CN212034115U - Intelligent strengthening device - Google Patents

Abstract

The utility model provides a device is reinforceed to intelligence, including cooperation interface and treater, the device is reinforceed to intelligence passes through cooperation interface is connected with an intelligent carrier electricity, in order to control the operation of intelligent carrier perhaps the operation that the device was reinforceed to intelligence receives intelligent carrier control, and do intelligent carrier provides intelligence and reinforces the function. The intelligent reinforcing device can be applied to various different types of intelligent carriers, and has the advantages of low cost and wide application.

Description

Intelligent strengthening device

Technical Field

The utility model relates to a device is reinforceed to intelligence.

Background

At present, intelligent wearable equipment supports various friendly interaction modes due to integration of various technologies such as multimedia, sensors and wireless communication, integrates various information, provides required intelligent interconnection services in time and is widely concerned.

Taking a safety helmet as an example, all outdoor activities, whether leisure activities or professional activities, are currently using the safety helmet. However, the wearers or users of these safety helmets, such as motorcyclists, cyclists, skiers, rock climbers, racers, riders, firemen, police, construction workers, heavy machinery operators, chemical plant workers (e.g., petroleum refinery workers), power plant workers, steel plant workers, military fighters, security personnel, etc., are all aware of the limitations of safety helmets when they wear them, i.e., it becomes impractical or impossible to safely operate a smartphone if it is needed again when the user is required to wear the safety helmet in order to perform his duties.

SUMMERY OF THE UTILITY MODEL

Therefore, it is desirable to provide an intelligent enhancing apparatus to solve the above problems.

The utility model provides a device is reinforceed to intelligence, including cooperation interface and treater, the device is reinforceed to intelligence passes through cooperation interface is connected with an intelligent carrier electricity, in order to control the operation of intelligent carrier perhaps the operation that the device was reinforceed to intelligence receives intelligent carrier control, and do intelligent carrier provides intelligence and reinforces the function.

Preferably, the intelligent augmentation device further comprises at least one sensor for implementing at least one of an inertial sensing function, a dynamic sensing function, a health data acquisition function, and an environmental perception function.

Preferably, the intelligent strengthening device further comprises a lens module, wherein the lens module comprises at least one of an infrared camera, a night vision camera, a web camera, a digital camera, a high-definition camera, a 4K camera and an 8K high-definition camera.

Preferably, the intelligent augmentation device is further provided with a communication module for providing a communication path for the intelligent vehicle.

Preferably, the intelligent enhancement device further comprises a light emitting diode module for providing illumination, prompt and alarm functions.

Preferably, the intelligent reinforcing device further comprises a display module for providing information display and/or prompt functions.

Preferably, the intelligent reinforcing device further comprises a sound module for providing audio playing, collecting and alarming functions.

Preferably, the intelligent augmentation apparatus further comprises an interface module to provide charging and/or data access functions.

Preferably, the intelligent reinforcing device is powered or continued by a power module of the intelligent vehicle.

Preferably, the power supply module includes an organic polymer material or an organometallic complex material.

Preferably, the intelligent augmentation device provides storage space by the intelligent vehicle.

The intelligent reinforcing device can be applied to various intelligent carriers of different types, has lower cost and wide application range, is more convenient and reasonable for consumers, and has larger application market.

Drawings

Fig. 1 is a functional block diagram of an intelligent augmentation system according to a preferred embodiment of the present invention.

Fig. 2 is a functional block diagram of an intelligent vehicle in the intelligent augmentation system shown in fig. 1.

FIG. 3 is a functional block diagram of an intelligent enhancement apparatus of the intelligent enhancement system shown in FIG. 1.

FIG. 4 is a functional block diagram of the intelligent augmentation system of FIG. 1 further comprising a control device.

FIG. 5 is a schematic diagram of the communication connection between the intelligent augmentation system of FIG. 1 and other intelligent augmentation systems and external devices.

Fig. 6 is a schematic diagram of data sharing between a plurality of the intelligent vehicles shown in fig. 2 and an intelligent augmentation system.

FIG. 7 is a schematic diagram of a plurality of intelligent augmentation systems of FIG. 1 for data transmission and exchange with mobile phones and other external devices.

Description of the main elements

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

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 work belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "electrically connected" to another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "electrically connected" to another element, it can be connected by contact, e.g., by wires, or by contactless connection, e.g., by contactless coupling.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Some embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1, a preferred embodiment of the present invention provides an intelligent augmentation system 600. The intelligent augmentation system 600 includes an intelligent vehicle 100 and an intelligent augmentation apparatus 300.

