CN106484087A - A kind of Portable telemetry body-sensing input method and device - Google Patents
A kind of Portable telemetry body-sensing input method and device Download PDFInfo
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- CN106484087A CN106484087A CN201510555720.9A CN201510555720A CN106484087A CN 106484087 A CN106484087 A CN 106484087A CN 201510555720 A CN201510555720 A CN 201510555720A CN 106484087 A CN106484087 A CN 106484087A
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Abstract
The present invention relates to a kind of Portable telemetry body-sensing input method and device, belong to electronic technology field, can wear in wrist, meet the requirement of different input functions, realize interacting of a device and multiple terminals.The mapping relations of posture state feedback that the present invention according to wrist is in and change feedback signal and various different input functions, determine different input functions and specific quick input signal.Realize the man-machine interactive operation to multi-environment different terminals.
Description
Technical field
The present invention relates to electronic technology field, more particularly, to a kind of Portable telemetry body-sensing input method and device.
Background technology
With the development of electronic technology, display screen is increasing, particularly the display screen of mobile phone has arrived greatly singlehanded inconvenience manipulation, the long very tired unfavorable health of both hands manipulation.And existing body-sensing input equipment has that volume is excessive and inconvenience is carried with or accuracy of identification is not carefully not suitable for palm pilots, lead to application bad.
Content of the invention
Embodiments of the invention provide a kind of Portable telemetry body-sensing input method and device, can wear in wrist, substitute mouse, remote control, be easy to the input operation to terminals such as huge screen mobile phones.Make input more convenient.Wear in wrist, applicable various places are closed, even if can also use in the change of the figure such as walking and prone position.For reaching above-mentioned purpose, embodiments of the invention adopt the following technical scheme that:
Embodiments of the invention provide a kind of body-sensing input method, for a kind of terminal, realize but are not limited to following functions and include:
The mapping relations of posture state feedback that body-sensing mapping block according to the wrist that body-sensing module senses is in and change feedback signal and various different input functions, determine different input functions and specific quick input signal.To realize the light switching between different input functions and specific quick input signal etc. in mouse input, cell phone keyboard input, scaling input, remote control input etc..
Body-sensing module senses that the be in state of wrist produces different body-sensing feedback signals and is mapped to corresponding input function by body-sensing mapping block:
Body-sensing module senses inside wrist that down or upward or inwardly or forward or backwards etc. wrist position produces different body-sensing feedback signals and is mapped to corresponding input function by body-sensing mapping block, selects different types of input signal for during use.During using this terminal as the input of mobile phone, the different input functions such as the corresponding mouse input of entrance, input through keyboard, scaling input can be mapped.The input function such as (volume) input, digital key input about entrance corresponding (channel selection) up and down then can be mapped when this terminal is as remote control.
Body-sensing module senses that the body-sensing that wrist rotation produces feeds back the conversion that signal is mapped to input function by body-sensing mapping block, to complete to toggle between the functions such as mouse state, keyboard state, zoom state, dialing.
Body-sensing module senses that the body-sensing feedback signal that the number of times of the continuous rotation of wrist produces is mapped to corresponding input function by body-sensing mapping block and specific quick input signal is such as directly entered dialing input etc..
The telemetry module of this device includes signal filtering module and detecting module:
Signal filtering module, by the signal of detecting module feedback after filtering, only retains the signal passed back in the range of given Telemetry position layer to remote measurement mapping block;
Detecting module contains detection submodule 1 and detects submodule 2, detect submodule 1 and have the movement locus that ultrasonic listening function catches finger vertical joint left and right directions, detect simultaneously submodule 2 tool laser acquisition function catch finger along joint movement locus in front-rear direction.Finger vertical joint left and right directions and the movement locus along joint fore-and-aft direction can also be caught by detecting submodule 1 complete independently during power saving.So make whole detecting module very little skilful, remote measurement plane can be pressed close to, solve right position and the longitudinal separation that the enough height of the input equipment requirement such as laser projection virtual keyboard could identify signal by triangle polyester fibre, the thickness that device not only can be greatly reduced is cheaper than and carries, and solves the problems, such as that in precision other remote measurement somatosensory device can not effectively identify this kind of wisp of finger.
Whole device is attached on arm, independent stealth Telemetry position layer, and this Telemetry position layer need not be projected on any object, does not also have eye diagram, and convenient use is it is adaptable to various occasion on the contrary, even if can also use in walking.
Remote measurement mapping block, feeds back the mapping relations of signal and various varying input signals, determines different input signals according to the finger that remote measurement is arrived.
Enter after Telemetry position layer according to finger inflection, the space length position away from telemetered signal source for the finger, the order of movement locus and finger entrance Telemetry position layer determines the mapping relations with varying input signal, and determines corresponding input information.
