current value and the minimum current value are not less than 0.9A, the maximum current value and the minimum current value are not more than 1.2A, and the current variation trend is neither from small to large nor from large to small, the input information l' is formed.

Then, when the user needs to send the input information "j" to the electronic device through the input information processing apparatus, the knuckle corresponding to the nine-grid number "5" on the middle finger can be used as the target input unit, the thumb is in contact with the target input unit, and the thumb slides on the target input unit towards the palm direction from the fingertip, so that in the current loop formed by the knuckle corresponding to the nine-grid number "4", the knuckle corresponding to the nine-grid number "5", the thumb, the corresponding negative electrode, positive electrode and power supply module, the maximum current and the minimum current are not less than 0.9A and not more than 1.2A, and the electrical digitalization trend on the knuckle (target input unit) corresponding to the nine-grid number "5" is from small to large due to the gradual decrease of the resistance of the knuckle (target input unit) corresponding to the nine-grid number "5" connected to the current loop, the processing unit of the detection processing module can form input information j according to the set information forming rule; similarly, when the user needs to send the input information "k" to the electronic device through the input information processing device, the thumb can be in contact with the knuckle corresponding to the nine-grid number "5" on the middle finger, and the thumb can slide towards the fingertip direction from the palm on the knuckle corresponding to the nine-grid number "5"; similarly, when the user needs to send the input information "k" to the electronic device through the input information processing apparatus, the thumb may be made to touch the knuckle corresponding to the squared figure number "5" on the middle finger.

In summary, with the input information processing device, each knuckle on the index finger, middle finger, ring finger and tail finger wearing the ring with the negative electrode can be used as an input unit, and the user can control the thumb wearing the ring with the positive electrode to generate contact actions with different input units or the thumb wearing the ring with the positive electrode to generate different types of contact actions with the same input unit, so that different input information can be transmitted to the electronic device.

As shown in fig. 4, an embodiment of the present invention provides a method for processing input information by using an input information processing apparatus provided in any one embodiment of the present invention, including:

step 401, wearing the wearable component on a hand of a human body so that the at least one positive electrode and the at least one negative electrode are in contact with a designated part of the hand;

step 402, providing an operating voltage to a hand through the at least one positive electrode and the at least one negative electrode by using the power supply module;

step 403, when a user uses each knuckle of at least one driven finger of a hand as an input unit and controls one active finger of the hand to make contact with one target input unit of the input units, detecting current change information generated by the target input unit according to a working voltage provided by the power supply module and forming corresponding input information according to the current change information by using the detection processing module;

step 404, the wireless communication module is used for sending the input information formed by the detection processing module to an external electronic device.

In a preferred embodiment of the present invention, the,

when the wearable part comprises a bracelet and at least two finger rings,

said wearing the wearable component on a hand of a user such that the at least one positive electrode and the at least one negative electrode are in contact with the hand, comprising: wearing the bracelet on the wrist of a user and wearing the at least two finger rings on at least two fingers of the user, so that the at least one positive electrode and the at least one negative electrode are respectively contacted with the corresponding fingers;

then, the detecting and processing module, when a user uses each knuckle of at least one driven finger of the hand as an input unit and controls one active finger of the hand to make contact with one target input unit of the input units, detects current change information generated by the target input unit according to the working voltage provided by the power supply module, and includes: and the detection processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module when a user takes each knuckle of each driven finger wearing the ring with the negative electrode as an input unit and controls one active finger wearing the ring with the positive electrode to contact with one target input unit in each input unit.

