CN110632632A - Tracker and function setting method thereof - Google Patents

Abstract

The invention discloses a tracker and a function setting method thereof, wherein the tracker comprises a shell, a controller, a positioning module, an acceleration sensor and an indicating device; the acceleration sensor senses and outputs a motion track of gesture motion formed by holding the tracker to the controller, a plurality of gesture motion models are preset in the controller, the gesture motion models are used for setting functions of the tracker, and when the motion track conforming to a certain gesture motion model is recognized, the controller performs corresponding equipment mode conversion or function setting according to the gesture motion model; the indicating means is used to indicate the device status and function settings. The tracker can realize the switching between the working mode and the sleep mode and the function setting of the tracker by identifying the gesture action generated by waving the tracker without a remote controller and an entity key, and is simple, convenient and electricity-saving.

Description

Tracker and function setting method thereof

Technical Field

The invention relates to the technical field of positioners, in particular to a tracker and a function setting method thereof.

Background

The pet tracker on the market at present can be divided into having the entity button and not having the entity button, and the button main function is used for the switch of power and is connected with mobile device pairing, but the entity button has the button malfunctioning, and life is limited, the drawback of easily hiding dirty dirt. The testing of physical keys during production is also rather cumbersome. The device without the solid key solves the defects of the solid key, but has new problems, the key is not controlled, and due to the application specificity, namely the device is not suitable for switching the device between a sleep mode and a working mode through the triggering and automatic standby of a vibration switch such as a spring switch and the like, the device is always in the working state, and the power consumption is larger.

When the entity button of pet tracker is cancelled, if adopt mobile terminal control such as external remote controller or cell-phone, then need keep in infrared, radio frequency, bluetooth, WIFI, 4G at least one communication channel in the open mode, the consumption is great simultaneously, influences the stand-by time, simultaneously, if increase remote controller entity, still can increase the hardware cost.

Therefore, when the physical key is not used and the remote control is not performed, a novel input method is required to solve the problem of function setting of the pet remote controller.

Disclosure of Invention

In view of the above-mentioned defects of the prior art, the present invention provides a tracker that uses a novel input method to switch the operation mode and set the function when the remote controller and the physical key control are not used.

In order to achieve the purpose, the invention provides the following technical scheme:

a tracker comprises a shell, a controller, a positioning module, an acceleration sensor and an indicating device; the acceleration sensor is used for sensing and outputting a motion track of the tracker in space to the controller, and the motion track is a gesture action formed by waving the tracker;

the controller is preset with a plurality of equipment modes and a plurality of gesture action models, and when the motion track conforms to one gesture action model, the controller performs equipment mode conversion or function setting according to the gesture action model;

the indicating means is for indicating a device state and/or a functional setting of the tracker.

Furthermore, the positioning module comprises one or more of a mobile communication module positioned through a mobile communication network, a WIFI communication module positioned through a WIFI signal, or a satellite positioning module positioned through a satellite signal.

Further, the device modes comprise an operating mode, a sleep mode and a setting mode, and the switching between the operating mode and the sleep mode is completed through a configuration mode; and configuring functions in the configuration mode, wherein the functions are used for awakening or sleeping the partial or all wireless communication modules of the tracker.

Further, the functional module includes at least one of a bluetooth module, a WIFI module and a mobile communication module.

Further, the wireless communication module includes at least one communication mode of bluetooth communication, WIFI communication and mobile communication.

Further, the indicating device is an LED, and the LED is a multi-color LED or a combination of a plurality of single-color LEDs with different colors.

A function setting method of a tracker, the tracker including a controller and an acceleration sensor; the tracker is swung to form a certain set gesture action, and the acceleration sensor senses and outputs the action track of the gesture action to the controller;

the controller is preset with a first gesture action model and a plurality of second gesture action models;

the device modes of the tracker include an operating mode, a sleep mode and a setup mode;

in the working mode and the sleep mode, when the controller identifies one or two continuous action tracks which are consistent with the first gesture action model, the controller enters a setting mode and waits for identifying the next action track;

in a setting mode, the controller identifies one or two continuous gesture actions conforming to a certain second gesture action model, and the controller performs function setting according to the second gesture action model;

in the setting mode, when the controller identifies one or two continuous action tracks which are consistent with the first gesture action model, the controller exits the setting mode and enters a working mode or a sleep mode according to function setting.

Further, entering a setting mode and exiting from the setting mode, the controller needs to recognize the motion track corresponding to the first gesture motion model twice in succession.

