CN109031354B - Scenic spot service system and scenic spot service method - Google Patents

Abstract

The invention relates to the field of tourism service, and particularly provides a scenic spot service system and a scenic spot service method. An analysis module of the scenic spot service system analyzes and determines a scenic spot viewing range according to geographical data and reference data of the scenic spot, and an output module outputs scenic spot line data according to the scenic spot viewing range and the reference data; and the interaction module is used for updating the reference data, the reference data comprises a scenic spot route deviation reflecting a deviation value of the scenic spot route data and an actual viewing route, and the scenic spot service system is favorable for realizing dynamic adjustment of a scenic spot viewing range and the scenic spot route data. The scenic spot service method provided by the invention can adjust one or more of the scenic spot viewing range, the electronic navigation range, the scenic spot route data and the electronic navigation data by updating the reference data, and has the same or similar advantages as the scenic spot service system.

Description

Scenic spot service system and scenic spot service method

Technical Field

The invention relates to the field of tourism service, in particular to a scenic spot service system and a scenic spot service method.

Background

With the development of economic society, traveling has become an important part of people's life. In order to provide high-quality and diversified tour services, many scenic spots provide electronic interpreters, and usually, RFID tags are respectively provided as transmitting terminals at a plurality of locations in the scenic spot, and receiving terminals corresponding to the transmitting terminals are provided on the electronic interpreters, so that when a visitor reaches the vicinity of a certain RFID tag with such an electronic interpreter, the visitor can receive information of the RFID tag, and can play an explanation corresponding to the RFID tag.

However, the current electronic explaining device has a simple structure, the playing range and the playing content are relatively fixed, and the playing range and the playing angle may deviate from the actual viewing range and viewing angle, and cannot be adjusted in time according to the using condition of the guest and other factors (such as weather, festivals and the like). In addition, although the scenic spot can be located by using a Global Positioning System (GPS), generally, only a regular or rough range can be divided as an observation range by using GPS positioning, and for a scenic spot with a large range or a special terrain, the viewing range of the scenic spot defined by the GPS positioning data is deviated from an actual preferred viewing range. Therefore, the existing electronic tour service cannot meet the requirements of people for high-quality and personalized tour service, and needs to be improved.

Disclosure of Invention

The invention provides a scenic spot service system and a scenic spot service method aiming at the problems caused by simple structure, fixed playing range and playing content of the existing electronic explaining device and the problem that the scenic spot range determined according to GPS positioning data has deviation with an actual better watching range, and aims to provide more accurate tour route information for tourists and provide accurate electronic tour guide service in the touring process of the tourists.

According to an aspect of the present invention, there is provided a scenic spot service system including: the analysis module analyzes and determines the viewing range of the scenic spot according to the geographic data and the reference data of the scenic spot; the output module outputs scenic spot line data according to the scenic spot viewing range and the reference data; and an interaction module for updating the reference data; wherein the reference data includes a scenic spot route deviation reflecting a deviation value of the scenic spot route data from an actual viewing route.

Optionally, the geographic data includes map information and/or GPS positioning information of the scenic spot.

Optionally, the analysis module further analyzes and determines an electronic navigation range of the scenic spot according to the scenic spot viewing range and the reference data; and the output module also outputs the electronic navigation data according to the electronic navigation range and the reference data.

Optionally, the viewing range of the scenic spot is greater than or equal to the electronic navigation range.

Optionally, the reference data further includes meteorological data; the scenic spot route data comprises a plurality of groups of scenic spot route data classified according to the meteorological data, and/or the electronic navigation data comprises a plurality of groups of electronic navigation data classified according to the meteorological data.

Optionally, the scenic spot service system further includes a storage module, and the storage module is configured to store the geographic data, the scenic spot route data, and the electronic navigation data.

Optionally, the scenic spot service system is wirelessly connected to a receiving device, the receiving device obtains the scenic spot line data and/or the electronic navigation data, the receiving device includes a display module and/or a voice playing module, the display module is configured to display the scenic spot line data, and the voice playing module is configured to play the electronic navigation data.

Optionally, the receiving device further includes a GPS positioning module, where the GPS positioning module is configured to determine a location of the receiving device; when the receiving device is located in the viewing range of the scenic spot, the output module outputs the scenic spot line data to the receiving device, and/or when the receiving device is located in the electronic navigation range, the output module outputs the electronic navigation data to the receiving device.