In a preferred embodiment of the present invention, the,

when the input information processing apparatus includes one of the positive electrodes and four of the negative electrodes,

the wearing the at least two finger rings on at least two fingers of a user, comprising: the finger ring provided with the positive electrode is worn on the thumb of the left hand or the right hand of a user, and the four finger rings provided with the negative electrodes are sequentially worn on the index finger, the middle finger, the ring finger and the tail finger of the left hand or the right hand of the user;

then, the detecting and processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module when a user takes each knuckle of each slave finger wearing the ring with the negative electrode as an input unit and controls one active finger wearing the ring with the positive electrode to make contact with one target input unit in each input unit, and the detecting and processing module includes:

when a user uses each knuckle of a forefinger, a middle finger, a ring finger and a tail finger as an input unit and controls a thumb to generate a contact action with one target input unit in the input units, a detection unit of the detection processing module is utilized to determine a driven finger corresponding to the target input unit from the forefinger, the middle finger, the ring finger and the tail finger and detect current change information generated by the target input unit according to the working voltage provided by the power supply module;

and forming corresponding input information according to the determined driven finger and the current change information by utilizing a processing unit of the detection processing module.

In a preferred embodiment of the present invention, the,

before the forming, by the processing unit of the detection processing module, corresponding input information according to the determined driven finger and the current change information, further comprising:

executing, with a detection unit of the detection processing module: detecting a first reference current on the index finger when the thumb is in contact with the tip of the index finger; detecting a second reference current on the middle finger when the thumb is in contact with the middle finger; detecting a third reference current on the ring finger when the thumb is in contact with the ring finger; detecting a fourth reference current on the tail finger when the thumb is in contact with the tail finger;

storing the first reference current, the second reference current, the third reference current and the fourth reference current detected by the detection unit by using a storage unit of the detection processing module;

then, the forming, by the processing unit of the detection processing module, corresponding input information according to the determined driven finger and the current change information includes: and reading a target reference current corresponding to the determined driven finger from the storage unit by using a processing unit of the detection processing module, and forming corresponding input information according to the read target reference current, the determined driven finger and the current change information.

In summary, the embodiments of the present invention have at least the following advantages:

1. in one embodiment of the invention, the input information processing device comprises a wearable part, a power supply module, a detection processing module, a wireless communication module, at least one positive electrode and at least one negative electrode, wherein the wearable part can be worn on the hand of a user, so that the at least one positive electrode and the at least one negative electrode are in contact with the designated part of the hand; therefore, the detection processing module can detect the current change information generated by the target input unit according to the working voltage provided by the power supply module when one active finger of the user control hand is in contact with one target input unit in each input unit, form corresponding input information according to the current change information, and then send the formed input information to the external electronic equipment through the wireless communication module. In summary, the input information processing apparatus does not need to be placed at the designated position of the corresponding electronic device, and the user does not need to keep the corresponding posture at the designated position; by taking each knuckle of at least one driven finger as an input unit, corresponding input information can be sent to the electronic equipment through the input information processing device by controlling a contact action between one active finger and a corresponding target input unit, and user experience is good.

2. In an embodiment of the invention, the wearable component is composed of a bracelet and at least two finger rings, each finger ring is internally provided with a positive electrode or a negative electrode, when the at least two finger rings are worn on at least two fingers of a user, the at least one positive electrode and the at least one negative electrode can be contacted with the corresponding fingers, when a contact action is generated between a target input unit on a target finger wearing the finger ring equipped with the negative electrode and a driving finger wearing the finger ring equipped with the positive electrode, the tissue in a current loop formed by the user access only comprises the driving finger and the target input unit which generate the contact action, the resistance of the current loop formed by the user access is relatively small, correspondingly, under the condition that the working voltage provided by the power supply module is constant (for example, the working voltage is 24V), the current in the formed current loop is relatively large, the detection processing module can easily detect the current change information generated on the formed current loop final target input unit, so that the detection processing module can more accurately form corresponding input information according to the detected current change information.

3. In one embodiment of the invention, the wearable part of the input information processing device comprises 5 finger rings, the 5 finger rings can be worn on 5 fingers of a left hand or a right hand of a human body, the finger ring provided with a positive electrode is worn on a thumb, the four finger rings arranged on a negative electrode are sequentially worn on an index finger, a middle finger, a ring finger and a tail finger of the left hand or the right hand, the thumb is easy to contact with each knuckle of the index finger, the middle finger, the ring finger and the tail finger, and a user can control the thumb to contact with each input unit on each finger wearing the finger ring provided with the negative electrode according to actual requirements, so that a plurality of different input information can be sent to the electronic equipment through the input information processing device.

