CN111399657A - Portable intelligent communication system - Google Patents

Abstract

The invention provides a portable intelligent communication system, comprising: a microcomputer and a near-eye display. The near-eye display and the microcomputer are mutually independent and are connected in a wireless communication mode; the microcomputer processes and calculates the data, and sends the data to the near-eye display in a wireless communication mode, and the near-eye display is used as a virtual display screen of the microcomputer, receives the data and displays the data. The near-eye display is equivalent to a display of a micro technical computer, is worn and is in contact with a microcomputer, so that a picture is displayed through the near-eye display, all pictures which can be displayed on a real mobile phone screen, such as a main page, an application client, a browser, a chat tool and the like, are further displayed, operation actions are identified and fed back to the microcomputer, the microcomputer performs corresponding processing according to the operation actions and feeds back to the near-eye display, and therefore the operation as the real mobile phone screen is achieved.

Description

Portable intelligent communication system

Technical Field

The invention relates to the technical field of virtual display, in particular to a portable intelligent communication system combined with virtual display.

Background

With the advancement of technology and the development of technology, the portability and miniaturization of mobile phones are receiving more and more attention. The mobile phone gradually eliminates various functional components from a mobile phone, a mobile phone with keys and a screen, and a full-screen mobile phone, and more utilizes the functions and the functions of a mobile phone body.

However, miniaturization and portability of mobile phones are not completely ideal today. Although the handset may be thinner and thinner. Due to the limitation of the display screen, the planar area of the display screen cannot be reduced, which is not favorable for the development of portability and miniaturization. Generally, people need a certain space when using the mobile phone, and if the mobile phone is held by one hand without using a table top, other things cannot be operated, and the operation of other things by one hand is inconvenient.

In the current generation with faster technology updating, the limitation of the traditional mobile phone form is broken through, a more miniature, light and portable mobile phone is researched and developed, the mobile phone is used anytime and anywhere, the life style of people is changed, and the problem to be solved is urgent.

Disclosure of Invention

In order to overcome the above problems, the present invention aims to provide a portable intelligent communication system, which utilizes a microcomputer with a small volume to cooperate with a near-eye display to realize the structural change of a mobile phone, does not need a large-volume screen, and realizes the real portability of the mobile phone.

In order to achieve the above object, the present invention provides a portable intelligent communication system, comprising:

a microcomputer;

a near-eye display which is independent with the microcomputer and is connected with the microcomputer in a wireless communication mode; the microcomputer processes and calculates the data, and sends the data to the near-eye display in a wireless communication mode, and the near-eye display is used as a virtual display screen of the microcomputer, receives the data and displays the data.

In some embodiments, the near-eye display comprises: a virtual screen display unit, a display driver; the virtual screen display unit is used for displaying a virtual screen, and the display driver is used for driving the near-eye display to display.

In some embodiments, the near-eye display further comprises: the system comprises a virtual control interface and a first identification unit; the first recognition unit recognizes an operation action of the operator and transmits the operation action to the microcomputer; the microcomputer receives the operation action and carries out corresponding data processing calculation.

In some embodiments, the near-eye display further comprises: a projection unit; the projection unit receives the image data sent by the microcomputer in a wireless communication mode and projects the image data to a real interface.

In some embodiments, the near-eye display further comprises: an image pickup unit; the camera shooting unit shoots the outside and obtains image data, the camera shooting unit sends the image data to the microcomputer in a wireless communication mode, the microcomputer processes the image data to form display data and sends the display data to the virtual screen display unit, and the virtual screen display unit displays the display data on the virtual screen.

In some embodiments, the first recognition unit comprises a gesture recognition module; the gesture recognition module acquires and recognizes gesture actions to obtain gesture recognition data, and sends the gesture recognition data to the microcomputer; the microcomputer performs calculation processing according to the gesture recognition data to obtain an operation corresponding to the gesture recognition data, and sends a result corresponding to the operation to the virtual screen display unit, and the virtual screen display unit displays the operation on the virtual screen.

In some embodiments, the first recognition unit further comprises a speech recognition module; the voice recognition module acquires and recognizes voice to obtain voice recognition data and sends the voice recognition data to the microcomputer; the microcomputer performs calculation processing according to the voice recognition data to obtain an operation corresponding to the voice recognition data, and sends a result corresponding to the operation to the virtual screen display unit, which displays it on the virtual screen.

