CN111291142A - Vehicle, vehicle equipment and personalized vehicle equipment interest point searching and displaying method thereof - Google Patents

Abstract

The application relates to the technical field of vehicle equipment, and provides a vehicle, vehicle equipment and a personalized vehicle equipment interest point searching and displaying method thereof. According to the method and the device, the target interest points are screened and sorted by using the personalized hobbies of the user, an effective and applicable search result display mode can be provided for the user, the favorite interest points of the user can be found quickly and effectively, a proper selection is made, and visual and convenient use experience is brought to the user.

Description

Vehicle, vehicle equipment and personalized vehicle equipment interest point searching and displaying method thereof

Technical Field

The application relates to the technical field of vehicle equipment, in particular to a personalized vehicle equipment interest point searching and displaying method, vehicle equipment applying the personalized vehicle equipment interest point searching and displaying method and a vehicle.

Background

With the development of public transportation facilities, drivers increasingly need navigation apparatuses to provide information assistance, for example, road traffic conditions, travel routes to a destination or point of interest (POI), and the like for the drivers. The POI refers to content such as facilities labeled in a navigation map, for example, restaurants, hotels, hospitals, tourist attractions, and the like.

In the conventional navigation apparatus, a route guidance function is generally provided for enabling a user to easily travel to a desired destination without making a mistake on a road. According to this route guidance function, when the factors such as distance, time, cost, and the like are taken into consideration, the most suitable route among many routes connecting the departure point and the destination is automatically searched and presented as a guidance route using the map information data stored in the navigation device. While traveling, the guide route is displayed with a thick line in a color different from that of other routes on the navigation map, or the user is guided to travel to the destination by voice.

In addition, service manufacturers of existing electronic maps with mobile terminals have added a voice search function to their products, such as Baidu maps, which have a search button on the main interface of the electronic map, and enter the search page when the search button is clicked, and have a voice search entry near the input frame of the search page, and after the user clicks the voice search entry, the user can perform voice input to perform a search to retrieve a corresponding electronic map. In addition, the Google map commonly used in the industry also provides a voice search function, which is performed in a manner similar to a hundred-degree map.

However, currently, in navigation/other POI providing programs (such as food category/hotel category/scenic spot category), the ranking results are all performed in order of distance/price/rating, and the personal preference factors of individual users are not considered, and some stores that users do not like or interested in do not appear in proper ranking positions.

In view of various defects in the prior art, the inventor of the present application has made intensive studies to provide a vehicle, a vehicle equipment and a personalized vehicle equipment interest point search and display method thereof.

Disclosure of Invention

The application aims to provide a vehicle, a vehicle device and a personalized vehicle device interest point searching and displaying method thereof, and the target interest points are screened and sorted by using the personalized hobbies of a user, so that an effective and applicable searching result displaying mode can be provided for the user, the favorite interest points of the user can be conveniently and effectively found out, a proper choice can be made, and visual and convenient use experience can be brought for the user.

In order to solve the technical problem, the present application provides a method for searching and displaying interest points of a personalized vehicle equipment, which is an implementation manner, and the method for searching and displaying interest points of the personalized vehicle equipment includes the steps of:

the vehicle-mounted equipment receives interest point information input by a user;

acquiring the interest point information, and searching a target interest point which is consistent with the interest point information in map data according to the interest point information;

the searched target interest points are prioritized by using the individual hobbies of the user;

and displaying the prioritized target interest points to a user in a preset mode.

As an implementation manner, the step of displaying the prioritized target points of interest to the user in a predetermined manner specifically includes:

displayed to the user in different colors and/or different brightnesses.

As an implementation manner, the step of prioritizing the searched target points of interest by using the personal hobbies of the user specifically includes:

acquiring historical data of a user, wherein the historical data comprises selection times, evaluation times and/or evaluation content;

analyzing personal hobbies of the user according to the historical data;

and using the individual hobbies as a screening rule to perform priority ranking on the target interest points.

As an implementation manner, the step of searching for the target interest point in the map data according to the interest point information includes:

and the vehicle-mounted equipment displays the searching process of the interest points on the map in a dynamic scanning mode according to the interest point information.

