WO2020228387A1 - 终端主体、终端屏幕和终端 - Google Patents
终端主体、终端屏幕和终端 Download PDFInfo
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- WO2020228387A1 WO2020228387A1 PCT/CN2020/075734 CN2020075734W WO2020228387A1 WO 2020228387 A1 WO2020228387 A1 WO 2020228387A1 CN 2020075734 W CN2020075734 W CN 2020075734W WO 2020228387 A1 WO2020228387 A1 WO 2020228387A1
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- terminal
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- terminal body
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- 238000004891 communication Methods 0.000 claims abstract description 199
- 238000005516 engineering process Methods 0.000 claims abstract description 71
- 239000011159 matrix material Substances 0.000 claims description 74
- 230000005540 biological transmission Effects 0.000 claims description 52
- 238000012545 processing Methods 0.000 claims description 48
- 238000000034 method Methods 0.000 claims description 24
- 239000002096 quantum dot Substances 0.000 claims description 24
- 230000006870 function Effects 0.000 claims description 12
- 238000001514 detection method Methods 0.000 claims description 11
- 230000008569 process Effects 0.000 claims description 6
- 238000004806 packaging method and process Methods 0.000 claims description 5
- 238000012856 packing Methods 0.000 claims 1
- 238000010586 diagram Methods 0.000 description 14
- 238000013461 design Methods 0.000 description 7
- 238000000926 separation method Methods 0.000 description 6
- 238000004519 manufacturing process Methods 0.000 description 5
- 238000011161 development Methods 0.000 description 2
- 238000012546 transfer Methods 0.000 description 2
- 230000001010 compromised effect Effects 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
- H04M1/0266—Details of the structure or mounting of specific components for a display module assembly
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J50/00—Circuit arrangements or systems for wireless supply or distribution of electric power
- H02J50/10—Circuit arrangements or systems for wireless supply or distribution of electric power using inductive coupling
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B10/00—Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
- H04B10/70—Photonic quantum communication
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B5/00—Near-field transmission systems, e.g. inductive or capacitive transmission systems
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B5/00—Near-field transmission systems, e.g. inductive or capacitive transmission systems
- H04B5/20—Near-field transmission systems, e.g. inductive or capacitive transmission systems characterised by the transmission technique; characterised by the transmission medium
- H04B5/24—Inductive coupling
- H04B5/26—Inductive coupling using coils
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B5/00—Near-field transmission systems, e.g. inductive or capacitive transmission systems
- H04B5/70—Near-field transmission systems, e.g. inductive or capacitive transmission systems specially adapted for specific purposes
- H04B5/79—Near-field transmission systems, e.g. inductive or capacitive transmission systems specially adapted for specific purposes for data transfer in combination with power transfer
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72403—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
- H04M1/72409—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72403—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
- H04M1/72409—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
- H04M1/72412—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories using two-way short-range wireless interfaces
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/725—Cordless telephones
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M2250/00—Details of telephonic subscriber devices
- H04M2250/02—Details of telephonic subscriber devices including a Bluetooth interface
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Definitions
- the embodiments of the present invention relate to, but are not limited to, terminal technology, especially a terminal body, terminal screen, and terminal.
- the patent application with publication number CN204498193 proposes a new concept mobile phone with a separable screen and main body.
- the main body of the mobile phone is connected to the screen through a cable to transmit display data, control data and solve power supply problems, and finally reach the main board and screen of the mobile phone.
- the purpose of flexible mounting
- the main body of the mobile phone cannot be completely separated from the screen, and it needs to be connected through a cable, and a receiving slot must be provided on the back of the screen to accommodate the main body of the mobile phone or a platform for installing and placing the mobile phone screen on the main body of the mobile phone. This cannot be freely designed for both the mobile phone body and the screen, and the two are still interdependent.
- the patent application with the publication number CN201130963 proposes a split Bluetooth mobile phone.
- the button module is separated from the main body of the mobile phone through the Bluetooth module, which can further save the space of the mobile phone.
- the main body of the mobile phone includes the screen, and the separation of the main body of the mobile phone and the screen cannot be achieved. This is because the power consumption of the screen is much larger than that of the button module. If the main body of the mobile phone is separated from the screen, the screen cannot be resolved. Power supply problem.
- the embodiment of the present invention provides a terminal body, a terminal screen and a terminal, which can realize the complete separation of the terminal body and the terminal screen and solve the power supply problem of the terminal screen.
- the embodiment of the present invention provides a terminal including: a terminal body and a terminal screen that are independent of each other;
- the terminal body includes: a first power supply module and a first wireless communication module;
- the terminal screen includes: a second power supply module and a second wireless communication module;
- the first power module supplies power to the terminal body through a battery, and supplies power to the terminal screen through wireless charging technology; or, the first wireless charging source supplies power to the terminal body and the terminal screen through wireless charging technology;
- the first wireless communication module and the second wireless communication module communicate with each other through at least one of the following: wireless communication mode and quantum communication technology.
- the embodiment of the present invention provides a terminal body including: a first power module and a first wireless communication module;
- the first power module supplies power to the terminal body through a battery and supplies power to the terminal screen through wireless charging technology; or, the first wireless charging source supplies power to the terminal body and the terminal screen based on wireless charging technology;
- the first wireless communication module and the terminal screen communicate through at least one of the following: wireless communication mode and quantum communication technology.
- the embodiment of the present invention provides a terminal screen, including: a second power module and a second wireless communication module;
- the terminal body or the first wireless charging source adopts wireless charging technology to supply power to the terminal screen through the second power module;
- the terminal body and the second wireless communication module communicate through at least one of the following: wireless communication mode and quantum communication technology.
- FIG. 1 is a schematic diagram of the structural composition of a terminal proposed by an embodiment of the present invention.
- Figure 2 (a) is a schematic diagram 1 of the structure of a terminal body according to an embodiment of the present invention.
- Figure 2(b) is a schematic diagram of the structural composition of a terminal screen according to an embodiment of the present invention.
- Figure 2(c) is a second schematic diagram of the structure of the terminal body according to the embodiment of the present invention.
- Figure 2(d) is the third schematic diagram of the structure of the terminal body according to the embodiment of the present invention.
- Figure 2(e) is a fourth schematic diagram of the structural composition of a terminal body according to an embodiment of the present invention.
- Figure 3 (a) is a schematic diagram of the structure of a first signal processing module and a first wireless communication module according to an embodiment of the present invention
- Figure 3(b) is a schematic diagram of the structure of the second signal processing module and the second wireless communication module according to the embodiment of the present invention
- FIG. 4 is a schematic diagram showing a pixel source using a quantum state according to an embodiment of the present invention.
- FIG. 5 is a schematic diagram of an embodiment of the present invention using a plane coordinate angle to identify a quantum state
- FIG. 6 is a schematic diagram of an embodiment of the present invention using a high-frequency acoustic wave cosine function as a communication medium;
- FIG. 7 is a schematic diagram of opening the unfolding mode and closing the stowed mode of the terminal according to an embodiment of the present invention.
- an embodiment of the present invention proposes a terminal.
