CN102055997A - Learning processing method of 3D (three-dimensional) spectacles and learner - Google Patents
Learning processing method of 3D (three-dimensional) spectacles and learner Download PDFInfo
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Abstract
The invention discloses a learning processing method of 3D (three-dimensional) spectacles. Synchronous infrared signals of 3D play devices of existing brands are received by a learner, switching signals original 3D spectacles of are received by an optical signal channel, the synchronous infrared signals and the switching signals are simultaneously transmitted to a microprocessor, the microprocessor compares the wave form of the synchronous infrared signals with that of the switching signals, the corresponding positions of the on/off time points and periods of the left lens and the right lens of the original 3D spectacles in the infrared signals are recorded, and corresponding relational data information is generated and stored, sent through the learner and received and stored by to-be-learnt 3D spectacles. Through the learning process of the original 3D spectacles for a 3D television, a user can watch the present 3D television by wearing the to-be-learnt 3D spectacles, so that the user needs not to wear the original 3D spectacles while watching 3D televisions of different brands, and the general function of 3D spectacles is realized.
Description
Technical field
The present invention relates to the 3D technical field, relate in particular to a kind of learning processing method of 3D glasses, the 3D that can learn various brand playback equipments plays synchronizing signal, makes 3D glasses to be learnt adapt to current 3D playback equipment; Also relate to matching used learner and learning-oriented 3D glasses in the said method.
Background technology
3D is the abbreviation of three-dimensional, refer to three-dimensional graph, the 3 D stereoscopic image TV, it is the stereo display effect of 3D LCD TV, bore hole 3D TV is by add special accurate cylindrical lens screen on liquid crystal panel, to independently send into people's right and left eyes through the 3D video image of encoding process, thereby make the user need not can bore hole experience stereo perception by anaglyph spectacles, simultaneously can compatible 2D picture.But that is that all right is ripe and perfect in bore hole 3D technical development, and technological difficulties are many, closely is confined to the public business situations of the small screen at present, also can't use widely.And in the family expenses consumer field, no matter be display, projector or TV, all be to need to cooperate the 3D liquid crystal glasses to use now.
Development trend according to China 3D TV tech, the 3D TV will enter the volume production stage in this year, at present, on the TV selling market, various brands producers such as Sony, Samsung, the Panasonic 3D TV that released one after another, say as above-mentioned institute, the viewing effect of family expenses 3D TV must realize by the 3D liquid crystal glasses, and this 3D glasses all are third generation 3D liquid crystal glasses of supporting, similar with the remote signal of different brands TV, the synchronizing signal agreement of third generation 3D liquid crystal glasses also is inequality because the 3D brand of television is different.
Therefore, the necessary different 3D glasses of adapted of the 3D television set of different brands, and the third generation 3D liquid crystal glasses of selling in the market also just mates the 3D television set of single brand, the original-pack 3D glasses of different brands 3D TV can't exchange use, the user need wear the original-pack 3D glasses of different brands TV, like this when watching the 3D TV of different brands, just cause user's very inconvenience in use, also in a disguised form must increase purchase cost.
Summary of the invention
An object of the present invention is to provide a kind of learning processing method of 3D glasses, by need being used the learning process of the original-pack 3D glasses of 3D TV, wear 3D glasses to be learnt and to watch current 3D TV, thereby make the user when watching different brands 3D TV, need not to wear original-pack 3D glasses, realized the general utility functions of 3D glasses.
Another object of the present invention is to provide matching used learner and learning-oriented 3D glasses in the said method.
Above-mentioned purpose of the present invention is achieved by the following technical solution: a kind of learning processing method of 3D glasses may further comprise the steps:
(1) opens the 3D playback equipment that to be used and play the 3D program, original-pack 3D glasses are put into learner, original-pack 3D glasses are in effective scope of application;
(2) learner can detect the synchronous infrared signal that the 3D playback equipment sends and the switching signal of original-pack 3D glasses simultaneously, and the synchronous infrared signal waveform that receives of synchronous recording and the switching frequency and the time waveform of left and right two eyeglasses of original-pack 3D glasses;
(3) microprocessor in the learner compares described synchronous infrared signal waveform and described switching frequency and time waveform, write down time point and the correspondence position of cycle in synchronous infrared signal that left and right two eyeglasses of original-pack 3D glasses open and close, and generate the corresponding relation data message;
(4) 3D glasses to be learnt are in mode of learning, and learner is given 3D glasses to be learnt with the corresponding relation data information transfer, and by being stored in the memory after its reception, withdraw from mode of learning then, and learning process finishes.
