TW201419040A - Sensing operation system and method thereof - Google Patents

Abstract

The present invention discloses a sensing operation system and a sensing operation method thereof, which is suitable for portable electronic devices. This sensing operation system comprises a gravitational acceleration sensing module, a magnetic force sensing module, and a processing module. The gravitational acceleration sensing module and the magnetic sensing module are used to sense the acceleration and the magnetic force of a portable device toward a predetermined motion direction. The processing module processes the gravitational acceleration and the magnetic force data of a predetermined motion trajectory to derive the inclined angles of the gravitational acceleration toward the vertical axis and the inclined angles of the magnetic force toward a horizontal axis, and combine them into a set of combined data, then compare it with the preset combined data. If these two data are matched to each other, then the portable electronic devices will execute a set of specific operation procedures.

Description

Sensing operating system and method thereof

The invention relates to a sensing operating system and a method thereof, in particular to a sensing operating system and a method thereof with a gravity acceleration sensor and a magnetic sensor.

The triaxial gravity acceleration sensor can sense the change of the gravitational acceleration. The gravitational acceleration is the acceleration generated by the gravitational force on the object. The gravitational acceleration change generated by various movements of the object can be converted into an electrical signal by the gravity sensor, and then passed. After the calculation and analysis of the microprocessor, the programmed functions can be completed. After matching other calculation control functions, the gravity acceleration sensor can be an intelligent gravity sensing module.

The three-axis magnetic sensor can sense the change of the earth's magnetic force. When the object is moving, the magnetic sensor can sense the change of the magnitude and direction of the magnetic force, and converts it into an electrical signal like a gravity sensor, and performs other follow-up. Calculation and control. Although the gravity acceleration sensor and the magnetic sensor are similar in function, because gravity and magnetic force are different sources, the combination of the two can be used to accurately describe the movement state of the object to complement the complementary effect.

However, although gravity acceleration sensors and magnetic sensors have been widely used in various electronic devices, there is currently no electronic device that combines the two to perform specific operations, and thus the present invention takes this as a direction. A sensing operating system has been developed that is intended to achieve specific operations or control.

In view of the above-mentioned deficiencies of the prior art, one of the objects of the present invention is to provide a sensing operating system and a method thereof for achieving a specific program operation by combining a gravity acceleration sensing module and a magnetic sensing module.

According to another aspect of the present invention, a sensing operating system and a method thereof are provided, which are applicable to a portable electronic device, including a gravity acceleration sensing module, a magnetic sensing module, and a processing module. The gravity acceleration sensing module senses one of the gravity accelerations of the portable electronic device moving in a predetermined direction. The magnetic sensing module senses a magnetic force of the portable electronic device moving in the predetermined direction. The processing module is connected to the gravity acceleration sensing module and the magnetic sensing module to calculate three gravitational acceleration axial and three magnetic axial directions respectively according to the gravity acceleration and the magnetic force under a motion track, and respectively Calculate the three-gravity acceleration tilt angle of the axial and vertical axes of the three-gravity acceleration, and the three-magnetic tilt angle of the three-magnetic axial and horizontal axes, and the processing module tilts the three-gravity acceleration tilt angle and the three-force The angle is calculated to be integrated into an integrated data, and the integrated data is compared with a preset integrated data. If the integrated data corresponds to the preset integrated data, the portable electronic device can perform a specific program operation.

The sensing operating system may include a storage module connected to the processing module to store the preset integrated data.

The processing module is sampled at a preset time interval for a predetermined time interval to calculate a three-gravity acceleration tilt angle and a three-magnet tilt angle corresponding to the sampling time, and further obtain integrated data.

The processing module includes a setting mode and a detecting mode. In the setting mode, the processing module of the sensing operating system calculates the preset integrated data according to the motion track set by the user; in the detecting mode, the sensing mode The processing module of the operating system calculates the integrated data according to the motion track input by the user.

Wherein, when the comparison result of the integrated data and the preset integrated data is less than a preset error range, the portable electronic device performs a specific program operation; if the integrated data does not correspond to the preset integrated data, or the comparison result thereof When it is greater than the preset error range, the portable electronic device does not perform a specific program operation.

Among them, the specific program operation includes an unlocking program.

The portable electronic device further includes a display screen, the display screen is connected to the processing module, and the processing module drives the output information of the display screen operation module.