In one embodiment, the smart vehicle 100 is a smart wearable device, which can be worn on the head, trunk, limbs, or other body parts of a user, and may be, but not limited to, a helmet, a jacket, a vest, a wrist strap, a forearm strap, a neck strap, a necklace, a bracelet, a shoulder strap, a belt, a thigh strap, a shoe, a boot, a knee pad, a legging, a glove, etc. In other embodiments, the smart vehicle 100 may also be a smart dock. The smart mount may be a statically fixable mount or other carrier. For example, the smart vehicle 100 may be a mobile vehicle, including, but not limited to, a wheeled or tracked base, etc. That is, the intelligent vehicle 100 may be fixed on the body of the user and driven by the user to move, or may be mounted on a moving vehicle and driven by the vehicle to move.

The smart vehicle 100 may be adapted for use by, but is not limited to, motorcyclists, cyclists, skiers, parachutists, climbers, surfers, racers, riders, firemen, policemen, construction workers, heavy machinery operators, chemical plant workers (e.g., petroleum refinery workers), power plant workers, steel plant workers, military fighters, security personnel, and the like. In the present embodiment, the intelligent vehicle 100 is taken as an intelligent helmet for illustration.

Referring to fig. 2, in the present embodiment, the intelligent vehicle 100 can protect the head of the wearer from collision and impact. The smart vehicle 100 may include a processor 11, a memory 12, a power module 13, a sound module 14, a base communication module 15, an antenna module 16, and an interface module 17. The memory 12, the power module 13, the sound module 14, the base communication module 15, the antenna module 16 and the interface module 17 are electrically connected to the processor 11.

In the present embodiment, the processor 11 is a control center of the intelligent vehicle 100, and connects various parts of the entire intelligent vehicle 100 by using various interfaces and lines, calls data stored in the memory 12, and executes various functions and/or processes data of the intelligent vehicle 100, so as to manage and control the intelligent vehicle 100 as a whole. The processor 11 may be a central processing unit, a microprocessor, a microcontroller or other chips with data processing functions.

The memory 12 is used to store software programs and various data. The memory 12 may include a program storage area and a data storage area. The storage program area may store an operating system, an application program (such as a sound playing function, an image playing function, etc.) required by at least one function, and the like. The data storage area can store corresponding data such as audio data, voice instructions and the like according to requirements. The memory 12 may be a memory of the Smart vehicle 100 itself, and may also be connected to an external memory through an expansion memory interface, such as a Smart Media Card (Smart Media Card), a Secure Digital Card (Secure Digital Card), a Flash memory Card (Flash Card), etc., so as to increase the memory capacity of the Smart vehicle 100 and/or the Smart hardened system 600.

The power module 13 is used to provide power for the functional modules or circuits in the intelligent vehicle 100.

The sound module 14 at least includes an audio collecting unit 141 and a speaker unit 143. The audio acquisition unit 141 may be a microphone for receiving sound, for example, collecting voice control instructions of a user or facilitating a conversation between the user and other people. The speaker unit 143 may be used, but is not limited to, playing audio, user instructions, playing warning or alert tones, and the like.

The base communication module 15 is used for communication connection of the intelligent vehicle 100 with other external devices or networks (not shown). The basic communication module 15 may be, but is not limited to, a wireless fidelity (Wi-Fi) module, a Bluetooth (BT) module, a 4G/5G/6G module, and other communication modules having basic communication functions.

In this embodiment, the antenna module 16 may be used in cooperation with the base communication module 15, so that the smart vehicle 100 may adopt one or more of the following communication technologies: bluetooth (BT) communication technology, Global Positioning System (GPS) communication technology, wireless fidelity (Wi-Fi) communication technology, global system for mobile communications (GSM) communication technology, Wideband Code Division Multiple Access (WCDMA) communication technology, Long Term Evolution (LTE) communication technology, 5G communication technology, SUB-6G communication technology, future other communication technologies, and the like, to implement communication signal receiving and transmitting functions.

In this embodiment, the interface module 17 may be a USB interface or other similar interfaces. The interface module 17 can be used as a charging interface to enable an external power source to charge the smart vehicle 100 through the interface module 17. Of course, the interface module 17 may also be used as a data access interface, so that an external device or the intelligent reinforcing apparatus 300 can perform internal data access or data transmission through the interface module 17.

It is understood that, in the present embodiment, the smart vehicle 100 further includes a positioning module 18. The positioning module 18 may employ GPS positioning technology or other positioning technology to implement positioning or navigation functions.