As one implementation manner, the step of displaying, by the in-vehicle device, a search process of the point of interest on the map in a dynamic scanning manner according to the point of interest information further includes:

providing a plurality of dynamically scanned models, and providing the plurality of dynamically scanned models for personalized selection by a user.

The model of the plurality of dynamic scans comprises a model simulating radar circular rotation scanning, a model simulating radar sector swing scanning, a model simulating circular scanning from the center to the circumference and a model simulating sector scanning from the center to the outside.

As one embodiment, in the search process of displaying the interest points on the map in a dynamic scanning manner, the in-vehicle device highlights the corresponding target interest points on the map in a predetermined manner.

As an embodiment, after the step of displaying the prioritized target points of interest to the user in a predetermined manner, the method further includes:

providing an option event which can be navigated to the target interest point in real time, wherein when a user triggers the option event, a navigation path pops up for navigation;

and/or pushing the navigation route to another vehicle device and a cloud server, wherein the connection modes between the vehicle device and the another vehicle device and the cloud server comprise a WIFI network, a Zigbee network, a 3G communication network, a 4G communication network and/or a 5G communication network.

In order to solve the technical problem, the present application further provides a car machine device, as one implementation manner, the car machine device includes a memory and a processor, the memory stores a computer program, and the processor is configured to execute the computer program, so as to implement the steps of the personalized car machine device interest point search display method.

In order to solve the technical problem, the present application further provides a vehicle, as one of the embodiments, the vehicle-mounted device is configured as described above.

The vehicle-mounted equipment receives interest point information input by a user, acquires the interest point information, searches target interest points conforming to the interest point information in map data according to the interest point information, uses the individual hobbies of the user to perform priority sequencing on the searched target interest points, and displays the target interest points subjected to the priority sequencing to the user in a preset mode. According to the method and the device, the target interest points are screened and sorted by using the personalized hobbies of the user, an effective and applicable search result display mode can be provided for the user, the favorite interest points of the user can be found quickly and effectively, a proper selection is made, and visual and convenient use experience is brought to the user.

The foregoing description is only an overview of the technical solutions of the present application, and in order to make the technical means of the present application more clearly understood, the present application may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present application more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a flowchart illustrating an embodiment of a method for searching and displaying points of interest of a personalized car machine device according to the present application.

Fig. 2 is a schematic block diagram of the car machine device according to the present application.

Detailed Description

To further illustrate the technical means and effects of the present application for achieving the predetermined application purpose, the following detailed description is provided with reference to the accompanying drawings and preferred embodiments for specific embodiments, methods, steps, features and effects of the vehicle, the vehicle equipment and the personalized vehicle equipment interest point search and display method according to the present application.

The foregoing and other technical matters, features and effects of the present application will be apparent from the following detailed description of preferred embodiments, which is to be read in connection with the accompanying drawings. While the present application has been described in terms of specific embodiments and examples for achieving the desired objects and objectives, it is to be understood that the invention is not limited to the disclosed embodiments, but is to be accorded the widest scope consistent with the principles and novel features as defined by the appended claims.

Referring to fig. 1, fig. 1 is a schematic flowchart illustrating an embodiment of a method for searching and displaying points of interest of a personalized vehicle-mounted device.

It should be noted that the personalized car-machine device interest point search display method according to this embodiment may include, but is not limited to, the following several steps.

Step S101, the vehicle-mounted equipment receives interest point information input by a user;

step S102, obtaining the interest point information, and searching a target interest point which is consistent with the interest point information in map data according to the interest point information;

step S103, using the individual hobbies of the user to perform priority ordering on the searched target interest points;

and step S104, displaying the prioritized target interest points to a user in a preset mode.

It should be noted that, in this embodiment, the step of displaying the prioritized target points of interest to the user in a predetermined manner specifically includes: displayed to the user in different colors and/or different brightnesses.

In this embodiment, the step of prioritizing the searched target interest points using the personal hobbies of the user may specifically include:

step 21, acquiring historical data of a user, wherein the historical data comprises selection times, evaluation times and/or evaluation contents;

step 22, analyzing the individual hobbies of the user according to the historical data;

and step 23, using the individual hobbies as a screening rule to perform priority sequencing on the target interest points.