According to another aspect of the present invention, a sensing operation method is provided, which is applicable to a portable electronic device. The sensing operation method includes a gravity acceleration sensing module, a magnetic sensing module, and a processing module. The sensing operation method includes the following steps: sensing, by the gravity acceleration sensing module, a gravity acceleration of the portable electronic device moving toward a predetermined direction; and sensing, by the magnetic sensing module, the portable electronic device toward the predetermined direction One of the movements of the magnetic force; using the processing module to calculate the three-gravity acceleration axial and three-magnetic axial directions according to the gravity acceleration and the magnetic force under a motion trajectory, and respectively calculate the three-gravity of the axial and vertical axes of the three-gravity acceleration The acceleration tilt angle and the three-magnetic tilt angle of the three-magnetic axial and horizontal axes, and the processing module calculates the three-gravity acceleration tilt angle and the three-magnet tilt angle to integrate into one integrated data, and then integrates the data with A preset integrated data is compared, and if the integrated data corresponds to the preset integrated data, the portable electronic device performs a specific program operation

The sensing operating system includes a setting mode and a detecting mode. When the sensing operating system is in the setting mode, the processing module calculates the preset integrated data according to the motion track set by the user. When the sensing operating system is in the detecting mode, the processing module calculates the integrated data according to the motion track input by the user.

The processing module performs sampling at a preset time interval for calculating the three-gravity acceleration tilt angle and the three-magnet tilt angle corresponding to the sampling time, and further obtains the integrated data.

As mentioned above, certain specific operations in the portable electronic device, such as device unlocking and access to browse confidential data, often require a specific entry method to protect the data in the device from unauthorized users. The sensing operating system and the method thereof can be used for the user to sense the gravity acceleration through the gravity acceleration sensing module and the magnetic force sensed by the magnetic sensing module, and then calculate the angle through the processing module, and then By setting the data comparison to determine whether to perform a specific operation such as unlocking, not only the safety of the device can be increased, but also the required operation can be smoothly performed in an environment where other devices fail.

100. . . Sensing operating system

101. . . Gravity acceleration sensing module

102. . . Magnetic sensing module

103. . . Processing module

104. . . Storage module

200. . . Portable electronic device

201. . . Display screen

S21~S27, S31~S38. . . step

Figure 1 is a block diagram of a sensing operating system of the present invention;
2 is a first flowchart of an embodiment of a sensing operating system and method thereof according to the present invention; and FIG. 3 is a second flowchart of an embodiment of a sensing operating system and method thereof according to the present invention.

In order to make the above-mentioned objects, features and advantages of the present invention more comprehensible, the following is a detailed description of the sensing operation device and the method thereof according to the present invention. The same elements will be described with the same element symbols.

Please refer to FIG. 1 , which is a block diagram of a sensing operating system of the present invention. The sensing operating system 100 includes a gravity acceleration sensing module 101, a magnetic sensing module 102, a processing module 103, and a storage module 104. The processing module 103 is connected to the gravity acceleration sensing module 101, the magnetic sensing module 102, the storage module 104, and a display screen 201. The sensing system 100 can be applied to a portable electronic device 200 such as a mobile phone, a personal digital assistant (PDA), or a tablet computer. The display screen 201 is included in the portable electronic device 200.

The gravity acceleration sensing module 101 is configured to sense the gravity acceleration of the portable electronic device 200 moving toward a predetermined direction; the magnetic sensing module 102 is configured to sense the magnetic force of the portable electronic device 200 moving toward a predetermined direction. The processing module 103 respectively calculates the three-gravity acceleration axial direction and the three-magnetic axial direction according to the gravity acceleration and the magnetic force under a motion trajectory, and respectively calculates the three-gravity acceleration inclination angles of the three-gravity acceleration axial and vertical axes, And the three magnetic force axis and a specific horizontal axis of the three magnetic tilt angle, the processing module 103 calculates the three gravity acceleration tilt angle and the three magnetic tilt angle to integrate into an integrated data; the storage module 104 The connection processing module 103 is configured to store preset integrated data. The processing module 103 is operated by sampling at a preset time interval for a predetermined time interval to calculate the three-gravity acceleration tilt angle and the three-magnet tilt angle of the corresponding sampling time.

Further, the processing module 103 includes a setting mode and a detecting mode. In the setting mode, the sensing operating system 100 provides a user to set a motion track and the processing module 103 calculates the preset integrated data; In the mode, the sensing operating system 100 provides a user input motion trajectory and the processing module 103 calculates the integrated data. When the comparison result of the integrated mode of the detection mode and the preset integrated data is less than a predetermined error range, the portable electronic device 200 is caused to perform a specific program operation, for example, including an unlocking process; if the detection mode is integrated When the data does not correspond to the preset integrated data, or the comparison result is greater than the preset error range, the portable electronic device 200 does not perform a specific program operation, for example, is maintained in a standby state. Preferably, when the integrated data calculated in the detection mode does not correspond to the preset integrated data, or the comparison result is greater than the preset error range, the display screen 201 of the portable electronic device 200 displays a prompt message to Reach the function of the user.