It is understood that, in the present embodiment, the smart vehicle 100 further includes a cluster intercom module 19. The cluster intercom module 19 is electrically connected to the processor 11, and can implement a corresponding cluster intercom function with other intelligent vehicles 100 and/or the intelligent augmentation system 600 through the basic communication module 15 in the intelligent vehicle 100. For example, the smart vehicle 100 may implement a trunking talkback function through a Mesh networking technology of wireless Wi-Fi. Of course, in other embodiments, the smart vehicle 100 may also implement the trunking intercom function through other technologies, including, but not limited to, other radio (radio) technologies.

It is understood that, in the present embodiment, the smart vehicle 100 further includes an external control module 20. The external control module 20 may be a button assembly. The external control module 20 may be disposed at one side of the housing of the intelligent vehicle 100 to implement basic control functions. The basic control functions include, but are not limited to, turning on the phone, hanging up the phone, adjusting the volume of the speaker unit 143, turning on and off the power supply, etc.

It can be understood that, in the present embodiment, the smart vehicle 100 further includes a Light Emitting Diode (LED) module 21. The LED module 21 may be disposed inside the housing of the smart carrier 100 or in another suitable position. For example, the LED module 21 may be disposed, but not limited to, inside the housing of the smart vehicle 100 at a position corresponding to the windshield, at two sides of the housing, at the middle of the housing, at the back of the housing, or at another position. The LED module 21 is electrically connected to the processor 11 for implementing functions of illumination, prompt, alarm, etc. For example, the LED module 21 may be coupled to various systems, such as an on-board Electronic Control Unit (ECU) system, the smart augmentation apparatus 300, a mobile phone or other external devices, through the processor 11, so as to provide various prompting and warning functions. For example, the LED module 21 may be used by the processor 11 in combination with the intelligent enhancement device 300 as a tachometer, turn signal, lane warning, proximity warning, collision warning, battery status indicator light, and the like.

It is understood that, in the present embodiment, the smart vehicle 100 further includes an expansion interface 22. The expansion interface 22 is used for electrically connecting the intelligent enhanced device 300. In this way, the smart car device 300 can be plugged into the expansion interface 22 to be electrically connected to the smart car 100, so as to provide smart car functions, such as photography, position recording, posture recording, environmental sensing, radar scanning, laser speed measurement, night vision, and so on.

It is understood that, in the present embodiment, the smart vehicle 100 further includes a display module 23. The display module 23 may be, but is not limited to, a Micro LED display screen, an Organic Light-Emitting Diode (OLED) display screen, or other display screens. The display module 23 may be disposed inside the windshield of the intelligent vehicle 100 or at another suitable position. The display module 23 is electrically connected to the processor 11 for displaying and/or prompting information. For example, when the intelligent vehicle 100 is applied to the field of fire fighting, the display module 23 can be used to receive and display instructions and information sent by a superior or others in real time, such as exit position, teammate position, oxygen content, etc., so as to provide beneficial guarantee for fire extinguishing action.

Of course, in other embodiments, the number and layout of the functional modules in the intelligent vehicle 100 may be designed and adjusted according to specific situations, and the whole number and layout should be as small and light as possible, while reserving a corresponding space to add other modules or circuits according to specific needs, such as the identification module 24, various physiological parameter sensors (including, but not limited to, an oximetry sensor, a heart rate sensor, a blood glucose sensor, etc.), etc. may be added according to needs.

Referring to fig. 3, in the present embodiment, the intelligent reinforcing apparatus 300 may include a processor 31, a memory 32, a power module 33, a sound module 34, a communication module 35, an antenna module 36, an interface module 37, a positioning module 38, a matching interface 39, an LED module 45 and a display module 46. The memory 32, the power module 33, the sound module 34, the communication module 35, the antenna module 36, the interface module 37, the positioning module 38, the mating interface 39, the LED module 45, and the display module 46 are all electrically connected to the processor 31.

In the present embodiment, the mating interface 39 is matched with the expansion interface 22 of the smart vehicle 100. The intelligent reinforcing apparatus 300 can be plugged into the expansion interface 22 of the intelligent vehicle 100 through the mating interface 39, so as to be electrically connected to the intelligent vehicle 100, and serve as a higher-level intelligent control and function center.