Further, in the setting mode, when the controller continuously identifies two action tracks corresponding to a certain second gesture action model, the controller performs function setting according to the second gesture action model, so that the state of the corresponding function of the second gesture action model is converted between the working state and the dormant state.

Further, the tracker also comprises an indicator light, and indication and confirmation of device mode or function setting are carried out through color change and/or flickering/long-lighting state change of the indicator light.

Further, the function settings include at least a sleep setting that enables switching between an operating mode and a sleep mode of the tracker.

Further, a third gesture action model and a fourth gesture action model are preset in the controller, and the function settings further comprise a user-defined setting and a reset setting; in a setting mode, the controller recognizes one or two continuous gesture actions conforming to the third gesture action model, and enters a self-defined setting; under the self-defined setting, inputting an original gesture action, wherein the original gesture action is a gesture action conforming to a certain second gesture action model; inputting two times of same new gesture actions, and updating the original gesture actions into new gesture actions;

in a setting mode, the controller identifies two continuous gesture actions conforming to the fourth gesture action model to complete reset setting; and in the reset mode, all the gesture action models are restored to a factory state.

The invention realizes the following technical effects:

the tracker can realize the switching between the working mode and the sleep mode and the function setting of the tracker by identifying the gesture action generated by waving the tracker without a remote controller and an entity key, and is simple, convenient and electricity-saving.

Drawings

FIG. 1 is a schematic block diagram of the circuit of the present invention;

FIG. 2 is a flow chart of the function setup of the present invention;

FIG. 3 is a gesture diagram of the function setup of the present invention;

FIG. 4 is a schematic circuit diagram of a controller portion according to a first embodiment of the present invention;

fig. 5 is a schematic circuit diagram of an acceleration sensor section of the first embodiment of the present invention;

fig. 6 is a schematic circuit diagram of an LED part according to a first embodiment of the present invention.

Detailed Description

To further illustrate the various embodiments, the invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. Those skilled in the art will appreciate still other possible embodiments and advantages of the present invention with reference to these figures. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

The invention will now be further described with reference to the accompanying drawings and detailed description.

Example one

The embodiment of the invention discloses a tracker, in particular to a pet tracker which can be fixed on a pet collar and used for monitoring pets such as cats, dogs and the like, wherein a pet owner can determine the position of the pet according to the positioning information of the pet tracker, and can manually set the pet tracker in a dormant state in an area where the pet is safe and cannot be lost so as to prolong the service life.

In the embodiment, the pet tracker is simultaneously provided with a 4G module, a Bluetooth module, a WIFI module and other communication modules so as to adapt to different networking requirements; in view of the application requirements of product miniaturization, low power consumption, water resistance and dust resistance, the device is not provided with an entity key, and can selectively turn off one or more of the modules such as Bluetooth, WIFI, 4G and the like through gesture actions so as to reduce the power consumption and prolong the single use time; therefore, when the pet is not needed to be used, if the pet is in an environment where the pet cannot be lost, the equipment can be set to be in a sleep mode, the electricity consumption is reduced to the maximum extent, and the single-use time is prolonged.

As shown in fig. 1, 4, 5 and 6, the control circuit of the pet tracker includes an acceleration sensor 201, a controller 202, a bluetooth module 204, a WIFI module 205 and a 4G module 203. The acceleration sensor 201 is embedded with a microcontroller, and the acceleration sensor 201 is in communication connection with the controller 202 to periodically output motion trail information. At least one of the bluetooth module 204, the WIFI module 205 and the 4G module 203 is used for communicating with a mobile terminal such as a mobile phone, so as to periodically send positioning information or receive positioning inquiry. In this embodiment, this pet tracker's location adopts IP location technology to fix a position through WIFI module and/or 4G module, and WIFI module, 4G module itself are orientation module promptly, and is with low costs, the consumption is little, IP location technology, if the 4G mode is fixed a position through a plurality of mobile base stations, the WIFI module is fixed a position through a plurality of WIFI hotspots, the bluetooth is then fixed a position through the overrange alarm mode, more specific implementation does not expand the explanation.

In other embodiments, a satellite positioning module such as a GPS or beidou system may be used to improve the positioning accuracy of the pet tracker.

In other embodiments, other mobile communication modules besides 4G modules, such as GPRS, 3G or 5G modules for starting business, may be used, and the specific application depends on the cost, power consumption and mobile network coverage in the area.