In some embodiments, the microcomputer includes: power, central processing unit, memory, wireless signal transmitter, storage interface.

In some embodiments, the microcomputer has a switching unit; the switch unit includes: a fingerprint recognizer and a power switch; the fingerprint recognizer is used for recognizing fingerprints, and when the fingerprint information accords with the input fingerprint, the power switch is triggered to turn on the power supply.

In some embodiments, the switch unit further includes a reset key to reset the microcomputer.

In some embodiments, the microcomputer further comprises: the second identification unit acquires and identifies the operation action of the operator and sends the operation action to the central processing unit; and the central processing unit receives the operation action and carries out corresponding data processing calculation.

In some embodiments, the second recognition unit comprises a gesture recognition module; the gesture recognition module acquires and recognizes gesture actions to obtain gesture recognition data, and sends the gesture recognition data to the central processing unit; and the central processing unit performs calculation processing according to the gesture recognition data to obtain an operation corresponding to the gesture recognition data, and sends a result corresponding to the operation to the virtual screen display unit, and the virtual screen display unit displays the operation on the virtual screen.

In some embodiments, the second recognition unit further comprises a speech recognition module; the voice recognition module acquires and recognizes voice to obtain voice recognition data and sends the voice recognition data to the microcomputer; the microcomputer performs calculation processing according to the voice recognition data to obtain an operation corresponding to the voice recognition data, and sends a result corresponding to the operation to the virtual screen display unit, which displays it on the virtual screen.

In some embodiments, the microcomputer has a length of no more than 5cm, a width of no more than 3 cm, and a height of no more than 1 cm.

The portable intelligent communication system realizes the innovation of the shape of the real mobile phone in the real sense. Firstly, the size of the microcomputer can be set arbitrarily and can be very small, for example, the size of a match box is the same; furthermore, from the system structure, the microcomputer covers the operation logic unit, the processing unit, the storage unit and the like of the real mobile phone host, and the control of the near-eye display is realized through a wireless communication mode. The near-eye display is equivalent to a screen of a mobile phone, is worn and is in contact with the microcomputer, so that a picture is displayed through the near-eye display, and all pictures which can be displayed on the screen of the real mobile phone, such as a main page, an application client, a browser, a chat tool and the like, are further displayed, and are fed back to the microcomputer through identifying operation actions, and the microcomputer performs corresponding processing according to the operation actions and feeds back to the near-eye display, so that the operation as between the real mobile phone and the screen is realized. The near-eye display can be virtual glasses, single-eye or double-eye virtual glasses, and not only can be used as a display screen, but also can simultaneously display a virtual keyboard, a virtual mouse and the like for an operator to perform corresponding actions for operation. Therefore, the system completely abandons a real screen, only needs a microcomputer with the size of a match box and a set of virtual glasses, and can be used as a real set of mobile phone and screen. The miniaturization and the lightness of the computer are really realized, and the computer can be directly placed in a pocket or a backpack and the like. In addition, the microcomputer can be only provided with a power switch, and virtual images such as a main interface, videos, photos and the like can be displayed through the virtual glasses when the power switch is pressed down, so that in the process of actually operating the portable intelligent communication system, only the virtual glasses are needed to be worn, the microcomputer is placed in a pocket or on a desktop, operation is not needed, the operation is very convenient, and the purpose of using the mobile phone anytime and anywhere is achieved.

Drawings

FIG. 1 is a block diagram of a portable intelligent communications system according to an embodiment of the present invention

FIG. 2 is a functional display diagram of a portable intelligent communications system according to an embodiment of the present invention

FIG. 3 is a functional display diagram of a portable intelligent communications system according to an embodiment of the present invention

FIG. 4 is a block diagram illustrating the relationship between various units of a portable intelligent communications system according to an embodiment of the present invention

Detailed Description

In order to make the contents of the present invention more comprehensible, the present invention is further described below with reference to the accompanying drawings. The invention is of course not limited to this particular embodiment, and general alternatives known to those skilled in the art are also covered by the scope of the invention.

The present invention will be described in further detail with reference to the accompanying drawings 1 to 4 and specific embodiments. It should be noted that the drawings are in a simplified form and are not to precise scale, and are only used for conveniently and clearly achieving the purpose of assisting in describing the embodiment.

