WO2013083060A1 - Système d'échange de données basé sur un changement d'état de terminal mobile - Google Patents

Système d'échange de données basé sur un changement d'état de terminal mobile Download PDF

Info

Publication number
WO2013083060A1
WO2013083060A1 PCT/CN2012/086071 CN2012086071W WO2013083060A1 WO 2013083060 A1 WO2013083060 A1 WO 2013083060A1 CN 2012086071 W CN2012086071 W CN 2012086071W WO 2013083060 A1 WO2013083060 A1 WO 2013083060A1
Authority
WO
WIPO (PCT)
Prior art keywords
mobile terminal
data
axis
module
state change
Prior art date
Application number
PCT/CN2012/086071
Other languages
English (en)
Chinese (zh)
Inventor
朱召法
徐建华
贾红阳
忻宗杰
Original Assignee
东蓝数码股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN201110403062.3A external-priority patent/CN102566796B/zh
Priority claimed from CN201110403053.4A external-priority patent/CN102520795B/zh
Application filed by 东蓝数码股份有限公司 filed Critical 东蓝数码股份有限公司
Publication of WO2013083060A1 publication Critical patent/WO2013083060A1/fr

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/1613Constructional details or arrangements for portable computers
    • G06F1/1626Constructional details or arrangements for portable computers with a single-body enclosure integrating a flat display, e.g. Personal Digital Assistants [PDAs]
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/1613Constructional details or arrangements for portable computers
    • G06F1/1633Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
    • G06F1/1684Constructional details or arrangements related to integrated I/O peripherals not covered by groups G06F1/1635 - G06F1/1675
    • G06F1/1694Constructional details or arrangements related to integrated I/O peripherals not covered by groups G06F1/1635 - G06F1/1675 the I/O peripheral being a single or a set of motion sensors for pointer control or gesture input obtained by sensing movements of the portable computer
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/03Arrangements for converting the position or the displacement of a member into a coded form
    • G06F3/033Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor
    • G06F3/0346Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/02Details
    • H04L12/12Arrangements for remote connection or disconnection of substations or of equipment thereof