As shown in fig. 5, in the present embodiment, the acceleration sensor 201 employs MPU-6500; MPU-6500 is a 6-axis motion tracking device integrating a 3-axis gyroscope, a 3-axis accelerometer and a Digital Motion Processor (DMP), has a FIFO of 512 bytes, can reduce the flow on a serial bus interface, and reduces the power consumption by allowing a system processor to read sensor data in bursts and then enter a low power consumption mode; using a dedicated I2C sensor bus, MPU-6500 accepts inputs directly from external I2C devices. The acceleration sensor 201 can effectively capture the motion trail of the gesture action by adopting the MPU-6500, and improves the identification precision of the motion trail. The acceleration sensor 201 has low power consumption using the MPU-6500.

As shown in fig. 4, in this embodiment, the controller 202 adopts MT7697, and the chip integrates the driving parts of the bluetooth module 204 and the WIFI module 205, and performs interactive communication with the 4G module 203 through a serial port, and performs interactive communication with the MPU-6500 through an I2C interface, so as to obtain the movement track of the pet tracker.

As shown in fig. 6, in the present embodiment, red, yellow and blue tristimulus indicator lights are provided, and different status indications are generated by color change and blinking/longglow status change of the tristimulus indicator lights and combinations thereof to indicate the device status and/or function settings of the pet tracker.

In other embodiments, other indication devices may be used, such as an audible indication device such as a buzzer. These ways can each implement a recognizable indication of multiple states to confirm the validity of the function settings.

In the invention, the pet tracker is swung to generate an appointed gesture, the acceleration sensor 201 senses the motion track of the gesture, and the controller 202 enters a setting mode by recognizing the motion track conforming to the appointed gesture, and completes function setting.

Example two

The embodiment of the invention discloses a method for setting a tracker, which is particularly applied to a pet tracker and is shown in figures 2 and 3.

The device modes of the pet tracker include an operational mode, a sleep mode, and a setup mode. The pet tracker comprises communication modules such as a Bluetooth module, a WIFI module and a 4G module, and can only adopt one communication mode in specific application, close other communication modules and be in a dormant state. In this embodiment, when bluetooth module, WIFI module and 4G module all are in the dormant state, the pet tracker gets into sleep mode. In other embodiments, the functional modules required to be turned off in the sleep mode can be set as required.

Under operating mode or sleep mode, wave the pet tracker and produce a gesture action, this gesture action of accelerator sensor perception is exported for the controller, the controller is compared this gesture action with the gesture action of predetermineeing in the controller, accord with appointed predetermined gesture action when this gesture action, equipment gets into the setting mode, under the setting mode, can carry out opening, closing of communication module such as bluetooth, WIFI, 4G, and then realize the switching of the operating mode and the sleep mode of pet tracker, or the dormancy of local function module under the operating mode.

As shown in fig. 3, in the present embodiment, the preset gesture actions include a five-pointed star gesture 101, a triangular gesture 102, a W-shaped gesture 103, a B-shaped gesture 104, a G-shaped gesture 105, and the gesture actions may be tracks and numbers of custom gesture actions according to the needs of function, memory convenience, false triggering prevention, and the like.

Five-pointed star gesture 101, set mode:

entering a setting mode: holding the pet tracker to draw a pentagram gesture under the condition that the green LED is long and bright, enabling the blue LED to flash, drawing the pentagram gesture again, enabling the blue LED to be long and bright, and entering a setting mode;

exiting the set mode: and (3) drawing a five-pointed star gesture under the long-bright blue LED, flashing the green LED for the first time, and long-bright green LED for the second time, and exiting the setting mode.

The gesture is relatively complex and requires two strokes to enter the setup mode to avoid the pet from entering the setup mode by mistake when wearing the pet. Any other gestures are not valid in the non-setup mode.

The device mode can enter a setting mode in both the working mode and the sleep mode, and when the device mode exits the setting mode, the device mode is determined to be the working mode or the sleep mode according to the function setting in the setting mode.

Triangle gesture 102, sleep setting:

the wireless communication module is effective in a set mode, and the Bluetooth module, the WIFI module or the 4G module and other wireless communication modules are integrally started or closed.

And exiting the sleep mode: holding the pet tracker for stroking the triangle gesture 102, stroking for the first time, flashing the red LED to indicate that the pet tracker is currently in the sleep mode, stroking for the second time, lighting the yellow LED for a long time to indicate that the pet tracker exits the sleep mode, switching the yellow LED into the blue LED after 5 seconds, and returning to the setting mode. When the setting mode is further exited, the device mode is the operating mode.