In the present embodiment, the functions of the processor 31, the memory 32, the power module 33, the sound module 34, the communication module 35, the antenna module 36, the interface module 37, the positioning module 38, the LED module 45 and the display module 46 of the smart car 300 are similar to the functions of the processor 11, the memory 12, the power module 13, the sound module 14, the base communication module 15, the antenna module 16, the interface module 17, the positioning module 18, the LED module 21 and the display module 23 of the smart car 100, except that the smart car 300 has a stronger processor 31 and a larger memory 32, and the LED module 45 and the display module 46 of the smart car 300 are mainly disposed outside the housing of the smart car 300.

Furthermore, the battery capacity of the power module 33 in the smart car 300 may be smaller than the battery capacity of the power module 13 in the smart car 100. In this way, when the smart car device 300 is electrically connected to the smart car 100, the power module 13 in the smart car 100 can provide power or power-on for the smart car device 300 while providing power for its own functional module. That is, when the smart vehicle 100 is electrically connected to the smart enrichment device 300 to form the smart enrichment system 600, a large battery can be installed in the space of the smart vehicle 100 for power supply, so as to solve the problem of insufficient power supply for external devices such as cameras and communication devices in the prior art.

It is understood that the power module 13 of the smart vehicle 100 and the power module 33 of the smart augmentation device 300 may comprise organic polymer materials for convenience of implementation. The organic polymer material may be, but is not limited to, polyethylene, polystyrene, polypropylene, polyethylene glycol, polyaniline, polyvinylidene fluoride, polytrimethylene carbonate, polymethyl methacrylate, polypyrrole, polythiophene, polyphenylene sulfide, polyacetylene, polyphenylacetylene, and the like.

It is understood that the power module 13 of the smart vehicle 100 and the power module 33 of the smart augmentation device 300 may comprise organometallic complex materials for convenience of implementation. The organometallic material may be, but is not limited to, metal organic framework materials (metal organic frameworks), self-assembled coordination chemistry materials, organo alkali metal-ligand dimers, organo alkali metal-ligand trimers, organo alkali metal-ligand tetramers, and the like.

It is understood that the power module 13 of the intelligent vehicle 100 and the power module 33 of the intelligent reinforcing apparatus 300 may be disposed at any position beneficial for the counterweight, for the sake of convenience. For example, in an embodiment, the smart vehicle 100 is a smart device wearable on the head of the user, and the power module 13 is disposed at the side, bottom or rear of the smart vehicle 100.

It is understood that, in the present embodiment, the intelligent vehicle 100 and the intelligent reinforcing apparatus 300 are further provided with corresponding identification modules 24 and 40, respectively. The identification modules 24, 40 are used to ensure that the intelligent augmentation apparatus 300 is matched with the corresponding intelligent vehicle 100. For example, when the smart reinforcing apparatus 300 is plugged into the smart vehicle 100 and the identification module 40 is successfully matched with the identification module 24 of the smart vehicle 100, the smart reinforcing apparatus 300 can be electrically connected to the smart vehicle 100 normally, so as to transmit and receive information and data with the smart vehicle 100, implement a control function for the smart vehicle 100, or supply power to the smart reinforcing apparatus 300 by using the power module 13 of the smart vehicle 100. That is, the electrical connection between the smart car 300 and the smart car 100 in this embodiment at least includes the smart car 100 supplying power or continuing power to the smart car 300, and the two devices can communicate with each other.

It is understood that, in the present embodiment, the intelligent reinforcing apparatus 300 further includes a plurality of functional modules, such as a lens module 41, a sensor module 42, a distance and speed measuring module 43, and an extended functional module 44. The lens module 41 is disposed on the housing of the intelligent reinforcing apparatus 300 for capturing images and/or videos. It is understood that, in the present embodiment, the lens module 41 may include, but is not limited to, one or any combination of an infrared camera, a night vision camera, a webcam, a digital camera, a high-definition camera, a 4K camera, an 8K high-definition camera, and other camera devices.

The sensor module 42 may include at least a first sensing unit 421, a second sensing unit 422, and a third sensing unit 423. The first sensing unit 421 may be an Inertial sensing unit (Inertial measurement unit, IMU). The first sensing unit 421 includes, but is not limited to, an accelerometer, a gyroscope, etc. for sensing information such as angular velocity and acceleration of the smart augmentation apparatus 300 in a three-dimensional space, so as to better acquire a motion state of the wearer, i.e., perform posture recording.

The second sensing unit 422 is used for sensing the behavior or action of the wearer, etc. The second sensing unit 422 includes, but is not limited to, a temperature sensor, a pressure sensor, an iris sensor, and the like. For example, the body temperature of the wearer can be sensed through the temperature sensor to assist in judging the motion state of the wearer, so that the measurement accuracy of the motion state of the wearer is improved.