- the terminal can be any terminal or device, for example, a mobile terminal (such as a mobile phone, IPAD, etc.), a portable terminal, a non-portable terminal, and the screen size needs to be flexibly adjusted and restricted.
- the terminal or device used to control the subject can be any terminal or device, for example, a mobile terminal (such as a mobile phone, IPAD, etc.), a portable terminal, a non-portable terminal, and the screen size needs to be flexibly adjusted and restricted.
- the terminal or device used to control the subject used to control the subject.
- the aforementioned terminal includes a terminal body 110 and a terminal screen 120 that are independent of each other;
- the terminal body 110 includes: a first power supply module 111 and a first wireless communication module 112;
- the terminal screen 120 includes: a second power supply module 121 and a second wireless communication module 122;
- the first power module 111 supplies power to the terminal body 110 through a battery and supplies power to the terminal screen 120 through wireless charging technology; or, the first wireless charging source supplies power to the terminal body 110 and the terminal screen 120 based on wireless charging technology;
- the first wireless communication module 112 and the second wireless communication module 122 communicate through at least one of the following: a wireless communication method and a quantum communication technology.
- the embodiment of the present invention completely separates the terminal body and the terminal screen based on wireless charging technology, wireless communication mode or quantum communication technology, and relieves the dependence between the terminal body and the terminal screen.
- the two parties are no longer bottlenecks to each other.
- wireless charging technology It meets the power supply requirements of the terminal screen, thereby solving the power supply problem of the terminal screen; and the terminal screen can be folded or bent at any angle by using a flexible display panel, which is no longer restricted by the terminal body, which improves the flexibility of production or use.
- the main body can also be designed in any shape, the length, width and height are no longer restricted by the terminal screen, which brings greater flexibility to the design of other components, and the weight of the terminal body does not need to be considered; and the terminal body and the terminal screen are completely Separation, the user can only operate the terminal screen, and the terminal body can be placed on the body or other nearby places, thereby freeing the user's hands.
- the first power module 111 is at the bottom of the terminal body 110, and the first wireless communication module 112 is at the top of the terminal body 110; of course, the first power module 111 and the first wireless communication
- the module 112 may also be located in other positions of the terminal body 110.
- the embodiment of the present invention does not limit the specific positions of the first power module 111 and the first wireless communication module 112, and the specific positions are not used to limit the protection scope of the embodiment of the present invention.
- the second power module 121 is at the bottom of the terminal screen 120, and the second wireless communication module 122 is at the top of the terminal screen 120; of course, the second power module 121 and the second wireless communication
- the module 122 may also be located in other positions on the terminal screen 120.
- the embodiment of the present invention does not limit the specific positions of the second power module 121 and the second wireless communication module 122, and the specific positions are not used to limit the protection scope of the embodiment of the present invention.
- the power supply mode of the terminal body 110 and the terminal screen 120 may adopt any one of the following.
- the first power module 111 of the terminal body 110 supplies power to the terminal body 110 through a battery, and supplies power to the terminal screen 120 based on the wireless charging technology.
- the first power module 111 includes: a battery 1111, a first coil module 1112, and a first wireless transmitter chip 1113;
- the second power module 121 includes: a first transmission coil 1211 and a first wireless receiving chip 1212;
- the battery 1111 is used to supply power to the terminal body 110 and drive the coil module 1112 to generate first current energy
- the first wireless transmitting chip 1113 is configured to transmit the first current energy
- the first wireless receiving chip 1212 is configured to receive the first current energy, and transmit the first current energy to the first transmission coil 1211;
- the first transmission coil 1211 is used to supply power to the terminal screen according to the first current energy.
- the first coil module 1112 may be located under the battery 1111 and the first wireless transmitting chip 1113.
- the first coil module 1112, the battery 1111 and the first wireless transmitting chip 1113 may also be another positional relationship, which is not limited in the embodiment of the present invention.
- the battery 1111 can be charged by a wired charging source or a second wireless charging source (not shown in the figure).
- the second wireless charging source when the battery 1111 is charged by a second wireless charging source (not shown in the figure), the second wireless charging source includes: a second coil mode Group and a second wireless transmitting chip; the first power module 111 further includes: a second wireless receiving chip 1114;
- the second coil module is used to generate second current energy
- the second wireless transmitting chip is used to transmit the second current energy
- the second wireless receiving chip 1114 is configured to receive the second current energy, and transmit the second current energy to the first coil module 1112;
- the first coil module 1112 is also used to charge the battery according to the second current energy.
- the second wireless charging source when the battery 1111 is charged by a second wireless charging source, includes: a second coil module and a second wireless transmitter Chip; the first power module 111 also includes: a second wireless receiving chip 1114 and a second transmission coil 1115;
- the second coil module is used to generate second current energy
- the second wireless transmitting chip is used to transmit the second current energy
- the second wireless receiving chip 1114 is configured to receive the second current energy, and transmit the second current energy to the second transmission coil;
- the second transmission coil 1115 is used to charge the battery according to the energy of the second current.
- the terminal body 110 powers itself through the battery 1111, which solves its own power supply problem, and powers the terminal screen 120 through wireless charging technology, which solves the power supply problem of the terminal screen 120.
- the first wireless charging source supplies power to the terminal body 110 and the terminal screen 120 based on the wireless charging technology.
- the first wireless charging source when the first wireless charging source supplies power to the terminal body 110 and the terminal screen 120 through wireless charging technology, the first wireless charging source includes: a third coil module And a third wireless transmitting chip; the first power module 111 includes: a third transmission coil 1117 and a third wireless receiving chip 1116; the second power module 121 includes: a first transmission coil 1211 and a first wireless receiving chip 1212 ;
- the third coil module is used to generate third current energy
- the third wireless transmitting chip is used to transmit the third current energy
- the third wireless receiving chip 1116 is configured to receive the third current energy, and transmit the third current energy to the third transmission coil;
- the third transmission coil 1117 is configured to: supply power to the terminal body according to the third current energy
- the first wireless receiving chip 1212 is configured to receive the third current energy, and transmit the third current energy to the first transmission coil;
- the first transmission coil 211 is used to supply power to the terminal screen according to the third current energy.
- the first wireless charging source supplies power to the terminal body 110 and the terminal screen 120 based on the wireless charging technology, which solves the power supply problem of the terminal body 110 and the terminal screen 120.
- the wireless communication method includes any one of the following: Bluetooth, high-frequency sound, and the like.
- a high-frequency sound wave cosine function can be used as the communication medium, and different periods indicate different states.
- each state can be repeated N times, such as 16 times or 32 times. Inferior.
- the terminal body 110 further includes: a first signal processing module 113; the terminal screen 120 further includes: a second signal processing module 123, a display driver 124, and a display panel 125;
- the first wireless communication module 112 is configured to receive a predetermined event through wireless communication; send first display data to the terminal screen 120 through wireless communication or quantum communication technology; wherein, the predetermined event includes at least one of the following: input event, Screen folding event;
- the first signal processing module 113 is configured to process a predetermined event and generate first display data according to the processing result;
- the second signal processing module 123 is configured to detect a predetermined event
- the second wireless communication module 122 is configured to send a predetermined event to the terminal body through wireless communication; receive the first display data through wireless communication or quantum communication technology;
- the display driver 124 is used to drive the display panel 125 to display an image corresponding to the first display data
- the display panel 125 is used to display an image corresponding to the first display data.