It should be noted that, in the present embodiment, the step of searching for the target interest point in the map data according to the interest point information includes: and the vehicle-mounted equipment displays the searching process of the interest points on the map in a dynamic scanning mode according to the interest point information.

Specifically, the step of displaying, by the in-vehicle device in a dynamic scanning manner, a search process of the point of interest on the map according to the point of interest information may further include: providing a plurality of dynamically scanned models, and providing the plurality of dynamically scanned models for personalized selection by a user.

It should be additionally noted that the multiple dynamic scan models that can be provided by the present embodiment include a model simulating radar circular rotation scanning, a model simulating radar sector sweep scanning, a model simulating circular scan spreading from the center to the circumference, and a model simulating sector scan spreading from the center to the outside.

In order to facilitate the user to know the search result in real time, the in-vehicle device highlights the corresponding target interest point on the map in a preset mode in the searching process of displaying the interest point on the map in a dynamic scanning mode.

In addition, after the step of displaying the prioritized target points of interest to the user in a predetermined manner in this embodiment, the method may further include: providing an option event which can be navigated to the target interest point in real time, wherein when a user triggers the option event, a navigation path pops up for navigation; and/or pushing the navigation route to another vehicle device and a cloud server, wherein the connection modes between the vehicle device and the another vehicle device and the cloud server comprise a WIFI network, a Zigbee network, a 3G communication network, a 4G communication network and/or a 5G communication network.

According to the embodiment, the target interest points are screened and sorted by using the personalized hobbies of the user, an effective and applicable search result display mode can be provided for the user, the favorite interest points of the user can be found quickly and effectively, a proper selection is made, and visual and convenient use experience is brought to the user.

Referring to fig. 2, the present application further provides a car-mounted device, as an implementation manner, the car-mounted device includes a memory 20 and a processor 21, where the memory 20 stores a computer program, and the processor 21 is configured to execute the computer program, so as to implement the steps of the personalized car-mounted device interest point search and display method as described above.

Specifically, the processor 21 according to this embodiment is configured to receive point of interest information input by a user;

the processor 21 is configured to obtain the interest point information, and search for a target interest point in the map data according to the interest point information, where the target interest point corresponds to the interest point information;

the processor 21 is configured to prioritize the searched target points of interest using personal preferences of the user;

the processor 21 is configured to display the prioritized target points of interest to the user in a predetermined manner.

It should be noted that the processor 21 in this embodiment is configured to display to the user in different colors and/or different brightness.

In this embodiment, when prioritizing the searched target interest points using the personal hobbies of the user, the processor 21 is configured to obtain historical data of the user, where the historical data includes the number of selections, the number of evaluations, and/or the evaluation content; the processor 21 is used for analyzing the individual hobbies of the user according to the historical data; the processor 21 is configured to prioritize the target points of interest using the personal preferences as a filtering rule.

It should be noted that, in this embodiment, the processor 21 is configured to display a search process of the interest point on the map in a dynamic scanning manner according to the interest point information.

Specifically, in this embodiment, when the in-vehicle device displays a search process of an interest point on a map in a dynamic scanning manner according to the interest point information, the processor 21 is configured to provide a plurality of dynamically scanned models, and provide the plurality of dynamically scanned models for a user to perform personalized selection.

It should be additionally noted that the multiple dynamic scan models that can be provided by the present embodiment include a model simulating radar circular rotation scanning, a model simulating radar sector sweep scanning, a model simulating circular scan spreading from the center to the circumference, and a model simulating sector scan spreading from the center to the outside.

In order to facilitate the user to know the search result in real time, the in-vehicle device highlights the corresponding target interest point on the map in a preset mode in the searching process of displaying the interest point on the map in a dynamic scanning mode.

