CN106161909A - image shooting system - Google Patents
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- CN106161909A CN106161909A CN201510126315.5A CN201510126315A CN106161909A CN 106161909 A CN106161909 A CN 106161909A CN 201510126315 A CN201510126315 A CN 201510126315A CN 106161909 A CN106161909 A CN 106161909A
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Abstract
A kind of image shooting system is operable in a dynamic image screening-mode, and comprises an image acquisition module, a processing module and a storage module.When this dynamic image screening-mode, this image acquisition module sequentially shoots an image at interval of one first scheduled time, and sequentially produces the image data of correspondence.This processing module receives this image data, sensing signal and the input signal being relevant at least one ambient parameter, and determined for one second scheduled time according at least one of which of this sensing signal and this input signal, which determine according to image data again, produce the most corresponding numerical data, and store to this storage module, with on the premise of the information content not reducing important image, it is possible to save electric power and data storage area that this image shooting system is consumed.
Description
Technical field
The present invention relates to a kind of image shooting system, particularly relate to a kind of saving electric power and data
The dynamic image camera system of storage area.
Background technology
A kind of existing device for filming image, such as digital camera, smart mobile phone etc., is used to
Dynamic image shoots, and during the most so-called dynamic video recording, is every a scheduled time just shooting one shadow
Picture, so that produce and store a pair should the image data of image.For example, this scheduled time
It is a thirtieth second, if this device for filming image started dynamically to record a video when the 0th second, and arrives
Terminate this when the 100th second dynamically to record a video, then one meet 3,000 image datas of storage together.
Therefore, this existing device for filming image, when carrying out dynamically recording a video for a long time, is produced
Raw huge image data can take bigger memory storage space.
Summary of the invention
The purpose of the present invention is to provide a kind of image bat saving electric power and data storage area
Take the photograph system.
The image shooting system of the present invention is operable in a dynamic image screening-mode, and comprises one
Image acquisition module, a processing module and one store module.
This image acquisition module provides with the image producing this image relevant for shooting one image
Material.When this dynamic image screening-mode, this image acquisition module is at interval of one first pre-timing
Between sequentially shoot the i-th image, and sequentially produce the i-th image data, i=0,1,2 ... N-1, N
For positive integer.
This processing module electrically connects this image acquisition module to receive this image data, and always according to
One input signal and one is relevant at least one of which of the sensing signal of at least one ambient parameter,
Determined for one second scheduled time.This second scheduled time is k times of this first scheduled time, k
For positive integer.When this dynamic image screening-mode, this processing module is respectively according to this kth * j
Image data, j=0,1,2 ... M, M are the quotient of (N-1)/k, produce be correlated with respectively this
The kth * j numerical data of k*j image.
This storage module electrically connects this processing module, when this dynamic image screening-mode, receives
And store this kth * j numerical data from this processing module.
The image shooting system of the present invention, also comprises a sensing module, is used for sensing ring residing for it
At least one ambient parameter in border, to produce this sensing signal.
The image shooting system of the present invention, it is characterised in that: this sensing module includes temperature sensing
Its of device, acceleration sensor, gravity sensor, air pressure sensor and angular velocity sensor
Middle at least one, and detect be relevant to the temperature of its local environment, acceleration, acceleration of gravity,
Air pressure and at least one of which of angular velocity.
The image shooting system of the present invention, it is characterised in that: this sensing module includes that an image is known
Other module, is used for shooting multiple supervision image, and judges surrounding according to described supervision image
Change, to produce this sensing signal.
The image shooting system of the present invention, it is characterised in that:
This processing module also receives this input signal, and determines that this is second pre-according to this input signal
Fix time,
When the logical value of this input signal is equal to first logical value, this processing module determines should
Second scheduled time was equal to this first scheduled time, i.e. k=1,
When the logical value of this input signal is equal to representated by one second logical value and this sensing signal
This ambient parameter more than a preset critical time, this processing module determines this second scheduled time
Equal to this first scheduled time, i.e. k=1,
When the logical value of this input signal is equal to representated by this second logical value and this sensing signal
This ambient parameter when being not more than this preset critical, this processing module determines this second pre-timing
Between equal to a Preset Time, and this Preset Time is more than this first scheduled time so that k is big
In the positive integer of 1.
The image shooting system of the present invention, it is characterised in that: this image shooting system also comprises one
Main frame, this image acquisition module, this storage module, this processing module and this sensing module set
Being placed in this main frame, this processing module electrically connects this sensing module.
