CN115250126B - Control method, device and storage medium of intelligent ring and electronic equipment - Google Patents

Abstract

The embodiment of the application provides an intelligent finger ring, a control method and a control device of electronic equipment and a storage medium. The first antennas are sequentially arranged on the ring body at intervals, the second antennas are sequentially arranged on the ring body at intervals, a second antenna is arranged between every two adjacent first antennas, a first antenna is arranged between every two adjacent second antennas, each first antenna is used for transmitting first radio frequency signals, and each second antenna is used for transmitting second radio frequency signals. The electronic equipment receives the radio frequency signals through the first antenna and the second antenna, and the electronic equipment can generate corresponding control instructions according to the received radio frequency signals and execute the control instructions, so that interaction between the intelligent finger ring and the electronic equipment is realized, and a user can control the electronic equipment to execute various functional operations through the intelligent finger ring.

Description

Control method, device and storage medium of intelligent ring and electronic equipment

Technical Field

The application relates to the technical field of communication, in particular to a control method, a device and a storage medium of an intelligent finger ring and electronic equipment.

Background

With the development of scientific technology, electronic devices with smaller volumes such as intelligent wrist rings, intelligent watches and intelligent finger rings can be manufactured at present, and people can wear the electronic devices on bodies to use the electronic devices.

However, due to the small size of the intelligent finger ring, the existing intelligent finger ring has a decoration effect, or some intelligent finger rings can display some simple information, such as time, electric quantity and the like. The intelligent ring has single function.

Disclosure of Invention

The embodiment of the application provides an intelligent finger ring, a control method and device of electronic equipment and a storage medium. The intelligent finger ring can interact with the electronic equipment to control the electronic equipment to realize corresponding functions.

In a first aspect, an embodiment of the present application provides an intelligent finger ring, including:

a finger ring body;

the first antennas are sequentially arranged on the ring body at intervals, and each first antenna is used for transmitting a first radio frequency signal;

the second antennas are sequentially arranged on the ring body at intervals, and each second antenna is used for transmitting a second radio frequency signal;

and one second antenna is arranged between every two adjacent first antennas, and one first antenna is arranged between every two adjacent second antennas.

In a second aspect, an embodiment of the present application provides a control method for an electronic device, where the electronic device is configured to receive an ultra-wideband radio frequency signal sent by an intelligent ring, where the intelligent ring is an intelligent ring provided by the embodiment of the present application, and the control method includes:

acquiring ultra-wideband radio frequency signals received in at least one period, wherein the ultra-wideband radio frequency signals comprise at least one first radio frequency signal and at least one second radio frequency signal;

determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal;

generating a corresponding control instruction according to the first information and the second information;

and executing the operation corresponding to the control instruction.

In a third aspect, an embodiment of the present application provides a control device for an electronic device, where the electronic device is configured to receive an ultra-wideband radio frequency signal sent by an intelligent ring, where the intelligent ring is an intelligent ring provided by the embodiment of the present application, and the control device includes:

the device comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring ultra-wideband radio frequency signals received in at least one period, and the ultra-wideband radio frequency signals comprise at least one first radio frequency signal and at least one second radio frequency signal;

The determining module is used for determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal;

the generation module is used for generating a corresponding control instruction according to the first information and the second information;

and the execution module is used for executing the operation corresponding to the control instruction.

In a fourth aspect, an embodiment of the present application provides an electronic device, where the electronic device stores a memory with executable program codes, and a processor coupled to the memory, where the processor invokes the executable program codes stored in the memory, and performs steps in a control method of the electronic device provided by the embodiment of the present application.

In a fifth aspect, an embodiment of the present application provides a storage medium storing a plurality of instructions adapted to be loaded by a processor to perform steps in a control method of an electronic device provided by the embodiment of the present application.

The embodiment of the application provides an intelligent finger ring, which comprises a finger ring body, a plurality of first antennas and a plurality of second antennas. The first antennas are sequentially arranged on the ring body at intervals, the second antennas are sequentially arranged on the ring body at intervals, a second antenna is arranged between every two adjacent first antennas, a first antenna is arranged between every two adjacent second antennas, each first antenna is used for transmitting first radio frequency signals, and each second antenna is used for transmitting second radio frequency signals. Therefore, different radio frequency signals are transmitted through the first antenna and the second antenna, when a user operates the intelligent ring, the antenna is shielded by the user operation, so that the electronic device can receive the different radio frequency signals when the user performs different operations, the electronic device can generate corresponding control instructions according to the received different radio frequency signals and execute the control instructions, interaction between the intelligent ring and the electronic device is realized, the user can control the electronic device to perform various functional operations through the intelligent ring, and therefore the functions of the intelligent ring can be enriched through interaction between the intelligent ring and the electronic device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of an interaction scenario between an intelligent finger ring and an electronic device according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a first structure of an intelligent finger ring according to an embodiment of the present application.