Referring to fig. 1, the portable intelligent communication system in the present embodiment includes:

a microcomputer;

a near-eye display which is independent with the microcomputer and is connected with the microcomputer in a wireless communication mode; the microcomputer processes and calculates the data, and sends the data to the near-eye display in a wireless communication mode, and the near-eye display is used as a virtual display screen of the microcomputer, receives the data and displays the data.

Referring to fig. 4, the near-eye display may include: a virtual screen display unit, a display driver; the virtual screen display unit is used for displaying a virtual screen, and the display driver is used for driving the near-eye display to display, so that the display action from the microcomputer to the near-eye display is realized.

Referring again to fig. 2, the near-eye display may further include, on the basis of the near-eye display: the system comprises a virtual control interface and a first identification unit; the first recognition unit recognizes an operation action of the operator and transmits the operation action to the microcomputer; the microcomputer receives the operation action and carries out corresponding data processing calculation. This is equivalent to operating on a touch screen of a cell phone.

Specifically, the first recognition unit may include a gesture recognition module; the gesture recognition module acquires and recognizes gesture actions to obtain gesture recognition data, and sends the gesture recognition data to the microcomputer; the microcomputer performs calculation processing according to the gesture recognition data to obtain an operation corresponding to the gesture recognition data, and sends a result corresponding to the operation to the virtual screen display unit, and the virtual screen display unit displays the operation on the virtual screen. The gesture recognition module obtains and recognizes gesture actions and performs a feedback processing process with the microcomputer, so that a human-computer interaction process of a real mobile phone and a touch screen is realized.

In addition, the first recognition unit may further include a voice recognition module; the voice recognition module acquires and recognizes voice to obtain voice recognition data and sends the voice recognition data to the microcomputer; the microcomputer performs calculation processing according to the voice recognition data to obtain an operation corresponding to the voice recognition data, and sends a result corresponding to the operation to the virtual screen display unit, which displays it on the virtual screen. Therefore, the addition of the voice recognition module enables the first recognition unit to recognize not only silent actions but also vocal commands, and improves the use flexibility and the simplicity of the portable intelligent communication system.

Furthermore, the near-eye display may further include a projection unit; the projection unit receives the image data sent by the microcomputer in a wireless communication mode and projects the image data to a real interface. The structure design enables the near-eye display to have a projection function at the same time, is equivalent to a real projector, and realizes the reform of a projection device structure. A keyboard or the like may be projected or a video, image or the like may be projected as shown in fig. 2.

Further, the near-eye display further includes: an image pickup unit; the camera shooting unit shoots the outside and obtains image data, the camera shooting unit sends the image data to the microcomputer in a wireless communication mode, the microcomputer processes the image data to form display data and sends the display data to the virtual screen display unit, and the virtual screen display unit displays the display data on a virtual screen. By the aid of the structural design, the near-eye display has camera shooting functions such as shooting and video recording, shot pictures or videos can be observed through the near-eye display and the microcomputer, and action operation between a real mobile phone and a screen is realized.

Certainly, in order to have powerful calculation processing logic functions, the microcomputer may include the main functional configuration of a real mobile phone, and also combine its own small volume feature, for example, the microcomputer includes: the device comprises a power supply, a central processing unit, a memory, a wireless signal transmitter and a storage interface.

Here, the microcomputer may be placed in a pocket, as indicated by a dashed box in fig. 2. The microcomputer is different from a real mobile phone due to the small volume characteristic of the microcomputer, and can also have the characteristic of the microcomputer, for example, the microcomputer is provided with a switch unit; the switch unit includes: a fingerprint recognizer and a power switch; the fingerprint recognizer is used for recognizing fingerprints, and when the fingerprint information accords with the input fingerprint, the power switch is triggered to turn on the power supply. Further, the switch unit further includes a reset key for resetting the microcomputer.

It should be noted that the near-eye display of the present embodiment is provided with the first identification unit for identifying actions, sounds, etc., and such an arrangement completely allows the microcomputer to have only one power key, and does not need to be provided with other keys on the microcomputer, because the microcomputer and the near-eye display do not need to be touched during the whole usage operation, they can be placed in a pocket, as shown in fig. 2, and need not be taken out, and the usage of the microcomputer is completed under the combination of the virtual operation and the internal logic processing procedures of the microcomputer and the near-eye display.