As embodiments of the present invention, in step of the present invention (2):
When learner can not detect the switching signal of synchronous infrared signal that the 3D playback equipment sends and original-pack 3D glasses, the position of mobile learning device was until can receiving signal, otherwise original-pack 3D glasses can not be learnt;
When learner can not detect the synchronous infrared signal that the 3D playback equipment sends, and can detect the switching signal of original-pack 3D glasses the time, original-pack 3D glasses can not be learnt;
When learner can detect the synchronous infrared signal that the 3D playback equipment sends, and can not detect the switching signal of original-pack 3D glasses the time, the position of mobile learning device is until can receiving signal, otherwise original-pack 3D glasses can not be learnt.
The present invention is in described step (2), and when learner did not receive any signal, showing on the display screen did not have signal message.
As a further improvement on the present invention, in described step (3): learner is when receiving new signal, whether microprocessor can be analyzed the synchronous code of being received consistent with the synchronous code form of originally having stored, if do not find corresponding synchronous code form, then need to create a new synchronous code form storage.
As a further improvement on the present invention, in described step (4), learner is closed the 3D playback equipment before giving 3D glasses to be learnt with the corresponding relation data information transfer.
Another object of the present invention is achieved by the following technical solution: a kind of 3D glasses learner comprises the receiver that is used to receive the synchronous infrared signal of 3D playback equipment; Microprocessor with study decoding function; Be used to place two pairs of photo-signal channels of the original-pack 3D glasses of described 3D playback equipment; Every pair of photo-signal channel is made up of white light source and photodiode, and original-pack 3D glasses place between white light source and the photodiode, and left and right sides eyeglass is aimed at a light source respectively; Be used to launch the infrared transmitter of described microprocessor processes recording data information;
Described receiver receives the synchronous infrared signal of this brand 3D playback equipment, and photo-signal channel receives the switching signal of original-pack 3D glasses, be transferred to microprocessor simultaneously, compare by the waveform of microprocessor described synchronous infrared signal waveform and described switching signal, write down time point and the correspondence position of cycle in synchronous infrared signal that left and right two eyeglasses of original-pack 3D glasses open and close, and generate corresponding relation data message and storage, send through infrared transmitter.
A kind of learning-oriented 3D glasses that are used with learner, comprise mirror holder, left and right sides liquid crystal lens, be installed on receiver, processor, memory on the mirror holder, described receiver is the infrared remote receiver corresponding with infrared transmitter coupling in the described learner, the corresponding data information storage that infrared remote receiver reception learner sends is in memory, as the current synchronous control signal agreement of processor, make eyeglass according to each the parameter work that receives storage.
Learner of the present invention can be compared the coherent signal of the 3D playback equipment of original-pack 3D glasses and use adaptive with it, obtains the corresponding relation data message, again with this data information transfer to 3D glasses to be learnt and by its storage; The present invention's 3D glasses to be learnt just can be suitable and carry out normal viewing with the 3D playback equipment of current use; Therefore, the present invention's 3D glasses to be learnt are behind the original-pack 3D glasses " study " to various brand 3D playback equipments, and 3D glasses to be learnt can adapt to various brand 3D playback equipments, realize general utility functions, be user-friendly to, also reduced user's purchase cost simultaneously.
Learner of the present invention sends data-signal to 3D glasses to be learnt by wired connection or wireless connections mode, wherein, the wired connection mode can learner and between adopt the usb data line, and the wireless connections mode is that the infrared position that 3D glasses to be learnt are placed on the learner appointment is got final product, and this moment, learner was to send red sage outside line command code string to 3D glasses to be learnt.