The third sensing unit 423 is used for sensing environmental factors, including, but not limited to, a humidity sensor, an ambient light sensor, a height sensor, a wind speed sensor, a proximity sensor, etc.

That is, the sensor module 42 may include at least one sensor to implement an inertial sensing function, a dynamic sensing function, an environmental sensing function, and the like. Of course, in other embodiments, the sensor module 42 is not limited to include the above-mentioned sensors, but may also include other types of sensors, such as, but not limited to, a blood oxygen saturation sensor, a heart rate sensor, a blood glucose sensor, etc., to achieve a health data collection function or other functions.

The distance and speed measuring module 43 may include, but is not limited to, an ultrasonic distance measuring unit, a radar unit and/or a laser speed measuring unit to assist in distance and/or speed sensing, for example, sensing whether there is an obstacle in front of the wearer, the distance between the obstacle and the wearer, the moving speed of the obstacle, and the like. For example, when the obstacle is a vehicle, the distance and speed measuring module 43 may sense the distance from the vehicle in front to the wearer, the moving speed of the vehicle, and the like. In this way, when sensing that a vehicle or a dangerous object in front approaches or the moving speed is fast, the distance and speed measurement module 43 may issue a lane warning, an approach warning, a collision warning, and the like in combination with the LED module 21 of the intelligent vehicle 100.

The extended function module 44 can be configured with corresponding modules, such as lighting modules, night vision modules, etc., according to different requirements and the space of the smart augmentation instrument 300. Therefore, the method can be used for conveniently and assisting different wearers to use under different scenes. For example, some expeditions may activate the corresponding night vision module and/or lighting module when using the smart augmentation system 600 formed by the smart vehicle 100 and the smart augmentation device 300. The lighting module can be a headlamp or an emergency lamp, is used for operation lighting when light is poor, and can adopt an LED for lighting.

It is understood that in the present embodiment, the smart augmentation instrument 300 may have an internal space sufficient to accommodate the necessary hardware modules, and may have an external shape, such as, but not limited to, a drop, a fin, a cone, a cylinder, a prism, a pyramid, a sphere, or other shapes. Meanwhile, when the intelligent reinforcing apparatus 300 is electrically connected, for example, plugged into the intelligent vehicle 100, the two apparatuses may be integrated, so as to effectively reduce the air resistance coefficient and the wind noise, so as to minimize the safety risk of the wearer, and further enhance the waterproof and dustproof capabilities, so as to prevent the malfunction caused by the non-uniform waterproof and dustproof standards.

It is understood that, in the present embodiment, the smart vehicle 100 can be used independently. That is, the smart vehicle 100 is fully usable and provides the desired security function regardless of whether the smart augmentation device 300 is plugged. Specifically, when the user wears the intelligent vehicle 100, the intelligent vehicle 100 can effectively protect the wearer, and provide corresponding functions, such as receiving voice commands, performing effective positioning and/or data transmission, and the like, and can also realize cluster talkback and data sharing with other wearers through the cluster talkback module 19 inside the intelligent vehicle 100.

When the corresponding intelligent reinforcing device 300 is plugged, the intelligent vehicle 100 and the intelligent reinforcing device 300 can form a fully functional intelligent reinforcing system 600 to realize the full potential or function thereof. The smart augmentation device 300 and the smart vehicle 100 may be similar to the brain and spine. That is, the intelligent enhancement device 300 may constitute a higher-level intelligent control and function hub, which may control the operation of the intelligent vehicle 100, effectively enhance the computing power of the intelligent vehicle 100 through the internal processor 31, and effectively extend other functions of the intelligent vehicle 100, such as video camera, environmental perception, safe driving, and the like. Of course, in other embodiments, the operation of the intelligent reinforcing apparatus 300 can also be controlled by the intelligent vehicle 100. That is, the intelligent vehicle 100 and the intelligent reinforcing apparatus 300 can mutually control the operation of each other.

Obviously, the smart augmentation system 600 includes almost all of the main functions or hardware of current smart phones, such as GPS, gyroscope, light sensor, motion sensor, etc., as well as video capture, recording, and transmission functions, and has a long battery life and is easy to control. Meanwhile, since the intelligent enhancement device 300 also has the corresponding functional modules such as the processor 31, the memory 32, the communication module 35, etc., it can also be used independently, and establish communication connection and data transmission, sharing, etc. with other external devices.