Definitions

  • the present invention relates to mobile terminals, and more particularly to a mobile terminal data exchange system that can trigger an event based on a change in state of the mobile terminal.
  • buttons are suitable for most situations, but because of its ubiquity, it is not the best solution in some cases.
  • the general charging method is charged on time.
  • the singer will reach his best singing state while singing the main song or chorus, and the state of the ending will slip. Therefore, the ending part will be cut off, on the one hand, the singer can maintain the best state, on the other hand, it can save time and sing more songs.
  • the singer If the purchase is transferred to the equipment provided by the karaoke hall, the singer only has to pay for the rental of the equipment of the karaoke hall without having to pay the copyright fee repeatedly, thereby reducing the entertainment cost.
  • the hardware equipment of the Karaoke Hall will be better than that of the average home. Consumers can purchase the genuine video, download it to the mobile terminal, and rent the hardware of the Karaoke Hall to watch it. But now the Karaoke Hall does not have such conditions. . Summary of the invention
  • the technical problem to be solved by the present invention is to overcome the existing technical deficiencies and provide a gyro-based human-computer interaction detection and processing method on an intelligent terminal that can control the intelligent terminal without pressing a button and a touch screen.
  • the technical solution of the present invention is to provide a gyroscope-based human-computer interaction detection and processing method on a smart terminal, which is characterized in that it comprises the following steps:
  • the X-axis direction is horizontal from left to right
  • the ⁇ -axis direction is vertical from bottom to top
  • the ⁇ -axis direction is perpendicular to the smart terminal screen from back to front;
  • the gyroscope is used to respectively test the angular rate of the terminal device rotating around the X axis, the angular rate of rotation around the x-axis, and the angular rate of rotation about the x-axis;
  • step (4) determining the action performed by the intelligent terminal according to the waveform diagram of the obtained angular rate of the X-axis, the ⁇ -axis, and the ⁇ -axis with respect to the time change means:
  • the intelligent terminal performs the action from the far-reaching near-turnback; If the waveform diagram obtained, the waveform diagram of the Y-axis has obvious troughs first, and there are obvious peaks afterwards, and the waveform diagrams of the X-axis and the z-axis do not change significantly, then the smart terminal is judged to flip to the left;
  • the smart terminal is judged to flip to the right;
  • the smart terminal performs the action from the far-end to the near-turnback.
  • the step (4) determines the action made by the smart terminal, and triggers the corresponding event according to the setting: if it is determined that the smart terminal performs the action from the near direction, the event triggered by the smart terminal includes: sending the email, uploading Sending a message, sending a message, sending a message, or launching a weapon in a shooting game; if it is determined that the smart terminal is performing a far-reaching action, the event triggered by the smart terminal includes: receiving a file, downloading a file, and receiving the information;
  • the events triggered by the smart terminal include: viewing the previous page, scrolling forward, and viewing the previous item;
  • the events triggered by the smart terminal include: viewing the next page, turning over, and viewing the next item.
  • the obvious trough is as follows: In the waveform diagram, the amplitude of the curve is less than S1 and lasts for more than T seconds. The obvious peak is: In the waveform diagram, the amplitude of the curve is greater than S2 and continues for more than T seconds. In the middle, there is no obvious trough, and there is no obvious peak. It is considered that the waveform has no obvious change.
  • the S1, S2 and T are all settable values, which can be set in the program.
  • the invention overcomes the deficiencies of the prior art, by setting a three-dimensional coordinate system on the intelligent terminal, and using a gyroscope to respectively detect the angular rate of rotation of the device around the X-axis, the Y-axis, and the Z-axis, to know that the handheld person makes the smart terminal What action, and by triggering the corresponding event in the smart terminal corresponding to the action, the somatosensory action is associated with the control of the smart terminal, so that it is not necessary to touch the physical button or touch the screen of the mobile phone, but through
  • the corresponding human-computer interaction operations on the smart terminal such as sending information, sending mail, downloading files, etc., can be performed, which greatly facilitates the user of the smart terminal.
  • the technical problem to be solved by the present invention is to overcome the existing technical defects and provide a human-machine interaction detection and processing method based on line acceleration sensor on an intelligent terminal capable of controlling an intelligent terminal without using a button and a touch screen. .
  • the linear acceleration describes the magnitude and direction of the rigid body linear velocity.
  • the unit of the international unit system is m/s A 2 (m/s bisect).
  • the biggest difference between the linear acceleration sensor and the acceleration sensor is: Accelerometer
  • the obtained values include the value of gravity acceleration caused by gravity of the earth, and the linear acceleration does not include gravity acceleration. Because the interference of gravity acceleration is excluded, the application of the linear acceleration sensor in some occasions is more effective than the acceleration sensor.
  • the technical solution of the present invention is to provide a human-machine interaction detection and processing method based on a linear acceleration sensor on an intelligent terminal, which is characterized in that it comprises the following steps:
  • the X-axis direction is horizontal from left to right
  • the Y-axis direction is vertical from bottom to top
  • the Z-axis direction is perpendicular to the smart terminal screen from back to front
  • the linear acceleration sensor is used to respectively test the linear acceleration of the terminal device in the three axes of XYZ;
  • step (4) according to the waveform diagram of the obtained line acceleration rate of the X-axis, the Y-axis, and the Z-axis on the curve of time, determining the action performed by the smart terminal means:
  • the obtained waveform diagram has obvious peaks in the waveform diagram of the Z-axis, and the waveform diagrams of the Y-axis and the Z-axis do not change significantly, it is judged that the smart terminal performs the action from the far-end to the near-turnback;
  • the waveform of the X-axis has obvious troughs first, and then there are obvious peaks. If the waveforms of the Y-axis and the z-axis do not change significantly, it is judged that the smart terminal performs the flipping to the left;
  • the waveform diagram is obtained, the waveform of the X-axis has obvious peaks first, and after the obvious troughs, the waveform diagrams of the Y-axis and the z-axis do not change significantly, then the smart terminal is judged to flip to the right;
  • the smart terminal performs the action from the near-outward direction; If the obtained waveform diagram has obvious peaks in the waveform diagram of the Y-axis, and the waveform diagrams of the X-axis and the z-axis do not change significantly, it is judged that the smart terminal performs the action from the far-reaching to the near-turnback.
  • the step (4) determines the action made by the smart terminal, and triggers the corresponding event according to the setting: if it is determined that the smart terminal performs the action from the near direction, the event triggered by the smart terminal includes: sending the email, uploading Sending a message, sending a message, sending a message, or launching a weapon in a shooting game; if it is determined that the smart terminal is performing a far-reaching action, the event triggered by the smart terminal includes: receiving a file, downloading a file, and receiving the information;
  • the events triggered by the smart terminal include: viewing the previous page, scrolling forward, and viewing the previous item;
  • the events triggered by the smart terminal include: viewing the next page, turning over, and viewing the next item.
  • the obvious trough is as follows: In the waveform diagram, the amplitude of the curve is less than S1 and lasts for more than T seconds. The obvious peak is: In the waveform diagram, the amplitude of the curve is greater than S2 and continues for more than T seconds. In the middle, there is no obvious trough, and there is no obvious peak. It is considered that the waveform has no obvious change.
  • the S1, S2 and T are all settable values, which can be set in the program.
  • the invention overcomes the deficiencies of the prior art, by setting a three-dimensional coordinate system on the intelligent terminal, and detecting the linear acceleration of the device in the X-axis, the Y-axis, and the Z-axis by using a linear acceleration sensor, respectively, to know that the handheld person makes the smart terminal What action, and by triggering the corresponding event in the smart terminal corresponding to the action, the somatosensory action is associated with the control of the smart terminal, so that it is not necessary to touch the physical button or touch the screen of the mobile phone, but through
  • the action of the intelligent terminal can complete the corresponding human-computer interaction operation of the intelligent terminal, such as sending information, sending mail, downloading files, etc., which greatly facilitates the user of the intelligent terminal. And this way of operation can also bring fun to the user.
  • Another object of the present invention is to provide a data exchange system based on a state change of a mobile terminal, characterized in that the data exchange system based on the state change of the mobile terminal transmits information on the mobile terminal to another by changing the state of the mobile terminal.
  • a mobile terminal characterized in that the data exchange system based on the state change of the mobile terminal transmits information on the mobile terminal to another by changing the state of the mobile terminal.
  • Another object of the present invention is to provide a mobile terminal status information exchange system, The point is that the processing module of the data exchange system based on the state change of the mobile terminal can determine the type of state change of the mobile terminal.
