CN113747228A - Method for realizing intelligent rotary television dynamic screen saver - Google Patents

Abstract

The invention discloses a method for realizing intelligent rotating television dynamic screen saver, which comprises the steps of obtaining the rotating angle of a television mechanism through the communication of a television system and a gyroscope, automatically awakening or sleeping the content of the dynamic screen saver according to the awakening and sleeping threshold value of the dynamic screen saver when a user manually rotates the television, and displaying the dynamically changed screen saver along with the change of the rotating angle of the television mechanism. By the screen saver method, a user can sense the rotation state of the television, and the rotation sensing capability is improved. Meanwhile, a technical basis is provided for the operation of the dynamic screen saver.

Description

Method for realizing intelligent rotary television dynamic screen saver

Technical Field

The invention relates to the technical field of intelligent televisions, in particular to a method for realizing dynamic screen protection of an intelligent rotary television.

Background

With the rapid development of the internet technology, the smart television is more and more popular, and the television screen saver becomes a necessary function of the smart television as a means for television dormancy and advertisement operation. However, for the rotating television, the television can rotate freely, and if the traditional dynamic screen saver is used in the rotating television, the integration is not enough. The current traditional screen saver scheme cannot be associated with the actual application scene of the rotating television. Especially, on the intelligent rotary television, the lack of a dynamic screen saver scheme cannot make the user feel the rotary experience of the rotary television, and the perception and the cognition degree of the user on the rotary television can be reduced.

Disclosure of Invention

The invention aims to solve the problems and provide a method for realizing the dynamic screen saver of the intelligent rotary television. Therefore, the following technical scheme is adopted to realize the dynamic screen saver function of the intelligent rotary television.

The invention realizes the purpose through the following technical scheme:

a method for realizing intelligent rotary television dynamic screen saver comprises the following steps:

establishing a duplex communication mechanism of a television desktop system and a gyroscope, and realizing that a client side actively sends and returns data and a server side actively sends and returns data; namely, after the television is started up and the desktop system is started up, the communication of the rear gyroscope device is established. The desktop system can receive rotation angle data of the television structure of the gyroscope sensor at a certain frequency.

Adding a wake-up mechanism of the dynamic screen saver, namely, the dynamic screen saver can be awakened under a certain condition;

after the dynamic screen saver appears, a screen saver dormancy mechanism is added;

and adding a dynamic response mechanism of the dynamic screen saver.

Further, establishing a duplex communication mechanism of the television desktop system and the gyroscope specifically comprises the following steps:

after the television desktop system is started, if the Bluetooth switch is turned on, the television desktop system enters a connection scheme, if the Bluetooth switch is turned off, a Bluetooth channel is actively turned on, a specific Bluetooth name is scanned to obtain MAC _ ADDRESS, SERVICE _ UUID and DATA _ UUID of the gyroscope, then connection is established through a Bluetooth device object, and then communication between the television desktop system and the gyroscope is established through a characteristic value UUID.

The further scheme is that a wake-up mechanism of the dynamic screen saver is added, and specifically comprises the following steps:

judging the horizontal and vertical screen states of the television desktop system, and respectively defining the threshold values of the awakening rotation angles in the horizontal screen state and the vertical screen state; when the screen is in a horizontal screen state and the actual rotation angle is larger than a threshold value defined by the horizontal screen, awakening the dynamic screen saver; and when the screen is in the vertical screen state and the actual rotation angle is smaller than the threshold value defined by the vertical screen, awakening the dynamic screen saver.

And acquiring the horizontal and vertical screen states of the television desktop by calling getrequest organization of the android system. And if the television desktop system is in a horizontal screen state and the rotation angle of the television mechanism is above the awakening dormancy threshold value, awakening the dynamic screen saver. And if the television desktop system is in a vertical screen state and the rotation angle of the television mechanism is below the awakening dormancy threshold value, awakening the dynamic screen saver.

The further scheme is that a dormancy mechanism of the dynamic screen saver is added, and specifically comprises the following steps:

judging the horizontal and vertical screen states of the television desktop system, and respectively defining the threshold values of the awakening rotation angles in the horizontal screen state and the vertical screen state; when the screen is in a horizontal screen state and the actual rotation angle is smaller than a threshold value defined by the horizontal screen, the dynamic screen saver is dormant; and in the vertical screen state, when the actual rotation angle is larger than a threshold value defined by the vertical screen, the dynamic screen saver is dormant.

