CN212696097U - Ear-wearing remote controller and pan-tilt shooting system - Google Patents

Abstract

The utility model discloses an ear-wearing remote controller and cloud platform shooting system, this ear-wearing remote controller sets up power supply portion and data acquisition portion including wearing the ear part on should wearing the ear part, set up the control unit in this data acquisition portion, this the control unit includes second wireless communication module, attitude data sensor and control data sensor, this second wireless communication module and cloud platform shooting equipment establish wireless communication and are connected with the attitude data of this attitude data sensor of real-time conveying and the control data of this control data sensor. Adopt the utility model discloses an ear-wearing remote controller and cloud platform shooting system can realize the cloud platform tracking shooting at first visual angle based on real-time sensor data, need not manual operation optimization remote control process simultaneously, convenient to use and experience novelty.

Description

Ear-wearing remote controller and pan-tilt shooting system

Technical Field

The utility model relates to a cloud platform is trailed and is shot technical field, especially relates to an ear-wearing remote controller and have cloud platform shooting system of cloud platform dynamic tracking shooting function.

Background

The existing pan-tilt camera is also called pan-tilt shooting equipment, a lens module is arranged on a pan-tilt, the pan-tilt equipment controls the lens module to horizontally rotate or pitch so as to achieve the purposes of adjusting the shooting direction and mechanically increasing stability, and meanwhile, the lens module is combined with the self zooming function to finish image or image shooting.

Due to the influence of culture and science, tracking photography is applied to various fields such as motion tracking photography, movie photography, jewelry photography, wedding photography, and landscape photography. In the existing shooting scene, sometimes a photo needs to be shot, sometimes a video needs to be shot, and the switching between the modes and the camera control need to be completed by a photographer manually operating the pan-tilt camera. Especially, in a tracking shooting scene, the shot content is changed continuously, and the manual control of the pan-tilt camera to complete video shooting or photo shooting brings inconvenience in use.

In addition, when the shooting direction of the existing pan-tilt shooting equipment is changed, the shooting is generally completed through a near-remote mode such as a key, a connected mobile phone or a superior controller. A photographer consciously controls the shooting direction by operating the pan-tilt shooting equipment by hands, and frequent and continuous manual operation not only influences the use experience, but also disperses the attention of the photographer to influence the continuity and quality of the shooting content.

Therefore, technical problems of inconvenient operation and limited content production of the control mode of the pan-tilt shooting equipment in the prior art need to be solved urgently.

Disclosure of Invention

Based on the above, in order to solve the above technical problems in the conventional technology, a new cradle head shooting device control mode is provided, the head movement is tracked by an ear-worn remote controller, tracking data is wirelessly sent to the cradle head shooting device, and first visual angle cradle head tracking shooting of shooting direction, angle control and the like is realized; the ear-wearing type remote controller and the holder shooting system are convenient to use and novel in experience, and do not need manual operation.

In a first aspect, the utility model relates to an ear-wearing remote controller, including wearing the ear part, should wear to set up power supply portion and data acquisition portion on the ear part, set up the control unit in this data acquisition portion, this the control unit includes second wireless communication module, gesture data sensor and control data sensor, and this second wireless communication module and cloud platform shooting equipment establish wireless communication and are connected with the gesture data of real-time conveying this gesture data sensor and this control data sensor's control data.

Wherein, be equipped with the power in this power supply portion, this power is connected this the control unit.

In specific implementation, the attitude data sensor is a gyroscope used for collecting head movement data, and the control data sensor is an acceleration sensor for detecting a vibration signal.

In a first embodiment of the ear-worn remote controller, the ear-worn member includes a hook body and a long carrier body connected to the hook body and capable of being attached to the back of the ear, the power supply unit and the data acquisition unit are installed in the long carrier body, a switch connected to the control unit is disposed on the long carrier body, and a charging interface connected to the power supply is disposed on the long carrier body.

In a second embodiment of the ear-worn remote controller, the ear-worn component includes an ear support attached to the back of the ear and a square supporting body arranged in front of the ear when worn on one side of the ear support, the power supply portion and the data acquisition portion are installed in the square supporting body, a switch connected with the control unit is arranged on the square supporting body, and a charging interface connected with the power supply is arranged on the square supporting body.