  • Another object of the present invention is to provide a mobile terminal status information exchange system, characterized in that the processing module of the data exchange system based on the state change of the mobile terminal can trigger a corresponding event by determining to change the state of the mobile terminal.
  • Another object of the present invention is to provide a data exchange system based on a change in state of a mobile terminal, characterized in that the detection module of the data exchange system based on the state change of the mobile terminal can detect the state of the mobile terminal.
  • Another object of the present invention is to provide a data exchange system based on a change in state of a mobile terminal, characterized in that the communication module of the data exchange system based on the state change of the mobile terminal can exchange data with other terminals.
  • Another object of the present invention is to provide an information exchange method based on the state of a mobile terminal, which is characterized in that the information exchange method based on the state of the mobile terminal can trigger a corresponding event by the user holding the mobile terminal and changing its state, thereby Exchange data with other terminals.
  • Another object of the present invention is to provide a method for determining a type of state change of the mobile terminal, the method determining a type of state change of the mobile terminal based on the detected data provided by the detecting module.
  • Another object of the present invention is to provide a data exchange system based on a state change of a mobile terminal, characterized in that the data exchange system based on the state change of the mobile terminal provides a data transmission method, and the data transmission method determines the state change of the mobile terminal by The type triggers the corresponding event to send data.
  • Another object of the present invention is to provide a data exchange system based on a state change of a mobile terminal, characterized in that the data exchange system based on the state change of the mobile terminal provides a method for operating a peripheral device, and the method for operating the peripheral device passes through a mobile terminal An external device is connected to operate the external device by transmitting data to the mobile terminal by another mobile terminal.
  • the present invention provides a data exchange system based on a state change of a mobile terminal, including:
  • a processing module connected to each other, a detecting module and a storage module, wherein the detecting module detects state change data of the mobile terminal, and stores state change data of the mobile terminal in the storage module, the detecting module Reading status change data of the mobile terminal stored in the storage module and processing to determine a type of status change of the mobile terminal, thereby triggering corresponding Event.
  • the present invention provides a method of operating an external device by a data exchange system in which a state of a mobile terminal changes, comprising the steps of:
  • Step 1 receiving the user input, the user input means that the user holds the mobile terminal to make an action, and the mobile terminal changes state, and interacts with the mobile terminal in this manner;
  • Step 2 Determine the mobile Terminal status change type data;
  • Step 3 Explain the mobile terminal status change type data, the mobile terminal status change type data is interpreted by the interpretation module, and the trigger event data corresponding to the mobile terminal status change type data is obtained, the target object instruction data and the target Data instruction data, the target object instruction data is transmitted to the communication module, and the target data instruction data is transmitted to the data exchange module;
  • Step 4 transmitting the target data to the target object, and transmitting the data acquired from the mobile terminal to the target An object, the target object is another mobile terminal, which is connected to an external device;
  • Step 5 receiving data input, the data inputting another mobile terminal to receive data transmitted by the mobile terminal, and the data is transmitted to the interpretation module through the communication module;
  • Step 6 Interpreting the received data, the received data is transmitted by the communication module, and the received data is interpreted by the interpretation module to generate the call instruction data, and the attribute data of the data is then transmitted to the data exchange module;
  • Step 7 transmitting data to the external device, the call instruction data, the attribute data of the data, and the data itself are transmitted to the external device through the data exchange module;
  • Step 8 Presenting data, the data being received from the data exchange module, the external device presenting the data through its output device.
  • the present invention provides a method of determining a type of state change of the mobile terminal, comprising the steps of:
  • Step 1 determining whether the instantaneous speed value of a time point in the instantaneous speed value of each time point of the mobile terminal exceeds a preset speed value during the detection period, and if yes, determining that the state of the mobile terminal changes, if No, no longer judged;
  • Step 2 Establish a three-dimensional coordinate system with the direction of the X-axis from west to east and the positive direction of the X-axis to the east.
  • the direction of the Y axis is from south to north, and the positive direction of the Y axis is north.
  • the Z axis is from the center of the earth to the ground, and the positive direction of the Z axis is toward the ground.
  • the original center of the coordinate axis is the position of the mobile terminal at the start and end time of the detection time period;
  • Step 3 Calculating the displacement of the mobile terminal, the displacement is The displacement component of the displacement on the X axis, a displacement component on the Y axis and a displacement component on the x axis;
  • Step 4 determining the mobile terminal state change type data, first determining that the displacement is in the displacement component of the displacement on the X axis, the displacement component in the x-axis and the displacement component in the x-axis are the largest, and then determining the maximum value a symbol relationship, thereby determining the mobile terminal state change type data;
  • Step 5 determining that the user holds the action made by the mobile terminal, determining that the user holds the mobile terminal according to determining the mobile terminal state change type data The type of action.
  • the present invention provides another method for determining the type of state change of the mobile terminal, including the following steps:
  • Step 1 determining whether the instantaneous speed value of a time point in the instantaneous angular velocity value of each time point of the mobile terminal exceeds a preset angular velocity value during the detection period, and if yes, determining that the state of the mobile terminal changes, If not, no longer judged;
  • Step 2 determining the direction of the mobile terminal, determining whether the mobile terminal is held vertically or horizontally by the user, the vertical position is that the user holds the mobile terminal in a vertical manner, and the horizontal holding is a user Holding the mobile terminal in a horizontal manner;
  • Step 3 Determine whether the rotation mode of the mobile terminal is rotated clockwise or counterclockwise;
  • Step 4 determining that the type of state change occurs in the mobile terminal
  • Step 5 Determine the action performed by the user by the mobile terminal, and determine the action performed by the user by the mobile terminal according to determining the type change data of the mobile terminal state.
  • the invention is based on a data exchange system in which the state of the mobile terminal is changed, so that the user can operate the mobile terminal without using a finger, thereby liberating the user's finger.
  • the external device is provided with the data exchange system based on the state change of the mobile terminal of the present invention, or the external device is connected to a data exchange system based on the state change of the mobile terminal of the present invention, the user can change the state change of the mobile terminal to
  • the external device operates to change the way the traditional device operates.
  • the external device can be synchronized, and the state of the mobile terminal changes, and immediately reacts to the external device, and the external device immediately responds to the operation.
  • the data exchange system based on the state change of the mobile terminal of the present invention can be stored on the user's mobile terminal.
  • the entertainment content is transmitted to the audio-visual equipment of the Karaoke Hall, thereby solving the problem of duplicate copyright fees.
  • the user can operate the audio and video device by making an action on the mobile terminal and changing the state of the mobile terminal. This will simplify the operation of the audio and video equipment.
  • the video device synchronizes the response.
  • Figure 1 is a schematic illustration of a three-dimensional coordinate system employed by the present invention
  • FIG. 2 is a waveform diagram of angular rate versus time change when the smart terminal of the present invention performs trimming
  • FIG. 3 is a waveform diagram of angular rate versus time change when the smart terminal performs the trimming circuit in the present invention
  • FIG. 5 is a waveform diagram of an angular rate versus time change when the smart terminal performs a right yaw
  • FIG. 5 is a waveform diagram of an angular rate of a smart terminal according to the present invention
  • FIG. 7 is a waveform diagram of the angular rate versus time for the smart terminal of the present invention when it is tilted out.
  • Figure 8 is a schematic illustration of a three-dimensional coordinate system employed by the present invention
  • FIG. 9 is a waveform diagram of linear acceleration versus time change when the smart terminal of the present invention performs trimming
  • Figure 10 is a waveform diagram of linear acceleration versus time change when the smart terminal performs the trimming circuit in the present invention
  • FIG. 11 is a waveform diagram of linear acceleration versus time change when the smart terminal performs left yaw
  • FIG. 12 is a waveform diagram of linear acceleration versus time change when the smart terminal performs right yaw
  • Fig. 14 is a waveform diagram showing the linear acceleration versus time for the smart terminal of the present invention when it is tilted out.
  • Figure 15 is a block diagram showing the structure of a data exchange system based on a state change of a mobile terminal in accordance with a preferred embodiment of the present invention.