And acquiring the horizontal and vertical screen states of the television desktop by calling getrequest organization of the android system. And if the television desktop system is in the horizontal screen state and the rotation angle of the television mechanism is above the awakening dormancy threshold value of the horizontal screen, the dynamic screen saver enters the dormant state. And if the television desktop system is in the vertical screen state and the rotation angle of the television mechanism is above the awakening dormancy threshold value of the vertical screen, the dynamic screen saver is dormant.

The further scheme is that a dynamic response mechanism of the dynamic screen saver is added, and the method specifically comprises the following steps:

in the horizontal screen state of the television desktop system, the dynamic response interval of the dynamic screen saver is the angle from the awakening dormancy critical value to the horizontal screen vertical screen switching critical value; and in the interval, a plurality of screen saver response intervals are further divided, different screen saver contents are displayed in each interval, the television desktop system dynamically responds to different dynamic screen savers according to different intervals where the rotation angles are located, and meanwhile, the contents of the dynamic screen savers can rotate along with the angles of the television mechanism.

The invention has the beneficial effects that:

according to the method for realizing the intelligent rotary television dynamic screen saver, the dynamic screen saver is added for the manually-rotated rotary television, and through the display of the screen saver, the rotation sensing capability of a user during the manual rotation of the television can be enhanced, so that more rotation experience and interestingness can be brought to the user.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the following briefly introduces the embodiments or the drawings needed to be practical in the prior art description, and obviously, the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a diagram of logic decisions for wake and sleep of a dynamic screen saver;

FIG. 2 is a schematic diagram of a dynamic response of a dynamic screen saver.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

In any embodiment, as shown in fig. 1-2, a method for implementing a dynamic screen saver of an intelligent rotary television of the present invention specifically includes:

firstly, a communication mechanism of a television desktop system and a gyroscope is established, and the mechanism is a duplex communication mechanism. Namely, the client can actively send and return data and the server can actively send and return data. After the television desktop system is started, if the Bluetooth switch is turned on, the television enters a connection scheme. If the Bluetooth is closed, the Bluetooth channel is actively opened. And then, acquiring MAC _ ADDRESS, SERVICE _ UUID and DATA _ UUID of the gyroscope by scanning a specific Bluetooth name, and then establishing connection through a Bluetooth device object. The listening to the gyroscope data is then established through setcharateristictinotification of the BluetoothGatt object. Namely, duplex communication is established through writeharderiacteriodic and setcharateristicnotification of the read-write feature value of the bluetooth device.

Then, adding a wake-up mechanism of the dynamic screen saver, specifically: the television desktop system receives the rotation angle data of the television mechanism once every 100 ms. And meanwhile, when data are received, the desktop system acquires the horizontal and vertical screen states of the television desktop through a getrequest organization method. If the desktop system obtains the value of ActivityInfo. SCREEN _ ORIENTATION _ LANDSCAPE, the television desktop system is in the landscape state, and the threshold value of the awakening screen saver is 15 degrees at this time. When greater than 15 degrees, the contents of the dynamic screen saver are woken up by the system. If the value obtained by the desktop system is ActivityInfo. At the moment, the threshold value of the awakening screen saver is 75 degrees, and when the rotation angle of the television mechanism is smaller than 75 degrees, the content of the dynamic screen saver is awakened.

Then, a dormancy mechanism of the dynamic screen saver is added, specifically: the television desktop system receives the rotation angle data of the television mechanism once in a defined time interval. And meanwhile, when data are received, the desktop system acquires the horizontal and vertical screen states of the television desktop through a getrequest organization method. Screen _ original _ LANDSCAPE, and the desktop system is in landscape state, and the threshold value of the wakeup screen saver is 15 degrees. And when the rotation angle of the television mechanism is more than 15 degrees, the content of the dynamic screen saver enters a dormant state. The value obtained by the desktop system is ActivityInfo. At the moment, the threshold value of the awakening screen saver is 75 degrees, and when the rotation angle of the television mechanism is smaller than 75 degrees, the content of the dynamic screen saver enters a dormant state.

