CN114534272A - New use method of building block toy signal sensor and building block toy remote controller - Google Patents

Abstract

The invention relates to the technical field of research and development of the use of a building block toy signal sensor, in particular to a new use method of the building block toy signal sensor and a building block toy remote controller; the new usage of the building block toy signal sensor is as follows: the building block toy remote controller is provided with a power supply communication socket, the power supply communication socket is connected with a remote control MCU of a main control system of the building block toy remote controller, and a power supply communication plug of the building block toy signal sensor is inserted into the power supply communication socket of the building block toy remote controller to form the building block toy remote controller; the remote control MCU of the master control system can store, identify and send induction signals generated by the signal sensors connected with the remote control MCU; a building blocks toy signal sensor's new use and building blocks toy remote controller's beneficial effect lies in: the improvement on the technical aspect is simple and convenient, and the cost is low on the economic aspect.

Description

New use method of building block toy signal sensor and building block toy remote controller

Technical Field

The invention relates to the technical field of research and development of signal sensors of building blocks, in particular to a new use method of a signal sensor of a building block toy and a remote controller of the building block toy.

Background

The signal sensors generally include inertial sensors, light sensors, sound sensors, touch sensors, ultrasonic sensors, gyro sensors, visual sensors, hall magnetic sensors, color sensors, pressure sensors, motion sensors, laser sensors, human infrared sensors, and the like. The building block toy signal sensor is a building block toy module manufactured by the signal sensors, so that the building block toy module can directly participate in the splicing of the building block toy model. For example, the signal sensor is provided with a plurality of 'cylindrical protruding grains' or 'cylindrical protruding grain embedding openings' of the particle-type building block toy on the shell of the signal sensor, and the signal sensor becomes a 'particle building block toy signal sensor'.

The particle building block toy is a 'Legao classical particle' type building block toy, and among various building block modules of the 'Legao classical particle' type building block toy, a 'plate' or a 'brick' is two most basic building block modules; the plate and the brick are both square shells, and the top of each square shell is provided with a cylindrical convex particle, such as the cylindrical convex particle shown by the reference sign A in figures 7 and 8; an opening of the square shell cavity is provided with an embedding opening of the cylindrical convex particles, such as a dotted circular part shown by a reference sign B in figures 7 and 8; the number of the cylindrical convex grains at the tops of the plates and the bricks is set corresponding to the number of the cylindrical convex grain embedding openings at the openings of the cavities of the square shells, and the nominal diameters of the cylindrical convex grains are equal and are 4.8 mm; the cylindrical convex grains and the embedding openings of the cylindrical convex grains are in micro interference fit, and the cylindrical convex grains of one building block module are extruded into the embedding openings of the cylindrical convex grains of the other building block module by utilizing the principle of hole and column connection, so that the two building block modules can be firmly spliced together, and various toy models can be spliced by the splicing; the cylindrical convex grains and the cylindrical convex grain embedding openings are collectively called as splicing structures on the building block modules.

In the prior art, the block toy signal sensor is usually used as an activation signal module of an intelligent block toy master control system, for example: a building block toy optical sensor is configured in the main control system of the intelligent building block toy such as a flower watering device and a pet feeder, and the flower watering device and the pet feeder are controlled to start working through light sensation signals sent by the building block toy optical sensor. The practical problems thus arising are: when an owner is at home every day, the curtain is opened in time, natural light irradiates the building block toy optical sensors of the flower watering device and the pet feeder, the flower watering device, the pet feeder and the like can complete work according to a set program, however, when the owner goes on a business, the curtain is usually closed, and under the condition, the smart homes cannot be automatically started every day to work;

in another case: if the intelligent devices of a plurality of intelligent household building block toys are controlled by the building block toy touch sensors, when the building block toy intelligent devices need to work simultaneously, the building block toy touch sensors of each building block toy intelligent device need to be touched, and obviously, the operation is very troublesome.

Therefore, the using method of the signal sensor of the building block toy in the prior art has the technical problem to be solved urgently.