- the transmission speed is faster and the security is higher.
- the input event includes at least one of the following: a touch event and a key press event;
- the key events include at least one of the following: the user presses the back key (Back) event, the user presses the return home button (Home) event, the user presses the recent application key (Recent) event, the user presses the volume up button Event, the user presses the volume down button event.
- the return button, the return main interface button, the recent application button, the volume increase button, and the volume decrease button are all virtual buttons, so as not to limit the design of the terminal screen 120.
- the first signal processing module 113 and the first wireless communication module 112 are located on the top of the terminal body 110.
- the first signal processing module 113 may also be located in other positions of the terminal body 110.
- the embodiment of the present invention The specific location of the first signal processing module 113 is not limited, and the specific location is not used to limit the protection scope of the embodiment of the present invention.
- the second signal processing module 123, the display driver 124, the display panel 125 and the second wireless communication module 122 are located on the top of the terminal screen 120; of course, the second signal processing module 123, the display driver 124, the display The panel 125 can also be located in other positions of the terminal screen 120.
- the embodiment of the present invention does not limit the specific positions of the second signal processing module 123, the display driver 124, and the display panel 125, and the specific positions are not used to limit the protection of the embodiment of the present invention. range.
- the first signal processing module 113 includes: a main module 1131, a pixel matrix modulation module 1132, a quantum difference module 1133, a quantum source module 1134, a quantum encoding module 1135, and a quantum modulation module 1136;
- the first wireless communication module 112 includes: an information receiving module 1121 and a quantum channel transmission module 1122;
- the second signal processing module 123 includes: a detection module 1231, a quantum demodulation module 1232, a quantum decoding module 1233, a pixel matrix demodulation module 1234, and a display control module 1235;
- the second wireless communication module 122 includes: an information sending module 1221 and a quantum channel receiving module 1222;
- the detection module 1231 is configured to detect the predetermined event
- the information sending module 1221 is configured to send the predetermined event
- the information receiving module 1121 is configured to receive the predetermined event
- the main module 1131 is configured to process the predetermined event and generate first display data according to the processing result
- the pixel matrix modulation module 1132 is configured to encode the first display data to obtain a first pixel matrix
- the quantum difference module 1133 is configured to compare the second pixel matrix in the cache with the first pixel matrix to obtain first difference pixels, and each of the first difference pixels corresponds to a mark in the first pixel matrix. Position information in the pixel matrix, packaging the first difference pixel into a first data frame; updating the second pixel matrix in the buffer to the first pixel matrix;
- the quantum information source module 1134 is configured to convert the first data frame into a first quantum message
- the quantum encoding module 1135 is configured to convert the first quantum message into a first qubit
- the quantum modulation module 1136 is configured to convert the first qubit into first quantum information with a quantum state as a carrier;
- the quantum channel transmission module 1122 is configured to send the first quantum information to the quantum channel receiving module
- the quantum channel receiving module 1222 is configured to receive the first quantum information
- the quantum demodulation module 1232 is configured to convert the first quantum information into the first qubit
- the quantum decoding module 1233 is configured to decode the first qubit to obtain a first quantum message
- the pixel matrix demodulation module 1234 is configured to decode the first quantum message to obtain the first difference pixel;
- the display control module 1235 is configured to update the current buffer frame according to the first difference pixel, send the updated buffer frame to the display driver, and drive the display panel to display the image corresponding to the buffer frame through the display driver.
- the arrangement of multiple quantum states determines the value of a pixel source (that is, the first display data and the second display data).
- a pixel source is represented by four values of red, green, blue, and transparency
- Corresponding representation using four quantum states When the representation object of a quantum state is one byte, the plane coordinate angle is used to identify the quantum state; when the representation object of a quantum state is more than two bytes, the three-dimensional coordinate angle is used to identify the quantum state; when the three-dimensional coordinate angle When the marked quantum state is not enough, more than two quantum states can be used to mark.
- FIG. 5 is a schematic diagram of using plane coordinate angles to identify quantum states according to an embodiment of the present invention.
- a quantum state identifies a pixel source of one byte, a byte has 256 states, and a plane is 265 degrees. Therefore, each quantum state is identified at an interval of 1.4 degrees; when a quantum state is needed to identify For pixel sources with more than two bytes, use three-dimensional coordinates to identify.
- the main module 1131 is also used to:
- the pixel matrix modulation module 1132 is further configured to: encode the second display data to obtain a third pixel matrix
- the quantum difference module 1133 is further configured to: compare the fourth pixel matrix in the cache with the third pixel matrix to obtain second difference pixels, and each of the second difference pixels corresponds to a mark in the first difference pixel.
- the position information in the three-pixel matrix packaging the second difference pixels into a second data frame; updating the fourth pixel matrix in the buffer to the third pixel matrix;
- the quantum information source module 1134 is further configured to: convert the second data frame into a second quantum message
- the quantum encoding module 1135 is further configured to: convert the second quantum message into a second qubit;
- the quantum modulation module 1136 is further configured to: convert the second qubit into second quantum information using a quantum state as a carrier;
- the quantum channel transmission module 1122 is further configured to: send the second quantum information to the quantum channel receiving module;
- the quantum channel receiving module 1222 is further configured to: receive the second quantum information
- the quantum demodulation module 1232 is further configured to: convert the second quantum information into the second qubit;
- the quantum decoding module 1233 is further configured to: decode the second qubit to obtain a second quantum message
- the pixel matrix demodulation module 1234 is further configured to: decode the second quantum message to obtain the second difference pixel;
- the display control module 1235 is further configured to: update the current buffer frame according to the second difference pixel, send the updated buffer frame to the display driver, and drive the display panel to display the image corresponding to the buffer frame through the display driver.
- the terminal body 110 further includes a start key. After the user presses the start key, the battery 1111 starts to work to supply power to the terminal body 110 and the terminal screen 120, and the main module 1131 is started. As shown in Figure 7, when the user starts to use the terminal, it is in the open expanded mode. The terminal body is placed in the user's pocket or not far from the user. The user directly operates the screen. During use, the terminal body transmits display data to the terminal screen. The screen transmits predetermined events to the terminal body in real time, and the user is completely unaware of the terminal body; when the user does not need to use the terminal, the closed and stowed mode appears, and the terminal screen is folded or curled up to be attached to the terminal body.
- the main module 1131 is specifically configured to initialize all modules in the following manner:
- Start other modules of the terminal body establish a communication channel with the information receiving module 1121; initialize the pixel matrix modulation module 1132, establish a communication channel with the pixel matrix modulation module 1132; receive display events, and transfer the The display event is sent to the pixel matrix modulation module 1132;
- the information receiving module 1121 is also used for: negotiating the communication mode and communication format with the information sending module 1221; receiving the display event, and sending the display event to the main module; wherein the preferred communication mode is Bluetooth communication the way;
- the information sending module 1221 is also used to: negotiate the communication mode and communication format with the information receiving module 1121; send a display event to the information receiving module 1121 according to the hardware information of the display panel, and the display event includes the encoding of the pixel source Format; for example, using red, green, blue and transparency, and each type is represented by 1 bit;
- the pixel matrix modulation module 1132 is also used to initialize the coding scheme according to the coding format.