Please refer to FIG. 2 and FIG. 3 together. FIG. 2 is a first flowchart of an embodiment of a sensing operating system and method thereof according to the present invention; FIG. 3 is a sensing operating system of the present invention and A second flow chart of an embodiment of the method. The step flow of FIG. 2 is: S21: when the portable electronic device 200 is powered on, the gravity acceleration sensing module 101 and the magnetic sensing module 102 are in an active state; S22: the processing module 103 enters a mode selection state, which includes In the two modes of setting mode and detecting mode, the processing module 103 checks the specific location of the storage module 104 to determine whether the preset integrated data has been stored. If the preset integrated data has not been saved or the user requests to reset, the processing module 103 enters the setting mode, and step S23 is performed; if the storage module 104 already stores the preset integrated data, the processing module 103 enters the detecting mode. Step S33 in FIG. 3 is executed; S23: the processing module 103 prompts the user to perform a predetermined specific operation for performing the stability test, and the tilt angle and the three-magnet tilt angle of the three-gravity acceleration during the user operation. The output is sampled, for example, six times in a certain period of time; S24: the sampled data is checked by a predetermined stability standard, and if it is met, the processing module 103 temporarily retains the stability sampling data for subsequent use. Use: If it does not match, the processing module 103 reminds the user through the display screen 201 that the stability test fails, and starts the stability test again; S25: after the stability test is successful, the processing module 103 reminds the user to select one of the types. The motion track operates the portable electronic device 200, and then the processing module 103 is within a preset time period in which the user starts operating. Sampling the three-gravity acceleration tilt angle and the three-magnet tilt angle output at a predetermined time interval; S26: sequentially integrating the sampled data with the previous stability test data into the integrated data, and storing the data in a specific location of the storage module 104; S27: The operation setting of the setting mode has been completed. The length of time and time interval during which the processing module 103 performs sampling in the setting mode is not necessarily the same as the sampling time length and time interval in the stability test, but is not limited thereto.

The flow of the step of FIG. 3 is: S31: when the portable electronic device 200 is powered on, the gravity acceleration sensing module 101 and the magnetic sensing module 102 are in an operating state; S32: the processing module 103 enters a mode selection state, and the processing module Group 103 checks the specific location of storage module 104 to determine if preset integrated material has been stored. If the preset integrated data has not been stored or the user requests to re-change the setting after the portable electronic device 200 is unprotected, the processing module 103 enters the setting mode, and performs step S23 in FIG. 2; if the storage module 104 has If the preset integrated data is stored, the processing module 103 enters the detection mode, and step S33 is performed; S33: the processing module 103 prompts the user to perform a specific operation defined in advance for performing the stability test, and when the user operates The three gravity acceleration tilt angle and the three magnetic tilt angle output are sampled, for example, six times in a certain time; S34: the sample data is checked by a predetermined stability standard, and if so, the processing module 103 The stability sampling data will be temporarily reserved for subsequent use: if it does not match, the processing module 103 reminds the user that the stability test fails through the display screen 201, and starts the stability test again; S35: the processing module 103 reminds the user to The predicted motion track operates the portable electronic device 200, and then the processing module 103 is when the user starts operating one of the presets. The three gravity acceleration tilt angle and the three magnetic tilt angle output are sampled at a preset time interval; S36: the sampled data and the previous stability test data are sequentially integrated into the integrated data; S37: the processing module 103 takes out the setting The mode integration data, and the integrated data obtained by the detection mode are compared item by item according to a specific similarity condition, if the processing module 103 has a predetermined number of data comparisons before completing all the data comparisons. When the similarity criterion is reached, the processing module 103 ends the detection mode and causes the portable electronic device 200 to perform a specific program such as an unlocking process; if the processing module 103 does not have a sufficient amount of data after completing all the data comparisons When the similarity criterion is reached, the processing module 103 reminds the user to cancel the protection mode test failure and repeats the detection mode test operation; S38: After the test passes, the portable electronic device 200 cancels the detection mode, and performs specific operations such as unlocking. operating. The time length and time interval for the processing module 103 to be sampled in the detection mode must be exactly the same as in the setting mode, but the sampling time length and time interval in the stability test are not necessarily the same, but not limited thereto. .

In summary, the sensing operating system and the method thereof of the present invention allow the user to sense the gravity acceleration through the gravity acceleration sensing module and sense the magnetic force by the magnetic sensing module, and then calculate the angle through the processing module. After comparing with the preset data to determine whether to perform a specific operation such as unlocking, not only the safety protection measures of the device can be increased, but also another method of starting the device can be provided in an environment where other devices fail, so as to smoothly perform the method. The required operation.