  • Figure 16 is a block diagram showing the structure of a switch module of a data exchange system based on a state change of a mobile terminal in accordance with a preferred embodiment of the present invention.
  • Figure 17 is a flow chart of a data transmission method of a data exchange system based on a state change of a mobile terminal in accordance with a preferred embodiment of the present invention.
  • FIG. 18 is a flowchart of a data exchange system data receiving method based on a mobile terminal state change according to a preferred embodiment of the present invention.
  • 19 is a flow diagram of a method of operating a peripheral device by a data exchange system with a state change of a mobile terminal in accordance with the present invention.
  • the present invention provides a gyroscope-based human-computer interaction detection and processing method on a smart terminal, which is characterized in that it comprises the following steps:
  • the intelligent terminal rotates around the X axis, it is defined as trim. If the smart terminal rotates around the Y axis, it is defined as yaw. If the smart terminal rotates around the z axis, it is defined as traverse.
  • the gyroscope is used to respectively test the angular rate of the terminal device rotating around the X axis, the angular rate of rotation around the Y axis, and the angular rate of rotation around the z axis;
  • the gyroscope is an angular motion detecting device.
  • the gyroscope detects the angular velocity of the terminal device rotating around the X axis, the angular velocity around the Y axis, and the surrounding. The angular rate at which the z-axis rotates.
  • step (4) determining the action made by the smart terminal according to the waveform diagram on the curves of the X-axis, the Y-axis, and the Z-axis means:
  • the apparent trough refers to:
  • the amplitude of the curve is smaller than S1 and continues for more than T seconds
  • the apparent peak refers to:
  • the amplitude of the curve is greater than S2 and continues to exceed T Seconds, if there are no obvious troughs and no obvious peaks in the waveform diagram, it is considered that there is no obvious change in the waveform diagram.
  • the S1, S2 and T are all settable values, which can be set in the program. In this embodiment, S1 is set to -1.5, S2 is 1.5, and T is 0.2.
  • the smart terminal performs the action from the near-out direction; as shown in Fig. 2:
  • the waveform diagram of the X-axis appears less than -1.5, and lasts for more than 0.2 seconds. It can be analyzed that the X-axis has obvious troughs, and the Y-axis and Z-axis have no obvious change. At this time, the smart terminal has a trimming out. Action, think that the smart terminal does the action of going far and wide.
  • the intelligent terminal performs the action from the far-reaching near-turnback; as shown in Fig. 3:
  • the waveform graph of the axis appears greater than -1.5, and lasts for more than 0.2 seconds. It can be analyzed that there are obvious peaks on the X-axis in the graph, and there is no obvious change in the Y-axis and the Z-axis.
  • the smart terminal has the function of trimming and detouring. , think that smart terminals do the action from far to near.
  • the smart terminal is judged to flip to the left; as shown in FIG. 4:
  • the smart terminal has a left-lateral yaw motion, and the smart terminal is considered to be flipped to the left.
  • the smart terminal is judged to flip to the right; as shown in FIG. 5:
  • the waveforms of the X-axis and the Z-axis have no obvious change.
  • the smart terminal has a right-wing motion. , think that the smart terminal does the action of flipping to the right.
  • the obtained waveform diagram has obvious troughs in the waveform diagram of the Z-axis, and the waveform diagrams of the Y-axis and the X-axis do not change significantly, judge the action of the smart terminal from the near-outward direction; as shown in Fig. 6:
  • the waveform of the axis appears less than -1.5, and lasts for more than 0.2 seconds. It can be analyzed that the waveform of the Z-axis in the figure has obvious troughs, and the waveforms of the Y-axis and the X-axis have no obvious change.
  • the action of yawing out thinks that the smart terminal does the action from the near side.
  • the intelligent terminal performs the action from the far-reaching to the near-turnback.
  • Figure 7 Z-axis in the figure
  • the waveform graph appears greater than 1.5, and lasts for more than 0.2 seconds. It can be analyzed that the waveform of the Z-axis has obvious peaks, and the waveforms of the Y-axis and the X-axis have no obvious change.
  • the smart terminal has a heel. The action of the back, thinks that the smart terminal does the action from far to near.
  • the step (4) determines the action made by the smart terminal, and triggers the corresponding event according to the setting: if it is determined that the smart terminal performs the action from the near direction, the event triggered by the smart terminal includes: sending the email, uploading Sending a message, sending a message, sending a message, or launching a weapon in a shooting game; if it is determined that the smart terminal is performing a far-reaching action, the event triggered by the smart terminal includes: receiving a file, downloading a file, and receiving the information;
  • the events triggered by the smart terminal include: viewing the previous page, scrolling forward, and viewing the previous item;
  • the events triggered by the smart terminal include: viewing the next page, turning over, and viewing the next item.
  • the triggering corresponding event can be set as needed in the program of the smart terminal.
  • the present invention provides a human-machine interaction detection and processing method based on a linear acceleration sensor on an intelligent terminal, which is characterized in that it comprises the following steps:
  • the intelligent terminal rotates around the X axis, it is defined as trim. If the smart terminal rotates around the Y axis, it is defined as yaw. If the smart terminal rotates around the Z axis, it is defined as traverse.
  • the linear acceleration sensor is used to respectively test the linear acceleration of the terminal device in the three axial directions of XYZ; the linear acceleration sensor is a linear acceleration detecting device, and There is such an intelligent terminal with a linear acceleration sensor.
  • the linear acceleration sensor detects the linear acceleration of the terminal device at three axes of XYZ, respectively.
  • step (4) Determine the action made by the intelligent terminal according to the waveform diagram of the obtained linear acceleration of the X-axis, the Y-axis, and the Z-axis on the time curve, and trigger the corresponding event according to the setting.
  • determining the action made by the smart terminal according to the waveform diagram on the curves of the X-axis, the Y-axis, and the Z-axis means:
  • the apparent trough refers to:
  • the amplitude of the curve is smaller than S1 and continues for more than T seconds
  • the apparent peak refers to:
  • the amplitude of the curve is greater than S2 and continues to exceed T Seconds, if there are no obvious troughs and no obvious peaks in the waveform diagram, it is considered that there is no obvious change in the waveform diagram.
  • the S1, S2 and T are all settable values, which can be set in the program. In this embodiment, S1 is set to -1.5, S2 is 1.5, and T is 0.2.
  • the waveform diagram of the ⁇ -axis has obvious troughs, and the waveforms of the ⁇ -axis and the X-axis do not change significantly, judge the action of the smart terminal from the near-out direction; as shown in Figure 9:
  • the waveform of the ⁇ axis appears less than -1.5, and lasts for more than 0.2 seconds. It can be analyzed that there are obvious troughs in the ⁇ axis, and there is no obvious change in the ⁇ axis and the X axis. At this time, the smart terminal has the trimming out. Action, think that the smart terminal does the action of going far and wide.
  • the intelligent terminal performs the action from the far side to the near side; as shown in Fig. 10:
  • the waveform graph of the axis appears greater than -1.5, and lasts for more than 0.2 seconds. It can be analyzed that there are obvious peaks on the X-axis in the graph, and there is no obvious change in the x-axis and the X-axis.
  • the smart terminal has the function of trimming and detouring. , think that smart terminals do the action from far to near.
  • the smart terminal is judged to flip to the left; as shown in FIG.
  • the waveform diagram of the X-axis in the figure first appears less than -1.5, and lasts for more than 0.2 seconds, then appears greater than 1.5, and lasts for more than 0.2 seconds, then the waveform of the X-axis in the figure is analyzed with obvious troughs. After that, there are obvious peaks, and the waveforms of the X-axis and the ⁇ -axis do not change significantly.
  • the smart terminal has a left yaw motion, and the smart terminal is considered to be flipped to the left.
  • the waveform of the X-axis has obvious troughs first, and then there are obvious peaks. If the waveforms of the X-axis and the ⁇ -axis do not change significantly, the smart terminal is judged to flip to the right; as shown in Fig. 12: The waveform diagram of the X-axis in the figure first appears greater than 1.5, and lasts for more than 0.2 seconds, then appears less than -1.5, and lasts longer than 0.2 seconds. The analysis shows that the waveform of the X-axis in the figure has obvious troughs. After the obvious peak, the waveform of the X-axis in the figure has obvious peaks first, and then there are obvious troughs.
  • the waveforms of the X-axis and the ⁇ -axis have no obvious change.
  • the smart terminal has the right yaw motion. , think that the smart terminal does the action of flipping to the right. If the waveform diagram obtained has obvious troughs in the waveform diagram of the Y-axis, and the waveform diagrams of the Y-axis and the z-axis do not change significantly, it is judged that the smart terminal performs the action from the near-out direction; as shown in Fig. 13:
  • the waveform of the axis appears less than -1.5, and lasts for more than 0.2 seconds.
  • the smart terminal performs the action from the far side to the near-turn.
  • Figure 14 The waveform of the Y-axis in the figure appears greater than 1.5, and lasts for more than 0.2 seconds. It can be analyzed that the waveform of the Y-axis has obvious peaks, and the waveforms of the Y-axis and the Z-axis are not obvious. Change, at this point, the smart terminal has a tumultuous action, and the smart terminal is considered to be moving from far to near.