Fig. 3 is a second schematic structural diagram of an intelligent finger ring according to an embodiment of the present application.

Fig. 4 is a schematic circuit diagram of an intelligent finger ring according to an embodiment of the present application.

Fig. 5 is a third schematic structural diagram of an intelligent finger ring according to an embodiment of the present application.

Fig. 6 is a schematic diagram of a transmission cycle of an intelligent finger ring according to an embodiment of the present application.

Fig. 7 is a flowchart of a control method of an electronic device according to an embodiment of the present application.

Fig. 8 is a schematic structural diagram of a control device of an electronic apparatus according to an embodiment of the present application.

Fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to fall within the scope of the application.

In the description of the present application, terms such as "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining a term "first," "second," etc. may include one or more of the stated feature, either explicitly or implicitly. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The following disclosure provides many different embodiments, or examples, for implementing different features of the application. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the application. Furthermore, the present application may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present application provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.

The embodiment of the application provides a control method, a device and a storage medium of an intelligent finger ring and electronic equipment. The intelligent finger ring can interact with the electronic equipment, so that the electronic equipment generates corresponding instructions according to signals transmitted by the intelligent finger ring, and corresponding operations are executed.

In order to facilitate understanding of the intelligent finger ring provided by the embodiment of the application. Referring to fig. 1, fig. 1 is an interaction schematic diagram of an intelligent finger ring and an electronic device according to an embodiment of the present application.

As shown in fig. 1, devices such as an antenna, a processor, a signal transmitter, a power supply and the like are integrated inside the intelligent finger ring 100, the intelligent finger ring 100 can transmit an outgoing radio frequency signal through the antenna, and meanwhile, the intelligent finger ring 100 can also receive a radio frequency signal.

In an actual application scenario, the intelligent finger ring 100 can interact with the electronic device 200, and the intelligent finger ring 100 transmits a radio frequency signal to the electronic device. The electronic device 200 receives the radio frequency signal, acquires corresponding information from the radio frequency signal to generate a control instruction, and the electronic device 200 performs a corresponding operation according to the control instruction. Finally, the interaction between the intelligent finger ring 100 and the electronic device 200 is realized, so that the electronic device 200 executes some functions.

For example, the signal emitted by the smart ring 100 may be an Ultra wideband radio frequency (UWB) signal, and the electronic device 200 can determine the location of the smart ring 100 when receiving the UWB signal. For example, when the electronic device is an intelligent television, and the user wears the intelligent finger ring 100 by fingers, the intelligent television can determine that the user is far away from the intelligent finger ring 100 from 1 meter to 3 meters away from the television, and meanwhile, the intelligent television recognizes a signal emitted by the intelligent finger ring 100, and the intelligent television can realize the functions of volume adjustment, brightness adjustment and the like according to the signal.

For another example, the electronic device 200 is a mobile phone, and when the user is inconvenient to touch the mobile phone due to hand washing, eating, etc., the antenna on the smart band 100 can be shielded by finger touch, so as to change the radio frequency signal sent by the smart band 100, and the mobile phone can receive the radio frequency signal sent by the smart band and execute corresponding functions according to the radio frequency signal, such as answering a call, checking a message, waking up a voice assistant, etc.

In some embodiments, the user can also make the intelligent finger ring emit different signals by touching the intelligent finger ring, so that the user can actively control the corresponding electronic device through the intelligent finger ring to realize multiple functions.

Referring to fig. 2, fig. 2 is a schematic diagram of a first structure of an intelligent finger ring according to an embodiment of the application.

The intelligent ring comprises a ring body, wherein the ring body can be composed of an outer ring body 110 and an inner ring body 120, and at least one first antenna T1 and at least one second antenna T2 can be arranged on the ring body. For example, as shown in fig. 2, three first antennas T1 and three second antennas T2 are provided on the finger ring body, that is, the number of the first antennas T1 and the second antennas T2 may be equal. It should be noted that the number of the first antennas T1 and the number of the second antennas T2 may be other numbers, such as 2, 4, etc.

In some embodiments, when the first antennas T1 are plural and the second antennas T2 are plural, the first antennas T1 are sequentially disposed on the finger ring body at intervals, and the second antennas T2 are sequentially disposed on the finger ring body at intervals. Wherein, a second antenna T2 is disposed between every two adjacent first antennas T1, and a first antenna T1 is disposed between every two adjacent second antennas T2, that is, the first antennas T1 and the second antennas T2 are staggered with each other. An interval area exists between the adjacent first antenna T1 and second antenna T2, and the interval area is an antenna clearance area between the first antenna T1 and the second antenna T2, so that mutual interference of the first antenna T1 and the second antenna T2 can be prevented, and the radiation performance of the first antenna T1 and the second antenna T2 is reduced.