In addition, after the processor 21 is configured to display the prioritized target interest points to the user in a predetermined manner, the processor 21 is configured to provide an option event that can be navigated to the target interest points in real time, wherein when the option event is triggered by the user, a navigation path pops up for navigation; and/or the processor 21 is configured to push the navigation route to another vehicle device and a cloud server, where a connection manner between the vehicle device and the another vehicle device and the cloud server includes a WIFI network, a Zigbee network, a 3G communication network, a 4G communication network, and/or a 5G communication network.

With continuing reference to fig. 2 and the embodiments thereof, the present application further provides a vehicle, as one of the embodiments, configured with the vehicle-mounted device as described above.

In this embodiment, the car-mounted device may search for the interest point in the current area by using a V2X (a car is connected with all things, or the car and all things constitute an internet of things/internet of vehicles network, etc.); carrying out secondary screening on the searched interest points according to preset screening conditions; obtaining a target interest point after secondary screening; and prompting the target interest point to a user and/or automatically generating a navigation route for navigating to the target interest point.

It should be noted that the V2X technology used in this embodiment refers to a technology for connecting a vehicle to all objects, especially to an object capable of building an internet of things, and implements vehicle-to-vehicle interconnection, vehicle-to-object interconnection, vehicle-to-home interconnection, etc. for convenience of description, the present application is described in a unified manner by using the internet of vehicles.

First, it should be noted that, in order to implement convenience and sharing among users, the step of prompting the target point of interest to a user and/or automatically generating a navigation route for navigating to the target point of interest according to the embodiment of the present application further includes: and pushing the navigation route to another vehicle-mounted device. It is easily understood that a mobile phone or the like of another user may also be pushed.

It should be noted that the 5G communication network technology of the present embodiment may be a technology oriented to a scene, and the present application utilizes the 5G technology to play a key supporting role for a vehicle (especially an intelligent networked automobile), and simultaneously implements connection of people, objects or vehicles, and may specifically adopt the following three typical application scenarios.

The first is eMBB (enhanced Mobile Broadband), so that the user experience rate is 0.1-1 gpbs, the peak rate is 10gbps, and the traffic density is 10Tbps/km 2;

for the second ultra-reliable low-delay communication, the main index which can be realized by the method is that the end-to-end time delay is in the ms (millisecond) level; the reliability is close to 100%;

the third is mMTC (mass machine type communication), and the main index which can be realized by the application is the connection number density, 100 ten thousand other terminals are connected per square kilometer, and the connection number density is 10^6/km 2.

Through the mode, the characteristics of the super-reliable of this application utilization 5G technique, low time delay combine for example radar and camera etc. just can provide the ability that shows for the vehicle, can realize interdynamic with the vehicle, utilize the interactive perception function of 5G technique simultaneously, and the user can do an output to external environment, and the unable light can detect the state, can also do some feedbacks etc.. Further, the method and the device can also be applied to cooperation of automatic driving, such as cooperation type collision avoidance and vehicle formation among vehicles, so that the vehicle speed is integrally formed and the passing efficiency is improved.

In addition, the communication enhancement automatic driving perception capability can be achieved by utilizing the 5G technology, and the requirements of passengers in the automobile on AR (augmented reality)/VR (virtual reality), games, movies, mobile office and other vehicle-mounted information entertainment and high precision can be met. According to the method and the device, the downloading amount of the 3D high-precision positioning map at the centimeter level can be 3-4 Gb/km, the data volume of the map per second under the condition that the speed of a normal vehicle is limited to 120km/h (kilometer per hour) is 90 Mbps-120 Mbps, and meanwhile, the real-time reconstruction of a local map fused with vehicle-mounted sensor information, modeling and analysis of dangerous situations and the like can be supported.

It should be noted that the method and the device can also be applied to an automatic driving layer, can assist in realizing partial intelligent cloud control on the urban fixed route vehicles by utilizing a 5G technology, and can realize cloud-based operation optimization and remote display and control under specific conditions on unmanned vehicles in parks and ports.

In the present application, the above-mentioned system and method CAN be used in a vehicle system having a vehicle TBOX, i.e. the vehicle is a vehicle system that CAN have a vehicle TBOX, and CAN be further connected to a CAN bus of the vehicle.