The image shooting system of the present invention, it is characterised in that: this image shooting system also comprises one
The first housing, a second housing, a delivery module and a receiver module, this image capture mould
Block, this storage module, this processing module and this receiver module are arranged in this first housing,
This sensing module and this delivery module are arranged in this second housing, and the electrical connection of this delivery module should
Sensing module is to receive this sensing signal, and produces a communication signal with this sensing signal,
This receiver module receives this communication signal to obtain this sensing signal, and electrically connects this processing module
So that this sensing signal is sent to this processing module.
The image shooting system of the present invention, it is characterised in that: this receiver module of this first housing
And this delivery module of this second housing passes receipts by wired and wireless one way in which, and this leads to
News signal.
The image shooting system of the present invention, it is characterised in that: this receiver module of this first housing
And this delivery module support Wireless Fidelity (WiFi) of this second housing, Bluetooth transmission
(Bluetooth), the one of which wireless network transmissions agreement of group honeybee network (ZigBee).
The invention has the beneficial effects as follows by this processing module according to this sensing signal and this input
At least one of which of signal determines this second scheduled time, to determine this image acquisition module institute
The each image data sequentially shot produces the numerical data of correspondence the most according to this, and stores to being somebody's turn to do
Store module, to save electric power and the data storage area that this image shooting system is consumed.
Accompanying drawing explanation
Other the feature of the present invention and effect, by reference to graphic embodiment clearly
Present, wherein:
Fig. 1 is a block chart, and one of image shooting system of the present invention first embodiment is described;
Fig. 2 is a time diagram, and an image data and a numeral of this first embodiment are described
Corresponding relation between data;
Fig. 3 is a block chart, and one of image shooting system of the present invention second embodiment is described;And
Fig. 4 is a block chart, and one of image shooting system of the present invention 3rd embodiment is described.
Detailed description of the invention
Before the present invention is described in detail, it shall be noted that in the following description content, similar
Element represent to be identically numbered.
Refering to Fig. 1, the first embodiment of image shooting system of the present invention comprises an image capture mould
Block 1, one sensing module 3, processing module 4, stores module 2 and and picks for this image
The main frame 5 that delivery block 1, this sensing module 3, this processing module 4 are arranged with this storage module 2.
This image shooting system such as digital camera (Digital Video Camera), smart mobile phone, OK
Car registers etc., are operable in a dynamic image screening-mode.
This image acquisition module 1 provides with the image producing this image relevant for shooting one image
Material.When this dynamic image screening-mode, this image acquisition module 1 makes a reservation at interval of one first
Time sequentially shoots the i-th image, and sequentially produces the i-th image money of the i-th image of being correlated with respectively
Material, i=0,1,2 ... N-1, N are positive integer.
This sensing module 3 is for sensing at least one ambient parameter of its local environment, to produce one
Sensing signal.In the present embodiment, this sensing module 3 includes an angular velocity sensor 31, uses
In the angular velocity sensing this sensing module 3.
Refering to Fig. 1 and Fig. 2, the most for convenience of description for the sake of, with this image shooting system should
Main frame 5 explains as a example by being set up on the vehicle frame of a bicycle.When a user rides this bicycle,
And between the 0th second to the 15th second, the operation of this image shooting system is shot at this dynamic image
Pattern, this image acquisition module 1 is using sixtieth second as this first scheduled time, respectively
At the 0th second (t0), sixtieth second (t1), the 2nd/60th second (t2) ... the 14th again
59/60ths seconds (t899) shoots the 0th image, the 1st image, the 2nd image ... the 899th
Image, to produce the 0th image data of relevant 0th image, the 1st image of being correlated with
1st image data, the 2nd image data of relevant 2nd image ... relevant 899th image
The 899th image data.
Refering to Fig. 1, this processing module 4 electrically connects this image acquisition module 1 to receive this image
Data, and also electrically connect this sensing module 3 to receive this sensing signal, and also receive an input
Signal, and determined for one second scheduled time according to this input signal and this sensing signal.This is second years old
The scheduled time is k times of this first scheduled time, and k is positive integer, shoots at this dynamic image
During pattern, this processing module 4 is respectively according to this kth * j image, j=0,1,2 ... M, M are
(N-1) quotient of/k, produces the kth * j numerical data of this kth * j image data of being correlated with respectively.
This input signal, from an input module (not shown) with a button, is pressed when user presses this
During button, thus it is possible to vary the logical value of this input signal.
When the logical value of this input signal is equal to first logical value, this processing module 4 determines
This second scheduled time is equal to this first scheduled time, i.e. k=1.In the present embodiment, this
One logical value is logic 1.