In some embodiments, each first antenna T1 is provided with an opposing second antenna T2 on the other side of the finger ring body. That is, a first antenna T1 has an opposite second antenna T2, the first antenna T1 and the first antenna T1 being located on different sides of the finger ring body, respectively. It will be appreciated that each first antenna is provided with a second antenna at a position which is symmetrical with respect to the centre of the finger ring body.

In some embodiments, the first antenna T1 and the second antenna T2 may be disposed at different sides of the finger ring body, respectively. For example, the ring body is circular in shape, and can be divided into two parts through the center of a circle, wherein a first antenna T1 is arranged in the first part, and a second antenna T2 is arranged in the second part.

The foregoing is merely illustrative, and the arrangement of the first antenna T1 and the second antenna T2 may also include other forms, which may be specifically determined according to the function required to be implemented by the intelligent ring.

Referring to fig. 3, fig. 3 is a second structural schematic diagram of an intelligent finger ring according to an embodiment of the application.

In some embodiments, a cavity 130 is between the outer ring body 110 and the inner ring body 120, and devices such as a first antenna T1, a second antenna T2, a battery, and a circuit board of the smart finger ring may be disposed in the cavity 130, so that the devices are protected by the outer ring body 110 and the inner ring body 120.

When the first antenna T1 and the second antenna T2 are disposed inside the cavity 130, the material of the outer ring body 110 may be a non-metal material, so as to prevent shielding of the radio frequency signals emitted by the first antenna T1 and the second antenna T2, because the first antenna T1 and the second antenna T2 need to emit radio frequency signals to the outside.

In some embodiments, the first antenna T1 and the second antenna T2 may also be disposed outside the cavity 130, such as on a side of the outer ring body 110 facing the outside, and the first antenna T1 and the second antenna T2 may be disposed on a side of the outer ring body 110 facing the outside in a patch form.

In some implementations, a user may enable interaction with other electronic devices by touching the outer ring body 110 of the smart ring. For example, when touching the outer ring 110 of the intelligent ring, a user can shield part of the first antenna T1 and/or part of the second antenna T2 with a finger, at this time, the number of antennas, signal types, and the like of the radio frequency signals emitted by the intelligent ring can be changed, and after receiving the radio frequency signals emitted by the intelligent ring, the electronic device can analyze the radio frequency signals, thereby generating a corresponding control instruction, and finally, the electronic device is controlled to realize a corresponding function according to the control instruction.

Interaction with other electronic devices is achieved by the user touching the outer ring body 110 of the smart ring. In order to facilitate accurate touch operation of a user, a touch recognition area 140 may be provided on one side of the outer ring body 110 of the intelligent finger ring, that is, the touch recognition area 140 may be provided on the side of the outer ring body 110 facing the outside. When the user's finger touches the touch recognition area 140, the user can know which area of the smart ring is specifically touched.

For example, dimples, protrusions, twills, frosting, and the like are disposed on the touch recognition area 140, and when a user touches the touch recognition area 140, the position of touching on the intelligent finger ring can be determined according to the hand feeling, so that the intelligent finger ring can be accurately controlled to send corresponding signals to other electronic devices.

In some embodiments, the touch recognition area 140 may overlap with the area where the first antenna T1 is located, or may overlap with the area where the second antenna T2 is located. For example, the first antenna T1 is disposed in the cavity 130, the touch recognition area 140 is disposed on the outer ring body 110, and the area where the touch recognition area 140 and the first antenna T1 are located is coincident, when the user touches the touch recognition area 140, the first antenna T1 is just below the touch recognition area 140, and at this time, the finger of the user shields the first antenna T1.

The touch recognition area 140 corresponding to the first antenna T1 and the touch recognition area 140 corresponding to the second antenna T2 may be different. For example, the touch recognition area 140 corresponding to the first antenna T1 has a dent, and the touch recognition area 140 corresponding to the second antenna T2 has a protrusion, and when the user touches the touch recognition area 140, it can be determined that the touch recognition area 140 corresponds to the first antenna T1 or the second antenna T2 through the dent and the protrusion.

Referring to fig. 4, fig. 4 is a schematic circuit diagram of an intelligent finger ring according to an embodiment of the application.

As shown in fig. 4, the intelligent finger ring is further provided with a processor C1, a signal processing module S1, a power supply P1, a first switch K1, a second switch K2, a third switch K3, and other components. These components may be disposed within the cavity 130 of the smart ring.

The power supply P1 is connected to the processor C1 and the signal processing module S1, and the power supply P1 is used for supplying power to the processor C1 and the signal processing module S1. The signal processing module S1 is connected to the processor C1, and the signal processing module S1 is configured to generate radio frequency signals of different frequency bands or process received radio frequency signals of different frequency bands. The processor C1 may control the frequency of the radio frequency signal transmitted by the signal processing module S1, and may also control the transmission period, the transmission frequency, the transmission duration, etc. of the signal processing module S1.

The first switch K1 is connected with the first antenna T1, the second switch K2 is connected with the second antenna T2, one end of the third switch K3 is connected with the signal processing module S1, and the other end of the third switch K3 is connected with the first switch K1 and the second switch K2 in parallel.