- the determining factors of the communication format between the information sending module and the information receiving module mainly include: event type (input event, display event, screen folding event, etc.), touch event accuracy, event accuracy, event The number of attributes, etc.
- event type input event, display event, screen folding event, etc.
- touch event accuracy event accuracy
- the screen size is 1920 ⁇ 1080
- the touch event has two attributes, coordinate X and coordinate Y
- the precision of the coordinate is four digits after the decimal point.
- the key event has an attribute Code, which is the state of the key, so the communication format is determined It is: packet header + total packet length + check digit + event type + touch event (2 ⁇ 9 bits, the first to fourth bits of the 9 bits represent information before the decimal point, the fifth bit represents the decimal point, and the sixth to 9th bits represent after the decimal point Four bits) + key event (1 bit, if one bit is not enough to represent all keyboard states, use more than two bits to represent).
- the communication format is not only the format listed above, as long as it is a pre-appointed format, which is not limited in the embodiment of the invention.
- the first wireless communication module 112 when the first wireless communication module 112 transmits data to the second wireless communication module 122 through wireless communication, and the second wireless communication module 122 transmits data to the first wireless communication module 112 through wireless communication,
- the first wireless communication module 112 includes an information receiving module 1121 and an information sending module (not shown in the figure, different from the information sending module 1221 in the second wireless communication module 122), and the first signal processing module 113 only includes a main module 1131;
- the second wireless communication module 122 includes an information sending module 1221 and an information receiving module (not shown in the figure, different from the information receiving module 1121 in the first wireless communication module 112), and the second signal processing module 123 only includes a detection module 1231.
- the first signal processing module and the first wireless communication module are implemented by a first processor and a first computer-readable storage medium, and the first computer-readable storage medium stores a first An instruction, when the first instruction is executed by the first processor, the main module, the pixel matrix modulation module, the quantum difference module, the quantum source module, the quantum encoding module, Functions of the quantum modulation module, the information receiving module, and the quantum channel transmission module.
- the second signal processing module and the second wireless communication module are implemented by a second processor and a second computer-readable storage medium, the second computer-readable storage medium stores a second instruction, and the second When the instruction is executed by the second processor, the detection module, the quantum demodulation module, the quantum decoding module, the pixel matrix demodulation module, the display control module, the information sending module and The function of the quantum channel receiving module.
- Another embodiment of the present invention provides a terminal body. As shown in FIG. 1, the terminal body 110 and the terminal screen are independent of each other.
- the terminal body 110 includes: a first power supply module 111 and a first wireless communication module 112;
- the first power module 111 supplies power to the terminal body 110 through a battery and supplies power to the terminal screen 120 through wireless charging technology; or, the first wireless charging source supplies power to the terminal body 110 and the terminal screen 120 based on wireless charging technology;
- the first wireless communication module 112 and the terminal screen 120 communicate with each other through at least one of the following: wireless communication mode and quantum communication technology.
- the embodiment of the present invention completely separates the terminal body and the terminal screen based on wireless charging technology, wireless communication mode or quantum communication technology, and relieves the dependence between the terminal body and the terminal screen.
- the two parties are no longer bottlenecks to each other.
- wireless charging technology It meets the power supply requirements of the terminal screen, thereby solving the power supply problem of the terminal screen; and the terminal screen can be folded or bent at any angle by using a flexible display panel, which is no longer restricted by the terminal body, which improves the flexibility of production or use.
- the main body can also be designed in any shape, the length, width and height are no longer restricted by the terminal screen, which brings greater flexibility to the design of other components, and the weight of the terminal body does not need to be considered; and the terminal body and the terminal screen are completely Separation, the user can only operate the terminal screen, and the terminal body can be placed on the body or other nearby places, thereby freeing the user's hands.
- the first power module 111 is at the bottom of the terminal body 110, and the first wireless communication module 112 is at the top of the terminal body 110; of course, the first power module 111 and the first wireless communication
- the module 112 may also be located in other positions of the terminal body 110.
- the embodiment of the present invention does not limit the specific positions of the first power module 111 and the first wireless communication module 112, and the specific positions are not used to limit the protection scope of the embodiment of the present invention.
- the power supply mode of the terminal body 110 may adopt any one of the following.
- the first power module 111 of the terminal body 110 supplies power to the terminal body 110 through a battery.
- the first power module 111 includes a battery 1111, a first coil module 1112, and a first wireless transmitting chip 1113;
- the battery 1111 is used to supply power to the terminal body 110 and drive the coil module 1112 to generate first current energy
- the first wireless transmitting chip 1113 is used to transmit the first current energy.
- the first coil module 1112 may be located under the battery 1111 and the first wireless transmitting chip 1113.
- the first coil module 1112, the battery 1111 and the first wireless transmitting chip 1113 may also be another positional relationship, which is not limited in the embodiment of the present invention.
- the battery 1111 can be charged by a wired charging source or a second wireless charging source (not shown in the figure).
- the second wireless charging source when the battery 1111 is charged by a second wireless charging source (not shown in the figure), the second wireless charging source includes: a second coil mode Group and a second wireless transmitting chip; the first power module 111 further includes: a second wireless receiving chip 1114;
- the second coil module is used to generate second current energy
- the second wireless transmitting chip is used to transmit the second current energy
- the second wireless receiving chip 1114 is configured to receive the second current energy, and transmit the second current energy to the first coil module 1112;
- the first coil module 1112 is also used to charge the battery according to the second current energy.
- the second wireless charging source when the battery 1111 is charged by a second wireless charging source, includes: a second coil module and a second wireless transmitter Chip; the first power module 111 also includes: a second wireless receiving chip 1114 and a second transmission coil 1115;
- the second coil module is used to generate second current energy
- the second wireless transmitting chip is used to transmit the second current energy
- the second wireless receiving chip 1114 is configured to receive the second current energy, and transmit the second current energy to the second transmission coil;
- the second transmission coil 1115 is used to charge the battery according to the energy of the second current.
- the terminal body 110 powers itself through the battery 1111, which solves its own power supply problem, and powers the terminal screen 120 through wireless charging technology, which solves the power supply problem of the terminal screen 120.
- the first wireless charging source supplies power to the terminal body 110 based on wireless charging technology.
- the first wireless charging source when the first wireless charging source supplies power to the terminal body 110 and the terminal screen 120 through wireless charging technology, the first wireless charging source includes: a third coil module And a third wireless transmitting chip; the first power module 111 includes: a third transmission coil 1117 and a third wireless receiving chip 1116;
- the third coil module is used to generate third current energy
- the third wireless transmitting chip is used to transmit the third current energy
- the third wireless receiving chip 1116 is configured to receive the third current energy, and transmit the third current energy to the third transmission coil;
- the third transmission coil 1117 is configured to supply power to the terminal body according to the third current energy.
- the first wireless charging source supplies power to the terminal body 110 based on the wireless charging technology, which solves the power supply problem of the terminal body 110.
- the wireless communication method includes any one of the following: Bluetooth, high-frequency sound, and the like.
