Search

CN-121979380-A - Interactive system constructed by intelligent glasses and earphone, interactive method thereof, earphone and intelligent glasses

CN121979380ACN 121979380 ACN121979380 ACN 121979380ACN-121979380-A

Abstract

The invention provides an interaction system constructed by intelligent glasses and headphones, wherein the intelligent glasses are in wireless connection with the headphones, the first sensing area detects that the headphones are in a wearing state, the second sensing area detects that a holding part is in a non-holding state, the interaction system enters an audio playing mode, in the audio playing mode, the intelligent glasses transmit audio signals to the headphones and play the audio signals through the headphones, the first sensing area detects that the headphones are in the non-wearing state, the second sensing area detects that the holding part is in the holding state, the interaction system enters a control mode, and in the control mode, a control instruction for controlling the intelligent glasses to work is generated based on position change information of the headphones and/or user operation types detected by the third sensing area. The invention also provides a system interaction method, the earphone and the intelligent glasses, and the system, the method, the earphone and the intelligent glasses have the advantages of simple and convenient operation, good user experience and the like.

Inventors

  • WANG JIE

Assignees

  • 珠海市杰理科技股份有限公司

Dates

Publication Date
20260505
Application Date
20251223

Claims (20)

  1. 1. An interaction system constructed by intelligent glasses and headphones, wherein the intelligent glasses are in wireless connection with the headphones, and the interaction system is characterized in that the headphones comprise a first induction area, a second induction area and a third induction area, and the first induction area is arranged in an ear-sticking area of the headphones and used for detecting wearing states of the headphones; the second sensing area is arranged on the holding part of the earphone and is used for detecting whether the holding part is held or not; the third sensing area is arranged in a back area opposite to the ear sticking area and is used for detecting the operation type of a user; The first sensing area detects that the earphone is in a wearing state, and the second sensing area detects that the holding part is in a non-holding state, the interactive system enters an audio playing mode; in the audio playing mode, the intelligent glasses transmit audio signals to the earphone and play the audio signals through the earphone; the first sensing area detects that the earphone is in an unworn state, the second sensing area detects that the holding part is in a holding state, the interactive system enters a control mode, and in the control mode, a control instruction for controlling the intelligent glasses to work is generated based on position change information of the earphone and/or the user operation type detected by the third sensing area.
  2. 2. The interactive system of claim 1, wherein when the first sensing area detects that the headset is in an unworn state and the second sensing area detects that the grip is in a grip state: if the earphone is positioned in the set area, the interactive system enters the control mode; if the earphone is positioned outside the setting area, the interaction system does not generate the control instruction for controlling the intelligent glasses to work or the intelligent glasses do not execute the control instruction in the setting time; The setting area is defined based on the position of the intelligent glasses, the setting area is a spherical area positioned in front of and below the glasses legs of the intelligent glasses, the radius of the spherical area is 15-30cm, and the included angle between the connecting line between the glasses legs and the spherical center of the spherical area and the horizontal plane is 30-70 degrees.
  3. 3. The interaction system of the intelligent glasses and the headphones according to claim 1, wherein the headphones are Bluetooth headphones, the headphones and the intelligent glasses communicate by adopting Bluetooth 5.1 and above communication protocols, and the headphones comprise a self-positioning ranging module; at a first time node, the self-positioning ranging module detects the position and the distance of the earphone relative to the intelligent glasses; At a second time node, the self-positioning ranging module detects the position and the distance of the earphone relative to the intelligent glasses; The position change calculation module calculates position change information of the earphone according to the azimuth and the distance detected by the first time node and the second time node, wherein the position change information characterizes the operation type of a user on the earphone from the first time node to the second time node; The self-contained positioning ranging module comprises an array antenna, and the array antenna calculates the azimuth and the distance of the earphone relative to the intelligent glasses based on the reaching angle of the Bluetooth signals.
  4. 4. The interactive system constructed by intelligent glasses and headphones according to claim 1, wherein the interactive system is provided with an instruction mapping relation, and the instruction mapping relation sets the correspondence relation among the position change information, the user operation type and the control instruction.
  5. 5. The smart glasses-to-headset constructed interactive system of claim 1, wherein the headset comprises a left headset and a right headset; the left glasses leg and the right glasses leg of the intelligent glasses are respectively provided with a wireless communication module, the wireless communication module in the left glasses leg is in wireless connection with the left earphone, and the wireless communication module in the right glasses leg is in wireless connection with the right earphone; The left earphone and the right earphone are both operated in the audio playing mode or the control mode, or one of the left earphone and the right earphone is operated in the audio playing mode, and the other one is operated in the control mode.
  6. 6. The intelligent eyeglass-headset constructed interactive system according to claim 5, wherein said wireless communication module in said left temple is positioned adjacent to said Zuo Jing temple; The wireless communication module in the right glasses leg is arranged at the position, close to the lens, of the right glasses leg.