The processor C1 may be connected to the first switch K1, the second switch K2, and the third switch K3, where the processor C1 is configured to control an on or off state of the first switch K1, the second switch K2, and the third switch K3. The processor C1 may also control the transmission period and the transmission frequency of the first antenna T1 by controlling the states of the first switch K1 and the third switch K3, and the processor C1 may also control the transmission period and the transmission frequency of the second antenna T2 by controlling the states of the second switch K2 and the third switch K3.

It should be noted that, in practical applications, there may be a plurality of first antennas T1 and a plurality of second antennas T2, where each first antenna T1 is connected to a corresponding first switch K1, and each second antenna T2 is connected to a corresponding second switch K2. The adjacent first antenna T1 and second antenna T2 may be arranged as a group of antennas connected to a corresponding third switch K3, that is, the first switch K1 corresponding to each of the associated first antennas T1 and the second switch K2 corresponding to the second antenna T2 are connected in parallel to the corresponding third switch K3.

In some embodiments, the signal processing module S1 may output the first signal source, thereby causing the first antenna T1 to emit the first radio frequency signal. The signal processing module S1 may further output a second signal source, so that the second antenna T2 emits a second radio frequency signal. The first radio frequency signal and the second radio frequency signal may be ultra wideband radio frequency signals.

With continued reference to fig. 5, fig. 5 is a schematic diagram of a third structure of an intelligent finger ring according to an embodiment of the application.

The antennas A1, A2, and A3 are a first antenna T1, the antennas B1, B2, and B3 are a second antenna T2, the antenna A1 is a B3, the antenna A2 is a B1, and the antenna A3 is a B2.

In some embodiments, the user touches the smart ring, often wearing the smart ring on the index finger, and the interaction between the smart ring and other electronic devices is achieved by touching the smart ring with the thumb.

Taking the example of wearing the smart ring with the index finger of the user's right hand, any one of antennas A1, A2, A3 and antennas B1, B2, B3 may be sandwiched between the index finger and the middle finger. There may be no sandwiching of any of the antennas A1, A2, A3 and the antennas B1, B2, B3 between the index finger and the middle finger.

For example, when the user sandwiches the antenna B2 between the index finger and the middle finger and touches the smart ring with the thumb of the right hand, the area where the antenna A3 is located is touched. When the user turns the smart ring, then the area sandwiched between the middle finger and the index finger is the spaced area between antenna A1 and antenna B2, where no antenna is sandwiched between the middle finger and the index finger. When the user rotates the intelligent ring again, the antenna A1 is clamped between the index finger and the middle finger, and the thumb of the user can touch the area where the antenna B3 is located.

In some embodiments, the palm of the user may be in a fist-making state or in an expanded state. When the palm of the user is in an unfolded state, at least 4 antennas among the antennas A1, A2 and A3 and the antennas B1, B2 and B3 can emit emergent frequency signals. For example, when one antenna is clamped between the index finger and the middle finger of a user, and when the thumb touches one antenna, only 4 antennas emit signals; when one antenna is clamped between the index finger and the middle finger of a user and the thumb does not touch the intelligent ring, 5 antennas emit signals; when any one of the antennas is not clamped between the index finger and the middle finger of the user, 6 antennas emit signals no matter the thumb is touching the ring or not touching the ring.

When the palm of the user is in a fist-making state, at least 2 antennas among the antennas A1, A2 and A3 and the antennas B1, B2 and B3 can emit emergent frequency signals. For example, when one antenna is clamped between the index finger and the middle finger of the user, and when one antenna is blocked by the thumb touch, and the antenna facing the inside of the palm is blocked due to the fist-making state, only 2 antennas emit signals at the moment; when one antenna is clamped between the index finger and the middle finger of a user and the thumb does not touch the intelligent finger ring, the antenna facing the inside of the palm is blocked due to the fist-making state, and at the moment, 3 antennas can emit signals; when any antenna is not clamped between the index finger and the middle finger of the user, the palm can block the antenna facing the inside of the palm no matter the thumb touches the ring or does not touch the ring, and at the moment, 3 antennas can emit signals.

In some embodiments, the user may influence the signal sending condition of the intelligent ring according to the manner that the finger touches the first antenna T1 and/or the second antenna T2, thereby influencing the signal receiving condition of other electronic devices sent by the intelligent ring, and finally analyzing the signal sent by the intelligent ring through the other electronic devices, thereby determining the corresponding control instruction, and controlling the electronic device to implement the corresponding function.

Referring to fig. 6, fig. 6 is a schematic diagram illustrating a transmission cycle of an intelligent finger ring according to an embodiment of the application.

In some embodiments, the smart ring controls the antennas A1, A2, A3 and the antennas B1, B2, B3 to transmit radio frequency signals according to a certain transmission law.