Entering a sleep mode: holding the pet tracker for stroking the triangle gesture 102, stroking for the first time, flashing the yellow LED to indicate that the pet tracker is currently in a working mode, stroking for the second time, lighting the red LED for a long time to indicate that the pet tracker enters a sleep mode, switching the red LED into the yellow LED after 5 seconds, and returning to a setting mode. When the setup mode is further exited, the device mode is the sleep mode.

The Bluetooth module, the WIFI module and the 4G module can be independently turned on or turned off to enter a working state or a dormant state.

W-shaped gesture 103, WIFI setting:

effective in a set mode for turning on and off WIFI communication.

And (4) starting WIFI: holding pet tracker score W shape gesture 103, first score, red LED scintillation shows that the WIFI module is currently in sleep mode, second score, yellow LED is long bright, shows that the WIFI module exits sleep mode, and through 5 seconds, yellow LED switches into blue LED, gets back to the setting mode. When the device further exits the setting mode, the device mode is a working mode, and the WIFI module is in an open state.

And (4) turning off WIFI: holding pet tracker and stroking W shape gesture 103, stroking for the first time, yellow LED twinkling, saying that the WIFI module is currently in operating mode, stroking for the second time, red LED is long bright, saying that the WIFI module gets into sleep mode, and through 5 seconds, red LED switches into yellow LED, gets back to the setting mode. When the setting mode is further exited, the WIFI module is in a dormant state.

Similarly, through holding the pet tracker and drawing the B-shaped gesture 104 or the G-shaped gesture 105, the Bluetooth setting or the 4G setting can be performed, so that the conversion between the working state and the dormant state of the Bluetooth module or the 4G module is realized.

In this embodiment, a first gesture motion is input, and a current state of a function corresponding to the gesture motion is displayed; and performing gesture input for the second time to realize the setting or the release of the function, and turning the state of the function. Function setting or releasing is achieved through a gesture action secondary input confirmation mode.

When the pet tracker has more function setting requirements, function setting or releasing can be carried out through other gesture actions.

In this embodiment, the user can also customize the gesture motion through the preset circular gesture 106.

Circular gesture 106, custom setting:

is active in the set mode. Holding the pet tracker to stroke circularly or elliptically, firstly stroking, flashing an orange LED, secondly stroking, and lighting the orange LED, and entering the self-defined setting. And drawing a circle under the self-defined setting, flashing the blue LED, then lighting the blue LED longer than the blue LED, and exiting the self-defined setting.

The user can modify gesture actions such as the triangle gesture 102, the W-shaped gesture 103, the B-shaped gesture 104, the G-shaped gesture 105 and the like which can be originally set in a custom setting.

After entering the self-defined setting, inputting the original gesture action for the second time, confirming that the original gesture action is input, and then starting to input a new gesture action: inputting a new gesture action for setting, and inputting a new gesture action for confirming through at most 5 opportunities, wherein the updating of the gesture action is completed when the new gesture action for confirming is consistent with the new gesture action for setting. Specific examples are as follows:

in this embodiment, the triangle gesture 102 corresponds to a sleep setting, the W-shaped gesture 103 corresponds to a WiFi setting, the B-shaped gesture 104 corresponds to a bluetooth setting, and the G-shaped gesture 105 corresponds to a 4G setting, which may be redefined through a custom setting.

Take the customization of the gesture action of bluetooth setting as an example: holding a pet tracker stroke B-shaped gesture 104, performing stroke for the first time, flashing a blue LED, performing stroke again, lighting the blue LED, and entering gesture action self-definition set by Bluetooth; drawing a new gesture action, lighting the red LED for a long time, drawing again, entering the first gesture action confirmation, if the gesture actions are inconsistent, flashing the red LED, lighting the red LED for a long time after 3 seconds, entering the gesture action for the second confirmation, continuously judging for 5 times to be inconsistent, lighting the orange LED for a long time, and returning to the user-defined setting; if the gesture actions are consistent, the green LED is on for a long time, the action modification is completed, and after 5s, the orange LED is on for a long time and returns to the custom mode.

Square gesture 107, reset setting:

and the method is effective in a setting mode, and the gesture action is reset to an initialization state. Holding the pet tracker, and drawing a square gesture 107 (square or rectangular), drawing for the first time, enabling the purple LED to twinkle, drawing for the second time, enabling the purple LED to be long and bright, successfully resetting, and resetting the gesture mode of the function setting to the factory state.