Disclosure of Invention

In order to solve the technical problems existing in the use of the building block toy signal sensor in the prior art, the invention provides a new use of the building block toy signal sensor and a technical scheme of a building block toy remote controller, wherein the technical scheme comprises the following steps:

a new use of a building block toy signal sensor, said new use of a building block toy signal sensor comprising the steps of:

step 1: arranging a building block toy signal sensor; the building block toy signal sensor is provided with a power supply communication data line with a power supply communication plug;

step 2: setting a building block toy remote controller; the building block toy remote controller is provided with a power supply communication socket, the power supply communication socket is connected with a remote control MCU of a building block toy remote controller main control system, the power supply communication socket is matched with a power supply communication plug of the building block toy signal sensor in the step 1, and the remote control MCU of the building block toy remote controller main control system can store, receive and identify and send induction signals generated by the building block toy signal sensor through a 2.4G communication module of the building block toy remote controller main control system;

and step 3: and (3) in the master control system of each intelligent building block toy device, setting a working program for receiving and identifying the induction signal sent by the remote control of the building block toy in the step (2), and driving the intelligent building block toy device to execute the working program represented by the induction signal.

The utility model provides a building blocks toy remote controller, building blocks toy remote controller sets up power supply communication socket on a ordinary building blocks toy remote controller, power supply communication socket with building blocks toy remote controller master control system's remote control MCU connects, power supply communication socket can peg graft building blocks toy signal sensor's power supply communication plug, building blocks toy remote controller master control system's remote control MCU can store, receive, discernment and send through building blocks toy remote controller master control system's 2.4G communication module the sensing signal that building blocks toy signal sensor produced.

The new use of the building block toy signal sensor and the application scene example of the building block toy remote controller are as follows:

inserting one building block toy optical sensor into a power supply communication socket of one building block toy remote controller, and placing the building block toy remote controller in a place where outdoor light rays which are not easily blocked by curtains or other objects exist, such as a windowsill outside a window; dismantling building block toy optical sensors in a plurality of building block toy intelligent device control systems, and setting a working program for receiving and identifying the sensing signals sent by the building block toy remote controller and an instruction for executing the working program represented by the sensing signals in a main control system of each building block toy intelligent device; thus, no matter the master is at home every day, natural light can irradiate the building block toy optical sensor of the building block toy remote controller, and the building block toy remote controller can start each building block toy intelligent device on time.

The new use of the building block toy signal sensor and the application scene example of the building block toy remote controller are as follows:

inserting one building block toy touch sensor into a power supply communication socket of one building block toy remote controller, and placing the building block toy remote controller in a place convenient to operate, such as a tea table top; dismantling the building block toy touch sensors in the control systems of the plurality of building block toy intelligent devices, and setting a working program for receiving and identifying the sensing signals sent by the building block toy remote controller and an instruction for executing the working program represented by the sensing signals in the main control system of each building block toy intelligent device; therefore, if the master needs the intelligent building block toy devices to work, the intelligent building block toy devices can be started only by touching the building block toy touch sensors on the building block toy remote controller, and the operation is very simple, convenient and fast.

The new use of the building block toy signal sensor and the application scene example three of the building block toy remote controller are as follows:

in the prior art, the remote control function of the common remote controller is that a remote control instruction is selected by touching a key on a panel; usually, eight remote control keys are provided on the remote control panel. However, with the development and progress of science and technology, the complexity of the remote control building block toy is higher and higher, and the functions needing remote control are more and more; according to the traditional thinking habit, for the remote control of the toy, enough remote control keys are required to be added on a panel of the remote controller; although the solution can achieve the purpose of remote control, the design and use difficulty of the remote controller is increased: in terms of design, the structure of the control system becomes complicated; in the aspect of use, a large number of keys on the panel of the remote controller are dazzlingly difficult to meet the ergonomic design requirements, and meanwhile, the cost of the product is increased correspondingly.

However, the problem can be effectively solved by using the new use of the building block toy signal sensor and the building block toy remote controller; for example: a remote control building block toy tank, the action function set up in the prior art usually includes moving ahead, going backwards, turning left, turning right, machine gun launches, artillery launches, turret turns left, turret turns right etc. eight movements, there are eight remote control buttons on the building block toy remote controller correspondingly, each remote control button controls an action; if other actions are added to the remote control of the building block toy tank, such as the pitching action of an artillery gun barrel, according to conventional thinking, keys need to be added on the building block toy remote controller, and correspondingly, a remote control system of the building block toy remote controller needs to be correspondingly improved. From the perspective of remote controller panel design, the layout of newly-added remote control keys is difficult, and from the perspective of human engineering, even if the newly-added remote control keys are arranged on the remote controller panel, flexible operation is not convenient.