When the input function that body-sensing module determines is that cursor is mobile and when selecting, remote measurement to finger quantity and sequentially, movement locus signal corresponding cursor signal is mapped as by remote measurement mapping block:The space length change information away from telemetered signal source for detect first finger is mapped as cursor movable signal over the display;It is mapped as confirming selection signal by the signal detecting to the left after first signal is detected;The signal detecting on the right side of it after detect first signal is mapped as right button signal;It is mapped as roll signal when the finger signal of more than three is detected, and the roll signal as display content for the feedback of the information in front and back away from the movement of telemetered signal source with finger.To realize substituting the functions such as the slip of mouse, left button, right button, rolling.
When body-sensing module determine input function be scaling input when, by remote measurement mapping block by remote measurement to feedback signal be mapped as scale signal, and by the distance between multiple fingers detecting change be mapped as scale variable signal.To realize the amplification of display content and to reduce.
When body-sensing module determine input function input for polydeter key-position area when, Telemetry position layer is divided into the key-position area of many ranks by the scope of five finger extensions, in a certain key-position area remote measurement to finger signal when start this corresponding signal in key-position area.Be implemented without virtual mobile phone keyboard or the virtual remote control keyboard being projected on any object, and be attached in wrist not only easy to carry and using being that movement range is little.
Brief description
For the technical scheme being illustrated more clearly that in the embodiment of the present invention, the accompanying drawing of use required in embodiment will be briefly described below, apparently, drawings in the following description are only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, can also obtain other accompanying drawings according to these accompanying drawings
The flow chart of the Portable telemetry body-sensing input method that Fig. 1 provides for one embodiment of the invention;
The structural representation of the Portable telemetry body-sensing input method that Fig. 2 provides for one embodiment of the invention;
The telemetry module schematic diagram that Fig. 3 provides for one embodiment of the invention;
The schematic diagram of the Telemetry position layer of the Portable telemetry body-sensing input method that Fig. 4 provides for one embodiment of the invention;
The use schematic diagram of the Portable telemetry body-sensing input method that Fig. 5 provides for one embodiment of the invention;
The virtual key position schematic diagram of the Portable telemetry body-sensing input method that Fig. 6 provides for one embodiment of the invention;
Specific embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, all other embodiment that those of ordinary skill in the art are obtained under the premise of not making creative work, broadly fall into the scope of protection of the invention.
One embodiment of the invention provides a kind of body-sensing input method, as shown in figure 1, including:
101, determine posture state feedback and the change feedback of wrist.
102, determine quantity feedback and the change feedback of finger.
103, the mapping relations of the posture state feedback according to described wrist and the feedback that changes, the quantity feedback of finger and change feedback and input information, determine input information.
As shown in Fig. 2 the present embodiment includes:
Posture state feedback and change feedback signal and the mapping relations of various different input functions that 202 body-sensing mapping blocks by the wrist that optional 201 body-sensing modules sense are in, determine the different input function of 203 entrance.To realize the light switching being such as directly entered between dialing input etc. in the different input functions such as mouse input, cell phone keyboard input, scaling input, remote control input and specific quick input signal.
A kind of possible implementation includes:201 body-sensing modules sense inside wrist that down or upward or inwardly or forward or backwards etc. wrist position produces different body-sensing feedback signals and are mapped to corresponding input function by 202 body-sensing mapping blocks.During using this terminal as the input of mobile phone, the different input functions such as the corresponding mouse input of entrance, input through keyboard, scaling input can be mapped.The input function such as (volume) input, digital key input about entrance corresponding (channel selection) up and down then can be mapped when this terminal is as remote control.
Alternatively possible implementation includes:
201 body-sensing modules sense that the body-sensing that wrist rotation produces feeds back the switching that signal is mapped to input function by body-sensing mapping block.Wrist rotation feeds back, more than the body-sensing of 100 ° of generations, the switching that signal is mapped to 203 different input functions by 202 body-sensing mapping blocks, to complete to toggle between the functions such as mouse function, keypad function, zoom function, dialing.
Another possible implementation includes:
201 body-sensing modules sense that the body-sensing feedback signal that the number of times continuously rotating more than 100 ° of wrist produces is mapped to 203 different input functions by 202 body-sensing mapping blocks, user can make 1 entrance mouse input function of the continuous rotation of wrist by oneself, continuous rotation 2 times enters keypad functions, continuously rotates 3 entrance zoom functions etc..
On the other hand, the present embodiment includes:
211 telemetry modules by remote measurement to feedback signal be mapped to 212 remote measurement mapping blocks, determine and produce 213 corresponding input signals.