- a high-frequency sound wave cosine function can be used as the communication medium, and different periods indicate different states.
- each state can be repeated N times, such as 16 times or 32 times. Inferior.
- the terminal body 110 further includes: a first signal processing module 113;
- the first wireless communication module 112 is configured to receive a predetermined event through wireless communication; send first display data to the terminal screen 120 through wireless communication or quantum communication technology; wherein, the predetermined event includes at least one of the following: input event, Screen folding event;
- the first signal processing module 113 is configured to process a predetermined event and generate first display data according to the processing result.
- the transmission speed is faster and the security is higher.
- the input event includes at least one of the following: a touch event and a key press event;
- the key events include at least one of the following: the user presses the back key (Back) event, the user presses the return home button (Home) event, the user presses the recent application key (Recent) event, the user presses the volume up button Event, the user presses the volume down button event.
- the return button, the return main interface button, the recent application button, the volume increase button, and the volume decrease button are all virtual buttons, so as not to limit the design of the terminal screen 120.
- the first signal processing module 113 and the first wireless communication module 112 are located on the top of the terminal body 110.
- the first signal processing module 113 may also be located in other positions of the terminal body 110.
- the embodiment of the present invention The specific location of the first signal processing module 113 is not limited, and the specific location is not used to limit the protection scope of the embodiment of the present invention.
- the first signal processing module 113 includes: a main module 1131 Pixel matrix modulation module 1132, quantum difference module 1133, quantum source module 1134, quantum encoding module 1135, quantum modulation module 1136;
- the information receiving module 1121 is configured to receive the predetermined event
- the main module 1131 is configured to process the predetermined event and generate first display data according to the processing result
- the pixel matrix modulation module 1132 is configured to encode the first display data to obtain a first pixel matrix
- the quantum difference module 1133 is configured to compare the second pixel matrix in the cache with the first pixel matrix to obtain first difference pixels, and each of the first difference pixels corresponds to a mark in the first pixel matrix. Position information in the pixel matrix, packaging the first difference pixel into a first data frame; updating the second pixel matrix in the buffer to the first pixel matrix;
- the quantum information source module 1134 is configured to convert the first data frame into a first quantum message
- the quantum encoding module 1135 is configured to convert the first quantum message into a first qubit
- the quantum modulation module 1136 is configured to convert the first qubit into first quantum information with a quantum state as a carrier;
- the quantum channel transmission module 1122 is configured to send the first quantum information to the quantum channel receiving module.
- the arrangement of multiple quantum states determines the value of a pixel source (that is, the first display data and the second display data).
- a pixel source is represented by four values of red, green, blue, and transparency
- Corresponding representation using four quantum states When the representation object of a quantum state is one byte, the plane coordinate angle is used to identify the quantum state; when the representation object of a quantum state is more than two bytes, the three-dimensional coordinate angle is used to identify the quantum state; when the three-dimensional coordinate angle When the marked quantum state is not enough, more than two quantum states can be used to mark.
- FIG. 5 is a schematic diagram of using plane coordinate angles to identify quantum states according to an embodiment of the present invention.
- a quantum state identifies a pixel source of one byte, a byte has 256 states, and a plane is 265 degrees. Therefore, each quantum state is identified at an interval of 1.4 degrees; when a quantum state is needed to identify For pixel sources with more than two bytes, use three-dimensional coordinates to identify.
- the main module 1131 is also used to:
- the pixel matrix modulation module 1132 is further configured to: encode the second display data to obtain a third pixel matrix
- the quantum difference module 1133 is further configured to: compare the fourth pixel matrix in the cache with the third pixel matrix to obtain second difference pixels, and each of the second difference pixels corresponds to a mark in the first difference pixel.
- the position information in the three-pixel matrix packaging the second difference pixels into a second data frame; updating the fourth pixel matrix in the buffer to the third pixel matrix;
- the quantum information source module 1134 is further configured to: convert the second data frame into a second quantum message
- the quantum encoding module 1135 is further configured to: convert the second quantum message into a second qubit;
- the quantum modulation module 1136 is further configured to: convert the second qubit into second quantum information using a quantum state as a carrier;
- the quantum channel transmission module 1122 is further configured to send the second quantum information to the quantum channel receiving module.
- the terminal body 110 further includes a start key. After the user presses the start key, the battery 1111 starts to work to supply power to the terminal body 110 and the terminal screen 120, and the main module 1131 is started. As shown in Figure 7, when the user starts to use the terminal, it is in the open expanded mode. The terminal body is placed in the user's pocket or not far from the user. The user directly operates the screen. During use, the terminal body transmits display data to the terminal screen. The screen transmits predetermined events to the terminal body in real time, and the user is completely unaware of the terminal body; when the user does not need to use the terminal, the closed and stowed mode appears, and the terminal screen is folded or curled up to be attached to the terminal body.
- the main module 1131 is specifically configured to initialize all modules in the following manner:
- Start other modules of the terminal body establish a communication channel with the information receiving module 1121; initialize the pixel matrix modulation module 1132, establish a communication channel with the pixel matrix modulation module 1132; receive display events, and transfer the The display event is sent to the pixel matrix modulation module 1132;
- the information receiving module 1121 is also used for: negotiating the communication mode and communication format with the information sending module 1221; receiving the display event, and sending the display event to the main module; wherein the preferred communication mode is Bluetooth communication the way;
- the information sending module 1221 is also used to: negotiate the communication mode and communication format with the information receiving module 1121; send a display event to the information receiving module 1121 according to the hardware information of the display panel, and the display event includes the encoding of the pixel source Format; for example, using red, green, blue and transparency, and each type is represented by 1 bit;
- the pixel matrix modulation module 1132 is also used to initialize the coding scheme according to the coding format.
- the determining factors of the communication format between the information sending module and the information receiving module mainly include: event type (input event, display event, screen folding event, etc.), touch event accuracy, event accuracy, event The number of attributes, etc.
- event type input event, display event, screen folding event, etc.
- touch event accuracy event accuracy
- the screen size is 1920 ⁇ 1080
- the touch event has two attributes, coordinate X and coordinate Y
- the precision of the coordinate is four digits after the decimal point.
- the key event has an attribute Code, which is the state of the key, so the communication format is determined It is: packet header + total packet length + check digit + event type + touch event (2 ⁇ 9 bits, the first to fourth bits of the 9 bits represent information before the decimal point, the fifth bit represents the decimal point, and the sixth to 9th bits represent after the decimal point Four bits) + key event (1 bit, if one bit is not enough to represent all keyboard states, use more than two bits to represent).
- the communication format is not only the format listed above, as long as it is a pre-appointed format, which is not limited in the embodiment of the present invention.
- the first wireless communication module 112 when the first wireless communication module 112 transmits data to the second wireless communication module 122 through wireless communication, and the second wireless communication module 122 transmits data to the first wireless communication module 112 through wireless communication,
- the first wireless communication module 112 includes an information receiving module 1121 and an information sending module (not shown in the figure, different from the information sending module 1221 in the second wireless communication module 122), and the first signal processing module 113 only includes a main module 1131.