In a third embodiment of the ear-worn remote controller, the ear-worn component includes an ear plug and an external carrier connected to the ear plug, the external carrier is internally provided with the power supply unit and the data acquisition unit, the external carrier is provided with a switch connected to the control unit, and the external carrier is provided with a charging interface connected to the power supply.

In a fourth embodiment of the ear-worn remote controller, the ear-worn component includes an ear clip that can be clipped to an auricle, a first carrier and a second carrier are respectively disposed on two sides of the ear clip, the data acquisition unit is mounted in the first carrier, the power supply unit is mounted in the second carrier, the first carrier is provided with a switch connected to the control unit, and the second carrier is provided with a charging interface connected to the power supply.

In a second aspect, the utility model discloses still relate to a cloud platform shooting system, including cloud platform shooting equipment and ear-worn remote controller, this cloud platform shooting equipment includes cloud platform camera lens module and shoots the camera, should shoot the camera and include first wireless communication module. This ear-wearing remote controller is including wearing the ear part, should wear to set up power supply portion and data acquisition portion on the ear part, set up the control unit in this data acquisition portion, this control unit includes second wireless communication module, gesture data sensor and control data sensor, thereby this first wireless communication module establishes wireless communication with this second wireless communication module and is connected the tracking synchronization of accomplishing first visual angle shooting with this cloud platform shooting equipment's gesture data and this control data sensor's control data transfer to this cloud platform shooting equipment in real time.

Preferably, a power supply is arranged in the power supply part, and the power supply is connected with the control unit.

In specific implementation, the attitude data sensor is a gyroscope used for collecting head movement data, and the control data sensor is an acceleration sensor for detecting a vibration signal.

The utility model discloses an ear-wearing remote controller and cloud platform shooting system provides new cloud platform shooting equipment and controls the mode, controls cloud platform shooting equipment direction and angle through people's head motion. The novel ear-wearing remote controller is used for collecting head motion data and control data and wirelessly transmitting the head motion data and the control data to the upper computer, tracking of head motion and control commands through the ear-wearing remote controller and wirelessly transmitting various data to the cloud deck shooting equipment, and cloud deck tracking shooting at a first visual angle of direction control, angle control and the like is achieved. The utility model discloses an ear-wearing remote controller and cloud platform shooting system, the mode that the remote controller was worn through the ear is fixed at people's head, and it is swift convenient to dress.

The utility model discloses an ear-wearing remote controller and cloud platform shooting system need not manual operation, convenient to use and experience novelty when tracking the shooting.

The utility model discloses an ear-wearing remote controller and cloud platform shooting system, the head motion of listening the people through the gyroscope is shot in order to realize the tracking of synchronous head motion, listens vibration signal through acceleration sensor, user alright this moment with the mode of knocking the remote controller through the finger to cloud platform and camera send control command.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Wherein:

fig. 1 is a system schematic diagram of the pan-tilt shooting system of the present invention;

fig. 2 is a schematic diagram of a system module of the pan-tilt shooting system of the present invention;

fig. 3 is a schematic view of an internal structure of a first embodiment of the ear-worn remote controller of the present invention;

fig. 4 is a schematic external structural view of a first embodiment of the ear-worn remote controller of the present invention;

fig. 5 is a schematic usage status diagram of a second embodiment of the ear-worn remote controller of the present invention;

fig. 6 is an external structural view of a second embodiment of the ear-worn remote controller of the present invention;

fig. 7 is a schematic internal structure diagram of a second embodiment of the ear-worn remote controller of the present invention;

fig. 8 is a schematic usage status diagram of a third embodiment of the ear-worn remote controller of the present invention;

fig. 9 is an external structural view of a third embodiment of the ear-worn remote controller of the present invention;

fig. 10 is a schematic structural view of a third embodiment of the ear-worn remote controller of the present invention;

fig. 11 is a schematic usage status diagram of a fourth embodiment of the ear-worn remote controller of the present invention;

fig. 12 is an external configuration diagram of a fourth embodiment of the ear-worn remote controller according to the present invention;

fig. 13 is a schematic internal structure diagram of a fourth embodiment of the ear-worn remote controller according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 and fig. 2, the present invention is a system frame diagram and a system module diagram of the pan/tilt head shooting system.