  7. 7. The interaction system constructed by intelligent glasses and headphones according to claim 1, wherein the first sensing area is provided with a patch type capacitive sensor, the second sensing area is provided with a rigid or flexible capacitive sensor surrounding the holding part, and the third sensing area is provided with a capacitive sensor and/or a microphone for identifying touch operation and/or knocking operation of a user.
  8. 8. The interaction method of the intelligent glasses and the earphone is suitable for an interaction system constructed by the intelligent glasses and the earphone, and is characterized in that the earphone comprises a first induction area, a second induction area and a third induction area, wherein the first induction area is arranged in an ear-sticking area of the earphone and is used for detecting the wearing state of the earphone; The interaction method comprises the following steps: step S100, the first sensing area and the second sensing area start detection; step 200, determining an interaction mode of the interaction system according to the detection result of the step 100; step 300, the earphone and the intelligent glasses interact according to the interaction mode determined in the step 200; when the first sensing area detects that the earphone is in a wearing state and the second sensing area detects that the holding part is in a non-holding state, the interaction mode is an audio playing mode, and in the audio playing mode, the intelligent glasses transmit audio signals to the earphone and play the audio signals through the earphone; The first sensing area detects that the earphone is in an unworn state, the second sensing area detects that the holding part is in a holding state, the interaction mode is a control mode, and under the control mode, a control instruction for controlling the intelligent glasses to work is generated based on position change information of the earphone and/or the user operation type detected by the third sensing area.
  9. 9. The method of claim 8, wherein when the first sensing area detects that the headset is in an unworn state and the second sensing area detects that the grip is in a grip state: if the earphone is positioned in the set area, the interactive system enters the control mode; if the earphone is positioned outside the setting area, the interaction system does not generate the control instruction for controlling the intelligent glasses to work or the intelligent glasses do not execute the control instruction in the setting time; The setting area is defined based on the position of the intelligent glasses, the setting area is a spherical area positioned in front of and below the glasses legs of the intelligent glasses, the radius of the spherical area is 15-30cm, and the included angle between the connecting line between the glasses legs and the spherical center of the spherical area and the horizontal plane is 30-70 degrees.
  10. 10. The method for interacting the intelligent glasses and the headphones according to claim 8, wherein the headphones are bluetooth headphones, the headphones and the intelligent glasses communicate by adopting a bluetooth 5.1 and above communication protocol, and the headphones comprise a self-positioning ranging module; the method for acquiring the position change information of the earphone comprises the following steps: at a first time node, the self-positioning ranging module detects the position and the distance of the earphone relative to the intelligent glasses; At a second time node, the self-positioning ranging module detects the position and the distance of the earphone relative to the intelligent glasses; Calculating position change information of the earphone based on the azimuth and the distance detected by the first time node and the second time node, wherein the position change information characterizes the operation type of a user on the earphone from the first time node to the second time node; The self-contained positioning ranging module comprises an array antenna, and the array antenna calculates the azimuth and the distance of the earphone relative to the intelligent glasses based on the reaching angle of the Bluetooth signals.
  11. 11. The interaction method of the intelligent glasses and the earphone according to claim 8, wherein the interaction system is provided with an instruction mapping relation, and the instruction mapping relation sets the corresponding relation among the position change information, the user operation type and the control instruction.
  12. 12. The method of claim 8, wherein the headphones comprise a left headphone and a right headphone; the left glasses leg and the right glasses leg of the intelligent glasses are respectively provided with a wireless communication module, the wireless communication module in the left glasses leg is in wireless connection with the left earphone, and the wireless communication module in the right glasses leg is in wireless connection with the right earphone; the left earphone and the right earphone are both operated in the audio playing mode or the control mode, or one of the left earphone and the right earphone is operated in the audio playing mode, and the other one is operated in the control mode; The wireless communication module in the left glasses leg is arranged at the position, close to the lens, of the Zuo Jing legs, and the wireless communication module in the right glasses leg is arranged at the position, close to the lens, of the right glasses leg.
  13. 13. The interaction method of the intelligent glasses and the earphone according to claim 8, wherein the first sensing area is provided with a patch type capacitive sensor, the second sensing area is provided with a rigid or flexible capacitive sensor surrounding the holding part, and the third sensing area is provided with a capacitive sensor and/or a microphone to identify touch operation and/or knocking operation of a user.