In this embodiment, the CAN may include three network channels CAN _1, CAN _2, and CAN _3, and the vehicle may further include one ethernet network channel, where the three CAN network channels may be connected to the ethernet network channel through two in-vehicle networking gateways, for example, where the CAN _1 network channel includes a hybrid power assembly system, where the CAN _2 network channel includes an operation support system, where the CAN _3 network channel includes an electric dynamometer system, and the ethernet network channel includes a high-level management system, the high-level management system includes a human-vehicle-road simulation system and a comprehensive information collection unit that are connected as nodes to the ethernet network channel, and the in-vehicle networking gateways of the CAN _1 network channel, the CAN _2 network channel, and the ethernet network channel may be integrated in the comprehensive information collection unit; the car networking gateway of the CAN _3 network channel and the Ethernet network channel CAN be integrated in a man-car-road simulation system.

Further, the nodes connected to the CAN _1 network channel include: the hybrid power system comprises an engine ECU, a motor MCU, a battery BMS, an automatic transmission TCU and a hybrid power controller HCU; the nodes connected with the CAN _2 network channel are as follows: the system comprises a rack measurement and control system, an accelerator sensor group, a power analyzer, an instantaneous oil consumption instrument, a direct-current power supply cabinet, an engine water temperature control system, an engine oil temperature control system, a motor water temperature control system and an engine intercooling temperature control system; the nodes connected with the CAN _3 network channel are as follows: electric dynamometer machine controller.

The preferable speed of the CAN _1 network channel is 250Kbps, and a J1939 protocol is adopted; the rate of the CAN _2 network channel is 500Kbps, and a CANopen protocol is adopted; the rate of the CAN _3 network channel is 1Mbps, and a CANopen protocol is adopted; the rate of the Ethernet network channel is 10/100Mbps, and a TCP/IP protocol is adopted.

In this embodiment, the car networking gateway supports a 5G technology V2X car networking network, which may also be equipped with an IEEE802.3 interface, a DSPI interface, an eSCI interface, a CAN interface, an MLB interface, a LIN interface, and/or an I2C interface.

In this embodiment, for example, the IEEE802.3 interface may be used to connect to a wireless router to provide a WIFI network for the entire vehicle; the DSPI (provider manager component) interface is used for connecting a Bluetooth adapter and an NFC (near field communication) adapter and can provide Bluetooth connection and NFC connection; the eSCI interface is used for connecting the 4G/5G module and communicating with the Internet; the CAN interface is used for connecting a vehicle CAN bus; the MLB interface is used for connecting an MOST (media oriented system transmission) bus in the vehicle, and the LIN interface is used for connecting a LIN (local interconnect network) bus in the vehicle; the IC interface is used for connecting a DSRC (dedicated short-range communication) module and a fingerprint identification module. In addition, the application can merge different networks by mutually converting different protocols by adopting the MPC5668G chip.

In addition, the vehicle TBOX system, Telematics-BOX, of the present embodiment is simply referred to as a vehicle TBOX or a Telematics.

Telematics is a synthesis of Telecommunications and information science (information) and is defined as a service system that provides information through a computer system, a wireless communication technology, a satellite navigation device, and an internet technology that exchanges information such as text and voice, which are built in a vehicle. In short, the vehicle is connected to the internet (vehicle networking system) through a wireless network, and various information necessary for driving and life is provided for the vehicle owner.

In addition, Telematics is a combination of wireless communication technology, satellite navigation system, network communication technology and vehicle-mounted computer, when a fault occurs during vehicle running, the vehicle is remotely diagnosed by connecting a service center through wireless communication, and the computer built in the engine can record the state of main parts of the vehicle and provide accurate fault position and reason for maintenance personnel at any time. The vehicle can receive information and check traffic maps, road condition introduction, traffic information, safety and public security services, entertainment information services and the like through the user communication terminal, and in addition, the vehicle of the embodiment can be provided with electronic games and network application in a rear seat. It is easy to understand that, this embodiment provides service through Telematics, can make things convenient for the user to know traffic information, the parking stall situation that closes on the parking area, confirms current position, can also be connected with the network server at home, in time knows electrical apparatus running condition, the safety condition and guest's condition of visiting etc. at home.