  • the step (4) determines the action made by the smart terminal, and triggers the corresponding event according to the setting: if it is determined that the smart terminal performs the action from the near direction, the event triggered by the smart terminal includes: sending the email, uploading Sending a message, sending a message, sending a message, or launching a weapon in a shooting game; if it is determined that the smart terminal is performing a far-reaching action, the event triggered by the smart terminal includes: receiving a file, downloading a file, and receiving the information;
  • the events triggered by the smart terminal include: viewing the previous page, scrolling forward, and viewing the previous item;
  • the events triggered by the smart terminal include: viewing the next page, turning over, and viewing the next item.
  • the triggering corresponding event can be set as needed in the program of the smart terminal.
  • the data exchange system based on the state change of the mobile terminal of the present invention includes a processing module 10, a detecting module 20 and a storage module 30 connected to each other.
  • the detecting module 20 detects state change data of the mobile terminal, and stores the detected data in the storage module 30.
  • the processing module 10 reads the data in the storage module 30. Based on the data, the processing module 10 can determine what action the user has made to change the state of the mobile terminal. That is, the processing module 10 determines the action of the user who has changed the state of the mobile terminal.
  • the processing module 10 triggers a corresponding event after making a determination.
  • the detection module 20 further includes a timing module 21 and a state detection module 22, and the timing module 21 is coupled to the state detection module 22.
  • the timing module 21 is configured to set a detection period.
  • the state detecting module 22 detects the state of each time point of the mobile terminal.
  • the status detection module 22 is available for inspection
  • the state of the mobile terminal is measured, and the detected status data is then transmitted to the storage module 30. That is, the state detecting module 22 can detect the moving direction of the mobile terminal, the acceleration and acceleration directions, the angular velocity, and the direction of the mobile terminal.
  • the direction of the mobile terminal means that the mobile terminal is in a vertical state, an inverted state, a left horizontal state, a right horizontal state, an up state, or a down state.
  • the positive vertical state refers to the normal erect state of the mobile terminal.
  • the inverted vertical state refers to a state in which the upper and lower portions of the mobile terminal are reversed.
  • the left horizontal state refers to a state in which the mobile terminal in the upright state is placed to the left.
  • the right horizontal state refers to a state in which the mobile terminal in the vertical state is placed to the right.
  • the up state is a state in which the mobile terminal is in the front direction.
  • the tilt state refers to a state in which the back side of the mobile terminal is placed upward.
  • the timing module 21 has a timing mode that starts timing when a change in state of the mobile terminal is detected, and stops when the mobile terminal stops changing state.
  • the detecting module 20 detects that the acceleration of the mobile terminal changes, and the timing module 21 starts timing.
  • the state detecting module 22 of the detecting module 20 transmits the detected state data of the mobile terminal to the storage module 30. Specifically, the state detecting module 22 sequentially transmits the detected state data of the mobile terminal to the storage module 30 according to the time sequence provided by the timing module 21.
  • the processing module 10 further includes a state change type decision module 11 and a switch module 12 that are connected to each other.
  • the state change type decision module 11 reads the state data about the mobile terminal in the memory module 30, and then processes to determine what has changed in the state of the mobile terminal.
  • the state change type determining module 11 can process according to the state data about the mobile terminal provided in the storage module 30, and then determine what action the user of the mobile terminal uses to make the state of the mobile terminal occur. Variety.
  • the state change type determining module 11 processes the mobile terminal state data, the following data can be obtained.
  • the instantaneous speed of each time point of the mobile terminal and/or the instantaneous angular velocity of each time point are detected.
  • the state change type determining module 11 may perform the determination by determining the mobile terminal state change method described below, and the determining method includes the following steps:
  • Step 1 Determine whether the instantaneous speed value of a time point in the instantaneous speed value of each time point of the mobile terminal exceeds the preset speed value during the detection period. If so, it is determined that the state of the mobile terminal has changed. In other words, if there is, it is determined that the user's action causes the state of the mobile terminal to change. If not, it is no longer determined.
  • Step 2 Establish a three-dimensional coordinate system.
  • the direction of the X-axis is from the left hand of the user to the right hand of the user, and the positive direction of the X-axis is to the right of the user.
  • the direction of the Y-axis is from the user's direction away from the user, and the positive direction of the Y-axis is away from the user.
  • the Z axis is from the center of the earth to the ground, and the positive direction of the Z axis is toward the ground.
  • the original center of the coordinate axis is the position of the mobile terminal at the start and end time of
  • Step 3 Calculate the displacement S of the mobile terminal, the displacement S is the displacement component Sx of the displacement on the X axis, the displacement component Sy on the Y axis, and the displacement component S z on the Z axis, and the mobile terminal ends at the detection time Point position coordinates P(x, y, z
  • the position of the mobile terminal is converted into three-dimensional coordinates from the detection time to the end of the detection time. Obtaining coordinates of the last position of the mobile terminal in the three-dimensional coordinate system during the detection period, a displacement S of the mobile terminal in the detection period, and a displacement component Sx of the displacement S on the X-axis, on the Y-axis The displacement component Sy and the displacement component S z on the Z axis.
  • Step 4 Determine the mobile terminal status change type data.
  • the relationship between the displacement component Sx of the displacement S on the X axis, the displacement component Sy of the Y axis, and the displacement component S z of the Z axis is determined. First, it is determined that the displacement component Sx on the X-axis, the displacement component Sy on the Y-axis, and the displacement component Sz on the Z-axis are the largest, and then the displacement component Sx on the X-axis, the displacement component Sy on the Y-axis, and The sign of the largest value among the displacement components S z of the Z axis.
  • the sign of Sx is determined. If the sign of Sx is positive, it is determined that the mobile terminal generates a right ⁇ , and the right ⁇ refers to the mobile terminal The positive direction of the X axis moves. If the sign of Sx is negative, it is determined that the mobile terminal is left-handed, and the left-hand side refers to the mobile terminal moving in the negative direction of the X-axis.
  • the value of Sy is the largest of the three values Sx, Sy, Sz, and then determine the sign of Sy, if the sign of Sy is positive, it is determined that the mobile terminal is separated, and the deviation refers to the mobile terminal The positive direction of the Y axis moves. If the sign of Sy is negative, it is determined that the mobile terminal is detoured, and the detour refers to the mobile terminal moving in the negative direction of the Y-axis.
  • the value of Sz is the largest of the three values Sx, Sy, Sz, and then determine the sign of Sz, if the sign of Sz is positive, it is determined that the mobile terminal has a cap, and the captain refers to the mobile terminal The positive direction of the Z axis moves. If the sign of Sz is negative, it is determined that the mobile terminal is squatting, and the state change type 6 refers to the mobile terminal moving in the negative direction of the Z axis.
  • Step 5 Determine the action taken by the user with the mobile terminal. According to the determination of the mobile terminal The state changes the type data to determine the action taken by the user with the mobile terminal.
  • the state change type is right ⁇ , it is determined that the user makes a right squat action.
  • the right-handed action means that the user moves the mobile terminal to the right of the user by the mobile terminal.
  • the left-handed action means that the user moves the mobile terminal to the left of the user.
  • the user is determined to make a detachment action.
  • the detachment action means that the user moves the mobile terminal to the mobile terminal in a direction away from the user.
  • the bypass operation means that the user moves the mobile terminal to the mobile terminal in a direction close to the user.
  • the captain action means that the user moves the mobile terminal to the mobile terminal by the mobile terminal.
  • the squatting action refers to the user moving the mobile terminal to the ground by the mobile terminal.
  • the state of the mobile terminal can be further divided according to the displacement value generated by the mobile terminal, so that more events can be triggered and the operation can be enriched.
  • a displacement comparison value Sc can be preset. If the value of the displacement S is smaller than the displacement comparison value Sc, it is determined that the degree of change of the state of the mobile terminal is the degree of change. If the value of the displacement S is greater than or equal to the displacement comparison value Sc, it is determined that the degree of state change of the mobile terminal is ⁇ . This comparison step can be performed between steps 3 and 4.
  • the right ⁇ can be further divided into a right shot and a right ⁇ , so that the right squatting action by the user holding the mobile terminal can also be divided into a right slap motion and a right squat motion.
  • the left hand can be further divided into a left beat and a left click, so that the user can perform the left click action by the mobile terminal or can be divided into a left beat action and a left click action.
  • the separation can be further divided into a shot and a deviation, so that the user can perform the separation action by the mobile terminal or can be divided into a beat action and a split action.