It can be understood that, in the present embodiment, the intelligent vehicle 100 may constitute a general component, which only needs to select the corresponding intelligent reinforcement device 300 according to different functional requirements, and make the intelligent reinforcement device 300 perform an adaptive connection through the expansion interface 22, that is, a user may purchase the intelligent reinforcement device as needed, without modifying the existing safety helmet too much, and the modification cost is low. IN addition, compared to the problems of high cost, low reliability, and high design difficulty due to the existing ALL-IN-ONE design scheme (i.e., integrating ALL the components and subsystems), the smart augmentation system 600 may be designed by separating the smart vehicle 100 from the smart augmentation apparatus 300, so as to utilize the smart vehicle 100 to satisfy the basic safety protection, communication, listening to music, and the like of the wearers such as riders and sportsmen, and then utilize the smart augmentation apparatus 300 to satisfy the extended functions of different requirements of the users, thereby effectively reducing the user cost, and enhancing the extensibility and the subsystem reliability.

It is understood that in the present embodiment, all main functions of the intelligent vehicle 100, the intelligent augmentation apparatus 300 and/or the intelligent augmentation system 600 are mainly managed and controlled by means of voice commands. For example, the intelligent augmentation system 600 may receive a voice command of a user, and recognize and parse the voice command by using a voice processing system therein, so as to control a corresponding module to execute the user command according to the recognition and parsing result. For example, the intelligent augmentation system 600 may start corresponding modules according to a voice instruction of a user to implement functions such as data transmission, positioning, communication, warning lights, and the like.

Of course, in other embodiments, the control is not limited to the voice command, and other control methods may be adopted. For example, referring to fig. 4, additional control devices 500 may be utilized to assist in management and control thereof. Among other things, in one embodiment, the control device 500 may be designed in the form of a control menu as an alternative control when a voice command cannot be executed or is not suitable for voice command control. The control device 500 may be provided in various forms. For example, the device can be directly integrated in a ring for the convenience of wearing by a user, or can be designed into a form that can be directly installed on a vehicle, and even can be provided into a key ring form that is convenient for the user to directly hold on the hand, and the like.

In another embodiment, the control device 500 may be a mobile phone or other external device. The external device comprises a physical key or a virtual key. When controlled by a mobile phone or other external device, it can act as a display and controller for the intelligent augmentation system 600, so that it can become a safe and clearly visible monitor, thereby effectively managing and controlling the intelligent augmentation system 600.

Obviously, the intelligent augmentation system 600 may utilize a set of system (e.g., a voice system) to uniformly control all functions of the intelligent vehicle 100 and the intelligent augmentation device 300, so as to achieve smooth transmission of information, and further solve the problems that control systems of external devices such as cameras and communication devices are not uniform and cannot be controlled centrally through voice and buttons.

Referring to fig. 5, the intelligent vehicle 100 and the intelligent reinforcing device 300 are respectively provided with the corresponding basic communication module 15 or the communication module 35. Therefore, the smart vehicle 100, the smart enrichment device 300, and the smart enrichment system 600 can communicate or exchange data with other smart vehicles 100, smart enrichment devices 300, smart enrichment systems 600, and electronic devices 700 through the base communication module 15 or the communication module 35. In fig. 5, the intelligent augmentation system 600 is described as an example of communication or data exchange with other intelligent augmentation systems 600 and electronic devices 700. The electronic device 700 may be, but is not limited to, a server, an unmanned aerial vehicle, a robot, a mobile phone, a tablet computer, a notebook computer, a palm computer, a vehicle-mounted bluetooth system, and the like.

That is, in the present embodiment, the smart vehicle 100 and the smart augmentation apparatus 300 are provided with the corresponding base communication module 15 and the corresponding communication module 35. The base communication module 15 and the communication module 35 use the same or different communication technologies, and they can maintain independent communication. Of course, when the intelligent reinforcement device 300 is electrically connected to the intelligent vehicle 100 to form the intelligent reinforcement system 600, the intelligent reinforcement system 600 can utilize at least one communication technology of the corresponding basic communication module 15 and/or communication module 35 to implement a communication function according to specific requirements. The intelligent augmentation device 300 may also utilize the communication module 35 to provide additional communication paths for the intelligent vehicle 100. For example, when the smart vehicle 100 mainly employs bluetooth communication technology or Wi-Fi communication technology, the smart car 300 may provide 5G communication technology, SUB-6G communication technology, etc. to provide an additional communication path for the smart vehicle 100, so that the smart car 600 may use at least one of the above communication technologies at the same time.