In this embodiment, when entering the setting mode and entering the function setting, both the two-time gesture input confirmation mode is adopted for entering, so as to reduce the malfunction. In other embodiments, the input can be entered without confirmation by a single gesture action, so as to simplify the operation steps except for resetting the setting.

The Led lamp can be a combination of a plurality of Led lamps of different colors, or a bi-color Led lamp or a tri-color Led lamp, which can form a plurality of colors by combining two colors or three colors, and display by combining long brightness/flicker. In the present embodiment, orange is a combination of a red LED and a yellow LED, and violet is a combination of a red LED and a blue LED.

In the embodiment, the setting of the function can be completed by identifying the motion track generated by waving the pet tracker without a remote controller and an entity key, and the method is simple and convenient.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a tracker, includes the casing, and sets up controller and orientation module in the casing, its characterized in that: the device also comprises an acceleration sensor and an indicating device;

the acceleration sensor is used for sensing and outputting a motion track of the tracker in space to the controller, and the motion track is a gesture action formed by waving the tracker;

the controller is preset with a plurality of equipment modes and a plurality of gesture action models, and when the controller identifies a motion track conforming to one gesture action model, the controller performs equipment mode conversion or function setting according to the gesture action model;

the indicating means is for indicating a device state and/or a functional setting of the tracker.

2. The tracker according to claim 1, characterized in that: the device modes comprise a working mode, a dormant mode and a setting mode, and the conversion between the working mode and the dormant mode is completed through a configuration mode; and configuring functions in the configuration mode, wherein the function settings at least comprise sleep settings, and the sleep settings are used for switching between the working mode and the sleep mode of the tracker.

3. The tracker according to claim 1, characterized in that: the positioning module comprises one or more of a mobile communication module positioned through a mobile communication network, a WIFI communication module positioned through a WIFI signal, or a satellite positioning module positioned through a satellite signal.

4. The tracker according to claim 1, characterized in that: the indicating device is an LED which is a multi-color LED or a combination of a plurality of single-color LEDs of different colors.

5. A method for setting functions of a tracker, comprising:

the tracker comprises a controller and an acceleration sensor; the tracker is swung to form a certain set gesture action, and the acceleration sensor senses and outputs the action track of the gesture action to the controller;

the controller is preset with a first gesture action model and a plurality of second gesture action models;

the device modes of the tracker include an operating mode, a sleep mode and a setup mode;

in the working mode and the sleep mode, when the controller identifies one or two continuous action tracks which are consistent with the first gesture action model, the controller enters a setting mode and waits for identifying the next action track;

in a setting mode, the controller identifies one or two continuous gesture actions conforming to a certain second gesture action model, and the controller performs function setting according to the second gesture action model;

in the setting mode, when the controller identifies one or two continuous action tracks which are consistent with the first gesture action model, the controller exits the setting mode and enters a working mode or a sleep mode according to function setting.

6. The function setting method of a tracker according to claim 5, characterized in that: entering a setting mode and exiting from the setting mode, the controller needs to recognize the action track conforming to the first gesture action model twice continuously.

7. The function setting method of a tracker according to claim 5, characterized in that: in the setting mode, when the controller identifies one or two continuous action tracks which are consistent with a certain second gesture action model, the controller performs function setting according to the second gesture action model so as to realize that the state of the corresponding function of the second gesture action model is converted between a working state and a dormant state.

8. The function setting method of a tracker according to claim 5, characterized in that: the tracker also comprises an indicator light, and indication and confirmation of device mode or function setting are carried out through color change and/or flickering/long-bright state change of the indicator light.

9. The function setting method of a tracker according to claim 5, characterized in that: the functional settings include at least a sleep setting that enables switching between a working mode and a sleep mode of the tracker.

10. The function setting method of a tracker according to claim 5, characterized in that: the controller is preset with a third gesture action model and a fourth gesture action model, and the function settings further comprise a user-defined setting and a reset setting;

in a setting mode, the controller recognizes one or two continuous gesture actions conforming to the third gesture action model, and enters a self-defined setting;

under the self-defined setting, inputting an original gesture action, wherein the original gesture action is a gesture action conforming to a certain second gesture action model; inputting two times of same new gesture actions, and updating the original gesture actions into new gesture actions;

in a setting mode, the controller identifies two continuous gesture actions conforming to the fourth gesture action model to complete reset setting; and in the reset mode, all the gesture action models are restored to a factory state.

Images