4. In one embodiment of the present invention, since environmental factors (such as temperature, humidity, etc.) may affect the conductivity of the human body, before the user sends input information to the electronic device through the input information processing apparatus, the user may sequentially contact the thumb wearing the ring with the positive electrode with the fingertips wearing the index finger, middle finger, ring finger, and tail finger wearing the ring with the negative electrode to obtain a first reference current, a second reference current, a third reference current, and a fourth reference current corresponding to the index finger, middle finger, ring finger, and tail finger, respectively, and each reference current may be stored in the storage unit of the detection processing module; in the subsequent process, when the thumb and the corresponding driven finger (the index finger, the middle finger, the ring finger or the tail finger wearing the ring with the negative electrode) generate a contact action to form a corresponding current loop, the processing unit of the detection processing module can read the target reference current corresponding to the driven finger from the storage unit, and form corresponding input information more accurately according to the read target reference current, the driven finger and the current change information.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. An input information processing apparatus characterized by comprising:

the device comprises a wearable component, a power supply module, a detection processing module, a wireless communication module, at least one positive electrode and at least one negative electrode; wherein,

the wearable component is used for being worn on the hand of a user, so that the at least one positive electrode and the at least one negative electrode are in contact with the hand;

the power supply module is used for providing working voltage for the hand through the at least one positive electrode and the at least one negative electrode;

the detection processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module and forming corresponding input information according to the current change information when a user takes each knuckle of at least one driven finger of a hand as an input unit and controls one active finger of the hand to generate contact action with one target input unit in each input unit;

and the wireless communication module is used for transmitting the input information formed by the detection processing module to external electronic equipment.

2. The apparatus of claim 1,

the wearable item, comprising: the bracelet and at least two finger rings; wherein,

the power supply module, the detection processing module and the wireless communication module are all arranged in the bracelet;

each finger ring is internally provided with one positive electrode or one negative electrode;

the bracelet is worn on the wrist of a user;

the at least two finger rings are used for being worn on at least two fingers of a human body, so that the at least one positive electrode and the at least one negative electrode are respectively contacted with the corresponding fingers;

the detection processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module and forming corresponding input information according to the current change information when a user takes each knuckle of each finger wearing the ring with the negative electrode as an input unit and controls one finger wearing the ring with the positive electrode to be in contact action with one target input unit in the input units.

3. The apparatus of claim 2,

the input information processing apparatus includes: one said positive electrode and four said negative electrodes;

a finger ring mounted with the positive electrode for wearing on a thumb of a left or right hand of a user;

4 finger rings provided with the negative electrodes are used for being worn on the index finger, the middle finger, the ring finger and the tail finger of the left hand or the right hand of a user in sequence.

4. The apparatus of claim 3,

the detection processing module comprises: a detection unit and a processing unit; wherein,

the detection unit is used for determining a driven finger corresponding to a target input unit from the index finger, the middle finger, the ring finger and the tail finger when a user takes each knuckle of the index finger, the middle finger, the ring finger and the tail finger as one input unit and controls the thumb to generate contact action with one target input unit in the input units, and detecting current change information generated by the target input unit according to the working voltage provided by the power supply module;

and the processing unit is used for forming corresponding input information according to the determined driven finger and the current change information.

5. The apparatus of claim 4,

the detection processing module further comprises: a storage unit; wherein,

the detection unit is further used for detecting a first reference current on the index finger when the thumb is in contact with the fingertip of the index finger; detecting a second reference current on the middle finger when the thumb is in contact with the middle finger; detecting a third reference current on the ring finger when the thumb is in contact with the ring finger; detecting a fourth reference current on the tail finger when the thumb is in contact with the tail finger;

the storage unit is configured to store the first reference current, the second reference current, the third reference current, and the fourth reference current;

and the processing unit is used for reading the target reference current corresponding to the determined driven finger from the storage unit and forming corresponding input information according to the read target reference current, the determined driven finger and the current change information.