The utility model discloses a cloud platform shooting system, including cloud platform shooting equipment 10 and ear-wearing remote controller, for example ear-wearing remote controller 20 in embodiment one, the remote controller in other embodiments also has the same function. The pan/tilt/zoom apparatus 10 includes a pan/tilt lens module 12 and a photographing camera 14. The pan/tilt/zoom apparatus 10 is an apparatus in which a camera, a pan/tilt, and a lens module are combined, and the rotational direction and angle of the lens module can be controlled by the pan/tilt.

The utility model discloses an ear-wearing remote controller and cloud platform shooting system provides new cloud platform shooting equipment and controls the mode, controls cloud platform shooting equipment direction and angle through people's head motion. Use the utility model discloses an ear-mounted remote controller and cloud platform shooting system, the shooting person can be completely will trail shooting work and hand over by cloud platform shooting equipment and accomplish, and the shooting person does not need dispersed attention on control cloud platform shooting equipment, can be under the interference that does not have manual operation at the in-process of shooting, controls the shooting angle of cloud platform shooting equipment according to the head motion data automation of remote controller passback, has liberated both hands and has reduced the work load when shooing.

In video shooting, the pan-tilt shooting equipment is worn on the body of a person, shooting can be completed by simulating a first visual angle of the person, and a shooting mode completed by the first visual angle becomes a popular shooting mode. Under the mode is shot at first visual angle, the shooter only need install cloud platform shooting equipment and need not whole journey to concentrate on the shooting with attention, can also carry out other action or activity. For example, after the pan lover wears the pan head shooting equipment on one's body, main attention is paid to the motion of the pan head rather than the camera, and at this moment, the photographer feels the shooting angle of the pan head shooting equipment through the ear-worn body remote controller, and this ear-worn remote controller automated inspection people's head motion, and the shooting proofreading of automatic control camera, need not artificial intervention in this process to can make the first visual angle video of shooting more be close to the picture that the photographer's eyes saw.

The utility model discloses a real-time sensor data that ear-wearing remote controller gathered can be used to control the direction of rotation and the angle of cloud platform, and this ear-wearing remote controller's application field can be extended to panoramic camera's application. The head rotation information of the person is recorded through the ear-wearing type remote controller, and the first visual angle of the panoramic camera is extracted through the head rotation information of the person by the pan-tilt shooting equipment.

As shown in fig. 1 and fig. 2, the present invention provides a pan-tilt shooting system. The pan-tilt shooting system comprises pan-tilt shooting equipment 10 and ear-mounted remote controllers 20-50. The cradle head shooting equipment 10 is in wireless communication connection with the ear-wearing remote controllers 20-50.

The pan/tilt/zoom apparatus 10 includes a pan/tilt lens module 12 and a photographing camera 14, and the photographing camera 14 includes a first wireless communication module 15.

The specific structure of various embodiments of the ear-worn remote controller will be described in detail below. The circuit configurations of the embodiments are substantially the same, and the circuit configuration will be described based on the first embodiment shown in fig. 2, except that the positions and structures of the power supply portion and the data acquisition portion are changed.

First embodiment

Please refer to fig. 3 to fig. 4 in combination with fig. 2, which illustrate a first embodiment of the ear-worn remote controller.

The ear-worn remote controller 20 of the first embodiment includes an ear-worn member 22 to be worn on the ear 2 of the human body. The ear-wearing member 22 is provided with a power supply unit 221 and a data acquisition unit 222. The data acquisition unit 222 is provided with a control unit 100 therein, in this embodiment, the control unit 100 is a control circuit board.

The control unit 100 includes a second wireless communication module 110, an attitude data sensor 120, and a control data sensor 130. The first wireless communication module 15 establishes a wireless communication connection with the second wireless communication module 110. Based on the wireless communication connection, the ear-worn remote controller 20 transmits the attitude data of the attitude data sensor 120 and the control data of the control data sensor 130 to the pan/tilt head shooting device 10 in real time. The pan-tilt-zoom-photographing apparatus 10 controls the pan-tilt-zoom-lens module 12 to perform head motion tracking and synchronization of the first-view-angle photographing according to the received data.

The power supply unit is provided with a power source 140, and the power source 140 is connected to the control unit 100. In this embodiment, the power source 140 is a rechargeable lithium battery. The built-in rechargeable lithium battery can provide the control unit 100 with stable endurance for a long time.