It is understood that referring to fig. 6, in the present embodiment, a plurality of intelligent vehicles 100 may share one or more of the environment, speed, temperature, radar warning, video, audio and other related data collected by the intelligent augmentation apparatus 300 or the intelligent augmentation system 600. The data may be fed back to the audio (e.g., bluetooth audio) of the smart vehicle 100 through video, image, audio, or the like, or fed back to a screen of a mobile terminal in communication connection with the smart vehicle 100.

It is understood that, referring to fig. 7, the intelligent vehicle 100 is provided with the cluster intercom module 19. Therefore, a plurality of intelligent vehicles 100 and/or intelligent augmentation systems 600 may implement a trunking talkback function through the trunking talkback module 19. And each smart vehicle 100, smart enrichment device 300, or smart enrichment system 600 can transmit or exchange data with other devices through the corresponding base communication module 15 and communication module 35. For example, the smart vehicle 100 or the smart augmentation system 600 may establish communication with a mobile phone of a wearer through a bluetooth module or other similar communication module and transmit data to the mobile phone. Similarly, the intelligent vehicle 100 or the intelligent augmentation system 600 may transmit data to a corresponding base station through the 4G/5G/6G communication module or other communication modules, and then transmit the data to a corresponding control terminal, a data center, a server, a mobile phone, and other devices through the base station, so as to conveniently store, process, monitor, and the like the data. In addition, the intelligent augmentation system 600 can also realize live broadcast through the communication functions of the basic communication module 15 and the communication module 35, so as to solve the problem that most of the existing motion cameras cannot carry out real-time live broadcast through a 4G/5G network.

Also, since the intelligent reinforcement system 600 is provided with various sensors, such as the sensor module 42 and other sensors (e.g., blood oxygen saturation sensor, heart rate sensor, blood glucose sensor, etc.), the intelligent reinforcement system 600 can collect sensing data for learning through the sensors. And processing the sensor data by using a processor to obtain an operation result, and identifying the behavior or action of the wearer according to the operation result. Therefore, the sensing data, the operation result and the user behavior data can be used as samples for self-learning through the neural network, different algorithms are formed according to behavior characteristics of different wearers, and accurate identification of behaviors, actions and the like is achieved. Furthermore, compared with the existing sports helmet which cannot provide more information to the wearers such as athletes and drivers due to the lack of various sensors, the intelligent reinforcing system 600 can utilize the intelligent reinforcing device 300 to provide various sensors, thereby effectively reinforcing the information transmission capability and assisting the wearers such as athletes and drivers to make judgments.

Meanwhile, the intelligent reinforcement system 600 is provided with a lens module 41. Therefore, the lens module 41 can be used for shooting a picture or a video, and the processor is used for receiving the picture or the video and carrying out image recognition on the picture or the video to obtain an image recognition result. For example, when a firefighter wears the intelligent augmentation system 600 to perform a task, the lens module 41 can be used to capture pictures or videos of a fire scene, and the processor is used to perform image recognition on the pictures or videos to obtain an image recognition result. And matching the image recognition result with a preset image template, so as to determine the hidden danger category of the current fire monitoring point according to the matching similarity, such as the aging of an electric circuit. Furthermore, compare with the equipment such as the handheld cell-phone or camera of needs among the prior art and carry out the motion photography, intelligence enhancement system 600 accessible lens module 41 liberates both hands, realizes the free shooting.

It can be understood that, in the present embodiment, the intelligent reinforcing apparatus 300 and the intelligent vehicle 100 are respectively provided with the mating interface 39 and the expansion interface 22 to realize the electrical connection and the interaction of information and data. Of course, in other embodiments, the smart reinforcing device 300 and the smart vehicle 100 may be connected in a wireless manner. In this way, the intelligent reinforcing apparatus 300 can be adapted to different types of intelligent vehicles 100. For example, the smart augmentation device 300 may be paired with, but not limited to, a motorcycle helmet, a bicycle helmet, a ski helmet, a parachuting helmet, etc. to achieve mutual replacement of different function helmets, without installing an additional installation interface, with high replaceability and convenient installation function. That is, the intelligent vehicle 100 of the present invention can be communicatively connected to intelligent reinforcing devices 300 with different functions. Likewise, the smart augmentation device 300 may also be communicatively coupled to different smart vehicles 100 to enhance the replaceability and utility of the smart vehicles 100 and the smart augmentation device 300.

It can be understood that, in this embodiment, the intelligent augmentation system 600 may also implement unifying the devices, such as the storage device, the control device, the power supply device, etc., which are duplicated in different systems, into one system, and reasonably distributing the weight distribution, so as to achieve the purposes of saving weight and reducing the burden on the head and neck of the wearer.