As shown in fig. 3, the microcomputer may further include a projection unit thereon; the projection unit receives the image data sent by the microcomputer in a wireless communication mode and projects the image data to a real interface. The structure design enables the microcomputer to have a projection function at the same time, which is equivalent to a real projector, and the reformation of the structure of a projection device is realized. A keyboard or the like may be projected or a video, image or the like may be projected. The projection unit of the microcomputer can also project a mobile phone screen interface which is synchronous with the mobile phone screen interface displayed by the near-eye display.

In other embodiments of the present invention, as shown in fig. 4, a second identification unit may also be disposed in the microcomputer, and the second identification unit acquires and identifies the operation action of the operator and sends the operation action to the central processing unit; and the central processing unit receives the operation action and carries out corresponding data processing calculation. When the microcomputer needs to utilize the second recognition unit, the microcomputer can not be placed in any accommodating object and needs to be placed outside, so that the second recognition unit can detect the operation action. Of course, the recognition unit may be provided on both the microcomputer and the near-eye display at the same time for recognizing an operation motion, voice, and the like. Correspondingly, the second recognition unit also comprises a voice recognition module; the voice recognition module acquires and recognizes voice to obtain voice recognition data and sends the voice recognition data to the microcomputer; the microcomputer performs calculation processing according to the voice recognition data to obtain an operation corresponding to the voice recognition data, and sends a result corresponding to the operation to the virtual screen display unit, which displays it on the virtual screen. The second recognition unit may also include a gesture recognition module; the gesture recognition module acquires and recognizes gesture actions to obtain gesture recognition data, and sends the gesture recognition data to the central processing unit; and the central processing unit performs calculation processing according to the gesture recognition data to obtain an operation corresponding to the gesture recognition data, and sends a result corresponding to the operation to the virtual screen display unit, and the virtual screen display unit displays the operation on a virtual screen.

In addition, it should be noted that, because the microcomputer is provided with the camera unit, the camera unit of the microcomputer acquires the operation action image of the operator, and can synchronously feed back the operation action image to the near-eye display, and the operation action of the operator, such as the sliding of a finger, can be synchronously displayed on the near-eye display, so that the operator can intuitively observe the operation action of the operator through the virtual control interface of the near-eye display, such as observing the position or action touched by the finger, just like performing operation in reality, and can observe the position of the finger at any time, so as to make the accuracy of the action of the operator more clear, thereby making the operation system formed by the microcomputer and the near-eye display more visualized and virtual and realistic.

It should be emphasized that the volume of the microcomputer of this embodiment can be arbitrarily set, can be made small according to the requirement, and can be placed in a backpack or a pocket for carrying, for example, the volume of the microcomputer is set to be not more than 5cm in length, not more than 3 cm in width, and not more than 1cm in height. The logic operation unit, the memory unit, and the like in the microcomputer can be realized by a realistic semiconductor integration process and an IC design process, thereby realizing miniaturization, weight saving, and portability of the microcomputer. As in fig. 2, the microcomputer may also be placed in a backpack, with the dashed box representing the microcomputer. Based on the above description, the microcomputer of this embodiment can be operated by a free hand, such as playing a mobile phone by a free hand, only by operating the power switch, and particularly without taking out the microcomputer from a pocket or a backpack during walking, so that the use flexibility is very strong. Certainly, whether the operation is performed after the stop is determined according to the actual situation, so that the collision is avoided.

It should be emphasized that, in fig. 2, the picture indicated by the dashed line of the near-eye display is a virtual screen displayed by the virtual display unit of the near-eye display, and no real interface is needed, so that the user can completely perform free-hand operation anytime and anywhere by only wearing the near-eye display and turning on the microcomputer, thereby truly realizing portability and flexibility of the use of the intelligent electrical appliance, and being a revolution in the technical fields of computers, projectors, and the like, and changing the life style of people.

In conclusion, the portable intelligent communication system integrates the functions of a real mobile phone, a touch screen and the like, adopts the logic feedback between the virtual image and the microcomputer to realize the complete mobile phone operation, and is an impact and reform to the real mobile phone operation mode. The limit of the size of a screen of a real mobile phone is overcome, and the portable intelligent communication system can be in any size. Moreover, the functions of the real mobile phone and the touch screen are realized only by matching the microcomputer with the size of the matchbox and the near-eye display, so that the physical volume of the functional concept of the mobile phone is greatly reduced, the concept of the portability of the real mobile phone is changed, and the miniaturization and the portability of the mobile phone are really realized.