As shown in fig. 6, during one transmission period, a plurality of antennas may sequentially transmit radio frequency signals, for example, sequentially in the order of antennas A1, B1, A2, B2, A3, B3. In one transmission period, each first antenna T1 transmits a first radio frequency signal for a period d1, each second antenna T2 transmits a second radio frequency signal for a period d3-d2, and a time interval between adjacent first antennas T1 and second antennas T2 in the transmission sequence is d2-d1.

In some embodiments, in one transmission period, when each first antenna T1 transmits the first radio frequency signal, the transmitted first radio frequency signal may carry corresponding category information. When each second antenna T2 transmits the second radio frequency signal, the transmitted second radio frequency signal may carry corresponding category information. After the electronic equipment receives the radio frequency signal transmitted by the intelligent ring, corresponding transmitting information can be obtained.

In some embodiments, in one transmission period, when each first antenna T1 transmits the first radio frequency signal, the first radio frequency signal is transmitted twice, for example, the duration of the first transmission is 2 seconds, the interval is 0.5 seconds, and the duration of the second transmission is 1 second, so that the first radio frequency signal transmitted for the first time can be used as positioning information, and the first radio frequency signal transmitted for the second time is category information.

In a transmission period, when each second antenna T2 transmits the second radio frequency signal, the second radio frequency signal is transmitted twice, for example, the duration of the first transmission of the second radio frequency signal is 1.5 seconds, the interval is 0.5 seconds, and the duration of the second transmission of the second radio frequency signal is 1.2 seconds, so that the first transmission of the second radio frequency signal can be used as positioning information, and the second transmission of the second radio frequency signal is category information.

In practical applications, the intelligent finger ring can control the first antenna T1 to transmit the first radio frequency signal and the second antenna T2 to transmit the second radio frequency signal according to the setting. That is, the smart band may control the antennas A1, B1, A2, B2, A3, B3 to transmit corresponding radio frequency signals according to actual needs.

In some embodiments, signal emission conditions, such as emission periods, frequencies, times, and the like, of each first antenna T1 and each second antenna T2 in the intelligent ring can be controlled, so that signal receiving conditions of other electronic devices on the intelligent ring are affected, and finally, signals on the intelligent ring are analyzed through the other electronic devices, so that corresponding control instructions are determined, and the electronic devices are controlled to realize corresponding functions.

The embodiment of the application provides an intelligent finger ring, which comprises a finger ring body, a plurality of first antennas T1 and a plurality of second antennas T2. The first antennas T1 are sequentially arranged on the ring body at intervals, the second antennas T2 are sequentially arranged on the ring body at intervals, one second antenna T2 is arranged between every two adjacent first antennas T1, one first antenna T1 is arranged between every two adjacent second antennas T2, each first antenna T1 is used for transmitting first radio frequency signals, and each second antenna T2 is used for transmitting second radio frequency signals. Therefore, different radio frequency signals are transmitted through the first antenna T1 and the second antenna T2, when a user operates the intelligent ring, the user operation can shield the antenna, so that the electronic device can receive the different radio frequency signals when the user performs different operations, the electronic device can generate corresponding control instructions according to the received different radio frequency signals and execute the control instructions, interaction between the intelligent ring and the electronic device is realized, the user can control the electronic device to perform various functional operations through the intelligent ring, and therefore the functions of the intelligent ring can be enriched through interaction between the intelligent ring and the electronic device.

Referring to fig. 7, fig. 7 is a flowchart illustrating a control method of an electronic device according to an embodiment of the application. The control method may include the steps of:

301. an ultra-wideband radio frequency signal received in at least one period is acquired, the ultra-wideband radio frequency signal comprising at least one first radio frequency signal and at least one second radio frequency signal.

In some embodiments, the electronic device may receive a first radio frequency signal and a second radio frequency signal transmitted by the smart band, and the first radio frequency signal and the second radio frequency signal may be ultra wideband radio frequency signals.

Since the smart ring has a plurality of first antennas and a plurality of second antennas, the electronic device may receive at least one first radio frequency signal and at least one second radio frequency signal.

302. And determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal.

After the electronic device receives the first radio frequency signal and the second radio frequency signal, the electronic device can determine first information according to the first radio frequency signal and determine second information according to the second radio frequency signal. The first information and the second information include transmission times, transmission duration, transmission period, transmission frequency, category information, positioning information and the like.

Taking the electronic device receiving the first radio frequency signal as an example. Because each first antenna emits the first radio frequency signals twice in the emitting period (d 1) corresponding to the first antenna when emitting the first radio frequency signals, the electronic equipment can determine positioning information and category information from the twice radio frequency signals respectively, wherein the positioning information is the position of the intelligent finger ring relative to the electronic equipment. The category information may be whether the antenna is a first antenna or a second antenna, or the category information may be which antenna of the first antennas is in particular a plurality of first antennas, etc.