To address such technical problems, the solution includes three parts: firstly, loading a gun barrel pitching control program and a corresponding signal code in a control system of the remote control building block toy tank; secondly, a power supply communication socket which establishes power supply communication connection with the sensor is arranged on the remote controller, so that the novel use of the building block toy signal sensor and the building block toy remote controller are formed; thirdly, set up the coded signal of corresponding body sense action in an inertial sensor, then peg graft inertial sensor's power supply communication plug on building blocks toy remote controller's power supply communication socket, building blocks toy remote controller can put into use: the original remote control keys on the building block toy remote controller still keep a set control function, when the gun barrel needs to do pitching motion, an operator lifts up with both hands holding the building block toy remote controller, the inertial sensor recognizes the motion sensing signal and the corresponding code of the motion and transmits the motion sensing signal and the corresponding code to a control system of the remote control toy tank through the building block toy remote controller, and the control system of the remote control toy tank receives, recognizes and executes a control program corresponding to the motion sensing signal code to lift up the gun barrel; otherwise, when the operator holds the building block toy remote controller to fall downwards, the inertial sensor recognizes the motion sensing signal and the corresponding code of the motion and transmits the motion sensing signal to the control system of the remote control toy tank through the building block toy remote controller, and the control system of the remote control toy tank receives, recognizes and executes the control program corresponding to the motion sensing signal code, so that the gun barrel is bent downwards.

The new use of the building block toy signal sensor and the application scene example of the building block toy remote controller are as follows:

in the prior art, when the brightness of the position of a lamp in some remote control lighting lamp sets changes, the brightness needs to be manually realized by manually touching and pressing a remote control key of a remote controller.

However, by applying the new usage of the building block toy signal sensor and the building block toy remote controller, the building block toy remote controller can be changed into an intelligent remote controller. For example: inserting a building block toy optical sensor on the building block toy remote controller, and loading a control program for receiving, identifying and executing building block toy optical sensor signals in a control system of the remote control lighting lamp set; set up corresponding photoinduction signal and code in a building blocks toy light sensor, then peg graft its power supply communication plug on building blocks toy remote controller's power supply communication socket, building blocks toy remote controller can put into use: the building block toy remote controller is placed at a proper position of an environment where the remote control lighting lamp set is located, when the brightness of the environment changes, the building block toy optical sensor can sense and recognize the brightness state of the environment, if the recognized brightness state accords with the light sensing signal code preset by the building block toy optical sensor, the building block toy optical sensor sends the light sensing signal code to the control system of the remote control lighting lamp set through the remote control system of the building block toy remote controller, and the control system of the remote control lighting lamp set receives, recognizes and executes the control program corresponding to the light sensing signal code to adjust the brightness of the remote control lighting lamp set.

Compared with the prior art of intelligent building block toys, the new use of the building block toy signal sensor and the building block toy remote controller have the innovation points that: the sending way of the induction signal is improved, namely, the wired sending of the induction signal is changed into the wireless sending through a 2.4G communication network; the innovative improvements made include two aspects: on one hand, by utilizing the surplus IO interface and storage space in the remote control MCU of the building block toy remote controller in the prior art, 1 or a plurality of power supply communication interfaces are added on the remote control MCU of the building block toy remote controller according to the requirement of the function setting of the intelligent building block toy, and the corresponding building block toy signal sensor is accessed; on the other hand, 1 or a plurality of corresponding working programs for receiving and processing induction signals are loaded in the intelligent building block toy control system; then, the intelligent mobile terminal edits, modifies and stores corresponding control programs in the remote control MCU of the building block toy remote controller and the main control MCU of the intelligent building block toy respectively, and the innovative improvement of the invention is completed.

Therefore, the new use of the building block toy signal sensor and the building block toy remote controller have the beneficial effects that: through carrying out simple and easy innovation improvement to prior art's building blocks toy remote controller, conveniently, effectively solved promptly and carried out the technical problem of remote control to the building blocks toy of function complicacy with ordinary remote controller, perhaps improve current building blocks toy remote controller for intelligent remote controller, the product that obtains after the innovation improvement has good economic benefits.