Optionally, the reference data further includes a navigation deviation reflecting a deviation value of the electronic navigation range from an actual viewing angle and/or a deviation value of the electronic navigation data from an actual viewing effect.

Optionally, after acquiring the scenic spot route data and/or the electronic navigation data, the receiving device sends evaluation content of the scenic spot route data and/or the electronic navigation data to the interaction module, where the evaluation content reflects the scenic spot route deviation and/or the navigation deviation, and the interaction module processes the evaluation content to update the reference data.

Optionally, the receiving device is a mobile phone.

Optionally, the scenic spot includes one or more scenic spots, the geographic data includes scenic spot geographic data corresponding to the scenic spots, the reference data includes scenic spot reference data corresponding to the scenic spots, and an initial value of the scenic spot reference data is 0.

According to another aspect of the present invention, the present invention further provides a scenic spot service method, including the steps of: analyzing and determining the viewing range of the scenic spot according to the geographic data and the reference data of the scenic spot; outputting corresponding scenic spot line data according to the scenic spot viewing range and the reference data; and updating the reference data; wherein the reference data includes a scenic spot route deviation reflecting a deviation value of the scenic spot route data from an actual viewing route, and an initial value of the reference data is 0.

Optionally, when analyzing and determining the viewing range of the scenic spot according to the geographic data and the reference data of the scenic spot, the scenic spot service method further includes: and analyzing and determining an electronic navigation range according to the scenic spot viewing range and the reference data.

Optionally, when outputting corresponding scenic spot line data according to the scenic spot viewing range and the reference data, the scenic spot service method further includes: and outputting corresponding electronic navigation data according to the electronic navigation range and the reference data.

According to the scenic spot service system provided by the invention, the analysis module analyzes and determines the viewing range of the scenic spot according to the geographic data and the reference data of the scenic spot, the output module outputs corresponding line data according to the scenic spot viewing range and the reference data, the reference data comprises scenic spot line deviation reflecting the deviation value of the line data and an actual viewing line, and the interaction module can update the reference data, so that the dynamic adjustment of the scenic spot viewing range and the scenic spot line data is favorably realized.

Furthermore, the analysis module can analyze and determine the electronic navigation range of the scenic spot according to the scenic spot viewing range and the reference data, and the output module can output the electronic navigation data according to the electronic navigation range and the reference data, so that the dynamic adjustment of the electronic navigation range and the electronic navigation data can be realized.

Further, the scenic spot service system may be wirelessly connected to a receiving device, and after the receiving device acquires the line data and the electronic navigation data, the evaluation content of the scenic spot route data and/or the electronic navigation data, which reflects the scenic spot route deviation and/or the navigation deviation, may be transmitted to an interaction module, for example, the rating content may comprise a scenic route deviation in relation to scenic route data and/or a navigation deviation in relation to an electronic navigation range and said electronic navigation data, the interaction module may process said rating content to update said reference data, thereby being helpful for the scenic spot service system to timely and accurately obtain the feedback information of the provided tour service, and the output is optimized through the reference data which is dynamically updated, which is beneficial to improving the service quality and level. The receiving device can be a mobile phone of the tourist, and not only is the improvement of the service facilitated by widely acquiring the feedback of the tourist in real time, but also the interactivity of the tourist can be increased, the satisfaction of the tourist is improved, and the precision and the individuation of the touring service are facilitated to be realized.

The scenic spot service method provided by the invention analyzes and determines the viewing range of the scenic spot according to the geographic data and the reference data of the scenic spot; outputting corresponding scenic spot line data according to the viewing range and the reference data; and updating the reference data so as to output updated scenic spot line data. Therefore, the scenic spot service method is beneficial to realizing the dynamic adjustment of the scenic spot viewing range and the scenic spot line data, and has the advantages of being the same as or similar to the scenic spot service system.

Drawings

Fig. 1 is a schematic diagram of a scenic spot service system according to an embodiment of the present invention.

Fig. 2 is a schematic view of a scenic spot viewing range, an electronic navigation range, and electronic navigation data according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a scenic spot viewing range, and scenic spot route data according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of the scenic spot service system adjusting scenic spot line data and electronic navigation data according to the embodiment of the present invention.

Fig. 5 is a schematic diagram of a mobile device acquiring scenic spot route data and/or electronic navigation data and evaluating the same according to an embodiment of the present invention.