  14. 14. The earphone is used for being connected with the intelligent glasses in a wireless mode to construct an interaction system, and is characterized by comprising a first induction area, a second induction area and a third induction area, wherein the first induction area is arranged in an ear attaching area of the earphone and used for detecting the wearing state of the earphone; The first sensing area detects that the earphone is in a wearing state, and the second sensing area detects that the holding part is in a non-holding state, the earphone is configured to work in an audio playing mode; the first sensing area detects that the earphone is in an unworn state, the second sensing area detects that the holding part is in a holding state, the earphone is configured to work in a control mode, and in the control mode, a control instruction for controlling the intelligent glasses to work is generated based on position change information of the earphone and/or the user operation type detected by the third sensing area.
  15. 15. The headset of claim 14, wherein the first sensing region detects that the headset is in an unworn state and the second sensing region detects that the grip is in a grip state: If the earphone is located in the set area, the earphone is configured to enter the control mode; if the earphone is positioned outside the setting area, the interaction system does not generate the control instruction for controlling the intelligent glasses to work or the intelligent glasses do not execute the control instruction in the setting time; The setting area is defined based on the position of the intelligent glasses, the setting area is a spherical area positioned in front of and below the glasses legs of the intelligent glasses, the radius of the spherical area is 15-30cm, and the included angle between the connecting line between the glasses legs and the spherical center of the spherical area and the horizontal plane is 30-70 degrees.
  16. 16. The headset of claim 14, wherein the headset is a bluetooth headset, the headset and the smart glasses communicate using a bluetooth 5.1 and above communication protocol, the headset comprising a self-contained positioning ranging module; at a first time node, the self-positioning ranging module detects the position and the distance of the earphone relative to the intelligent glasses; At a second time node, the self-positioning ranging module detects the position and the distance of the earphone relative to the intelligent glasses; The position change information of the earphone is obtained by calculation based on the azimuth and the distance detected by the first time node and the second time node, and characterizes the operation type of the earphone performed by a user from the first time node to the second time node; The self-contained positioning ranging module comprises an array antenna, and the array antenna calculates the azimuth and the distance of the earphone relative to the intelligent glasses based on the reaching angle of the Bluetooth signals.
  17. 17. The earphone of claim 14, wherein the earphone comprises a left earphone and a right earphone; the left glasses leg and the right glasses leg of the intelligent glasses are respectively provided with a wireless communication module, the wireless communication module in the left glasses leg is in wireless connection with the left earphone, and the wireless communication module in the right glasses leg is in wireless connection with the right earphone; the left earphone and the right earphone are both operated in the audio playing mode or the control mode, or one of the left earphone and the right earphone is operated in the audio playing mode, and the other one is operated in the control mode; the wireless communication module in the left glasses leg is arranged at the position, close to the lens, of the Zuo Jing legs; The wireless communication module in the right glasses leg is arranged at the position, close to the lens, of the right glasses leg.
  18. 18. The intelligent glasses are used for being connected with the earphone in a wireless mode to construct an interaction system, and are characterized by comprising a first induction area, a second induction area and a third induction area, wherein the first induction area is arranged in an ear attaching area of the earphone and used for detecting the wearing state of the earphone; The intelligent glasses are configured to work in an audio playing mode when the first sensing area detects that the earphone is in a wearing state and the second sensing area detects that the holding part is in a non-holding state; The intelligent glasses are configured to work in a control mode when the first sensing area detects that the earphone is in an unworn state and the second sensing area detects that the holding part is in a holding state, and in the control mode, control instructions for controlling the intelligent glasses to work are generated based on position change information of the earphone and/or the user operation type detected by the third sensing area.
  19. 19. The smart glasses according to claim 18, wherein when the first sensing region detects that the headset is in an unworn state and the second sensing region detects that the grip is in a grip state: If the earphone is located in the set area, the intelligent glasses are configured to enter the control mode; If the earphone is positioned outside the setting area, stopping generating the control instruction or the intelligent glasses do not execute the control instruction in the setting time; The setting area is defined based on the position of the intelligent glasses, the setting area is a spherical area positioned in front of and below the glasses legs of the intelligent glasses, the radius of the spherical area is 15-30cm, and the included angle between the connecting line between the glasses legs and the spherical center of the spherical area and the horizontal plane is 30-70 degrees.
  20. 20. The smart glasses according to claim 18, wherein the headphones comprise a left headphone and a right headphone; the left glasses leg and the right glasses leg of the intelligent glasses are respectively provided with a wireless communication module, the wireless communication module in the left glasses leg is in wireless connection with the left earphone, and the wireless communication module in the right glasses leg is in wireless connection with the right earphone; the left earphone and the right earphone are both operated in the audio playing mode or the control mode, or one of the left earphone and the right earphone is operated in the audio playing mode, and the other one is operated in the control mode; the wireless communication module in the left glasses leg is arranged at the position, close to the lens, of the Zuo Jing legs; The wireless communication module in the right glasses leg is arranged at the position, close to the lens, of the right glasses leg.