3D glasses to be learnt of the present invention are provided with the indicator light that is used to point out operating state, and described learner is provided with and is used to show the information display screen that can not normally learn.Indicator light is to point out 3D glasses to be learnt to enter learning state or learning process end in the light flash mode; Display screen then can show the information indicating that learner does not receive signal or can not learn.
Compared with prior art, the present invention has following significant effect:
(1) the invention solves the uncurrent problem of 3D glasses, learner can send to the signal data of any brand 3D playback equipment and original-pack 3D glasses thereof 3D glasses to be learnt, make that 3D glasses to be learnt can adapt to any brand 3D playback equipment, and need not to use original-pack 3D glasses to carry out viewing, greatly facilitate the user and use.
(2) the present invention is owing to need not to use original-pack 3D glasses, the purchase cost that can save the user.
(3), make that 3D glasses to be learnt can constantly expand universal sync database data by the learning process of the present invention's 3D glasses to be learnt.
(4) the present invention is suitable for family expenses 3D TV, also is suitable for other 3D playback equipment simultaneously, and therefore the equipment that is suitable for is more extensive.
Description of drawings
The present invention is described in further detail below in conjunction with the drawings and specific embodiments.
Fig. 1 is the schematic diagram that the learning-oriented 3D glasses of the present invention, learner and 3D playback equipment are used;
Fig. 2 is the block diagram of the learning-oriented 3D glasses of the present invention learning processing;
Fig. 3 is the present invention's 3D glasses to be learnt and the 3D playback equipment block diagram when being used;
Fig. 4 is the microprocessor work flow chart of learner;
Fig. 5 is a learner operation principle block diagram.
Embodiment
As shown in Figure 1, the combinatorial principle schematic diagram of a kind of learning-oriented 3D glasses of the present invention, comprise learner and the 3D glasses that supporting use is to be learnt of being used to place the 3D glasses that to be learnt, 3D glasses to be learnt comprise mirror holder, left and right sides liquid crystal lens, are installed on receiver, processor, memory on the mirror holder, above-mentioned receiver is the infrared remote receiver corresponding with infrared transmitter coupling in the learner, and other compositions can adopt components and parts commonly used.The corresponding data information storage that infrared remote receiver reception learner sends as the current synchronous control signal agreement of processor, makes eyeglass according to each the parameter work that receives storage in memory.
As shown in Figure 5, in the present embodiment, learner is made up of components and parts commonly used such as receiver, the microprocessor (model is C8051F911) with study decoding function, infrared transmitter, white light source, photodiode, Voltagre regulators, wherein, receiver comprises infrared receiving terminal and amplifying circuit, the signal of infrared receiving terminal is imported out the signal input part of termination amplifying circuit, and amplifying circuit adopts BU7242, uses three grades of amplifiers that the small-signal that receives is amplified; The signal output part of amplifying circuit connects the signal input part of microprocessor.3.3V powers to microprocessor after 3V Voltagre regulator (model is S-1167B30) voltage stabilizing, provides electric power by microprocessor for receiver again; The signal output part of microprocessor is connected with the signal input part of infrared transmitter; Photodiode comprises left eye photodiode and right eye photodiode, and their switching signal output is connected with switching signal input on the microprocessor respectively; The switch controlling signal output of microprocessor is connected to the input of right and left eyes white light source.
The 3D glasses of being learnt are the original-pack 3D glasses of a brand 3D playback equipment, and learner sends data-signal to 3D glasses to be learnt by the wireless connections mode.In use, original-pack 3D glasses are between white light source and photodiode, and the right and left eyes eyeglass of original-pack 3D glasses is aimed at the right and left eyes white light source respectively, as two light signal receive paths; Be the power supply of right and left eyes white light source by the 5V power supply, learner receives the switching frequency and the time waveform of left and right two eyeglasses of the synchronous infrared signal of this brand 3D playback equipment and original-pack 3D glasses respectively, signal is compared and write down by the microprocessor in the learner and store the corresponding relation data message, learner sends to this information 3D glasses to be learnt again, after receiver in the 3D glasses to be learnt receives this information, and store by memory in the 3D glasses to be learnt.