Fig. 6 is a flowchart of a scenic spot service method according to an embodiment of the present invention.

Description of reference numerals:

100-scenic spot service system; 110-an analysis module; 120-an output module; 130-an interaction module; 140-a storage module; 200-a receiving device.

Detailed Description

The scenic spot service system and the scenic spot service method of the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more apparent from the following description. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention. Meanwhile, the terms used herein are for the purpose of illustrating embodiments and are not intended to limit the present invention. In this specification, the singular forms should be understood to include the plural forms unless otherwise specified. The use of the terms "comprising" and/or "including" in the specification does not preclude the addition of one or more other compositions, components, steps, operations and/or elements to the specified compositions, components, steps, operations and/or elements.

Furthermore, "unit" or "module" as used herein generally refers to a component of the present invention, such as logically separable software (computer program), hardware, or an equivalent component. Thus, the units in the embodiments of the present invention include not only units in a computer program but also units in a hardware configuration. Thus, this embodiment can also be used as a description of a computer program containing instructions, which can be a program for executing each step in a computer, a program for forming a computer function into each tool, or a program for causing a computer to realize each of the functions, systems, or methods, wherein the computer program starts "unit" or "module". For convenience of description, although terms "store", "stored", or the like may be used as used herein, these terms refer to a computer program that is stored or controlled to be stored in a storage device in the case of a program. Although the respective "modules" and "units" may be configured to have a substantially one-to-one correspondence relationship with functions, in actual time, a single module may be configured to have a single program, a plurality of modules may be configured to have a single program or a single module may be configured to have a plurality of programs. In a distributed or parallel environment, multiple modules may be executed by a single computer or a single module may be executed by multiple computers. A single module may include additional modules.

As used herein, the term "apparatus" and/or "system" may include a plurality of computers, hardware, apparatuses, etc. interconnected by a communication unit, such as a network, having a one-to-one corresponding communication connection, or a single computer, hardware, apparatus, etc. having a process for implementing the invention.

Further, for each process, whether a single process is performed by each module or unit or a plurality of processes are performed by each module or unit, the target information is read from a storage device such as a memory, and the result of the process is written to the storage device after the process is completed. Therefore, there are cases in the description where the description of reading from the storage device before the process and writing to the storage device after the process can be omitted. The storage device described herein may include a hard disk, a Random Access Memory (RAM), an external storage medium, a storage device via a communication line, a register in a Central Processing Unit (CPU), and the like.

Through intensive research, the existing electronic explaining device for the tour service is found to have deviation with a real watching route (or watching angle and effect) in the tour process of a tourist, so that the watching experience of the tourist is influenced, and the service experience of the tourist is poor. Specifically, on the one hand, for tourists unfamiliar with terrain, some large scenic spots, such as the west lake scenic spot, are time-consuming and labor-consuming if they visit according to the scenic spot range displayed on the map, and if only a partial range (or scenic spot) of the scenic spot is selected for visiting, the tourists can save time and improve the visiting service experience, but at present, a system or a tool for providing an optional viewing route by considering the time or the preference of the tourists is lacked; on the other hand, many scenic spots include a plurality of next-level characteristic scenic spots, such as Huangshan scenic spots, scenic spots with interior lotus peaks and other scenic spots, because of the special terrain, the actual viewing range of the characteristic scenic spots is not an annular range with the scenic spots as the center, but better viewing experience can be obtained only in certain specific routes or specific viewing angles, although the current explanation service can play an electronic explanation in a circular range with the scenic spots as the center, the electronic explanation often deviates from the actual viewing angle or viewing route; on the other hand, also taking the west lake scenic spot and the yellow mountain scenic spot as examples, the natural landscapes of these scenic spots may change in different climatic conditions, such as with the change of the climatic conditions such as season, cloud and fog, etc., the preferred viewing range or landscape features may also change, but at present, electronic tour services (such as tour route recommendation, electronic feature explanation, etc.) considering the climatic conditions are lacked; in addition, the scenic spot map that the visitor looked over among the prior art or the electronic explanation content that receives are relatively fixed, to scenic spot management side, it is difficult to obtain the evaluation and the feedback of visitor in the use from big data angle from this, then also be difficult to make the adjustment to the touring service fast to influence the promotion of touring service, and to visitor side, the electronic touring service in current scenic spot lacks interactive experience, can not satisfy its demand to individualized, high-quality touring service.