- the first signal processing module and the first wireless communication module are implemented by a first processor and a first computer-readable storage medium, and the first computer-readable storage medium stores a first An instruction, when the first instruction is executed by the first processor, the main module, the pixel matrix modulation module, the quantum difference module, the quantum source module, the quantum encoding module, Functions of the quantum modulation module, the information receiving module, and the quantum channel transmission module.
- FIG. 1 Another embodiment of the present invention provides a terminal screen. As shown in FIG. 1, the terminal screen 120 and the terminal body 110 are independent of each other;
- the terminal screen 120 includes: a second power supply module 121 and a second wireless communication module 122;
- the terminal body 110 supplies power to the terminal screen 120 through wireless charging technology; or, the first wireless charging source supplies power to the terminal screen 120 based on wireless charging technology;
- the terminal body 110 and the second wireless communication module 122 communicate through at least one of the following: a wireless communication method and a quantum communication technology.
- the embodiment of the present invention completely separates the terminal body and the terminal screen based on wireless charging technology, wireless communication mode or quantum communication technology, and relieves the dependence between the terminal body and the terminal screen.
- the two parties are no longer bottlenecks to each other.
- wireless charging technology It meets the power supply requirements of the terminal screen, thereby solving the power supply problem of the terminal screen; and the terminal screen can be folded or bent at any angle by using a flexible display panel, which is no longer restricted by the terminal body, which improves the flexibility of production or use.
- the main body can also be designed in any shape, the length, width and height are no longer restricted by the terminal screen, which brings greater flexibility to the design of other components, and the weight of the terminal body does not need to be considered; and the terminal body and the terminal screen are completely Separation, the user can only operate the terminal screen, and the terminal body can be placed on the body or other nearby places, thereby freeing the user's hands.
- the second power module 121 is at the bottom of the terminal screen 120, and the second wireless communication module 122 is at the top of the terminal screen 120; of course, the second power module 121 and the second wireless communication
- the module 122 may also be located in other positions on the terminal screen 120.
- the embodiment of the present invention does not limit the specific positions of the second power module 121 and the second wireless communication module 122, and the specific positions are not used to limit the protection scope of the embodiment of the present invention.
- the power supply mode of the terminal screen 120 may adopt any one of the following.
- the terminal body 110 supplies power to the terminal screen 120 based on the wireless charging technology.
- the first power module 111 includes: a battery 1111, a first coil module 1112, and a first wireless transmitter chip 1113;
- the second power module 121 includes: a first transmission coil 1211 and a first wireless receiving chip 1212;
- the battery 1111 is used to supply power to the terminal body 110 and drive the coil module 1112 to generate first current energy
- the first wireless transmitting chip 1113 is configured to transmit the first current energy
- the first wireless receiving chip 1212 is configured to receive the first current energy, and transmit the first current energy to the first transmission coil 1211;
- the first transmission coil 1211 is used to supply power to the terminal screen according to the first current energy.
- the first coil module 1112 may be located under the battery 1111 and the first wireless transmitting chip 1113.
- the first coil module 1112, the battery 1111 and the first wireless transmitting chip 1113 may also be another positional relationship, which is not limited in the embodiment of the present invention.
- the battery 1111 can be charged by a wired charging source or a second wireless charging source (not shown in the figure).
- the second wireless charging source when the battery 1111 is charged by a second wireless charging source (not shown in the figure), the second wireless charging source includes: a second coil mode Group and a second wireless transmitting chip; the first power module 111 further includes: a second wireless receiving chip 1114;
- the second coil module is used to generate second current energy
- the second wireless transmitting chip is used to transmit the second current energy
- the second wireless receiving chip 1114 is configured to receive the second current energy, and transmit the second current energy to the first coil module 1112;
- the first coil module 1112 is also used to charge the battery according to the second current energy.
- the second wireless charging source when the battery 1111 is charged by a second wireless charging source, includes: a second coil module and a second wireless transmitter Chip; the first power module 111 also includes: a second wireless receiving chip 1114 and a second transmission coil 1115;
- the second coil module is used to generate second current energy
- the second wireless transmitting chip is used to transmit the second current energy
- the second wireless receiving chip 1114 is configured to receive the second current energy, and transmit the second current energy to the second transmission coil;
- the second transmission coil 1115 is used to charge the battery according to the energy of the second current.
- the terminal body 110 powers itself through the battery 1111, which solves its own power supply problem, and powers the terminal screen 120 through wireless charging technology, which solves the power supply problem of the terminal screen 120.
- the first wireless charging source supplies power to the terminal screen 120 based on wireless charging technology.
- the first wireless charging source when the first wireless charging source supplies power to the terminal screen 120 through wireless charging technology, the first wireless charging source includes: a third coil module and a third wireless transmitting chip ;
- the second power module 121 includes: a first transmission coil 1211 and a first wireless receiving chip 1212;
- the third coil module is used to generate third current energy
- the third wireless transmitting chip is used to transmit the third current energy
- the first wireless receiving chip 1212 is configured to receive the third current energy, and transmit the third current energy to the first transmission coil;
- the first transmission coil 211 is used to supply power to the terminal screen according to the third current energy.
- the first wireless charging source supplies power to the terminal screen 120 based on the wireless charging technology, which solves the power supply problem of the terminal screen 120.
- the wireless communication method includes any one of the following: Bluetooth, high-frequency sound, and the like.
- a high-frequency sound wave cosine function can be used as the communication medium, and different periods indicate different states.
- each state can be repeated N times, such as 16 times or 32 times. Inferior.
- the terminal screen 120 further includes: a second signal processing module 123, a display driver 124 and a display panel 125;
- the second signal processing module 123 is configured to detect a predetermined event
- the second wireless communication module 122 is configured to send a predetermined event to the terminal body through wireless communication; receive the first display data through wireless communication or quantum communication technology;
- the display driver 124 is used to drive the display panel 125 to display an image corresponding to the first display data
- the display panel 125 is used to display an image corresponding to the first display data.
- the transmission speed is faster and the security is higher.
- the input event includes at least one of the following: a touch event and a key press event;
- the key events include at least one of the following: the user presses the back key (Back) event, the user presses the return home button (Home) event, the user presses the recent application key (Recent) event, the user presses the volume up button Event, the user presses the volume down button event.
- the return button, the return main interface button, the recent application button, the volume increase button, and the volume decrease button are all virtual buttons, so as not to limit the design of the terminal screen 120.
- the second signal processing module 123, the display driver 124, the display panel 125 and the second wireless communication module 122 are located on the top of the terminal screen 120; of course, the second signal processing module 123, the display driver 124, the display The panel 125 can also be located in other positions of the terminal screen 120.
- the embodiment of the present invention does not limit the specific positions of the second signal processing module 123, the display driver 124, and the display panel 125, and the specific positions are not used to limit the protection of the embodiment of the present invention. range.