The embodiments described above are merely illustrative of the technical spirit and the features of the present invention, and the objects of the present invention can be understood by those skilled in the art, and the scope of the present invention cannot be limited thereto. That is, equivalent changes or modifications made in accordance with the spirit of the present invention should still be included in the scope of the present invention.

100. . . Sensing operating system

101. . . Gravity acceleration sensing module

102. . . Magnetic sensing module

103. . . Processing module

104. . . Storage module

200. . . Portable electronic device

201. . . Display screen

Claims (10)

A sensing operating system is applicable to a portable electronic device, comprising:
a gravity acceleration sensing module senses a gravity acceleration of the portable electronic device moving in a predetermined direction;
a magnetic sensing module that senses a magnetic force of the portable electronic device moving toward the predetermined direction; and a processing module that connects the gravity acceleration sensing module and the magnetic sensing module to The gravity acceleration and the magnetic force under a motion trajectory respectively calculate a three-gravity acceleration axial and a three-magnetic axial direction, and respectively calculate a three-gravity acceleration inclination angle represented by the three-gravity acceleration axial and vertical axes, and The three magnetic force axial direction and the horizontal axis show a three magnetic inclination angle, and the processing module calculates the three gravity acceleration inclination angle and the three magnetic inclination angle to integrate into an integrated data, and then integrates the integrated data with one The preset integrated data is compared, and if the integrated data corresponds to the preset integrated data, the portable electronic device is caused to perform a specific program operation. The sensing operating system of claim 1, further comprising a storage module connected to the processing module to store the preset integrated data. For example, in the sensing operating system described in claim 1, the processing module performs sampling at a preset time interval for a predetermined time interval to calculate the three-gravity acceleration tilt angle of the corresponding sampling time. The angle of inclination with the three magnetic forces, and further the integrated data. The sensing operating system of claim 1, comprising a setting mode and a detecting mode, wherein the processing module of the sensing operating system calculates the motion track according to a user setting The preset integrated data is generated. In the detecting mode, the processing module of the sensing operating system calculates the integrated data according to the motion track input by the user. The sensing operating system of claim 1, wherein when the comparison result of the integrated data and the preset integrated data is less than a predetermined error range, the portable electronic device is caused to execute the specific Program operation; if the integrated data does not correspond to the preset integrated data, or the comparison result is greater than the preset error range, the portable electronic device does not perform the specific program operation. The sensing operating system of claim 1, wherein the specific program operation comprises an unlocking program. A sensing operation method is applicable to a sensing operating system for operating a portable electronic device. The sensing operating system includes a gravity acceleration sensing module, a magnetic sensing module and a processing module. The test operation method includes the following steps:
Using the gravity acceleration sensing module to sense a gravity acceleration of the portable electronic device moving in a predetermined direction;
Using the magnetic sensing module to sense a magnetic force of the portable electronic device moving toward the predetermined direction; and calculating, by the processing module, the three-gravity acceleration axial direction according to the gravity acceleration and the magnetic force respectively under a motion track And three magnetic axial directions, and respectively calculating the three-gravity acceleration inclination angles of the three-gravity acceleration axial and vertical axes, and the three-magnetic inclination angles of the three-magnetic axial and horizontal axes, and the processing module The three gravity acceleration tilt angles and the three magnetic tilt angles are calculated to be integrated into an integrated data, and the integrated data is compared with a preset integrated data, if the integrated data corresponds to the preset integrated data. The portable electronic device is caused to perform a specific program operation. The sensing operation method of claim 7, wherein the sensing operating system comprises a setting mode and a detecting mode, and the method further comprises the following steps:
When the sensing operating system is in the setting mode, the processing module calculates the preset integrated data according to the motion track set by the user; and when the sensing operating system is in the detecting mode, using the processing The module calculates the integrated data according to the motion trajectory input by the user. The sensing operation method described in claim 7 further includes the following steps:
The processing module performs sampling at a preset time interval for a predetermined time interval to calculate the three-gravity acceleration tilt angle and the three-magnet tilt angle of the corresponding sampling time, and further obtains the integrated data. The sensing operation method described in claim 7 further includes the following steps:
And determining, by the processing module, whether the comparison result of the integrated data and the preset integrated data is less than a predetermined error range, and if so, causing the portable electronic device to perform the specific program operation; If the group determines that the integrated data does not correspond to the preset integrated data, or the comparison result is greater than the preset error range, the portable electronic device does not perform the specific program operation.