After receiving the first radio frequency signal, the electronic device may further determine the number of times of receiving the first radio frequency signal according to the first radio frequency signal. For example, as shown in fig. 5, each antenna transmits a signal only once in a period, if the antenna B2 is blocked and the other antennas are not blocked, the number of times the electronic device receives the first radio frequency signal in the period is three; if antenna A1 is blocked and the other antennas are not blocked, the number of times the electronic device receives the first RF signal in this period is two.

In order to more accurately judge the touch mode of the user to the intelligent ring, the electronic equipment can receive the first radio frequency signals and the second radio frequency signals of a plurality of complete transmission periods of the intelligent ring. Thereby obtaining more accurate transmission information.

303. And generating a corresponding control instruction according to the first information and the second information.

After the electronic device determines the first information and the second information, the first information and the second information may be analyzed.

In some embodiments, a first number of antennas transmitting a first radio frequency signal in the first information and a second number of antennas transmitting a second radio frequency signal in the second information may be determined. And then generating corresponding control instructions according to the first antenna number and the second antenna number.

For example, if the number of first antennas is determined to be 1 and the number of second antennas is determined to be 1, a control command 1 is correspondingly generated. And when the number of the first antennas is determined to be 2 and the number of the second antennas is determined to be 1, correspondingly generating and executing 2.

In some embodiments, the electronic device may further determine a state of wearing the intelligent ring by the user based on the first information and the second information. For example, as shown in fig. 5, the user wears the intelligent ring on the index finger, if the number of antennas corresponding to the radio frequency signals received by the electronic device in one period is more than 4, the palm of the user is in an extended state at this time; if the number of antennas corresponding to the radio frequency signals received by the electronic equipment in one period is less than 3, the palm of the user is in a fist making state at the moment.

After the electronic equipment determines the state of wearing the intelligent ring by the user, a corresponding control instruction set can be determined according to different wearing states, and then a corresponding control instruction is determined in the control instruction set.

As shown in fig. 5, for example, when it is determined that the wearing state of the user is the unfolded state. If the number of the identified antennas for transmitting the radio frequency signals is 4, a corresponding control instruction is generated.

In some embodiments, each antenna in the intelligent finger ring can transmit its own corresponding category information, and the electronic device can determine which antenna emits the radio frequency signal according to the category information, and then determine to generate the corresponding instruction according to the category of the antenna emitting the radio frequency signal.

In some embodiments, the electronic device may further obtain a number of times of transmission of the first radio frequency signal in the first information, a number of times of transmission of the second radio frequency signal in the second information, and finally determine the corresponding control instruction according to the number of times of transmission of the first radio frequency signal and the number of times of transmission of the second radio frequency signal. For example, if the number of times of transmission of the first radio frequency signal is 20 and the number of times of transmission of the second radio frequency signal is 20, a control instruction 1 is correspondingly generated; and correspondingly generating a control instruction 2 when the transmission times of the first radio frequency signal is 10 and the transmission times of the second radio frequency signal is 20.

304. And executing the operation corresponding to the control instruction.

After determining the corresponding control instruction, the electronic device may perform corresponding functional operations, such as adjusting volume, brightness, and the like, according to the control instruction. Therefore, the user can control the electronic equipment to realize the corresponding function through the intelligent finger ring.

In the embodiment of the application, the electronic equipment acquires the ultra-wideband radio frequency signal received in at least one period, wherein the ultra-wideband radio frequency signal comprises at least one first radio frequency signal and at least one second radio frequency signal; then determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal; and finally, generating a corresponding control instruction according to the first information and the second information, and executing the operation corresponding to the control instruction. Therefore, different radio frequency signals are transmitted through the first antenna and the second antenna, when a user operates the intelligent ring, the antenna is shielded by the user operation, so that the electronic device can receive the different radio frequency signals when the user performs different operations, the electronic device can generate corresponding control instructions according to the received different radio frequency signals and execute the control instructions, interaction between the intelligent ring and the electronic device is realized, the user can control the electronic device to perform various functional operations through the intelligent ring, and therefore the functions of the intelligent ring can be enriched through interaction between the intelligent ring and the electronic device.

Referring to fig. 8, fig. 8 is a control device of an electronic apparatus according to an embodiment of the application. The control device 400 includes an acquisition module 410, a determination module 420, a generation module 430, and an execution module 440.

The acquiring module 410 is configured to acquire an ultra-wideband radio frequency signal received in at least one period, where the ultra-wideband radio frequency signal includes at least one first radio frequency signal and at least one second radio frequency signal.

In some embodiments, the acquisition module 410 may receive a first radio frequency signal and a second radio frequency signal transmitted by the smart band, where the first radio frequency signal and the second radio frequency signal may be ultra wideband radio frequency signals.

Since the smart ring has a plurality of first antennas and a plurality of second antennas, the acquisition module 410 may receive at least one first radio frequency signal and at least one second radio frequency signal.

The determining module 420 is configured to determine first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal.