As shown in fig. 3 and 4, the ear-wearing unit of the ear-wearing remote controller 20 includes a hook body 21 and an elongated carrier 22 connected to the hook body 21 and capable of being attached to the back of the ear. The power supply unit and the data acquisition unit are mounted in the elongated carrier 22. A switch 224 connected to the control unit 222 is disposed on the elongated carrier 22, and a charging interface 223 connected to the power source 221 is disposed on the elongated carrier 22.

In this embodiment, the ear-worn remote controller 20 establishes a wireless data connection with the camera 14 through a wireless transmission mode such as bluetooth or wifi, and sends the detected real-time direction and angle changes to the camera 14. It will be appreciated that the connection between the ear-worn remote control 20 and the camera 14 may be established by other wireless communication means.

In one embodiment, the attitude data sensor 225 is a gyroscope for acquiring head motion data, and the control data sensor 227 is an acceleration sensor for detecting a vibration signal.

Second embodiment

Please refer to fig. 5 to fig. 7 in combination with fig. 2, which are a structural diagram of a second embodiment of the ear-worn remote controller.

The ear-worn remote controller 30 of the second embodiment includes an ear-worn member 32 to be worn on the ear 2 of the human body. The ear-wearing member 32 is provided with a power supply unit 322 and a data acquisition unit 321. Similarly, the data acquisition unit 321 is provided with a control unit 100 therein, and in this embodiment, the control unit 100 is a control circuit board.

Also, as shown in fig. 2, the control unit 100 includes a second wireless communication module 110, an attitude data sensor 120, and a control data sensor 130. The first wireless communication module 15 establishes a wireless communication connection with the second wireless communication module 110. Based on the wireless communication connection, the ear-worn remote controller 20 transmits the attitude data of the attitude data sensor 120 and the control data of the control data sensor 130 to the pan/tilt head shooting device 10 in real time. The pan-tilt-zoom-photographing apparatus 10 controls the pan-tilt-zoom-lens module 12 to perform head motion tracking and synchronization of the first-view-angle photographing according to the received data.

The power supply unit is provided with a power source 140, and the power source 140 is connected to the control unit 100. In this embodiment, the power source 140 is a rechargeable lithium battery. The built-in rechargeable lithium battery can provide the control unit 100 with stable endurance for a long time.

Specifically, the ear piece 30 includes an ear support 31 attached to the back of the ear and a square carrier 32 disposed on one side of the ear support 31 and located in front of the ear when worn. The power supply unit 322 and the data acquisition unit 321 are mounted in the square carrier 32. The square carrier 32 is provided with a switch 324 connected to the control unit 100, and the square carrier 32 is provided with a charging interface 323 connected to the power source 140.

The built-in battery can provide the controller with long-time stable cruising ability.

Third embodiment

Please refer to fig. 8 to fig. 10 in combination with fig. 2, which illustrate a third embodiment of the ear-worn remote controller.

The ear-worn remote controller 40 of the third embodiment includes an ear wearing member to be inserted into the ear hole of the human ear 2. The ear-wearing member is provided with a power supply unit 422 and a data acquisition unit 421. Similarly, the data acquisition unit 421 has a control unit 100 therein, and in this embodiment, the control unit 100 is a control circuit board.

Also, as shown in fig. 2, the control unit 100 includes a second wireless communication module 110, an attitude data sensor 120, and a control data sensor 130. The first wireless communication module 15 establishes a wireless communication connection with the second wireless communication module 110. Based on the wireless communication connection, the ear-worn remote controller 20 transmits the attitude data of the attitude data sensor 120 and the control data of the control data sensor 130 to the pan/tilt head shooting device 10 in real time. The pan-tilt-zoom-photographing apparatus 10 controls the pan-tilt-zoom-lens module 12 to perform head motion tracking and synchronization of the first-view-angle photographing according to the received data.

The power supply unit is provided with a power source 140, and the power source 140 is connected to the control unit 100. In this embodiment, the power source 140 is a rechargeable lithium battery. The built-in rechargeable lithium battery can provide the control unit 100 with stable endurance for a long time.