  • the roundabout can be further divided into beatback and roundabout, so that the user can hold the loopback action by the mobile terminal and can also be divided into a beatback action and a loopback action.
  • the upper jaw can be further divided into an upper shot and a top, so that the user can perform the upper movement by holding the mobile terminal or can be divided into a topping action and a capping action.
  • the lower jaw can be further divided into a lower shot and a lower jaw, so that the user can perform the lower jaw movement by holding the mobile terminal or can be divided into a lower shooting motion and a lower jaw motion.
  • a displacement threshold can be further set. When the value of the displacement S is less than the displacement threshold, it is determined that the mobile terminal is defective, and the type of state change that occurs in the mobile terminal is: It can be generated by the user holding the mobile terminal to make an action and going back and forth.
  • the state change type decision module 11 further has another mobile terminal state change determination method, the determination method comprising the following steps:
  • Step 1 Determine whether the instantaneous speed value of a time point in the instantaneous angular velocity value of each time point of the mobile terminal exceeds the preset angular velocity value during the detection period. If so, it is determined that the state of the mobile terminal has changed. In other words, if there is, it is determined that the user's action causes the state of the mobile terminal to change. If not, it is no longer determined.
  • Step 2 Determine the direction of the mobile terminal. It is judged whether the mobile terminal is held vertically or horizontally by the user.
  • the vertical holding is that the user holds the mobile terminal in a vertical manner
  • the horizontal holding is that the user holds the mobile terminal in a horizontal manner.
  • Step 3 Determine whether the mobile terminal rotates clockwise or counterclockwise.
  • Step 4 Determine that the mobile terminal has a status change type.
  • Step 5 Determine the action taken by the user with the mobile terminal. Based on the determination of the mobile terminal status change type data, the user is determined to perform an action by the mobile terminal.
  • the mobile terminal If the mobile terminal is vertically held by the user and rotated clockwise in a vertical manner, it is determined that the type of state change occurs in the mobile terminal: Vertically, the mobile device can hold the mobile phone by the user. The terminal generates a sticking and clockwise rotation action.
  • the mobile terminal is vertically held by the user and rotates in a counterclockwise direction in a vertical manner, it is determined that the type of state change occurs in the mobile terminal: vertical reversal, the vertical reversal action of the mobile terminal may be performed by the user holding the mobile terminal It is produced by vertical and counterclockwise rotation.
  • the mobile terminal is horizontally held by the user and rotated clockwise in a horizontal manner, it is determined that the type of state change occurs in the mobile terminal: traverse, the traversing action of the mobile terminal can be held by the user.
  • the terminal generates a horizontally held and clockwise rotation action.
  • the mobile terminal is held horizontally by the user and rotated counterclockwise in a horizontal manner, it is determined that the type of state change occurs in the mobile terminal: horizontal reversal, and the horizontal reversal action generated by the mobile terminal can be performed by the user holding the mobile terminal. Produced by a horizontally held and counterclockwise rotation.
  • the state of occurrence of the mobile terminal can be further divided according to the displacement value generated by the mobile terminal. Increase the angle comparison value. Determine the degree of rotation. If the angle value of the rotation of the mobile terminal is less than the angle comparison value, it is determined that the degree of state change of the mobile terminal is jitter. If the shift When the value of the angle of rotation of the mobile terminal is greater than or equal to the angle comparison value, it is determined that the degree of state change of the mobile terminal is revolution.
  • This step can be performed between steps 3 and 4, such that the mobile terminal state change type: the vertical turn is further divided into vertical and vertical.
  • the mobile terminal state change type vertical reversal is further divided into vertical inverse and vertical reverse.
  • the type of state change of the mobile terminal the traverse is further divided into a horizontal sway and a horizontal sway.
  • the mobile terminal state change type The horizontal reverse is further divided into horizontal reverse and horizontal reverse.
  • the generated mobile terminal state change data is transmitted to the switch module 12.
  • the switching module 12 receives the mobile terminal state change data, performs processing, and obtains a corresponding trigger event, and then the switching module 12 can acquire data from the mobile terminal and then exchange with another terminal device.
  • the switching module 12 interprets the received mobile terminal state change data, determines a specific event to be triggered, and then acquires the required data from the mobile terminal to perform a corresponding operation.
  • the switch module 12 further includes an interpretation module 121, a data exchange module 122 and a communication module 123.
  • the interpretation module 121 is connected to the data exchange module 122 and the communication module 123, respectively.
  • the interpretation module 121 can interpret the data received by the switching module 12 to determine a corresponding trigger event, data to be acquired to execute the trigger event, and an object to which the data needs to be sent.
  • the interpretation module receives data transmitted by the state change type module 11.
  • the interpretation module 121 then generates target data instruction data for transmission to the data exchange module 122, and the interpretation module 121 generates target object instruction data to the communication module 123 for transmission to the data.
  • the data exchange module 122 receives the target data instruction data issued by the interpretation module 121, and then acquires the target data from the mobile terminal, and the acquired target data is transmitted to the communication module 123.
  • the communication module 123 After receiving the target object command issued by the interpretation module 121 and the target data sent by the data exchange module 122, the communication module 123 transmits the target data to the target object through the mobile terminal.
  • Fig. 17 is a flow chart showing the data transmission method 100 of the data exchange system in which the state of the mobile terminal of the present invention is changed.
  • the information transmitting method 100 includes receiving the user input as indicated at block 102.
  • the user input refers to the user holding the mobile terminal to make an action, changing the state of the mobile terminal, and interacting with the mobile terminal in this manner.
  • the information transmitting method 100 further includes determining the mobile terminal state change type data as indicated by block 104. The specific determination method is as described above.
  • the information transmitting method 100 further includes the explanation of the mobile terminal as indicated by block 106. End state change type. Explain the mobile terminal status change type data, and obtain the mobile terminal status change type to obtain its corresponding trigger event data, the target object instruction data and the target data instruction data.
  • the information transmitting method 100 further includes the acquisition target data shown in block 108.
  • the acquisition target data can be performed by the data exchange module 122 of the switch module 12.
  • the information transmitting method 100 further includes transmitting target data shown in block 110 to the target object.
  • the communication module 123 of the switching module 12 After receiving the target object instruction data and the target data, the communication module 123 of the switching module 12 sends the target data to the target object.
  • the user moves the mobile terminal horizontally.
  • the state detecting module 22 of the detecting module 20 detects that the acceleration of the mobile terminal changes, the state of the mobile terminal changes, and the timing module 21 of the detecting module 20 is activated to perform timing.
  • the state detecting module 22 of the detecting module 20 transmits the detected moving module change data and the detecting time point data to the storage module 30.
  • the user interacts with the mobile terminal through an action to generate an input.
  • the detecting module 20 starts receiving data after detecting the change of the mobile terminal. After the user's action is completed, the detection module 20 completes the detection data and transmits all the detected data to the storage module 30.
  • the state change type determining module 11 of the processing module 10 reads data about the state change of the mobile terminal in the storage module, and then the data of the state change of the mobile terminal is processed and determined. It is determined that the mobile terminal generates a state change of 1, and the action made by the user holding the mobile terminal is action 1.
  • the state change type decision module 11 transmits the mobile terminal state change 1 data to the interpretation module 121 of the switch module 12.
  • the interpretation module 121 interprets the mobile terminal status change 1 data, generates trigger event 1 data, the target object instruction data and the target data instruction data.
  • the trigger event 1 is a send picture
  • the target object is user B
  • the target data is a picture.
  • the trigger event is set by the user.
  • the interpretation module 121 transmits the target data instruction data to the data exchange module 122, and transmits the target object instruction data to the communication module 123.
  • the data exchange module acquires a picture on the mobile terminal, and transmits the picture to the communication module 123 in a data manner.
  • the communication module 123 transmits the picture to the user B through the mobile terminal in the form of data.
  • FIG. 18 is a data receiving method 200 of an embodiment of a data exchange system based on a state change of a mobile terminal according to the present invention.
  • the data receiving method 200 includes receiving data transmitted by other terminals as indicated at block 202. After the data transmitted by other terminals is received by the mobile terminal, the exchange mode is adopted.
  • the communication module 123 of block 12 is passed to the interpretation module 121 of the switch module 12.