- the first wireless communication module 112 when the first wireless communication module 112 transmits data to the second wireless communication module 122 through quantum communication technology, and the second wireless communication module 122 transmits data to the first wireless communication module 112 through wireless communication, such as As shown in FIG. 3(b), the first wireless communication module 112 includes: an information receiving module 1121 and a quantum channel transmission module 1122;
- the second signal processing module 123 includes: a detection module 1231, a quantum demodulation module 1232, a quantum decoding module 1233, a pixel matrix demodulation module 1234, and a display control module 1235;
- the second wireless communication module 122 includes: an information sending module 1221 and a quantum channel receiving module 1222;
- the detection module 1231 is configured to detect the predetermined event
- the information sending module 1221 is configured to send the predetermined event
- the quantum channel receiving module 1222 is configured to receive the first quantum information
- the quantum demodulation module 1232 is configured to convert the first quantum information into the first qubit
- the quantum decoding module 1233 is configured to decode the first qubit to obtain a first quantum message
- the pixel matrix demodulation module 1234 is configured to decode the first quantum message to obtain the first difference pixel;
- the display control module 1235 is configured to update the current buffer frame according to the first difference pixel, send the updated buffer frame to the display driver, and drive the display panel to display the image corresponding to the buffer frame through the display driver.
- the quantum channel receiving module 1222 is further configured to: receive the second quantum information
- the quantum demodulation module 1232 is further configured to: convert the second quantum information into the second qubit;
- the quantum decoding module 1233 is further configured to: decode the second qubit to obtain a second quantum message
- the pixel matrix demodulation module 1234 is further configured to: decode the second quantum message to obtain the second difference pixel;
- the display control module 1235 is further configured to: update the current buffer frame according to the second difference pixel, send the updated buffer frame to the display driver, and drive the display panel to display the image corresponding to the buffer frame through the display driver.
- the second wireless communication module 122 when the first wireless communication module 112 transmits data to the second wireless communication module 122 through wireless communication, and the second wireless communication module 122 transmits data to the first wireless communication module 112 through wireless communication,
- the second wireless communication module 122 includes an information sending module 1221 and an information receiving module (not shown in the figure, different from the information receiving module 1121 in the first wireless communication module 112), and the second signal processing module 123 only includes a detection module 1231.
- the second signal processing module and the second wireless communication module are implemented by a second processor and a second computer-readable storage medium, and the second computer-readable storage medium stores a first Two instructions, when the second instruction is executed by the second processor, the detection module, the quantum demodulation module, the quantum decoding module, the pixel matrix demodulation module, and the display control module are implemented , The functions of the information sending module and the quantum channel receiving module.
- the embodiment of the present invention includes: a terminal body and a terminal screen that are independent of each other; wherein the terminal body includes: a first power supply module and a first wireless communication module; and the terminal screen includes: a second power supply module and a second wireless communication module
- the first power module supplies power to the terminal body through a battery, and supplies power to the terminal screen through wireless charging technology; or, the first wireless charging source supplies power to the terminal body and the terminal screen through wireless charging technology;
- the first wireless communication module and the second wireless communication module communicate with each other through at least one of the following: wireless communication mode and quantum communication technology.
- the embodiment of the present invention completely separates the terminal body and the terminal screen based on wireless charging technology, wireless communication mode or quantum communication technology, and relieves the dependence between the terminal body and the terminal screen.
- the two parties are no longer bottlenecks to each other.
- wireless charging technology It meets the power supply requirements of the terminal screen, thereby solving the power supply problem of the terminal screen; and the terminal screen can be folded or bent at any angle by using a flexible display panel, which is no longer restricted by the terminal body, which improves the flexibility of production or use.