6. The apparatus of claim 5,

the current change information includes: one or more of a maximum current value, a minimum current value, and a current trend.

7. A method of processing input information using the input information processing apparatus according to any one of claims 1 to 6, comprising: wearing the wearable component on a hand of a user such that the at least one positive electrode and the at least one negative electrode are in contact with the hand, further comprising:

providing an operating voltage to the hand through the at least one positive electrode and the at least one negative electrode using the power supply module;

when a user uses each knuckle of at least one driven finger of a hand as an input unit and controls one active finger of the hand to make contact with one target input unit of the input units by using the detection processing module, detecting current change information generated by the target input unit according to working voltage provided by the power supply module and forming corresponding input information according to the current change information;

and transmitting the input information formed by the detection processing module to an external electronic device by using the wireless communication module.

8. The method of claim 7,

when the wearable part comprises a bracelet and at least two finger rings,

said wearing the wearable component on a hand of a user such that the at least one positive electrode and the at least one negative electrode are in contact with the hand, comprising: wearing the bracelet on the wrist of a user and wearing the at least two finger rings on at least two fingers of the user, so that the at least one positive electrode and the at least one negative electrode are respectively contacted with the corresponding fingers;

then, the detecting and processing module, when a user uses each knuckle of at least one driven finger of the hand as an input unit and controls one active finger of the hand to make contact with one target input unit of the input units, detects current change information generated by the target input unit according to the working voltage provided by the power supply module, and includes: and the detection processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module when a user takes each knuckle of each driven finger wearing the ring with the negative electrode as an input unit and controls one active finger wearing the ring with the positive electrode to contact with one target input unit in each input unit.

9. The method of claim 8,

when the input information processing apparatus includes one of the positive electrodes and four of the negative electrodes,

the wearing the at least two finger rings on at least two fingers of a user, comprising: the finger ring provided with the positive electrode is worn on the thumb of the left hand or the right hand of a user, and the four finger rings provided with the negative electrodes are sequentially worn on the index finger, the middle finger, the ring finger and the tail finger of the left hand or the right hand of the user;

then, the detecting and processing module is used for detecting current change information generated by the target input unit according to the working voltage provided by the power supply module when a user takes each knuckle of each slave finger wearing the ring with the negative electrode as an input unit and controls one active finger wearing the ring with the positive electrode to make contact with one target input unit in each input unit, and the detecting and processing module includes:

when a user uses each knuckle of a forefinger, a middle finger, a ring finger and a tail finger as an input unit and controls a thumb to generate a contact action with one target input unit in the input units, a detection unit of the detection processing module is utilized to determine a driven finger corresponding to the target input unit from the forefinger, the middle finger, the ring finger and the tail finger and detect current change information generated by the target input unit according to the working voltage provided by the power supply module;

and forming corresponding input information according to the determined driven finger and the current change information by utilizing a processing unit of the detection processing module.

10. The method of claim 9,

before the forming, by the processing unit of the detection processing module, corresponding input information according to the determined driven finger and the current change information, further comprising:

executing, with a detection unit of the detection processing module: detecting a first reference current on the index finger when the thumb is in contact with the tip of the index finger; detecting a second reference current on the middle finger when the thumb is in contact with the middle finger; detecting a third reference current on the ring finger when the thumb is in contact with the ring finger; detecting a fourth reference current on the tail finger when the thumb is in contact with the tail finger;

storing the first reference current, the second reference current, the third reference current and the fourth reference current detected by the detection unit by using a storage unit of the detection processing module;

then, the forming, by the processing unit of the detection processing module, corresponding input information according to the determined driven finger and the current change information includes: and reading a target reference current corresponding to the determined driven finger from the storage unit by using a processing unit of the detection processing module, and forming corresponding input information according to the read target reference current, the determined driven finger and the current change information.