On the basis of the core technical scheme, according to the actual situation, the new use of the building block toy signal sensor and some technical characteristics of the building block toy remote controller are further improved and limited, and various optimized technical schemes can be obtained.

Drawings

Fig. 1 is a block diagram of a remote control system of a remote controller for a block toy according to the prior art.

Fig. 2 is a block diagram illustrating a new usage of signal sensors for a block toy and a remote control system of a remote controller for a block toy according to the present invention, in which a power supply communication socket is added to the remote control system, as compared with fig. 1.

Fig. 3 is a block diagram illustrating a new use of the signal sensor of the block toy and a structure of a remote control system of a remote controller of the block toy in fig. 2 in establishing a power communication connection with the signal sensor of the block toy.

Fig. 4 is a block diagram illustrating a new use of the signal sensor of the block toy and a structure of a remote control system of a remote controller of the block toy in communication with an inertial sensor of the block toy.

Fig. 5 is a block diagram illustrating the new use of the signal sensor of the block toy and the structure of the remote control system of the remote controller of the block toy in communication with the optical sensor of the block toy.

Fig. 6 is a block diagram showing a new usage of the signal sensor of the block toy and an improved structure of a remote control system of a remote controller of the block toy shown in fig. 2, wherein two or more power supply communication sockets can be provided.

Fig. 7 is a schematic view of a block module plate in the "le gao classic granule" block toy, the height of which is 3.2 mm, four cylindrical protruding grains a at the top, and four cylindrical protruding grain embedding openings B in the bottom cavity.

Fig. 8 is a schematic view of another block module "brick" in the "le gao classic granule" block toy, the height of which is 9.6 mm, four cylindrical protruding grains a at the top, and four cylindrical protruding grain embedding openings B in the bottom cavity.

Description of reference numerals:

the A-shaped cylindrical convex particles are standard cylindrical convex particles of the 'Legao classic particle' building block toy, namely the diameter is 4.8 mm, and the height is 1.8 mm;

the B-shaped cylindrical convex grain embedding opening refers to a standard cylindrical convex grain embedding opening of a 'le Gao classic granule' type building block toy, namely the diameter is 4.8 mm, and the height is more than 1.8 mm.

Detailed Description

The new use of the signal sensor for the building block toy and the technical scheme of the remote controller for the building block toy are further explained with reference to the specific implementation mode as follows:

the first embodiment is as follows:

as shown in fig. 2 to 5, a new use of a building block toy signal sensor, the new use of the building block toy signal sensor comprises the steps of:

step 1: arranging a building block toy signal sensor; the building block toy signal sensor is provided with a power supply communication data line with a power supply communication plug;

step 2: setting a building block toy remote controller; a power supply communication socket is arranged on the building block toy remote controller and is connected with a remote control MCU of a building block toy remote controller main control system, the power supply communication socket is matched with a power supply communication plug of the building block toy signal sensor in the step 1, and the remote control MCU of the building block toy remote controller main control system can store, receive and identify and send induction signals generated by the building block toy signal sensor through a 2.4G communication module of the building block toy remote controller main control system;

and step 3: and (3) in the master control system of each intelligent building block toy device, working programs for receiving and identifying the induction signals sent by the remote control of the building block toy in the step 2 are arranged, and the intelligent building block toy devices are driven to execute corresponding working programs according to the induction signals.

Example two:

compared with the first embodiment, the difference of the present embodiment is: the type of the building block toy signal sensor in the step 1 comprises an inertia sensor, a light sensor, a sound sensor, a touch sensor, an ultrasonic sensor, a gyroscope sensor, a visual sensor, a Hall magnetic sensor, a color sensor, a pressure sensor, a motion sensor, a laser sensor or a human body infrared sensor; the type and the number of the building block toy signal sensors are determined according to the functions of the remote control building block toy.

Example three:

compared with the first embodiment, the present embodiment is different in that: the power supply communication socket in the step 2 refers to a common data line interface and comprises an MINI USB type, a micro USB type or a type-c type interface.

Example four:

as shown in fig. 6, compared with the first embodiment, the present embodiment is different in that: and 2, the remote control MCU of the master control system can also be accessed into 2 or more than 2 power supply communication sockets of the same type or different types.