Through the intensive research on the defects of the conventional scenic spot visiting service, the scenic spot service system and the scenic spot service method provided by the invention can provide relatively accurate visiting route data for tourists and relatively accurate electronic visiting guide service in the visiting process of the tourists.

The following first describes the scenic spot service system of the present invention with reference to an embodiment. Fig. 1 is a schematic diagram of a scenic spot service system according to an embodiment of the present invention. Referring to fig. 1, a scenic spot service system 100 of an embodiment of the present invention includes the following modules:

the analysis module 110, the analysis module 110 analyzes and determines the viewing range of the scenic spot according to the geographic data and the reference data of the scenic spot; the output module 120, the output module 120 outputs the corresponding scenic spot line data according to the scenic spot viewing range and the reference data; and an interaction module 130 for updating the reference data; the reference data includes a scenic spot route deviation reflecting a deviation value of the scenic spot route data from an actual viewing route.

In particular, the geographical data of a scene may be determined by the geographical conditions of the scene, the geographical data may comprise map information and/or GPS positioning information of the scene, for example, the geographical data of a scene may comprise longitude and latitude values at which map boundaries of the scene are located, and the geographical data of a scene may be a variable parameter, for example, which needs to be modified when the scene is expanded or reduced, a particular sight is filled in or stripped from the scene.

The analysis module 110 can analyze and determine a viewing range of the scenic region corresponding to the scenic region according to the geographic data of the scenic region and the reference data. The term "reference data" as used herein refers to some or all of the influencing factors when the analysis module analyzes and determines the viewing range of the scenic spot. Specifically, when the analysis module 110 obtains the initial value of the viewing range of the scenic spot, the reference data may not be added, that is, the initial value of the reference data is defined as 0. The geographic data and reference data may be obtained by manual input or by other modules within the scenic spot services system 100. The viewing range of the scenic spot can be expressed by longitude and latitude data, or can be expressed by distance data in a coordinate system (with a relatively fixed origin). Specifically, the initial value of the viewing range of the scenic spot may be the same as the range covered by the GPS positioning data of the scenic spot.

In some embodiments of the present invention, after obtaining the viewing area of the scenic region, the analysis module 110 further analyzes and determines an electronic navigation area of the scenic region according to the viewing area of the scenic region and the reference data, where "the electronic navigation area" refers to an area where the speech explanation is played. The scenic spot viewing range may include an area within the scenic spot that is not explained, and the electronic navigation range is preferably smaller than or equal to the scenic spot viewing range for the purpose of specifically explaining some distinctive sights (areas) of the scenic spot. In some embodiments, the scenic spot service system may automatically output the electronically navigated information only in certain areas that are less than or equal to the viewing area of the scenic spot.

Taking the Huangshan scenic spot as an example, the analysis module 110 may use the GPS positioning data of the Huangshan scenic spot or the data of the Huangshan scenic spot in a position coordinate system as the geographic data of the Huangshan scenic spot to obtain an initial value of the viewing range of the scenic spot, and further may use an area smaller than or equal to the viewing range of the scenic spot (e.g., a hot area of the scenic spot) as an initial value of the electronic navigation range.

The geographical data of the scenic spot may include road information within the scenic spot, so that, after the analysis module 110 obtains the scenic spot viewing range, the output module 120 may output scenic spot route data according to the scenic spot viewing range and the reference data, where the "scenic spot route data" refers to tour route information within the scenic spot. Specifically, the output form of the scenic spot route data may be text, voice, graphics, or identification on a map.

In some embodiments, the output module 120 further outputs the electronic navigation data within the electronic navigation range through the electronic navigation range obtained by the analysis module 110 and the reference data. Fig. 2 is a schematic view of a scenic spot viewing range, an electronic navigation range, and electronic navigation data according to an embodiment of the present invention. Here, "electronic navigation data" refers to multimedia data that can be played within the above-mentioned electronic navigation range, such as various playable audio files or video files. And, within an electronic navigation range, there may be a plurality of electronic navigation data, such as electronic navigation data 1, electronic navigation data 2, electronic navigation data 3, etc., which can be played. The scenic spot route data and/or the electronic navigation data output by the output module 120 may be displayed or played through a display or a terminal. The output method of the output module 120 can be implemented by those skilled in the art with reference to the disclosed technology, and is not described herein again.