3D glasses to be learnt are provided with the indicator light that is used to point out operating state; Learner is provided with the display screen that is used to show cisco unity malfunction information, and cisco unity malfunction information comprises can not learning information and do not have signal display message etc.
When 3D glasses to be learnt are can not be with the 3D playback equipment that need are used suitable, need realize learning functionality by learning-oriented 3D eyeglass device of the present invention, 3D playback equipment and original-pack 3D glasses thereof, as shown in Figure 2, the processing method of above-mentioned learning-oriented 3D eyeglass device may further comprise the steps:
(1) opens the 3D playback equipment that to be used and play the 3D program, signal emitting-source as 3D glasses such as television set or projectors, original-pack 3D glasses behind the electric power starting are put into learner, original-pack 3D glasses are in effective scope of application, be that original-pack 3D glasses are in can normal operating condition, energising starts to learner;
(2) microprocessor of learner is in the wait accepting state, open receiver and wait for the synchronous infrared signal of reception, and light white light source, when learner can not detect the switching signal of synchronous infrared signal that the 3D playback equipment sends and original-pack 3D glasses, microprocessor enters sleep state, and close receiver, close white light source, do not receive any efficient synchronization signal, its reason may be that the placement location of learner is improper and make the receiver in the learner not receive signal, can show the information that does not have signal on the display screen of learner at this moment, the position that needs the mobile learning device is until can receiving signal, otherwise original-pack 3D glasses can not be learnt; When reusing learner if desired, microprocessor can be waken up as long as open the power supply of learner, and make it be in the wait accepting state.
When learner can not detect the synchronous infrared signal that the 3D playback equipment sends, and can detect the switching signal of original-pack 3D glasses the time, the synchronizing signal sent of 3D playback equipment is not the infrared signal coding as can be known, learner of the present invention can not receive non-infrared signal coding, and therefore original-pack 3D glasses can not be learnt;
When learner can detect the synchronous infrared signal that the 3D playback equipment sends, and can not detect the switching signal of original-pack 3D glasses the time, power supply that need to check original-pack 3D glasses whether open or original-pack 3D glasses normally the position of viewing or mobile learning device until receiving signal, if original-pack 3D glasses normally viewing and its power supply are opened, still can't detect the switching signal of original-pack 3D glasses by the position of mobile learning device, illustrate that original-pack 3D glasses can not be learnt.
More than the information indicating that can not be learnt can be presented on the display screen of learner.
When learner can detect the switching signal of synchronous infrared signal that the 3D playback equipment sends and original-pack 3D glasses, the microprocessor in the learner is the synchronous infrared signal waveform that receives of synchronous recording and the switching frequency and the time waveform of left and right two eyeglasses of original-pack 3D glasses; Microprocessor in the learner compares the switching frequency and the time waveform of synchronous infrared signal waveform and left and right two eyeglasses of original-pack 3D glasses, write down time point and the correspondence position of cycle in synchronous infrared signal that left and right two eyeglasses open and close, and generation corresponding relation data message, the learning process of learner finishes, the 3D playback equipment is closed in the learner prompting, waits for and gives 3D glasses to be learnt with the corresponding relation data information transfer.
As Fig. 4, shown in 5, the detailed process of above processing signals is: the microprocessor in the learner can be stored in the signal that sends from the 3D playback equipment the continuous memory cell of microprocessor internal, microprocessor can read original-pack 3D glasses right and left eyes eyeglass folding sequential at right and left eyes switching signal passage, relation according to signal of being received and eyeglass sequential, it is any form that microprocessor can analyze the synchronous code of being received, just can know the frequency of right and left eyes eyeglass switch, the parameters such as time that eyeglass is transparent, these parameters can access in database, if in database, do not find corresponding synchronous code form, then need to create a new synchronous code form storage, after microprocessor is finished the task of decoding, the indicator light of learner can light, study has been finished in expression, this moment, the user can close the 3D playback equipment, learner can send to 3D glasses to be learnt by ultrared mode with these synchronous code forms and relevant important parameter with the form of learning, and then can carry out work according to pairing form after 3D glasses to be learnt receive.