After the electronic device receives the first radio frequency signal and the second radio frequency signal, the determining module 420 may determine the first information according to the first radio frequency signal, and determine the second information according to the second radio frequency signal. The first information and the second information include transmission times, transmission duration, transmission period, transmission frequency, category information, positioning information and the like.

The generating module 430 is configured to generate a corresponding control instruction according to the first information and the second information.

After the electronic device determines the first information and the second information, the generation module 430 may analyze the first information and the second information.

In some embodiments, the generation module 430 may determine a first number of antennas in the first information that transmit the first radio frequency signal and a second number of antennas in the second information that transmit the second radio frequency signal. And then generating corresponding control instructions according to the first antenna number and the second antenna number.

For example, if the number of first antennas is determined to be 1 and the number of second antennas is determined to be 1, a control command 1 is correspondingly generated. And when the number of the first antennas is determined to be 2 and the number of the second antennas is determined to be 1, correspondingly generating and executing 2.

And the execution module 440 is configured to execute an operation corresponding to the control instruction.

After determining the corresponding control instruction, the execution module 440 may perform the corresponding functional operation, such as adjusting the volume, brightness, etc., according to the control instruction. Therefore, the user can control the electronic equipment to realize the corresponding function through the intelligent finger ring.

In the embodiment of the application, the electronic equipment acquires the ultra-wideband radio frequency signal received in at least one period, wherein the ultra-wideband radio frequency signal comprises at least one first radio frequency signal and at least one second radio frequency signal; then determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal; and finally, generating a corresponding control instruction according to the first information and the second information, and executing the operation corresponding to the control instruction. Therefore, interaction between the electronic equipment and the intelligent finger ring is realized, and the electronic equipment can execute corresponding functional operations.

Accordingly, an embodiment of the present application also provides an electronic device, as shown in fig. 9, where the electronic device 500 may include a receiving module 501, a memory 502 including one or more computer readable storage media, a processor 503 including one or more processing cores, a power supply 504, and so on. It will be appreciated by those skilled in the art that the electronic device structure shown in fig. 9 is not limiting of the electronic device and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components. Wherein:

the receiving module 601 may be configured to receive radio frequency signals emitted by other electronic devices, such as 4G signals, 5G signals, ultra wideband radio frequency signals, wiFi signals, and so on.

The memory 502 may be used to store software programs and modules, and the processor 503 executes the software programs and modules stored in the memory 502 to perform various functional applications and data processing. The memory 502 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program (such as a sound playing function, an image playing function, etc.) required for at least one function, and the like; the storage data area may store data created according to the use of the electronic device (such as audio data, phonebooks, etc.), and the like. In addition, memory 502 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage device.

The processor 503 is a control center of the electronic device, connects various parts of the entire electronic device using various interfaces and lines, and performs various functions of the electronic device and processes data by running or executing software programs and/or modules stored in the memory 502, and calling data stored in the memory 502, thereby performing overall monitoring of the electronic device. Optionally, the processor 503 may include one or more processing cores; preferably, the processor 503 may integrate an application processor and a modem processor, wherein the application processor primarily handles operating systems, user interfaces, applications, etc., and the modem processor primarily handles wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor 503.

The electronic device also includes a power supply 504 (e.g., a battery) for powering the various components, which may be logically connected to the processor 503 by a power management system, such as to perform functions such as managing charge, discharge, and power consumption by the power management system. The power supply 504 may also include one or more of any components, such as a direct current or alternating current power supply, a recharging system, a power failure detection circuit, a power converter or inverter, a power status indicator, and the like.

Although not shown, the electronic device may further include a camera, a bluetooth module, etc., which will not be described herein. In particular, in this embodiment, the processor 503 in the electronic device loads executable files corresponding to the processes of one or more application programs into the memory 502 according to the following instructions, and the processor 503 executes the application programs stored in the memory 502, so as to implement various functions:

acquiring ultra-wideband radio frequency signals received in at least one period, wherein the ultra-wideband radio frequency signals comprise at least one first radio frequency signal and at least one second radio frequency signal;

determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal;

generating a corresponding control instruction according to the first information and the second information;

and executing the operation corresponding to the control instruction.

Those of ordinary skill in the art will appreciate that all or a portion of the steps of the various methods of the above embodiments may be performed by instructions, or by instructions controlling associated hardware, which may be stored in a computer-readable storage medium and loaded and executed by a processor.

To this end, an embodiment of the present application provides a storage medium having stored therein a plurality of instructions capable of being loaded by a processor to perform the steps of any one of the electronic device control methods provided in the embodiment of the present application. For example, the instructions may perform the steps of:

acquiring ultra-wideband radio frequency signals received in at least one period, wherein the ultra-wideband radio frequency signals comprise at least one first radio frequency signal and at least one second radio frequency signal;

determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal;

generating a corresponding control instruction according to the first information and the second information;

and executing the operation corresponding to the control instruction.