When the logical value of this input signal is equal to one second logical value, and the logic of this sensing signal
Value for this first logical value with represent this ambient parameter more than a preset critical time, this process mould
Block 4 determines that this second scheduled time is equal to this first scheduled time, i.e. k=1.At the present embodiment
In, this second logical value is logical zero.What is particularly worth mentioning is that, in other embodiments,
This first logical value and this second logical value can be respectively other different logical values.
When the logical value of this input signal is equal to this second logical value, and the logic of this sensing signal
Value for this second logical value to represent this ambient parameter and be not more than this preset critical time, this process
Module 4 determine this second scheduled time equal to a Preset Time, and this Preset Time more than this
One scheduled time so that k is greater than the positive integer of 1.
What is particularly worth mentioning is that, in the present embodiment, this processing module 4 is according to this input
This sensing signal of signal and this sensing module 3, determines this second scheduled time.Real at other
Executing in example, this processing module 4 can not also comprise this sensing module 3, believes according only to this input
Number determine this second scheduled time.
Illustrate that each image data and each numerical data are distinguished refering to Fig. 1 and Fig. 2, Fig. 2
Corresponding image relation in time series.Continue the example above, at the 0th second to the 2nd
Between Miao, the logical value of this input signal be the angular velocity of logical zero and this sensing module 3 be 80
Degrees second (dps), this preset critical is 120 degrees second (dps), because 80 less than 120, now
This user is probably and rides this bicycle on a straight line path, and this angular velocity sensor 31 produces
This sensing signal of this logical zero raw, this processing module 4 determines this second scheduled time equal to being somebody's turn to do
Preset Time, such as 1 second, now k=60.This processing module 4 provides according to this 60*0 image
Material, the i.e. the 0th image data, the 0th image data is made as, after the calculation process of compression, produced
The 60*0 numerical data of this 60*0 image raw relevant, the 0th image of being i.e. correlated with this
0 numerical data.In like manner, this processing module 4 according to this 60*1 image data, the i.e. the 60th
Image data, makees the 60th image data as after the calculation process of compression, and generation is relevant should
The 60*1 numerical data of 60*1 image, the 60th numeral of the 60th image of being i.e. correlated with
Data.
Between the 2nd second to the 10th second, the logical value of this input signal is logical zero and this sense
The angular velocity surveying module 3 is 160 degrees second (dps), because 160 more than 120, and now this use
Person is probably and rides this bicycle on a curved path, and this angular velocity sensor 31 produces this and patrols
This sensing signal of volume 1, this processing module 4 determines that this second scheduled time is first pre-equal to this
Fix time, i.e. sixtieth second, now k=1.This processing module 4 is according to this 1*120
Image data, the i.e. the 120th image data, the 120th image data is made such as the computing of compression
After process, produce the 1*120 numerical data of this 1*120 image relevant, be i.e. correlated with this
120th numerical data of 120 images.This processing module 4 provides according to this 1*121 image
Material, the i.e. the 121st image data, after the 121st image data is made the calculation process as compressed,
Produce the 1*121 numerical data of this 1*121 image relevant, the 121st image of being i.e. correlated with
The 121st numerical data.In like manner, this processing module 4 produces the 122nd shadow of being correlated with respectively
Picture, the 123rd image ... to the 122nd numerical data, the 123rd numeral money of the 599th image
Material ... to the 599th numerical data.
Between the 10th second to the 12nd second, this user may have object or the wind wanting shooting
Scape and press this button of this input module, now, the logical value of this input signal becomes logic
1, no matter and the logical value of this sensing signal be logical zero or logic 1, this processing module 4 determines
This second scheduled time is equal to this first scheduled time, i.e. sixtieth second, now k=1.
In like manner, this processing module 4 produces be correlated with respectively the 600th image, the 601st image ... to
600th numerical data of 719 images, the 601st numerical data ... to the 719th numerical data.
Between the 12nd second to the 15th second, the logical value of this input signal is logical zero and this sense
Survey the angular velocity of module 3 once again less than this default threshold value, now, this angular velocity sensor 31
Producing this sensing signal of this logical zero, this processing module 4 determines that this second scheduled time is equal to
This Preset Time, such as 1 second, now k=60.In like manner, this processing module 4 produces and is correlated with respectively
720th image, the 780th image and the 720th numerical data of the 840th image, the 780th
Numerical data and the 840th numerical data.