Description

Interactive system constructed by intelligent glasses and earphone, interactive method thereof, earphone and intelligent glasses Technical Field The invention relates to the field of intelligent wearing equipment, in particular to an interaction system constructed by intelligent glasses and headphones, an interaction method of the interaction system, the headphones and the intelligent glasses. Background Along with the rapid development of intelligent wearable equipment, intelligent glasses are used as emerging terminals integrating display, calculation and interaction, and are widely applied to the fields of entertainment, office, medical treatment and the like. The user puts forward higher requirements on the operation convenience of the intelligent glasses, however, the control mode of the existing intelligent glasses still has obvious limitations, and the intelligent glasses mainly comprise four main stream control technologies of touch control, voice, gesture and handle control: Touch control, namely setting a touch area on the glasses legs or the glasses frames, wherein the touch area is limited by the volume of equipment, the problems of small touch area and low precision exist, and the operation is difficult when the gloves or fingers are inconvenient to wear. And voice control, namely, microphones are required to be carried on the glasses, but the voice input process is easy to be interfered by environmental noise, the recognition rate is reduced in a noisy scene, and the privacy leakage risk exists. Gesture control, namely, a user needs to memorize specific actions, the learning cost is high, and the recognition rate is low. The handle/remote controller is controlled by the glasses, a special operating handle is needed to be equipped for the glasses, the hardware configuration is complex, and the cost is high. On the other hand, the function of the earphone as a portable audio device with high popularity is still mainly limited to audio playing, talking and simple media control, and the perceivable potential of the wearing state of the earphone is not fully exerted. At present, most of the earphone and the intelligent glasses work independently, or only basic audio transmission and noise reduction are realized. When the user uses the intelligent glasses, if the user needs to switch modes or start applications, the user still needs to operate the glasses body or use a third-party controller (such as a special handle, a Bluetooth remote controller and the like), the process is complex, and the experience is influenced. Therefore, a novel man-machine interaction scheme is necessary to be established, and the operation convenience and the whole interaction experience of a user are improved. Disclosure of Invention Based on the above-mentioned current situation, the main purpose of the invention is to provide an interactive system, an interactive method, an earphone and intelligent glasses, wherein the interactive system is constructed by intelligent glasses and earphones, the interactive method is convenient to operate and good in user experience. In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: The invention provides an interaction system constructed by intelligent glasses and headphones, wherein the intelligent glasses are in wireless connection with the headphones, the headphones comprise a first induction area, a second induction area and a third induction area, the first induction area is arranged in an ear-sticking area of the headphones and is used for detecting the wearing state of the headphones; The first sensing area detects that the earphone is in a wearing state, and the second sensing area detects that the holding part is in a non-holding state, the interactive system enters an audio playing mode; in the audio playing mode, the intelligent glasses transmit audio signals to the earphone and play the audio signals through the earphone; the first sensing area detects that the earphone is in an unworn state, the second sensing area detects that the holding part is in a holding state, the interactive system enters a control mode, and in the control mode, a control instruction for controlling the intelligent glasses to work is generated based on position change information of the earphone and/or the user operation type detected by the third sensing area. Preferably, when the first sensing area detects that the earphone is in an unworn state and the second sensing area detects that the holding part is in a holding state: if the earphone is positioned in the set area, the interactive system enters the control mode; if the earphone is positioned outside the setting area, the interaction system does not generate the control instruction for controlling the intelligent glasses to work or the intelligent glasses do not execute the control instruction in the setting time; The setting area is defined based on the position of the intelligent glasses, th