The specific implementation of each operation above may be referred to the previous embodiments, and will not be described herein.

Wherein the storage medium may include: read Only Memory (ROM), random access Memory (RAM, random Access Memory), magnetic or optical disk, and the like.

The steps in the control method of any electronic device provided by the embodiment of the present application can be executed due to the instructions stored in the storage medium, so that the beneficial effects that can be achieved in the control method of any electronic device provided by the embodiment of the present application can be achieved, which are detailed in the previous embodiments and are not described herein.

The above describes in detail the control method, apparatus and storage medium of the intelligent finger ring and electronic device provided by the embodiments of the present application, and specific examples are applied to describe the principles and embodiments of the present application, where the description of the above embodiments is only for helping to understand the method and core ideas of the present application; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in light of the ideas of the present application, the present description should not be construed as limiting the present application.

Claims (14)

1. An intelligent finger ring, comprising:

a finger ring body;

the first antennas are sequentially arranged on the ring body at intervals, and each first antenna is used for transmitting a first radio frequency signal;

the second antennas are sequentially arranged on the ring body at intervals, and each second antenna is used for transmitting a second radio frequency signal;

one second antenna is arranged between every two adjacent first antennas, one first antenna is arranged between every two adjacent second antennas, so that the electronic equipment receives at least one first radio frequency signal and at least one second radio frequency signal, first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal are determined, corresponding control instructions are generated according to the first information and the second information, and operations corresponding to the control instructions are executed.

2. The intelligent finger ring according to claim 1, wherein each of the first antennas is provided with one of the second antennas at a position symmetrical with respect to a center of the finger ring body.

3. The smart ring of claim 2, wherein there is a separation region between each of the first antennas and the adjacent second antennas.

4. The intelligent finger ring according to claim 2, wherein a touch recognition area is arranged on one side of the outer ring body of the finger ring body, and the touch recognition area coincides with an area where the first antenna and/or the second antenna are/is located.

5. The smart ring of any one of claims 1 to 4, further comprising:

and the signal source is connected with the plurality of first antennas and the plurality of second antennas.

6. The intelligent finger ring according to claim 5, further comprising:

the first switches are connected with the corresponding first antennas;

each second antenna is connected with the corresponding second switch;

and one end of the third switch is connected with the signal source, and the other end of the third switch is connected with at least one first switch and at least one second switch in parallel.

7. The intelligent finger ring according to claim 6, wherein the intelligent finger ring further comprises:

the processor is connected with the signal source and used for controlling the signal source to output a first radio frequency signal and a second radio frequency signal;

the processor is connected with the first switch, the second switch and the third switch, and is used for controlling the opening or closing of the first switch, the second switch and the third switch.

8. The smart ring of claim 7, wherein the processor is further configured to control the operating states of the first antenna and the second antenna.

9. A control method of an electronic device, wherein the electronic device is configured to receive an ultra wideband radio frequency signal sent by an intelligent ring, the intelligent ring being an intelligent ring according to any one of claims 1 to 8, the control method comprising:

acquiring ultra-wideband radio frequency signals received in at least one period, wherein the ultra-wideband radio frequency signals comprise at least one first radio frequency signal and at least one second radio frequency signal;

determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal;

Generating a corresponding control instruction according to the first information and the second information;

and executing the operation corresponding to the control instruction.

10. The method for controlling an electronic device according to claim 9, wherein generating the corresponding control instruction according to the first information and the second information includes:

determining the number of first antennas transmitting first radio frequency signals in the first information and the number of second antennas transmitting second radio frequency signals in the second information;

and determining corresponding control instructions according to the first antenna number and the second antenna number.

11. The method for controlling an electronic device according to claim 9, wherein generating the corresponding control instruction according to the first information and the second information includes:

acquiring the receiving times of the first radio frequency signals in the first information;

acquiring the receiving times of the second radio frequency signals in the second information;

and generating a corresponding control instruction according to the receiving times of the first radio frequency signal and the receiving times of the second radio frequency signal.

12. A control device of an electronic device, wherein the electronic device is configured to receive an ultra wideband radio frequency signal sent by an intelligent finger ring, the intelligent finger ring being an intelligent finger ring according to any one of claims 1 to 8, the control device comprising:

The device comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring ultra-wideband radio frequency signals received in at least one period, and the ultra-wideband radio frequency signals comprise at least one first radio frequency signal and at least one second radio frequency signal;

the determining module is used for determining first information corresponding to the first radio frequency signal and second information corresponding to the second radio frequency signal;

the generation module is used for generating a corresponding control instruction according to the first information and the second information;

and the execution module is used for executing the operation corresponding to the control instruction.

13. An electronic device, comprising:

a memory storing executable program code, a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the steps in the control method of the electronic device as claimed in any one of claims 9 to 11.

14. A storage medium storing a plurality of instructions adapted to be loaded by a processor to perform the steps in the method of controlling an electronic device according to any one of claims 9 to 11.