In some embodiments of the invention, the scenic spot may include one or more next level sights, such as sight 1, sight 2, sight 3, etc., where "sight" refers to a more independent or distinctive landscape within the scenic spot. Taking the Huangshan scenic spot as an example, the interior of the Huangshan scenic spot also comprises a plurality of famous scenic spots, such as lotus peak, Guangming top, and Tiandu peak. Therefore, the geographic data of the scenic spot may further include scenic spot geographic data corresponding to one or more next scenic spots, the reference data may include scenic spot reference data corresponding to one or more next scenic spots, the analysis module 110 may further determine a scenic spot viewing range corresponding to a specific one or more scenic spots according to the scenic spot geographic data and the scenic spot reference data, and the output module 120 may further output corresponding scenic spot line data according to the scenic spot viewing range and the scenic spot reference data, that is, the scenic spot line data may include one or more scenic spot line data corresponding to a certain scenic spot, and the scenic spot line data may be route data of a certain scenic spot. In order to obtain the initial value of the sight viewing range and the initial value of the sight path data, the initial value of the sight reference data may be defined as 0. For a certain sight spot, the analysis module 110 may further analyze and determine a sight spot electronic navigation range corresponding to the sight spot through the corresponding sight spot viewing range and the sight spot reference data, and the output module 120 may further output specific sight spot electronic navigation data according to the sight spot electronic navigation range and the sight spot reference data, where the sight spot electronic navigation data may be an audio file or a video file for introducing the sight spot. Fig. 3 is a schematic diagram of a scenic spot viewing range, and scenic spot route data according to an embodiment of the present invention. It will be understood by those skilled in the art that in other embodiments, the scenic spot of the present invention can be regarded as a scenic spot, and the scenic spot can be regarded as a specific scenic spot, so that the following description of the scenic spot service system and the scenic spot service method can also be used for the description of the scenic spot service system and the scenic spot service method.

The scenic spot service system of the embodiment of the present invention may further include a storage module 140 for storing the geographic data, the scenic spot route data, the electronic navigation data, and the like. Specifically, the storage module 140 may also store GPS positioning data, the latest map, and the like of the same scenic spot.

The output module 120 of the embodiment of the present invention outputs the scenic spot line data within the scenic spot viewing range and/or outputs the electronic navigation data within the electronic navigation range, which aims to provide route information and electronic navigation (or explanation) services for tourists to visit the scenic spot, thereby improving the visiting effect and the satisfaction of the tourists in service. It should be understood by those skilled in the art that the acquisition of the scenic spot line data and the electronic navigation data may also be not limited to the scenic spot viewing range or the electronic navigation range, for example, in some embodiments, before or after the tour, the tourist may actively view one or more of the scenic spot viewing range, the electronic navigation range, the scenic spot line data and the electronic navigation data outside the scenic spot viewing range through a receiving device wirelessly connected to the scenic spot service system; in the process of touring, the tourists can automatically acquire the scenic spot line data and the electronic navigation data by sharing the position information of the receiving device. In some embodiments, the tourist can also view or automatically acquire the scenic spot viewing range and/or the electronic navigation range.

The initial values (or the values before optimization) of the viewing range and the electronic navigation range obtained by the analysis module 110 may deviate from the actual viewing conditions (such as viewing angle, viewing range, viewing effect, etc.), and thus, the viewing route data and/or the electronic navigation data output by the output module 120 may deviate from the actual viewing conditions. Still taking the Huangshan scenic spot as an example, because of the special terrain, in the annular range taking a characteristic scenic spot as a radius, the scenic colors appreciated in different directions are different, the tour route obtained around the annular range cannot help the tourist see satisfactory scenic colors, or the electronic tour data played in the electronic tour range is not consistent with the scenic colors appreciated by the position of the tourist, which leads to the deterioration of service experience. To overcome this problem, the scenic spot service system of the embodiment of the present invention optimizes the working effects of the analysis module 110 and the output module 120 by adding and updating reference data.

Specifically, the scenic spot service system 100 of the embodiment of the present invention further includes an interaction module 130, configured to update the reference data. After obtaining the updated reference data, the interaction module 130 may transmit the reference data to the analysis module 110, the output module 120, and the storage module 140, so as to adjust one or more of the aforementioned scenic viewing range, electronic navigation range, scenic route data, and electronic navigation data.

Fig. 4 is a schematic diagram of the scenic spot service system adjusting scenic spot line data and electronic navigation data according to the embodiment of the present invention. The process of the scenic spot service system 100 adjusting the scenic spot line data and the electronic navigation data will be described below with reference to fig. 4.