This storage module 2 electrically connects this processing module 4, when this dynamic image screening-mode,
Receive and store this kth * j numerical data from this processing module 4.Continue the example above,
This storage module 2 stores the 0th numerical data from this processing module 4, the 60th numeral
Data, the 120th numerical data, the 121st numerical data, the 122nd numerical data ... to the 719th
Numerical data, the 720th numerical data, the 780th numerical data and the 840th numerical data.
Quantity and this processing module 4 by the numerical data stored by this storage module 2 produce institute
From the point of view of stating the required operand of numerical data, this case compared with prior art under because
Need not all 0th images, the 1st image, the 2nd image ... the 899th image data is all made
Computing and storage, and can effectively save electric power and the data storage sky that this image shooting system is consumed
Between.The more important thing is, although the negligible amounts of stored numerical data, but because can pass through
It is interested that this sensing signal of this input signal and this sensing module 3 and Selecting operation have user
Image data and store the numerical data of its correspondence, and described numerical data can be made to be comprised
The information content of important image will not reduce.
Refering to Fig. 3, the second embodiment of image shooting system of the present invention is generally first real with this
Executing example identical, different places is: this image shooting system also comprise a first housing 51,
One second housing 52, delivery module 6 and a receiver module 7.This image acquisition module 1,
This storage module 2, this processing module 4 and this receiver module 7 are arranged at this first housing 51
In.This sensing module 3 and this delivery module 6 are arranged in this second housing 52.This transmission
Module 6 electrically connects this sensing module 3 to receive this sensing signal, and produces one and have this sensing
The communication signal of signal.This receiver module 7 receives this communication signal to obtain this sensing signal,
And electrically connect this processing module 4 this sensing signal to be sent to this processing module 4.This is first years old
This receiver module 7 of body 51 and this delivery module 6 of this second housing 52 can be by having
Line and wireless one way in which pass receives this communication signal.In the present embodiment, this first machine
This receiver module 7 of body 51 and this delivery module 6 of this second housing 52 support Wireless Fidelity
(WiFi), Bluetooth transmission (Bluetooth), the one of which wireless network of group's honeybee network (ZigBee)
Host-host protocol.Compare with this first embodiment, this first housing 51 of this second embodiment and
This second housing 52 can be separately positioned on diverse location, also allows for this sensing module 3
Position can be different from the position of this image acquisition module 1.
Additionally, also different from this first embodiment place of this second embodiment is this sensing module
3 include one first sensor 32,1 second sensor 33 ... and an X sensor 34, X
For positive integer.This first sensor 32, this second sensor 33 ... and this X sensor 34,
Can be temperature-sensitive sticker, acceleration sensor, gravity sensor and air pressure sensor respectively
Either of which, be relevant to the temperature of each sensor 32,33,34 local environment with sensing
At least one of which of degree, acceleration, acceleration of gravity and air pressure, and produce there is this temperature
This sensing signal of wherein this at least one of degree, acceleration, acceleration of gravity and air pressure.
This processing module 4 determines this second scheduled time according to this input signal and this sensing signal.Example
As this sensing module 3 senses temperature, acceleration and air pressure, this processing module 4 is big in temperature
When a default temperature value and acceleration are more than a predetermined acceleration value, determine this second pre-timing
Between equal to one first Preset Time, such as 1/120th second.And manage module 4 in this place and exist
Temperature more than a default temperature value and acceleration less than a predetermined acceleration value time, determine this second
The scheduled time was equal to one second Preset Time, such as a thirtieth second.
Additionally it is noted that identical with this first embodiment, this input signal is from this tool
There is the input module (not shown) of this button, and this input module can be arranged on this first housing
51, it is also possible to be arranged on this second housing 52, not subject to the limits.
Refering to Fig. 4, the 3rd embodiment of image shooting system of the present invention is generally first real with this
Executing example identical, different places is: this sensing module 3 includes an image identification module 35,
Shoot a series of supervision image for sequentially, such as, take the photograph one towards a predetermined angle of view every a second beats
Secondary, and image change (motion vector) is obtained according to described supervision image computing, and then
Judge the change of the surrounding of this image identification module 35, to produce this sensing signal, should
The logical value of sensing signal can indicate the change of this surrounding.What is particularly worth mentioning is that,
In the present embodiment, this sensing module 3 and this processing module 4 are all disposed on this main frame 5,
In other embodiments, referring again to Fig. 3, it is possible to this second embodiment similar, by this sensing module
3 and this processing module 4 be separately positioned on this second housing 52 and this first housing 51, and lead to
Cross this delivery module 6 and this receiver module 7 passes and receives this sensing signal.