211 telemetry modules include signal filtering module and detecting module;
Alternatively possible implementation as shown in Figure 2 a, including:
2112 signal filtering modules, the signal that 2111 detecting modules are fed back to after filtering, signal transmission is given 212 remote measurement mapping blocks;
As shown in figure 4, including:
By the signal that feeds back to 401 radial pattern detecting modules after filtering, only retain the signal passed back in the range of given 402 Telemetry position layers.402 is invisible working region.
As shown in figure 5, including:
Whole device is attached on arm, independent 504 (stealthy) Telemetry position layer, and the signal source of telemetry module is pushing less than 2 with finger distance, and 504 Telemetry position layers no more than hands are around 3 times of wrist extending range.504 outer is not less than a palm width away from signal source minimum range.This 504 Telemetry position layer need not be projected on any object, does not also have eye diagram, and convenient use is it is adaptable to various occasion on the contrary, even if can also use in walking.
Given 504 (stealthy) Telemetry position layer is entered according to finger inflection, the space length position away from telemetered signal source for the finger, movement locus and finger enter the order determination of 504 (stealthy) Telemetry position layer and the mapping relations of varying input signal, and determine the corresponding input information of input.
Another possible implementation includes:
When the input function that body-sensing module determines moves for cursor and selects, remote measurement to finger quantity, movement locus and sequential signal are mapped as corresponding cursor signal by remote measurement mapping block, and the space length feedback of the information away from telemetered signal source for detect first finger is cursor mobile message over the display;It is mapped as confirming selection signal by the signal detecting to the left after first signal is detected;The signal detecting on the right side of it after detect first signal is mapped as right button signal;It is mapped as roll signal when the finger signal of more than three is detected, and the roll signal as display content for the feedback of the information in front and back away from the movement of telemetered signal source with finger.To realize substituting the functions such as the slip of mouse, left button, right button, rolling.
Another possible implementation includes:
When the input function that body-sensing module determines is scaling input, remote measurement to two fingers and above signal is mapped as by scale signal by remote measurement mapping block, and the change of the distance between multiple fingers detecting is mapped as scaling variable signal.To realize the amplification of display content and to reduce.
Also a kind of possible implementation is as shown in fig. 6, include:
When the input function that body-sensing module determines inputs for polydeter key-position area, Telemetry position layer is divided into the key-position area of many ranks by the scope of five finger extensions:Virtual key position area 13 of virtual key position area 1, remote measurement in a certain key-position area maps this corresponding input signal in key-position area to during finger signal by remote sensing mapping block.Be implemented without virtual mobile phone keyboard or the virtual remote control keyboard being projected on any object, and be attached in wrist not only easy to carry and using being that movement range is little.
Claims (8)
1. a kind of remote measurement body-sensing input method it is characterised in that:
The mapping relations of wrist posture feedback of status that body-sensing mapping block senses according to body-sensing module and change feedback signal and various different input functions, determine different input functions and specific quick input signal.
2. remote measurement body-sensing input method according to claim 1 it is characterised in that:Body-sensing module senses the be in state of wrist, produces body-sensing feedback signal and is mapped to corresponding input function by body-sensing mapping block.
3. remote measurement body-sensing input method according to claim 1 it is characterised in that:Body-sensing module senses wrist rotation, and the body-sensing of generation feeds back the conversion that signal is mapped to input function by body-sensing mapping block.
4. a kind of remote measurement body-sensing input method it is characterised in that:
Telemetry module includes:Signal filtering module and detecting module;
Signal filtering module, by the signal of detecting module feedback after filtering, only retains the signal passed back in the range of given Telemetry position layer to remote measurement mapping block;
Detecting module contains and detects submodule 1 and detect submodule 2, detects the movement locus that submodule 1 catches finger vertical joint left and right directions, detect simultaneously submodule 2 catch finger along joint movement locus in front-rear direction.
5. remote measurement body-sensing input method according to claim 4 it is characterised in that:
The finger signal that remote measurement mapping block feeds back to according to telemetry module and the mapping relations of various varying input signals, determine different input signals.
6. remote measurement body-sensing input method according to claim 5 it is characterised in that:
When the input function being determined by body-sensing module is mobile and when selecting for cursor, by remote measurement mapping block by remote measurement to feedback signal be mapped as corresponding cursor input signal.
7. remote measurement body-sensing input method according to claim 5 it is characterised in that:
When the input function being determined by body-sensing module be scaling input when, by remote measurement mapping block by remote measurement to feedback signal be mapped as scale signal, and by the distance between multiple fingers detecting change be mapped as scale variable signal.
8. remote measurement body-sensing input method according to claim 5 it is characterised in that:
When the input function being determined by body-sensing module inputs for polydeter key-position area, under the input function of polydeter key-position area, by Telemetry position layer by the key-position area being divided into many ranks in the range of five finger extensions, remote measurement in a certain key-position area starts this corresponding mapping signal in key-position area to finger signal.
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