In order to guarantee that 3D glasses to be learnt can correctly receive the synchronous code that learner sends, on learner, be provided with a button, after study is finished, the user can according to circumstances push button and allow it repeat to send, whenever by once retransmitting the sign indicating number that comprises form switching sequence information for 3 times, length was then represented to have finished all operations by 3 seconds, and learner can enter sleep pattern.
In the present embodiment, learner and 3D glasses employing wireless connections mode to be learnt, 3D glasses to be learnt should be positioned over the infrared position of learner appointment, and open the power supply of 3D glasses to be learnt, make it to be in mode of learning, at this moment, indicator light is blink states prompting 3D glasses to be learnt and enters mode of learning, learner is transferred to 3D glasses to be learnt with the form of corresponding relation data message by red sage outside line command code string, 3D glasses to be learnt receive behind this command code in the permanent memory that data division is stored in the microprocessor, 3D glasses to be learnt withdraw from mode of learning, at this moment, indicator light finishes with continuous fast blink condition prompting learning process.
In other embodiments, learner also can adopt the wired connection mode with 3D glasses to be learnt, can specifically connect by the usb data line, when adopting wired connection mode transmitting data information, it is identical with the instruction code that wireless connections are transmitted, owing to do not have signal interference problem, therefore, before learner is given 3D glasses to be learnt with the corresponding relation data information transfer, can close the 3D playback equipment yet; Permanent memory in the 3D glasses to be learnt also can place the outside of microprocessor and be connected with it; 3D glasses to be learnt can also be two or more, and 3D glasses respectively to be learnt are respectively by wired or be wirelessly connected to learner, can be simultaneously the synchronization signal data of original-pack 3D glasses be stored in a plurality of 3D glasses to be learnt.
As shown in Figure 3, finish above-mentioned learning process, 3D glasses to be learnt in use, open the 3D playback equipment of current use and play the 3D program, receiver in the glasses receives the synchronizing signal that the 3D playback equipment sends, and the microprocessor that this synchronizing signal sends in the 3D glasses handled, microprocessor sense data from memory is compared with synchronizing signal, until finding identical synchronization signal data, microprocessor can identify and open and close a 3D glasses left side in the synchronizing signal, the time and the cycle of right eyeglass, when receiving next synchronizing signal, microprocessor just can be controlled a 3D glasses left side, the keying of right eyeglass, at this moment, 3D glasses to be learnt can carry out normal viewing.
Embodiments of the present invention are not limited thereto; according to foregoing of the present invention; ordinary skill knowledge and customary means according to this area; do not breaking away under the above-mentioned basic fundamental thought of the present invention prerequisite; can also make modification, replacement or the change of other various ways, all drop within the rights protection scope of the present invention.
Claims (9)
1. the learning processing method of 3D glasses is characterized in that may further comprise the steps:
(1) opens the 3D playback equipment that to be used and play the 3D program, original-pack 3D glasses are put into learner, original-pack 3D glasses are in effective scope of application;
(2) learner can detect the synchronous infrared signal that the 3D playback equipment sends and the switching signal of original-pack 3D glasses simultaneously, and the synchronous infrared signal waveform that receives of synchronous recording and the switching frequency and the time waveform of left and right two eyeglasses of original-pack 3D glasses;
(3) microprocessor in the learner compares described synchronous infrared signal waveform and described switching frequency and time waveform, write down time point and the correspondence position of cycle in synchronous infrared signal that left and right two eyeglasses of original-pack 3D glasses open and close, and generate the corresponding relation data message;
(4) 3D glasses to be learnt are in mode of learning, and learner is given 3D glasses to be learnt with the corresponding relation data information transfer, and by being stored in the memory after its reception, withdraw from mode of learning then, and learning process finishes.