In sum, determined according to this input signal and this sensing signal by this processing module 4
This second scheduled time, to determine that this image acquisition module 1 is according to this first predetermined time interval institute
Shooting the computing the most according to this of each image data and produce correspondence numerical data and storage extremely
This storage module 2, to save electric power and the data storage area that this image shooting system is consumed,
So the purpose of the present invention really can be reached.
As described above, only embodiments of the invention, when not limiting the present invention with this
The scope implemented, the most all according to claims of the present invention and description made simple etc.
Effect change and modification, the most still belong to the scope of the present invention.
Claims (9)
1. an image shooting system, is operable in a dynamic image screening-mode, and it is special
Levy and be: it comprises:
One image acquisition module, for shooting one image to produce an image of this image relevant
Data, when this dynamic image screening-mode, this image acquisition module is pre-at interval of one first
Fix time and sequentially shoot the i-th image, and sequentially produce the i-th image data, i=0,1,2 ... N-1,
N is positive integer;
One processing module, electrically connects this image acquisition module to receive this image data, and also
At least a part of which of the sensing signal of at least one ambient parameter it is relevant to according to an input signal and one
One, determined for one second scheduled time, and this second scheduled time is the k of this first scheduled time
Times, k is positive integer, and when this dynamic image screening-mode, this processing module is respectively according to being somebody's turn to do
Kth * j image data, j=0,1,2 ... M, M are the quotient of (N-1)/k, produce and be correlated with respectively
The kth * j numerical data of this kth * j image;And
One stores module, electrically connects this processing module, when this dynamic image screening-mode,
Receive and store this kth * j numerical data from this processing module.
Image shooting system the most according to claim 1, it is characterised in that: this image
Camera system also comprises a sensing module, for sensing at least one environment ginseng of its local environment
Number, to produce this sensing signal.
Image shooting system the most according to claim 2, it is characterised in that: this sensing
Module include temperature-sensitive sticker, acceleration sensor, gravity sensor, air pressure sensor,
And at least one of which of angular velocity sensor, and detect be relevant to its local environment temperature,
At least one of which of acceleration, acceleration of gravity, air pressure and angular velocity.
Image shooting system the most according to claim 2, it is characterised in that: this sensing
Module includes an image identification module, is used for shooting multiple supervision image, and according to described supervision
Image judges the change of surrounding, to produce this sensing signal.
Image shooting system the most according to claim 2, it is characterised in that:
This processing module also receives this input signal, and according to this input signal determine this second
The scheduled time,
When the logical value of this input signal is equal to first logical value, this processing module determines
This second scheduled time is equal to this first scheduled time, i.e. k=1,
When the logical value of this input signal is equal to representated by one second logical value and this sensing signal
This ambient parameter more than a preset critical time, this processing module determines this second pre-timing
Between equal to this first scheduled time, i.e. k=1,
When the logical value of this input signal is equal to representated by this second logical value and this sensing signal
This ambient parameter when being not more than this preset critical, this processing module determines that this second makes a reservation for
Time is equal to a Preset Time, and this Preset Time is more than this first scheduled time so that k
It is greater than the positive integer of 1.
Image shooting system the most according to claim 2, it is characterised in that: this image
Camera system also comprises a main frame, this image acquisition module, this storage module, this process mould
Block and this sensing module are arranged in this main frame, and this processing module electrically connects this sensing module.
Image shooting system the most according to claim 2, it is characterised in that: this image
Camera system also comprises a first housing, a second housing, a delivery module and a reception
Module, this image acquisition module, this storage module, this processing module and this receiver module
Being arranged in this first housing, this sensing module and this delivery module are arranged at this second housing
In, this delivery module electrically connects this sensing module to receive this sensing signal, and produces a tool
Having the communication signal of this sensing signal, this receiver module receives this communication signal to obtain this sense
Survey signal, and electrically connect this processing module so that this sensing signal is sent to this processing module.
Image shooting system the most according to claim 7, it is characterised in that: this is first years old
This receiver module of body and this delivery module of this second housing pass through wired and wireless its
Middle a kind of mode passes this communication signal of receipts.
Image shooting system the most according to claim 8, it is characterised in that: this is first years old
This receiver module of body and this delivery module of this second housing support Wireless Fidelity
(WiFi), Bluetooth transmission (Bluetooth), the one of which wireless network of group's honeybee network (ZigBee)
Network host-host protocol.
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Application publication date: 20161123 |