Example five:

the utility model provides a building blocks toy remote controller, building blocks toy remote controller sets up power supply communication socket on a ordinary building blocks toy remote controller, power supply communication socket with building blocks toy remote controller master control system's remote control MCU connects, power supply communication socket with building blocks toy signal sensor's power supply communication plug matches, building blocks toy remote controller master control system's remote control MCU can store, receive, discernment and send through building blocks toy remote controller master control system's 2.4G communication module the sensing signal that building blocks toy signal sensor produced.

Example six:

as shown in fig. 6, the present embodiment is different from the fifth embodiment in that: the remote control MCU of the building block toy remote controller master control system can also be accessed into 2 or more than 2 power supply communication sockets of the same type or different types.

Example seven:

compared with the fifth embodiment, the difference of the present embodiment is that: the power supply communication socket of the building block toy remote controller refers to a common data line interface and comprises an MINI USB type, a micro USB type or a type-c type interface.

Example eight:

compared with the fifth embodiment, the difference of the present embodiment is that: the types of the building block toy signal sensors comprise an inertial sensor, a light sensor, a sound sensor, a touch sensor, an ultrasonic sensor, a gyroscope sensor, a visual sensor, a Hall magnetic sensor, a color sensor, a pressure sensor, a motion sensor, a laser sensor or a human body infrared sensor; the type and the number of the building block toy signal sensors are determined according to the functions of the remote control building block toy.

Example nine:

compared with the fifth embodiment, the difference of the present embodiment is: a building blocks toy remote controller reaches building blocks toy signal sensor's casing outside is equipped with the mosaic structure of granule type building blocks toy, including cylinder protruding grain, cylinder protruding grain inlay mouth or bolt hole.

Example ten:

a wireless ultrasonic positioning system comprises 4 building block toy remote controllers in the fifth embodiment, wherein 3 building block toy remote controllers are respectively connected with 1 building block toy ultrasonic receiving sensor, and a fourth building block toy remote controller is connected with 1 building block toy ultrasonic transmitting sensor; 1 building blocks toy remote controller that has carried on building blocks toy ultrasonic emission sensor is installed on the intelligent Mobile device, 3 building blocks toy remote controller that has carried on building blocks toy ultrasonic receiving transducer arranges respectively around the place of intelligent Mobile device activity, makes up into a wireless ultrasonic positioning system, can confirm immediately the plane coordinate of intelligent Mobile device position.

In intelligent robotic programming of game items, one common mode is: the method comprises the steps that a plurality of function demonstration points are arranged in a limited field, and then the intelligent robots participating in the competition are required to sequentially arrive at each function demonstration point according to a specified sequence to complete function demonstration, so that the intelligent robot wins when all the function demonstration points are accurately completed and the intelligent robot wins when the intelligent robot is used for the least time. In the prior art, the movement of a competing intelligent robot from one demonstration point to another demonstration point is controlled by a line patrol method, namely route marks are preset among the demonstration points in sequence, then a route mark recognition device is installed on the intelligent robot, and the intelligent robot moves according to a signal fed back by the recognition device so as to ensure that the intelligent robot accurately reaches the preset demonstration point; because the drive arrangement of the intelligent robot of participation all has certain error, consequently, the in-process that intelligent robot removed from a demonstration point to another demonstration point, the deviation often can appear in the moving direction, and intelligent robot's control system needs in time rectify according to the signal of recognition device feedback to guarantee that the moving direction is correct, will consume a lot of time like this. Adopt this embodiment wireless ultrasonic positioning system, its beneficial effect lies in: through the method of ultrasonic ranging location, the control system of intelligent robot can regulate and control rapidly and guarantee accurate moving direction according to the coordinate point of oneself position and the coordinate of the demonstration point that needs reacing, and such line patrol location mode not only can great saving travel time, and the match place also can be simple clean and tidy relatively moreover.

The new usage of the building block toy signal sensor and the building block toy remote controller have the advantages that: the essence of the invention is that the building block toy remote controller and the sensor in the prior art are utilized, and the building block toy remote controller is simply improved, so that the technical problem of remote control of a building block toy with complex functions by using a common remote controller can be effectively solved; the existing remote controller of the building block toy can be improved into an intelligent remote controller, so that the utilization rate of the remote controller is effectively improved; therefore, the invention has the advantages of simple and convenient technical improvement and low cost in economic aspect.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention, the technical solutions and the embodiments of the present invention, which are equivalent to or changed within the technical scope of the present invention disclosed by the present invention.