The interaction module 130 can be interactively connected to the outside or inside of the scenic spot service system 100 to obtain data, for example, the interaction module 130 can be connected to a network system at a previous stage or other modules in the scenic spot service system 100 to obtain data, and the interaction module 130 can also be connected to a receiving device or terminal connected to the scenic spot service system 100 to obtain scenic spot route data and/or deviation data of electronic navigation data from actual viewing conditions, and process the deviation data to update the reference data.

In embodiments of the present invention, the reference data includes a scenic spot route deviation reflecting a deviation value of the scenic spot route data from an actual viewing route, for example, data information such as "far away", "far left", "50 m below", and in some embodiments, the reference data further includes a navigation deviation reflecting a deviation value of the electronic navigation range from an actual viewing angle and/or a deviation value of the electronic navigation data from an actual viewing effect, for example, data information such as "far away", "far left", "30 m east south", "cannot be seen", "does not correspond to a scenic spot". When the initial values of the scenic spot route data and the electronic navigation data are acquired, the above-mentioned scenic spot route deviation and the initial value of the navigation deviation may be defined as 0.

After the output module outputs the initial values of the scenic spot line data and/or the electronic navigation data, the scenic spot service system 100 may determine whether to update the reference data according to a certain time interval or as needed, and if it is determined that the reference data is updated, the interaction module 130 updates the above-mentioned scenic spot route deviation and the navigation deviation, to update the reference data, the analysis module 110 analyzes and determines a new viewing area of the scenic spot according to the latest geographic data of the scenic spot and the updated reference data, optionally, the analysis module 110 may further analyze and determine a new electronic navigation range of the scenic spot according to the new scenic spot viewing range and the updated reference data, the output module 120 outputs new scenic spot route data according to the new scenic spot viewing range and the new reference data, optionally, the output module 120 may also output new electronic navigation data according to the new electronic navigation range and the new reference data; if not, the output module 120 maintains the last output. The above adjustment process for the scenic spot route data and the electronic navigation data may be performed in a plurality of cycles.

The reference data may also include meteorological data, where the "meteorological data" includes various meteorological information that may affect the viewing experience of tourists, such as season and weather forecast, for example, in some weather conditions with poor visibility, the analysis module 110 may analyze and determine a safer or better viewing range of the scenic region and an electronic navigation range with reference to the meteorological data, and the output module 120 may select and output scenic region route data and/or electronic navigation data that are safer or match with the weather conditions with reference to the meteorological data.

The reference data may also include other referenceable factors, such as human activities like major holidays, which may have different effects on the viewing area and the electronic navigation area of the scenic spot, and further, the selectable scenic spot route data and/or electronic navigation data may be different, and thus may also be considered to be added to the reference data.

The reference data is not limited to the above factors, and one skilled in the art can select a combination of one or more factors as the reference data according to the scene (sight) and the actual situation of the tour content. By updating the reference data including one or more of the factors such as the scenic spot route deviation, the navigation deviation, and the weather data, the scenic spot viewing range acquired by the analysis module 110 can be adjusted and optimized, and further the electronic navigation range can be adjusted and optimized, the scenic spot route data and/or the electronic navigation data output by the output module 120 are/is more accurate, and the accuracy of the scenic spot route data and the electronic navigation data output by the output module 120 can be improved.

The scenic spot route data and/or electronic navigation data stored by the storage module 140 may be more than one set. The scenic spot route data can be more than one group for the same scenic spot viewing range, for example, the scenic spot route data can comprise a plurality of groups of scenic spot route data classified according to meteorological data; alternatively, the electronic navigation data may be more than one set for the same electronic navigation range, for example, may include a plurality of sets of electronic navigation data classified according to weather data.

The reference data may be obtained through manual input or feedback from one end of the scenic spot route data and/or the electronic navigation data output by the receiving and outputting module 120. Referring to fig. 1, in some embodiments of the present invention, the scenic spot service system 100 may establish a wired or wireless (e.g., internet) connection with one or more receiving devices 200, so that the receiving devices 200 can obtain the scenic spot line data and/or electronic navigation data. The receiving device 200 may be a portable electronic device such as a mobile phone, a tablet computer, a notebook computer, a PDA, and a player, for example, and the receiving device 200 may be a relatively fixed display (or playback) device such as a desktop monitor and a television.