And finally, adding a dynamic response mechanism of the dynamic screen saver. The method specifically comprises the following steps: the desktop system firstly judges the horizontal and vertical screen states of the desktop system through a getRequestedOrientation method. Meanwhile, the television mechanism is divided into a plurality of sections within the sections of 15 degrees to 30 degrees, 30 degrees to 45 degrees, 45 degrees to 60 degrees and 60 degrees to 75 degrees, and different screen saver contents are set in different sections. And when the television mechanism rotates to different intervals, the horizontal and vertical screen states are judged according to the system. If the screen is in the horizontal screen state, the television desktop system loads the dynamic screen saver in the horizontal screen state, loads different screen saver contents in different intervals of the rotation angle of the television mechanism, and has the same vertical screen state. Meanwhile, the content of the dynamic screen saver is loaded through the view object of the android, and after the television desktop system obtains the rotation angle data of the television mechanism, the display angle of the view is adjusted through a setRotation method, so that when the television mechanism rotates, the view of the desktop system can also dynamically respond to the corresponding rotation angle.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims. It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and the invention is not described in any way for the possible combinations in order to avoid unnecessary repetition. In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (5)

1. A method for realizing intelligent rotary television dynamic screen saver is characterized by comprising the following steps:

establishing a duplex communication mechanism of a television desktop system and a gyroscope, and realizing that a client side actively sends and returns data and a server side actively sends and returns data;

adding a wake-up mechanism of the dynamic screen saver;

after the dynamic screen saver appears, a screen saver dormancy mechanism is added;

and adding a dynamic response mechanism of the dynamic screen saver.

2. The method for implementing the dynamic screen saver of the intelligent rotary television set as recited in claim 1, wherein: establishing a duplex communication mechanism of a television desktop system and a gyroscope, specifically:

after the television desktop system is started, if the Bluetooth switch is turned on, the television desktop system enters a connection scheme, if the Bluetooth switch is turned off, a Bluetooth channel is actively turned on, a specific Bluetooth name is scanned to obtain MAC _ ADDRESS, SERVICE _ UUID and DATA _ UUID of the gyroscope, then connection is established through a Bluetooth device object, and then communication between the television desktop system and the gyroscope is established through a characteristic value UUID.

3. The method for implementing the dynamic screen saver of the intelligent rotary television set as recited in claim 1, wherein: the method for adding the dynamic screen saver comprises the following specific steps:

judging the horizontal and vertical screen states of the television desktop system, and respectively defining the threshold values of the awakening rotation angles in the horizontal screen state and the vertical screen state; when the screen is in a horizontal screen state and the actual rotation angle is larger than a threshold value defined by the horizontal screen, awakening the dynamic screen saver; and when the screen is in the vertical screen state and the actual rotation angle is smaller than the threshold value defined by the vertical screen, awakening the dynamic screen saver.

4. The method for implementing the dynamic screen saver of the intelligent rotary television set as recited in claim 1, wherein: the dormancy mechanism for adding the dynamic screen saver specifically comprises the following steps:

judging the horizontal and vertical screen states of the television desktop system, and respectively defining the threshold values of the awakening rotation angles in the horizontal screen state and the vertical screen state; when the screen is in a horizontal screen state and the actual rotation angle is smaller than a threshold value defined by the horizontal screen, the dynamic screen saver is dormant; and in the vertical screen state, when the actual rotation angle is larger than a threshold value defined by the vertical screen, the dynamic screen saver is dormant.

5. The method for implementing the dynamic screen saver of the intelligent rotary television set as recited in claim 1, wherein: the dynamic response mechanism for adding the dynamic screen saver specifically comprises:

in the horizontal screen state of the television desktop system, the dynamic response interval of the dynamic screen saver is the angle from the awakening dormancy critical value to the horizontal screen vertical screen switching critical value; and in the interval, a plurality of screen saver response intervals are further divided, different screen saver contents are displayed in each interval, the television desktop system dynamically responds to different dynamic screen savers according to different intervals where the rotation angles are located, and meanwhile, the contents of the dynamic screen savers can rotate along with the angles of the television mechanism.

Images