2. according to the learning processing method of the described 3D glasses of claim 1, it is characterized in that in described step (2):
When learner can not detect the switching signal of synchronous infrared signal that the 3D playback equipment sends and original-pack 3D glasses, the position of mobile learning device was until can receiving signal, otherwise original-pack 3D glasses can not be learnt;
When learner can not detect the synchronous infrared signal that the 3D playback equipment sends, and can detect the switching signal of original-pack 3D glasses the time, original-pack 3D glasses can not be learnt;
When learner can detect the synchronous infrared signal that the 3D playback equipment sends, and can not detect the switching signal of original-pack 3D glasses the time, the position of mobile learning device is until can receiving signal, otherwise original-pack 3D glasses can not be learnt.
3. according to the learning processing method of the described 3D glasses of claim 1, it is characterized in that in described step (3): learner is when receiving new signal, whether microprocessor can be analyzed the synchronous code of being received consistent with the synchronous code form of originally having stored, if do not find corresponding synchronous code form, then need to create a new synchronous code form storage.
4. according to the processing method of described learning-oriented 3D glasses of claim 1 and device, it is characterized in that: in described step (4), learner is closed the 3D playback equipment before giving 3D glasses to be learnt with the corresponding relation data information transfer.
5. the 3D glasses learner that uses in the described method of claim 1 is characterized in that: comprise the receiver that is used to receive the synchronous infrared signal of 3D playback equipment; Microprocessor with study decoding function; Be used to place two pairs of photo-signal channels of the original-pack 3D glasses of described 3D playback equipment; Every pair of photo-signal channel is made up of white light source and photodiode, and original-pack 3D glasses place between white light source and the photodiode, and left and right sides eyeglass is aimed at a light source respectively; Be used to launch the infrared transmitter of described microprocessor processes recording data information;
Described receiver receives the synchronous infrared signal of this brand 3D playback equipment, and photo-signal channel receives the switching signal of original-pack 3D glasses, be transferred to microprocessor simultaneously, compare by the waveform of microprocessor described synchronous infrared signal waveform and described switching signal, write down time point and the correspondence position of cycle in synchronous infrared signal that left and right two eyeglasses of original-pack 3D glasses open and close, and generate corresponding relation data message and storage, send through infrared transmitter.
6. 3D glasses learner according to claim 5 is characterized in that: described infrared transmitter transmits data-signal by wired connection or wireless connections mode.
7. 3D glasses learner according to claim 5 is characterized in that: also comprise being used to show the information display screen that can not normally learn.
8. learning-oriented 3D glasses that are used with claim 5, comprise mirror holder, left and right sides liquid crystal lens, be installed on receiver, processor, memory on the mirror holder, it is characterized in that, described receiver is the infrared remote receiver corresponding with infrared transmitter coupling in the described learner, the corresponding data information storage that infrared remote receiver reception learner sends is in memory, as the current synchronous control signal agreement of processor, make eyeglass according to each the parameter work that receives storage.
9. learning-oriented 3D glasses according to claim 8 is characterized in that: 3D glasses described to be learnt are provided with the indicator light that is used to point out operating state.
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CN 201010529023 CN102055997B (en) | 2010-05-10 | 2010-10-21 | Learning processing method of 3D (three-dimensional) spectacles and learner |
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CN 201010529023 Expired - Fee Related CN102055997B (en) | 2010-05-10 | 2010-10-21 | Learning processing method of 3D (three-dimensional) spectacles and learner |
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CN102445327A (en) * | 2011-09-22 | 2012-05-09 | 青岛海信电器股份有限公司 | Method and system for measuring synchronism of 3D (three-dimensional) eyeglasses |
CN102798978A (en) * | 2012-07-19 | 2012-11-28 | 彩虹集团公司 | Active 3D (3-Dimensional) eyeglasses with learning function and control method thereof |
CN102865996A (en) * | 2011-07-05 | 2013-01-09 | 纬创资通股份有限公司 | Test method, device and system |
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CN102413296B (en) * | 2011-12-26 | 2014-10-29 | Tcl王牌电器(惠州)有限公司 | Remote control method for double-channel television and double-channel television system |
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CN201976220U (en) | 2011-09-14 |
CN102055997B (en) | 2012-12-26 |
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