Claims (10)

1. The new use of the building block toy signal sensor is characterized in that: the new usage of the building block toy signal sensor comprises the following steps:

step 1: arranging a building block toy signal sensor; the building block toy signal sensor is provided with a power supply communication data line with a power supply communication plug;

step 2: setting a building block toy remote controller; a power supply communication socket is arranged on the building block toy remote controller and is connected with a remote control MCU of a building block toy remote controller main control system, the power supply communication socket is matched with a power supply communication plug of the building block toy signal sensor in the step 1, and the remote control MCU of the building block toy remote controller main control system can store, receive and identify and send induction signals generated by the building block toy signal sensor through a 2.4G communication module of the building block toy remote controller main control system;

and step 3: and (3) in the master control system of each intelligent building block toy device, working programs for receiving and identifying the induction signals sent by the remote control of the building block toy in the step 2 are arranged, and the intelligent building block toy devices are driven to execute corresponding working programs according to the induction signals.

2. The new use of a building block toy signal sensor as claimed in claim 1, wherein: the type of the building block toy signal sensor in the step 1 comprises an inertial sensor, a light sensor, a sound sensor, a touch sensor, an ultrasonic sensor, a gyroscope sensor, a visual sensor, a Hall magnetic sensor, a color sensor, a pressure sensor, an action sensor, a laser sensor or a human body infrared sensor; the type and the number of the building block toy signal sensors are determined according to the functions of the remote control building block toy.

3. The new use of a building block toy signal sensor as claimed in claim 1, wherein: the power supply communication socket in the step 2 refers to a common data line interface and comprises an MINI USB type, a micro USB type or a type-c type interface.

4. The new use of a building block toy signal sensor as claimed in claim 1, wherein: and 2, the remote control MCU of the master control system can also be accessed into 2 or more than 2 power supply communication sockets of the same type or different types.

5. A building blocks toy remote controller which characterized in that: the building block toy remote controller is according to claim 1 a new usage of building block toy signal sensor, set up power supply communication socket on a ordinary building block toy remote controller, power supply communication socket with building block toy remote controller master control system's remote control MCU is connected, power supply communication socket with building block toy signal sensor's power supply communication plug matches, building block toy remote controller master control system's remote control MCU can store, receive, discernment and send through building block toy remote controller master control system's 2.4G communication module the sensing signal that building block toy signal sensor produced.

6. The building block toy remote control of claim 5, wherein: the remote control MCU of the building block toy remote controller master control system can also be accessed into 2 or more than 2 power supply communication sockets of the same type or different types.

7. The building block toy remote control of claim 5, wherein: the power supply communication socket of the building block toy remote controller refers to a common data line interface and comprises an MINI USB type, a micro USB type or a type-c type interface.

8. The building block toy remote control of claim 5, wherein: the types of the building block toy signal sensors comprise an inertial sensor, a light sensor, a sound sensor, a touch sensor, an ultrasonic sensor, a gyroscope sensor, a visual sensor, a Hall magnetic sensor, a color sensor, a pressure sensor, a motion sensor, a laser sensor or a human body infrared sensor; the type and the number of the building block toy signal sensors are determined according to the function of the remote control building block toy.

9. The building block toy remote control of claim 5, wherein: a building blocks toy remote controller reaches building blocks toy signal sensor's casing outside is equipped with the mosaic structure of granule class building blocks toy, including cylinder protruding grain, cylinder protruding grain inlay mouth or bolt hole.

10. A wireless ultrasonic location system, characterized by: the wireless ultrasonic positioning system comprises 4 building block toy remote controllers as claimed in claim 5, wherein 3 building block toy remote controllers are respectively connected with 1 building block toy ultrasonic receiving sensor, and the fourth building block toy remote controller is connected with 1 building block toy ultrasonic transmitting sensor; 1 building blocks toy remote controller that has carried on building blocks toy ultrasonic emission sensor is installed on the intelligent Mobile device, 3 building blocks toy remote controller that has carried on building blocks toy ultrasonic receiving transducer arranges respectively around the place of intelligent Mobile device activity, makes up into a wireless ultrasonic positioning system, can confirm immediately the plane coordinate of intelligent Mobile device position.

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