It is understood that, in other embodiments, the number of the expansion interfaces 22 in the smart vehicle 100 is not limited to one, and may be multiple. One expansion interface 22 can be used for plugging the intelligent augmentation apparatus 300, and the other expansion interfaces 22 can be used for plugging additional functional apparatuses, so as to realize the electrical connection between the functional apparatuses and the intelligent vehicle 100 and/or the communication connection with the intelligent augmentation apparatus 300.

It is understood that when the functional device is electrically connected to the smart vehicle 100, it can be powered by the power module 13 in the smart vehicle 100, and its operation is controlled by the smart vehicle 100 or the smart augmentation device 300. The functional device is used for realizing any one or combination of functions such as information display, environment perception, distance test, light illumination, signal enhancement and identification. For example, in one embodiment, the functional module may be a Head Up Display (HUD) component. The HUD assembly can be electrically connected to the intelligent vehicle 100 through the expansion interface 22, so that the intelligent vehicle 100 supplies power to the HUD assembly through the expansion interface 22 and transmits data, thereby realizing the information display function. For another example, in another embodiment, the function module may be a signal enhancer for providing signal enhancement function to the smart vehicle 100.

Obviously, the intelligent vehicle 100 and the intelligent reinforcing device 300 can be operated independently, and the intelligent vehicle 100 can be configured to be universal, and only the corresponding intelligent reinforcing device 300 needs to be selected according to different functional requirements, so that the cost is low. Furthermore, the intelligent carrier 100, the intelligent reinforcement device 300, and the intelligent reinforcement system 600 may use corresponding Artificial Intelligence (AI) technology to perform voice recognition and image recognition, and apply big data processing technology, neural network technology, 5G technology, etc., and may be widely applied to the fields of internet of things, internet of vehicles, etc., and may effectively liberate both hands, thereby achieving, but not limited to, exercise recording, safety monitoring, safety inspection, law enforcement recording, production recording, training recording, scientific research collection, etc., facilitating exercise management, safety supervision, scientific research and development, etc., being more convenient and reasonable for consumers, and having a larger application market.

The above embodiments are only used to illustrate the technical solutions of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the above preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention. Those skilled in the art can also make other changes and the like in the spirit of the present invention, and the design of the present invention can be used as long as the technical effects of the present invention are not deviated. Such variations are intended to be included within the scope of the invention as claimed.

Claims (11)

1. The intelligent reinforcing device is characterized by comprising a matching interface and a processor, wherein the intelligent reinforcing device is electrically connected with an intelligent carrier through the matching interface so as to control the operation of the intelligent carrier or the operation of the intelligent reinforcing device is controlled by the intelligent carrier, and an intelligent reinforcing function is provided for the intelligent carrier.

2. The intelligent enhancement apparatus of claim 1, wherein: the intelligent strengthening device further comprises at least one sensor used for achieving at least one of an inertial sensing function, a dynamic sensing function, a health data acquisition function and an environment perception function.

3. The intelligent enhancement apparatus of claim 1, wherein: the intelligent strengthening device further comprises a lens module, wherein the lens module comprises at least one of an infrared camera, a night vision camera, a network camera, a digital camera, a high-definition camera, a 4K camera and an 8K high-definition camera.

4. The intelligent enhancement apparatus of claim 1, wherein: the intelligent strengthening device is also provided with a communication module for providing a communication path for the intelligent carrier.

5. The intelligent enhancement apparatus of claim 1, wherein: the intelligent reinforcing device also comprises a light-emitting diode module which is used for providing functions of illumination, prompting and alarming.

6. The intelligent enhancement apparatus of claim 1, wherein: the intelligent reinforcing device also comprises a display module used for providing information display and/or prompt functions.

7. The intelligent enhancement apparatus of claim 1, wherein: the intelligent strengthening device also comprises a sound module used for providing audio playing, collecting and alarming functions.

8. The intelligent enhancement apparatus of claim 1, wherein: the intelligent augmentation apparatus may further comprise an interface module to provide charging and/or data access functions.

9. The intelligent enhancement apparatus of claim 1, wherein: the intelligent strengthening device is powered or continued by a power module of the intelligent carrier.

10. The intelligent enhancement apparatus of claim 9, wherein: the power supply module includes an organic polymer material or an organometallic complex material.

11. The intelligent enhancement apparatus of claim 1, wherein: the intelligent reinforcing device is provided with a storage space by the intelligent carrier.

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