  • the information receiving method 200 further includes interpreting the received data as shown at block 204.
  • the interpretation module 121 will identify the attribute data for the data.
  • Attribute data refers to the data used for identification, such as data types, such as pictures, music, videos, documents, etc.; such as data formats, such as jpeg, bmp, png, video, wmv, mp4, rmvb, etc. .
  • the interpretation module generates call instruction data for invoking an output device on the mobile terminal according to the attribute data of the data.
  • the interpretation module 121 transmits the call instruction data, the attribute data of the data, and the data to the data exchange module 122.
  • the data receiving method 200 further includes transmitting data as shown at block 206. After receiving the call instruction data, the attribute data of the data, and the data, the data exchange module 122 transmits the data to the mobile terminal.
  • the information receiving method 200 further includes the presentation data shown at block 208.
  • the mobile terminal invokes its output device to present the data to the user of the mobile terminal.
  • An example of receiving data by a mobile terminal is further illustrated.
  • the mobile terminal transmits the data to the interpretation module 121 of the switching module 12 through the communication module 123 of the switching module 12.
  • the interpretation module 121 interprets the data, recognizes that the data is a picture, and the format is jpeg, and then generates call instruction data.
  • the interpretation module 121 transmits the call instruction data, the attribute data (picture, jpeg) of the data, and the data to the data exchange module 122.
  • the data exchange module 122 receives the call instruction data, the attribute data (picture, jpeg) of the data and the data, and transmits the data to the mobile terminal. After receiving the call instruction data, the attribute data (picture, jpeg) of the data and the data, the mobile terminal calls the output device of the mobile terminal, in this example, a display screen to display the picture on the display screen.
  • the mobile terminal may further have a step: the user can interact with the mobile terminal by acting on the mobile terminal to trigger the receiving of the information event. The mobile terminal can then receive the information.
  • the data exchange system of the state change of the mobile terminal of the present invention can also be set on other external devices.
  • the invention further provides a method of connecting to other devices.
  • the audio-visual device is connected to a mobile terminal through a data line. More specifically, the data line is respectively connected to a data interface of the audio-visual device and a data interface of the mobile terminal. In this way, the shift The data on the mobile terminal can be transmitted to the audio-visual device, and outputted to the user through the audio-visual device.
  • the audio-visual device can also be connected to the mobile terminal D by other means, such as network, Bluetooth, wireless network, satellite network, and the like. More specifically, the data of the mobile terminal is acquired by the data exchange module 122 of the switching module 12 and transmitted to the communication module 123 of the switching module 12.
  • the communication module 123 transmits the data of the mobile terminal to the audio-visual device through the data line.
  • the audiovisual device displays the data of the mobile terminal.
  • the user can perform an action by holding another mobile terminal C, trigger a corresponding event, and operate the video device through the mobile terminal. If the music video (Music Video) on the mobile terminal C is sent to the mobile terminal, it is played on the audio device.
  • Music Video Music Video
  • FIG 19 is a diagram showing a method of operating a peripheral device by a data exchange system in which the state of the mobile terminal is changed, in accordance with an embodiment of the present invention. This is further illustrated by playing a music video as an example.
  • a mobile terminal is used as an adapter end, and another data interface of the mobile terminal is connected to an audio-visual device through a data line.
  • Another mobile terminal acts as a control terminal, and operates the audio and video device by triggering an event.
  • the user uses an action to change the state of the control end to trigger an event.
  • the connection between the control terminal and the adapter end is selected from the group consisting of a data line, a network, a Bluetooth, a wireless network, a satellite network, a telephone network, and the like.
  • the method 500 of operating a peripheral device further includes receiving user input as shown in block 502.
  • the user's input is that the user quickly moves to the sky in the vertical direction with the control end.
  • the operational peripheral method 500 further includes determining the mobile terminal state change type data as indicated by block 504. It is determined that the state of the mobile terminal is processed by the state change type determining module 11 of the processing module 10, and the specific determining method is as described above. It is determined that the state change type data of the mobile terminal is a departure. The deviation is then transmitted to the interpretation module 121 of the switching module 12 of the processing module 10.
  • the method of operation 500 further includes interpreting the mobile terminal state change type as indicated by block 506. Interpreting the trigger event 3 can be performed by the interpretation module 121 of the switch module 12.
  • the interpretation module 121 interprets the mobile terminal state change type data deviation, and obtains a trigger event 3, the target object instruction data and the target data instruction data.
  • triggering event 3 refers to sending a music video to the adapter.
  • the interpretation module 121 transmits the trigger event 3 data: a music video, and the target data command data: the music video to the data exchange module 122 of the switching module 12.
  • the interpretation module 121 transmits the target object instruction data: the adapter end to the communication module 123.
  • the operational peripheral method 500 further includes the acquisition target data shown in block 508.
  • the acquisition target data can be performed by the data exchange module 122 of the switch module 12.
  • the data exchange module 122 acquires the music video and then transmits the music video to the communication module 123.
  • the operational peripheral method 500 further includes transmitting target data to the target object as shown in block 510.
  • the communication module 123 of the switching module 12 After receiving the target object instruction data and the target data, the communication module 123 of the switching module 12 sends the target data to the target object.
  • the communication module 123 transmits the received music video to the adapter end.
  • the method 500 of operating the peripherals further includes receiving data input as indicated by block 512.
  • the data input refers to data transmitted by other terminals. In this example, the data transmitted by the control terminal.
  • the communication module 123 of the switching module 12 of the processing module 10 transmits the data to the interpretation module 121 of the switching module 12.
  • the operational peripheral method 500 further includes interpreting the received data as indicated at block 514. The data received by the interpretation module 121.
  • the data is a music video in the format mp4.
  • the interpretation module generates call instruction data for invoking an output device on the mobile terminal according to the attribute data of the data.
  • the interpretation module 121 transmits the call instruction data, the attribute data of the data, and the data to the data exchange module 122.
  • the information receiving method 500 further includes transmitting the data to the external device as indicated at block 516.
  • the data exchange module 122 receives the call instruction data, attribute data of the data: music video, MP4 and the music video, and transmits the data to the video terminal through the mobile terminal.
  • the information receiving method 500 further includes the presentation data shown at block 518. After receiving the call instruction data, the attribute data of the music video, and the music video, the video terminal calls its output device to present the data to the user of the mobile terminal.
  • the display device of the audio-visual device outputs a music video
  • the sound device of the audio-visual device outputs the sound of the music video.
  • the data exchange system based on the state change of the mobile terminal of the present invention can be set in an adapter and then connected to the data interface of other terminals.
  • the present invention further includes a mode selection module 40.
  • the mode selection module 40 provides a plurality of trigger event configuration data, and the mode selection module 40 is coupled to the processing module 10 for the processing module 10 to read the trigger event configuration data to adapt to different applications.
  • the console can invoke an entertainment terminal configuration through the mode selection module, which can be configured with an adapter.
  • the entertainment terminal configuration enables the data exchange system triggering event of the mobile terminal state change of the present invention to be adapted for use in the entertainment terminal.
  • the mode selection module 40 can also customize the event configuration, and the user can define each trigger event by the mode selection module 40.
  • the invention further includes an adjustment module 50.
  • the adjustment module 50 and the detection module 20 are respectively Connected to the processing module.
  • the adjustment module 50 is configured for the user to adjust the preset speed value, the preset angular velocity value, the displacement threshold, and the displacement comparison value.
  • the adjusting module 50 records, by the detecting module 20, data that the user changes the state of the mobile terminal by performing the same action multiple times by the mobile terminal, and then transmits the data to the processing module 10 for processing, and then obtains the adjusted data.
  • the adjusting module 50 records, by the detecting module 20, that the mobile terminal changes the data caused by the user performing the same action multiple times, and then transmits the data to the processing module 10 for processing.
  • the adjusted preset speed value is obtained.
  • the preset angular velocity value, the displacement threshold, the displacement comparison value can also be adjusted in this manner.
  • the events invoked in the present invention include: send, receive, page, upload, download, confirm, play, stop, forward, and rewind.