The vehicle according to this embodiment may further include an Advanced Driver Assistance System (ADAS) that collects environmental data inside and outside the vehicle at the first time using the various sensors mounted on the vehicle, and performs technical processing such as identification, detection, and tracking of static and dynamic objects, so that a Driver can recognize a risk that may occur at the fastest time, thereby attracting attention and improving safety. Correspondingly, the ADAS of the present application may also employ sensors such as radar, laser, and ultrasonic sensors, which can detect light, heat, pressure, or other variables for monitoring the state of the vehicle, and are usually located on the front and rear bumpers, side view mirrors, the inside of the steering column, or on the windshield of the vehicle. It is obvious that various intelligent hardware used by the ADAS function can access the V2X car networking network by means of an ethernet link to implement communication connection and interaction.

The host computer of the present embodiment vehicle may comprise suitable logic, circuitry, and/or code that may enable operation and/or functional operation of the five layers above the OSI model (Open System Interconnection, Open communication systems Interconnection reference model). Thus, the host may generate and/or process packets for transmission over the network, and may also process packets received from the network. At the same time, the host may provide services to a local user and/or one or more remote users or network nodes by executing corresponding instructions and/or running one or more applications. In various embodiments of the present application, the host may employ one or more security protocols.

In the present application, the network connection used to implement the V2X car networking network may be a switch, which may have AVB functionality (Audio Video brightening, meeting the IEEE802.1 set of standards), and/or include one or more unshielded twisted pair wires, each of which may have an 8P8C module connector.

In a preferred embodiment, the V2X vehicle networking network specifically comprises a vehicle body control module BCM, a power bus P-CAN, a vehicle body bus I-CAN, a combination instrument CMIC, a chassis control device and a vehicle body control device.

In this embodiment, the body control module BCM may integrate the functions of the car networking gateway to perform signal conversion, message forwarding, and the like between different network segments, i.e., between the power bus P-CAN and the body bus I-CAN, for example, if a controller connected to the power bus needs to communicate with a controller connected to the body bus I-CAN, the body control module BCM may perform signal conversion, message forwarding, and the like between the two controllers.

The power bus P-CAN and the vehicle body bus I-CAN are respectively connected with a vehicle body control module BCM.

The combination instrument CMIC is connected with a power bus P-CAN, and the combination instrument CMIC is connected with a vehicle body bus I-CAN. Preferably, the combination meter CMIC of the present embodiment is connected to different buses, such as a power bus P-CAN and a vehicle body bus I-CAN, and when the combination meter CMIC needs to acquire controller information that is hung on any bus, it is not necessary to perform signal conversion and message forwarding through a vehicle body control module BCM, so that gateway pressure CAN be reduced, network load CAN be reduced, and the speed of acquiring information by the combination meter CMIC CAN be increased.

The chassis control device is connected with the power bus P-CAN. The vehicle body control device is connected with a vehicle body bus I-CAN. In some examples, the chassis control device and the body control device CAN respectively broadcast data such as information to the power bus P-CAN and the body bus I-CAN, so that other vehicle-mounted controllers and other devices hung on the power bus P-CAN or the body bus I-CAN CAN acquire the broadcast information, and communication between the vehicle-mounted devices such as different controllers is realized.

In addition, the V2X car networking network of the vehicle of the embodiment may use two CAN buses, i.e., a power bus P-CAN and a car body bus I-CAN, and use the car body control module BCM as a gateway, and a structure that the combination meter CMIC is connected to both the power bus P-CAN and the car body bus I-CAN, so that an operation that information of the chassis control device or the car body control device is forwarded to the combination meter CMIC through the gateway when the combination meter CMIC is hung on one of the two buses in the conventional manner CAN be omitted, thereby reducing the pressure of the car body control module BCM as a gateway, reducing network load, and more conveniently sending information of vehicle-mounted devices hung on the plurality of buses, e.g., the power bus P-CAN and the car body bus I-CAN, to the combination meter CMIC for display and with strong information transmission real-time.