- the main body can also be designed in any shape, the length, width and height are no longer restricted by the terminal screen, which brings greater flexibility to the design of other components, and the weight of the terminal body does not need to be considered; and the terminal body and the terminal screen are completely Separation, the user can only operate the terminal screen, and the terminal body can be placed on the body or other nearby places, thereby freeing the user's hands.
- Such software may be distributed on a computer-readable medium
- the computer-readable medium may include a computer storage medium (or non-transitory medium) and a communication medium (or transitory medium).
- the term computer storage medium includes volatile and non-volatile memory implemented in any method or technology for storing information (such as computer-readable instructions, data structures, program modules, or other data).
- Computer storage media include but are not limited to RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disk (DVD) or other optical disk storage, magnetic cassette, tape, magnetic disk storage or other magnetic storage device, or Any other medium used to store desired information and that can be accessed by a computer.
- communication media usually contain computer-readable instructions, data structures, program modules, or other data in a modulated data signal such as carrier waves or other transmission mechanisms, and may include any information delivery media .
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Abstract
Description
Claims (22)
- 一种终端主体,包括:第一电源模块和第一无线通信模块;其中,所述第一电源模块通过电池为所述终端主体供电,通过无线充电技术为终端屏幕供电;或者,第一无线充电源通过无线充电技术为所述终端主体和所述终端屏幕供电;所述第一无线通信模块和所述终端屏幕之间通过以下至少之一通信:无线通信方式、量子通信技术。
- 根据权利要求1所述的终端主体,其中所述第一电源模块通过电池为所述终端主体供电,通过无线充电技术为所述终端屏幕供电时,所述第一电源模块包括:电池、第一线圈模组、第一无线发射芯片;所述电池,用于为所述终端主体供电,驱动所述第一线圈模组产生第一电流能量;所述第一无线发射芯片,用于发送所述第一电流能量。
- 根据权利要求2所述的终端主体,其中所述电池通过有线充电源或第二无线充电源充电。
- 根据权利要求2所述的终端主体,其中当所述电池通过第二无线充电源充电时,所述第一电源模块还包括:第二无线接收芯片;所述第二无线接收芯片,用于接收所述第二无线充电源发送的第二电流能量,将所述第二电流能量传输给所述第一线圈模组;所述第一线圈模组还用于:根据所述第二电流能量为所述电池充电。
- 根据权利要求2所述的终端主体,其中当所述电池通过第二无线充电源充电时,所述第一电源模块还包括:第二无线接收芯片和第二传输线圈;所述第二无线接收芯片,用于接收所述第二无线充电源发送的第二电流能量,将所述第二电流能量传输给所述第二传输线圈;所述第二传输线圈,用于:根据所述第二电流能量为所述电池充电。
- 根据权利要求1所述的终端主体,其中当所述第一无线充电源通过无线充电技术为所述终端主体和所述终端屏幕供电时,所述第一电源模块包括:第三传输线圈和第三无线接收芯片;所述第三无线接收芯片,用于接收所述第一无线充电源发送的第三电流能量,将所述第三电流能量传输给所述第三传输线圈;所述第三传输线圈,用于:根据所述第三电流能量为所述终端主体供电。
- 根据权利要求1所述的终端主体,其中所述终端主体还包括:第一信号处理模块;所述第一无线通信模块,用于通过无线通信方式接收输入事件;通过无线通信方式或量子通信技术向终端屏幕发送第一显示数据;所述第一信号处理模块,用于对预定事件进行处理,根据处理结果生成第一显示数据;其中,所述预定事件包括以下至少之一:输入事件、屏幕折叠事件。
- 根据权利要求7所述的终端主体,其中,所述输入事件包括以下至少之一:触摸事件、按键事件;所述按键事件包括以下至少之一:用户按下返回键事件、用户按下返回主界面按键事件、用户按下进入最近应用按键事件、用户按下音量增加按键事件、用户按下音量减小按键事件。
- 根据权利要求7所述的终端主体,其中所述第一信号处理模块包括:主模块、像素矩阵调制模块、量子差分模块、量子信源模块、量子编码模块、量子调制模块;所述第一无线通信模块包括:信息接收模块和量子信道传输模块;其中,所述信息接收模块,用于接收所述预定事件;所述主模块,用于对所述预定事件进行处理,根据处理结果生成第一显示数据;所述像素矩阵调制模块,用于对所述第一显示数据进行编码得到第一像素矩阵;所述量子差分模块,用于将比缓存中的第二像素矩阵和所述第一像素矩阵进行对比得到第一差异像素,每一个所述第一差异像素均对应有标识在所述第一像素矩阵中的位置信息,将第一差异像素包装成第一数据帧;将缓存中的第二像素矩阵更新为所述第一像素矩阵;所述量子信源模块,用于将所述第一数据帧转换为第一量子消息;所述量子编码模块,用于将所述第一量子消息转换为第一量子比特;所述量子调制模块,用于将所述第一量子比特转换为以量子态为载体的第一量子信息;所述量子信道传输模块,用于将所述第一量子信息发送给所述量子信道接收模块。
- 根据权利要求9所述的终端主体,其中所述主模块启动后还用于:初始化所有模块,所有模块初始化完成后,生成启动界面的第二显示数据;所述像素矩阵调制模块还用于:对所述第二显示数据进行编码得到第三像素矩阵;所述量子差分模块还用于:将比缓存中的第四像素矩阵和所述第三像素矩阵进行对比得到第二差异像素,每一个所述第二差异像素均对应有标识在所述第三像素矩阵中的位置信息,将第二差异像素包装成第二数据帧;将缓存中的第四像素矩阵更新为所述第三像素矩阵;所述量子信源模块还用于:将所述第二数据帧转换为第二量子消息;所述量子编码模块还用于:将所述第二量子消息转换为第二量子比特;所述量子调制模块还用于:将所述第二量子比特转换为以量子态为载体的第二量子信息;所述量子信道传输模块还用于:将所述第二量子信息发送给所述量子信道接收模块。
- 根据权利要求10所述的终端主体,其中,所述主模块具体用于采用以下方式实现初始化所有模块:启动所述终端主体的其他模块,建立与所述信息接收模块的通信管道;建立与所述像素矩阵调制模块的通信管道;接收显示事件,将所述显示事件发送给所述像素矩阵调制模块;所述信息接收模块还用于:协商与所述信息发送模块之间的通信方式和通信格式;接收显示事件,发送所述显示事件给所述主模块;所述信息发送模块还用于:协商与所述信息接收模块之间的通信方式和通信格式;根据显示面板的硬件信息,向所述信息接收模块发送显示事件,所述显示事件包括像素源的编码格式;像素矩阵调制模块还用于:按照所述编码格式初始化编码方案。
- 根据权利要求9至11任一项所述的终端主体,其中,所述第一信号处理模块和所述第一无线通信模块通过第一处理器和第一计算机可读存储介质实现,所述第一计算机可读存储介质中存储有第一指令,所述第一指令被所述第一处理器执行时,实现所述主模块、所述像素矩阵调制模块、所述量子差分模块、所述量子信源模块、所述量子编码模块、所述量子调制模块、所述信息接收模块和所述量子信道传输模块的功能。
- 根据权利要求1所述的终端,其中,所述无线通信方式包括以下任意一种:蓝牙、高频声音。
- 一种终端屏幕,包括:第二电源模块和第二无线通信模块;其中,终端主体或第一无线充电源采用无线充电技术通过所述第二电源模块为所述终端屏幕供电;所述第二无线通信模块和终端主体之间通过以下至少之一通信:无线通信方式、量子通信技术。
- 根据权利要求14所述的终端屏幕,其中所述第二电源模块包括:第一传输线圈和第一无线接收芯片;所述第一无线接收芯片,用于接收所述终端主体发送的第一电流能量或所述第一无线充电源发送的第三电流能量,将所述第一电流能量或所述第三电流能量传输给所述第一传输线圈;所述第一传输线圈,用于根据所述第一电流能量或所述第三电流能量为所述终端屏幕供电。
- 根据权利要求14所述的终端屏幕,其中所述终端屏幕还包括:第二信号处理模块、显示驱动和显示面板;所述第二信号处理模块,用于检测到预定事件;其中,所述预定事件包括以下至少之一:输入事件、屏幕折叠事件;所述第二无线通信模块,用于通过无线通信方式将预定事件发送给所述终端主体;通过无线通信方式或量子通信技术接收所述第一显示数据;所述显示驱动,用于驱动所述显示面板显示所述第一显示数据对应的图像;所述显示面板,用于显示所述第一显示数据对应的图像。
- 根据权利要求16所述的终端屏幕,其中,所述输入事件包括以下至少之一:触摸事件、按键事件;所述按键事件包括以下至少之一:用户按下返回键事件、用户按下返回主界面按键事件、用户按下进入最近应用按键事件、用户按下音量增加按键事件、用户按下音量减小按键事件。
- 根据权利要求16所述的终端屏幕,其中所述第二信号处理模块包括:检测模块、量子解调模块、量子解码模块、像素矩阵解调模块、显示控制模块;所述第二无线通信模块包括:信息发送模块和量子信道接收模块;其中,所述检测模块,用于检测到所述预定事件;所述信息发送模块,用于发送所述预定事件;所述量子信道接收模块,用于接收第一量子信息;所述量子解调模块,用于将所述第一量子信息转换为所述第一量子比特;所述量子解码模块,用于将所述第一量子比特进行解码得到第一量子消息;所述像素矩阵解调模块,用于将所述第一量子消息进行解码得到所述第一差异像素;所述显示控制模块,用于根据所述第一差异像素更新当前缓冲帧,将更新后的缓冲帧送入显示驱动,通过所述显示驱动驱动所述显示面板显示缓冲帧对应的图像。
- 根据权利要求18所述的终端屏幕,其中所述量子信道接收模块还用于:接收第二量子信息;所述量子解调模块还用于:将所述第二量子信息转换为所述第二量子比特;所述量子解码模块还用于:将所述第二量子比特进行解码得到第二量子消息;所述像素矩阵解调模块还用于:将所述第二量子消息进行解码得到所述第二差异像素;所述显示控制模块还用于:根据所述第二差异像素更新当前缓冲帧,将更新后的缓冲帧送入显示驱动,通过所述显示驱动驱动所述显示面板显示缓冲帧对应的图像。
- 根据权利要求18至19任一项所述的终端屏幕,其中,所述第二信号处理模块和所述第二无线通信模块通过第二处理器和第二计算机可读存储介质实现,所述第二计算机可读存储介质中存储有第二指令,所述第二指令被所述第二处理器执行时,实现所述检测模块、所述量子解调模块、所述量子解 码模块、所述像素矩阵解调模块、所述显示控制模块、所述信息发送模块和所述量子信道接收模块的功能。
- 根据权利要求14所述的终端,其中,所述无线通信方式包括以下任意一种:蓝牙、高频声音。
- 一种终端,包括:权利要求1至13任一项所述的终端主体和权利要求14至21所述的终端屏幕,所述终端主体和所述终端屏幕相互独立。
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