Landscapes

  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Computer Hardware Design (AREA)
  • General Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Telephone Function (AREA)

Abstract

Un système d'échange de données basé sur un changement d'état de terminal mobile comprend un module de traitement, un module de détection et un module de mémorisation connectés les uns aux autres. Le module de détection détecte des données de changement d'état d'un terminal mobile et mémorise les données de changement d'état du terminal mobile dans le module de mémorisation. Le module de détection lit les données de changement d'état du terminal mobile mémorisées dans le module de mémorisation et les traite de manière à décider d'un type de changement d'état du terminal mobile, déclenchant ainsi un événement correspondant.
PCT/CN2012/086071 2011-12-07 2012-12-06 Système d'échange de données basé sur un changement d'état de terminal mobile WO2013083060A1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
CN201110403062.3A CN102566796B (zh) 2011-12-07 2011-12-07 智能终端上基于线加速度传感器的人机交互检测及处理方法
CN201110403053.4 2011-12-07
CN201110403053.4A CN102520795B (zh) 2011-12-07 2011-12-07 智能终端上基于陀螺仪的人机交互检测及处理方法
CN201110403062.3 2011-12-07

Publications (1)

Publication Number Publication Date
WO2013083060A1 true WO2013083060A1 (fr) 2013-06-13

Family

ID=48573560

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2012/086071 WO2013083060A1 (fr) 2011-12-07 2012-12-06 Système d'échange de données basé sur un changement d'état de terminal mobile

Country Status (1)

Country Link
WO (1) WO2013083060A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108683807A (zh) * 2018-05-04 2018-10-19 武汉极意网络科技有限公司 一种基于手机陀螺仪的雷达动画展示方法、装置及设备

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101339471A (zh) * 2007-07-04 2009-01-07 索尼株式会社 输入设备、控制设备、控制系统以及控制方法
CN101739199A (zh) * 2008-11-05 2010-06-16 联想(北京)有限公司 一种显示图像的移动终端和方法
US20100156785A1 (en) * 2008-12-18 2010-06-24 Seiko Epson Corporation Input device and data processing system
CN102265242A (zh) * 2008-10-29 2011-11-30 因文森斯公司 在移动设备上使用运动处理来控制和访问内容
CN102520795A (zh) * 2011-12-07 2012-06-27 东蓝数码有限公司 智能终端上基于陀螺仪的人机交互检测及处理方法
CN102566796A (zh) * 2011-12-07 2012-07-11 东蓝数码有限公司 智能终端上基于线加速度传感器的人机交互检测及处理方法

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101339471A (zh) * 2007-07-04 2009-01-07 索尼株式会社 输入设备、控制设备、控制系统以及控制方法
CN102265242A (zh) * 2008-10-29 2011-11-30 因文森斯公司 在移动设备上使用运动处理来控制和访问内容
CN101739199A (zh) * 2008-11-05 2010-06-16 联想(北京)有限公司 一种显示图像的移动终端和方法
US20100156785A1 (en) * 2008-12-18 2010-06-24 Seiko Epson Corporation Input device and data processing system
CN102520795A (zh) * 2011-12-07 2012-06-27 东蓝数码有限公司 智能终端上基于陀螺仪的人机交互检测及处理方法
CN102566796A (zh) * 2011-12-07 2012-07-11 东蓝数码有限公司 智能终端上基于线加速度传感器的人机交互检测及处理方法

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108683807A (zh) * 2018-05-04 2018-10-19 武汉极意网络科技有限公司 一种基于手机陀螺仪的雷达动画展示方法、装置及设备
CN108683807B (zh) * 2018-05-04 2020-12-08 武汉极意网络科技有限公司 一种基于手机陀螺仪的雷达动画展示方法、装置及设备

Similar Documents

Publication Publication Date Title
EP3754476B1 (fr) Procédé d'affichage d'informations, interface utilisateur graphique et terminal
KR101708582B1 (ko) 디지털 미디어 콘텐츠 재생을 이전하는 방법, 장치 및 시스템
CN107707817B (zh) 一种视频拍摄方法及移动终端
EP3902278B1 (fr) Procédé de lecture de musique, dispositif, terminal et support de stockage
US20130169545A1 (en) Cooperative displays
JP2012506100A (ja) 身振り認識を伴うモバイルデバイス
JP2012507802A (ja) 携帯端末上での運動処理を使用するコンテンツの制御およびアクセス
CN102600614A (zh) 设备支承系统和支承装置
WO2016179912A1 (fr) Procédé et appareil de commande de programme d'application, et terminal mobile
JP5607579B2 (ja) 情報処理システム、情報処理装置、情報処理プログラム、およびコンテンツ再生制御方法
CN105549878A (zh) 电子书翻页控制方法及设备
US20180280803A1 (en) System and Method for Creation and Control of Interactive User Interfaces
WO2013082954A1 (fr) Procédé de détection et de traitement d'interaction homme-machine basé sur un gyroscope dans un terminal intelligent
WO2023016283A1 (fr) Procédé et appareil de synchronisation temporelle pour dispositif monté sur la tête et dispositif périphérique
EP2611117B1 (fr) Affichages coopératifs
CN106412810A (zh) 数据传输方法及装置
TW201222325A (en) Work state switching method of mobile terminal and mobile terminal
US20150172852A1 (en) Wireless terminal and method of data communication therein
WO2013083060A1 (fr) Système d'échange de données basé sur un changement d'état de terminal mobile
US20200380642A1 (en) Media alteration based on rotation of a portable computing device
WO2024016924A1 (fr) Procédé et appareil de traitement vidéo, et dispositif électronique et support de stockage
CN111897437A (zh) 跨终端的交互方法、装置、电子设备以及存储介质
CN105763786B (zh) 一种信息处理方法及电子设备
KR20110096005A (ko) 외부장치를 이용한 단말제어시스템 및 방법, 그 단말 및 외부장치
WO2019104533A1 (fr) Procédé et appareil de lecture vidéo

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 12855565

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 12855565

Country of ref document: EP

Kind code of ref document: A1