Next, the present application can be implemented by the following principle and user scenario:

after the user selects a certain type of interest point content to offer the vehicle equipment for searching, when a search result exceeds an option, preferentially judging whether POI in the list is selected by the user or not;

if a certain option is selected once, continuing to judge the previous evaluation of the option by the user, if the previous evaluation of disliked the option is made, putting the option into a queue displayed at low priority of the list, and if the previous evaluation of liking the option is made/the option is selected for multiple times or no evaluation is made, putting the option into a queue displayed at high priority of the list;

judging the historical preference of the user, and sorting other contents in the list according to the historical preference of the user;

and finally, according to the sequence of the user selection times/evaluation contents and the like, the display priority sequence of the contents in the sequence list is ranked again, and the contents are displayed according to the sequence of user preference > other unselected options > user dislike.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being included within the following description of the preferred embodiment.

Claims (10)

1. A personalized vehicle equipment interest point searching and displaying method is characterized by comprising the following steps:

the vehicle-mounted equipment receives interest point information input by a user;

acquiring the interest point information, and searching a target interest point which is consistent with the interest point information in map data according to the interest point information;

the searched target interest points are prioritized by using the individual hobbies of the user;

and displaying the prioritized target interest points to a user in a preset mode.

2. The method for searching and displaying the interest points of the personalized vehicle-mounted equipment according to claim 1, wherein the step of displaying the target interest points which are subjected to the priority ranking to the user in a predetermined manner specifically comprises the following steps:

displayed to the user in different colors and/or different brightnesses.

3. The method for searching and displaying the points of interest of the personalized vehicle-mounted equipment according to claim 2, wherein the step of prioritizing the searched target points of interest by using the personal hobbies of the user specifically comprises:

acquiring historical data of a user, wherein the historical data comprises selection times, evaluation times and/or evaluation content;

analyzing personal hobbies of the user according to the historical data;

and using the individual hobbies as a screening rule to perform priority ranking on the target interest points.

4. The method for searching and displaying the interest points of the personalized vehicle-mounted equipment according to claim 2, wherein the step of searching the map data for the target interest points which are consistent with the interest point information according to the interest point information specifically comprises the following steps:

and the vehicle-mounted equipment displays the searching process of the interest points on the map in a dynamic scanning mode according to the interest point information.

5. The method for searching and displaying the points of interest of the personalized vehicle-mounted device according to claim 4, wherein the step of displaying the searching process of the points of interest on the map in a dynamic scanning manner by the vehicle-mounted device according to the information of the points of interest further comprises:

providing a plurality of dynamically scanned models, and providing the plurality of dynamically scanned models for personalized selection by a user.

6. The method for searching and displaying the points of interest of the personalized vehicle-mounted equipment according to claim 5, wherein the provided multiple dynamic scanning models comprise a radar-like circular rotation scanning model, a radar-like fan-shaped swinging scanning model, a circular scanning model diffusing from the center to the circumference and a fan-shaped scanning model diffusing from the center to the outside.

7. The method for searching and displaying the points of interest of the personalized vehicle-mounted device according to claim 4, wherein the vehicle-mounted device highlights the corresponding target points of interest on the map in a predetermined manner during the searching process of displaying the points of interest on the map in a dynamic scanning manner.

8. The method for searching and displaying the interest points of the personalized vehicle-mounted equipment according to claim 7, wherein after the step of displaying the target interest points which are prioritized to the user in a predetermined manner, the method further comprises:

providing an option event which can be navigated to the target interest point in real time, wherein when a user triggers the option event, a navigation path pops up for navigation;

and/or pushing the navigation route to another vehicle device and a cloud server, wherein the connection modes between the vehicle device and the another vehicle device and the cloud server comprise a WIFI network, a Zigbee network, a 3G communication network, a 4G communication network and/or a 5G communication network.

9. The in-vehicle device is characterized by comprising a memory and a processor, wherein the memory stores a computer program, and the processor is used for executing the computer program to realize the steps of the personalized in-vehicle device interest point searching and displaying method according to any one of claims 1 to 8.

10. A vehicle characterized by being provided with the in-vehicle machine apparatus as claimed in claim 9.

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