As shown in fig. 9 and 10, in the third embodiment of the ear-wearing remote controller, the ear-wearing part includes an ear-insertion plug 41 and an external carrier 42 connected to the ear-insertion plug 41. The power supply portion 422 and the data acquisition portion 421 are mounted in the external carrier 42. The external carrier 42 is provided with a switch 424 connected to the control unit 100, and the external carrier 42 is provided with a charging interface 423 connected to the power source 140.

This embodiment allows the control unit 100 to be shaped like an earplug, and allows for faster and easier wearing and control by integrating all the components within the external carrier 42.

Fourth embodiment

Please refer to fig. 11 to fig. 13 in combination with fig. 2, which illustrate a fourth exemplary embodiment of the ear-worn remote controller.

The ear-worn remote controller 50 of the fourth embodiment includes an ear-worn member. The ear piece is provided with a power supply unit 531 and a data acquisition unit 511. Similarly, the data acquisition unit 511 is provided with a control unit 100 therein, and in this embodiment, the control unit 100 is a control circuit board.

Also, as shown in fig. 2, the control unit 100 includes a second wireless communication module 110, an attitude data sensor 120, and a control data sensor 130. The first wireless communication module 15 establishes a wireless communication connection with the second wireless communication module 110. Based on the wireless communication connection, the ear-worn remote controller 20 transmits the attitude data of the attitude data sensor 120 and the control data of the control data sensor 130 to the pan/tilt head shooting device 10 in real time. The pan-tilt-zoom-photographing apparatus 10 controls the pan-tilt-zoom-lens module 12 to perform head motion tracking and synchronization of the first-view-angle photographing according to the received data.

The power supply unit is provided with a power source 140, and the power source 140 is connected to the control unit 100. In this embodiment, the power source 140 is a rechargeable lithium battery. The built-in rechargeable lithium battery can provide the control unit 100 with stable endurance for a long time.

Referring to fig. 12 and 13 together, in the fourth embodiment of the ear-worn remote controller, the ear-worn device includes an ear clip 52 that can be clipped on the auricle of the ear 2, and a first carrier 51 and a second carrier 53 are respectively disposed on two sides of the ear clip 52. The data collecting part 511 is installed in the first carrier 51, the power supply part 531 is installed in the second carrier 53, the switch 513 connected to the control unit 100 is disposed on the first carrier 51, and the charging interface 533 connected to the power supply 140 is disposed on the second carrier 53.

In the fourth embodiment, the structural shape of the control unit of the remote controller is made into a clip type, when in use, the clip type ear-wearing remote controller is lightly clipped at the auricle, and is fixed with the ear by the minimum volume, and meanwhile, the ear is not influenced to receive external sound feedback.

The utility model discloses the ear-wearing remote controller of first embodiment to fourth embodiment, the control unit in this data acquisition portion is light small and exquisite, can be fast make things convenient for stably wear by the ear. When the control unit is worn, the second wireless communication module of the control unit establishes wireless connection with the shooting camera 14, and the shooting camera 14 receives head motion tracking data from the ear-worn remote controller and is used for controlling the shooting direction and the shooting angle. In the case of motion-during-shooting, the control unit automatically detects the head motion of a person through the sensor, the shooting camera 14 automatically controls the shooting direction and the shooting angle according to the received real-time data, the automatic tracking shooting process does not need human intervention in the shooting equipment, and the first visual angle video shot by the shooting camera 14 can be closer to the picture change seen by the eyes of the photographer.

After the ear-worn remote controllers of the first to fourth embodiments are fitted to the ears, the electronic triaxial gyroscope with a built-in attitude data sensor detects the motion attitude data of the head motion of the person, and the photographing camera 14 receives the attitude data and converts the attitude data into real-time direction and angle values of the head rotation of the person through arithmetic processing. Therefore, the shooting equipment can adjust the image visual angle according to the angle information transmitted back by the remote controller.

In addition, the ear-worn remote controllers of the first to fourth embodiments integrate an acceleration sensor for acquiring control data, the acceleration sensor is capable of detecting the vibration of the remote controller itself, when the photographer taps the remote controller with a hand, the remote controller can detect the tapping vibration and send a tapping command to the camera 14 by wireless transmission, the camera 14 converts the information of the tapping command, such as the number of consecutive taps, into control data, and makes a corresponding shooting response according to the control data.