Although the present invention has been described with reference to preferred embodiments, which are illustrated for the purpose of illustration only and not for the purpose of limitation, it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (14)

1. A portable intelligent communications system, comprising:

a microcomputer;

a near-eye display which is independent with the microcomputer and is connected with the microcomputer in a wireless communication mode; the microcomputer processes and calculates the data, and sends the data to the near-eye display in a wireless communication mode, and the near-eye display is used as a virtual display screen of the microcomputer, receives the data and displays the data.

2. The portable intelligent communications system of claim 1, wherein the near-eye display comprises: a virtual screen display unit, a display driver; the virtual screen display unit is used for displaying a virtual screen, and the display driver is used for driving the near-eye display to display.

3. The portable intelligent communications system of claim 2, wherein the near-eye display further comprises: the system comprises a virtual control interface and a first identification unit; the first recognition unit recognizes an operation action of the operator and transmits the operation action to the microcomputer; the microcomputer receives the operation action and carries out corresponding data processing calculation.

4. The portable intelligent communications system of claim 3, wherein the near-eye display further comprises: a projection unit; the projection unit receives the image data sent by the microcomputer in a wireless communication mode and projects the image data to a real interface.

5. The portable intelligent communications system of claim 3, wherein the near-eye display further comprises: an image pickup unit; the camera shooting unit shoots the outside and obtains image data, the camera shooting unit sends the image data to the microcomputer in a wireless communication mode, the microcomputer processes the image data to form display data and sends the display data to the virtual screen display unit, and the virtual screen display unit displays the display data on the virtual screen.

6. The portable intelligent communications system according to claim 3, wherein the first recognition unit comprises a gesture recognition module; the gesture recognition module acquires and recognizes gesture actions to obtain gesture recognition data, and sends the gesture recognition data to the microcomputer; the microcomputer performs calculation processing according to the gesture recognition data to obtain an operation corresponding to the gesture recognition data, and sends a result corresponding to the operation to the virtual screen display unit, and the virtual screen display unit displays the operation on the virtual screen.

7. The portable intelligent communications system according to claim 3, wherein the first recognition unit further comprises a voice recognition module; the voice recognition module acquires and recognizes voice to obtain voice recognition data and sends the voice recognition data to the microcomputer; the microcomputer performs calculation processing according to the voice recognition data to obtain an operation corresponding to the voice recognition data, and sends a result corresponding to the operation to the virtual screen display unit, which displays it on the virtual screen.

8. The portable intelligent communications system according to claim 1, wherein the microcomputer comprises: power, central processing unit, memory, wireless signal transmitter, storage interface.

9. The portable intelligent communications system according to claim 8, wherein the microcomputer has a switch unit; the switch unit includes: a fingerprint recognizer and a power switch; the fingerprint recognizer is used for recognizing fingerprints, and when the fingerprint information accords with the input fingerprint, the power switch is triggered to turn on the power supply.

10. The portable intelligent communications system of claim 9, wherein the switch unit further comprises a reset key to reset the microcomputer.

11. The portable intelligent communications system according to claim 8, wherein the microcomputer further comprises: the second identification unit acquires and identifies the operation action of the operator and sends the operation action to the central processing unit; and the central processing unit receives the operation action and carries out corresponding data processing calculation.

12. The portable intelligent communications system according to claim 11, wherein the second recognition unit comprises a gesture recognition module; the gesture recognition module acquires and recognizes gesture actions to obtain gesture recognition data, and sends the gesture recognition data to the central processing unit; and the central processing unit performs calculation processing according to the gesture recognition data to obtain an operation corresponding to the gesture recognition data, and sends a result corresponding to the operation to the virtual screen display unit, and the virtual screen display unit displays the operation on the virtual screen.

13. The portable intelligent communications system according to claim 11, wherein the second recognition unit further comprises a voice recognition module; the voice recognition module acquires and recognizes voice to obtain voice recognition data and sends the voice recognition data to the microcomputer; the microcomputer performs calculation processing according to the voice recognition data to obtain an operation corresponding to the voice recognition data, and sends a result corresponding to the operation to the virtual screen display unit, which displays it on the virtual screen.

14. The portable intelligent communications system according to claim 1, wherein the microcomputer has a length of not more than 5cm, a width of not more than 3 cm and a height of not more than 1 cm.

Images