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Frequency hopping communication method and system based on building block remote control, medium and building block toy

A technology of frequency hopping communication and building blocks, applied in the field of building block toys, can solve the problems of reduced efficiency and large interference, and achieve the effects of continuous and stable connection, high degree of automation, and improved stability

Pending Publication Date: 2022-03-01
SHANGHAI BLOKS TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, as the number of connected players increases, the requirements for toy connection stability also increase. The traditional connection method has the disadvantages of large interference and a small number of connectable players. Therefore, a new connection control method is needed to solve this problem.
[0004] In the Chinese patent document with the publication number CN 113098559A, a multi-channel multi-rate concurrent communication method based on a wireless frequency hopping network is disclosed, which relates to the field of network communication technology, and solves the problem of multiple channel switching by the transceiver during data frame transmission. technical problems that reduce efficiency

Method used

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  • Frequency hopping communication method and system based on building block remote control, medium and building block toy
  • Frequency hopping communication method and system based on building block remote control, medium and building block toy
  • Frequency hopping communication method and system based on building block remote control, medium and building block toy

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0059] The frequency hopping communication method based on building block remote control includes:

[0060] Step of receiving information: switching channels in sequence to receive information from building block actuators or controllers; step of sending information: switching channels in sequence to send information to building block actuators or controllers. The controller in this embodiment can be a smart phone, a remote control, etc., and the actuator can be a toy car, a remote control model, etc. In this embodiment, the communication carrier frequencies of the paired actuators and controllers jump within a certain range according to the same rule, thereby improving communication interference between other groups of actuators and controllers.

[0061] In more detail, the steps of receiving information include:

[0062] Step S1.1: Command the building block controller or actuator to switch to the first channel to receive information;

[0063] Step S1.2: Determine whether ...

Embodiment 2

[0072] The steps to receive information include:

[0073] Step S3.1: Command the building block actuator or controller to receive information on the first channel at the first moment;

[0074] Step S3.2: Determine whether the building block actuator or the controller has received the information, if so, synchronize the clock of the building block actuator or the controller, so that the frequency hopping frequency of the building block actuator and the control is the same, to ensure the normal and continuous communication; if not , command the building block actuator or controller to receive information on the second channel at the second moment;

[0075] Step S3.3: Determine whether the building block actuator or controller has received information, if yes, synchronize the building block actuator or controller clock; if not, order the building block actuator or controller to receive information at the next moment and next channel; Repeat this step until all channel building b...

Embodiment 3

[0083] Described receiving information module comprises:

[0084] Module M1.1: command the building block controller or actuator to switch to the first channel to receive information;

[0085] Module M1.2: Determine whether the block controller or actuator receives information overtime, if not, order the block controller or actuator to process the received information, if so, order the block controller or actuator to switch to the second channel to receive information ;

[0086] Module M1.3: Determine whether the building block controller or actuator has completed the switching of all channels, if so, switch to the first channel to receive information again; if not, switch to the next information to receive information;

[0087] Module M1.4: Determine whether data needs to be sent, if yes, switch to the information sending module, if not, return to execute module M1.3;

[0088] The sending information module includes:

[0089] Module M2.1: Command the building block control...

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Abstract

The invention provides a frequency hopping communication method and system based on building block remote control, a medium and a building block toy, the system comprises a controller and an actuator, and the communication between the controller and the actuator comprises the following steps: an information receiving step: switching channels in sequence to receive the information of the building block actuator or the controller; and an information sending step: switching the channels in sequence to send information to the building block actuator or the controller. The frequency hopping communication method provided by the invention effectively solves the problems of communication interference and low efficiency of the actuator and the controller, thereby improving the stability of connection of the building block toys.

Description

technical field [0001] The present invention relates to the technical field of toy control, in particular to a frequency hopping communication method, system, medium and building block toy based on building block remote control. Background technique [0002] Frequency hopping is a commonly used carrier technology in mobile communication, which has good anti-interference effect and can effectively improve communication quality. Frequency hopping means that the carrier frequency hops within a certain range according to a certain rule, so that the transmitting end of the signal and the receiving end of the signal both send and receive information according to the same frequency point sequence. [0003] In the field of children's toys, multi-person cooperative toys are becoming more and more popular, such as a building block toy, which is connected and paired by multiple people to jointly control the toy. However, as the number of connected players increases, the requirements f...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04B1/713A63H33/04
CPCH04B1/713A63H33/04
Inventor 高超赵家亮李善俊冒志刚
Owner SHANGHAI BLOKS TECH CO LTD