The utility model discloses an ear-wearing remote controller and cloud platform shooting system provides new cloud platform shooting equipment and controls the mode, controls cloud platform shooting equipment direction and angle through people's head motion. The novel ear-wearing remote controller is used for collecting head motion data and control data and wirelessly transmitting the head motion data and the control data to the upper computer, tracking of head motion and control commands through the ear-wearing remote controller and wirelessly transmitting various data to the cloud deck shooting equipment, and cloud deck tracking shooting at a first visual angle of direction control, angle control and the like is achieved. The utility model discloses an ear-wearing remote controller and cloud platform shooting system, the mode that the remote controller was worn through the ear is fixed at people's head, and it is swift convenient to dress. The utility model discloses an ear-wearing remote controller and cloud platform shooting system need not manual operation, convenient to use and experience novelty when tracking the shooting. The utility model discloses an ear-wearing remote controller and cloud platform shooting system, the head motion of listening the people through the gyroscope shoots in order to realize the tracking of synchronous head motion, listens vibration signal through acceleration sensor and controls cloud platform shooting equipment in order to acquire control data.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides an ear-wearing remote controller, its characterized in that, is including wearing the ear part, wear to set up power supply portion and data acquisition portion on the ear part, set up the control unit in the data acquisition portion, the control unit includes second wireless communication module, gesture data sensor and control data sensor, second wireless communication module and cloud platform shooting equipment establish wireless communication and are connected with real-time transmission gesture data of gesture data sensor and control data sensor's control data.

2. The ear-worn remote controller according to claim 1, wherein a power supply is provided in the power supply unit, and the power supply is connected to the control unit.

3. The ear-worn remote controller according to claim 1, wherein the attitude data sensor is a gyroscope for acquiring head movement data, and the control data sensor is an acceleration sensor for detecting a vibration signal.

4. The ear-worn remote controller according to claim 2, wherein the ear-worn device comprises a hook body and an elongated carrier body connected to the hook body and attachable to the back of the ear, the elongated carrier body is internally provided with the power supply unit and the data acquisition unit, the elongated carrier body is provided with a switch connected to the control unit, and the elongated carrier body is provided with a charging interface connected to the power supply.

5. The ear-worn remote controller according to claim 2, wherein the ear-worn device comprises an ear holder attached to the back of the ear and a square carrier disposed at the front of the ear when worn on one side of the ear holder, the power supply unit and the data acquisition unit are mounted in the square carrier, the square carrier is provided with a switch connected to the control unit, and the square carrier is provided with a charging interface connected to the power supply.

6. The ear-worn remote controller according to claim 2, wherein the ear-worn component comprises an ear insertion plug and an external carrier connected to the ear insertion plug, the power supply unit and the data acquisition unit are mounted in the external carrier, a switch connected to the control unit is disposed on the external carrier, and a charging interface connected to the power supply is disposed on the external carrier.

7. The ear-worn remote controller according to claim 2, wherein the ear-worn device comprises an ear clip that can be clipped to an auricle, a first carrier and a second carrier are respectively disposed on two sides of the ear clip, the data acquisition unit is mounted in the first carrier, the power supply unit is mounted in the second carrier, the first carrier is provided with a switch connected to the control unit, and the second carrier is provided with a charging interface connected to the power supply.

8. A pan-tilt shooting system is characterized by comprising pan-tilt shooting equipment and an ear-wearing type remote controller, the pan-tilt shooting equipment comprises a pan-tilt lens module and a shooting camera, wherein the shooting camera comprises a first wireless communication module, the ear-wearing remote controller comprises an ear-wearing part, a power supply part and a data acquisition part are arranged on the ear-wearing part, a control unit is arranged in the data acquisition part and comprises a second wireless communication module, an attitude data sensor and a control data sensor, the first wireless communication module and the second wireless communication module are in wireless communication connection so as to transmit the attitude data of the attitude data sensor and the control data of the control data sensor to the pan-tilt shooting equipment in real time, and therefore the pan-tilt lens module is controlled to complete the tracking synchronization of the first visual angle shooting.

9. The pan-tilt camera system according to claim 8, wherein a power supply is provided in the power supply unit, and the power supply is connected to the control unit.

10. The pan-tilt camera system of claim 8, wherein the attitude data sensor is a gyroscope for acquiring head movement data, and the control data sensor is an acceleration sensor for detecting a vibration signal.

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