The receiving device 200 includes a display module for displaying the aforementioned scenic spot line data and/or a voice playing module for playing the aforementioned electronic navigation data.

Further, the receiving device 200 may further evaluate the acquired scenic spot route data and/or electronic navigation data and transmit the evaluated data to the scenic spot service system 100, and specifically, the evaluation transmitted by the receiving device 200 may be related to the above reference data, for example, include content reflecting route deviation and/or navigation deviation, so that the interaction module 130 may process the evaluation content transmitted by the receiving device 200 to update the reference data. The receiving means 200 is preferably owned by the visitor to the scenic spot to update the reference data by the visitor's feedback to optimize one or more of the scenic viewing range, the scenic route data, the electronic navigation range, and the electronic navigation data.

The receiving device 200 may also include a GPS location module for determining the geographic location of the receiving device 200. For example, a guest may install a client corresponding to the scenic spot service system 100 on a mobile phone, and after the receiving apparatus 200 is wirelessly connected to the scenic spot service system 100, the guest may select an automatic navigation mode and share the location information of the receiving apparatus 200. During the tour, for example, when the receiving device 200 is located within the viewing area of the scenic spot, the output module 120 outputs the scenic spot line data to the receiving device 200 to facilitate the tourists to select the tour route, and/or when the receiving device 200 is located within the electronic tour guide range, the output module 120 outputs the electronic tour guide data to the receiving device 200 to facilitate the tourists to listen to the speech explanation in real time during the tour.

Fig. 5 is a schematic diagram of a mobile device acquiring scenic spot route data and/or electronic navigation data and evaluating the same according to an embodiment of the present invention. Referring to fig. 1 and 5, the receiving apparatus 200 acquiring the scenic spot route data and/or the electronic navigation data and evaluating may include the following processes: firstly, the receiving device 200 is wirelessly connected with the scenic spot service system 100, for example, a corresponding client program is installed on a mobile phone, and is connected with the scenic spot service system 100 through the internet; secondly, the receiving device 200 obtains the scenic spot line data and/or the electronic navigation data, for example, the scenic spot line data is viewed and the electronic navigation data is played through a mobile phone; then, the user of the reception apparatus 200 (preferably, a visitor) can interact with the scenic spot service system 100 according to the experience of using the acquired data, for example, the visitor can choose to evaluate or not evaluate the acquired data, and if the evaluation is performed, the user can evaluate whether the acquired scenic spot route data and/or electronic navigation data deviate from the actual viewing route (or viewing angle, viewing effect), and transmit the evaluated and suggested contents to the scenic spot service system 100, and the evaluation contents of the visitor can include the scenic spot route deviation and/or navigation deviation.

On the side of the scenic spot service system 100, the interaction module 130 may perform analysis processing on the content transmitted through the reception apparatus 200 to update the reference data. Regarding the data transmission method between the scenic spot service system 100 and the receiving device 200, those skilled in the art can refer to the disclosed technology and will not be described herein. Those skilled in the art will readily understand that the evaluation process of the scenic spot line data and/or electronic navigation data is not limited to be performed in the scenic spot, and for example, before, during or after the visit of the tourist, the tourist can open a client corresponding to the scenic spot service system 100 installed on the mobile phone, autonomously view the scenic spot line data and/or electronic navigation data, and perform the evaluation.

The scenic spot service system 100 has the following technical effects:

firstly, the scenic spot can provide scenic spot line data for tourists through the output module, and the reference data is updated through the interaction module, so that the dynamic adjustment of the scenic spot viewing range and the scenic spot line data is favorably realized.

Secondly, the analysis module can analyze and determine the electronic navigation range of the scenic spot according to the scenic spot viewing range and the reference data, and the output module can select and output proper electronic navigation data according to the electronic navigation range and the reference data, so that the reference data is updated through the interaction module, the dynamic adjustment of the electronic navigation range and the electronic navigation data of the scenic spot is favorably realized, and the output process of navigation (explanation) content is optimized.

And for a scenic spot comprising one or more scenic spots, the analysis module and the output module can also acquire a scenic spot viewing range, a scenic spot electronic navigation range, scenic spot route data and scenic spot electronic navigation data corresponding to the scenic spots, and dynamically adjust one or more of the scenic spot viewing range, the scenic spot electronic navigation range, the scenic spot route data and the scenic spot electronic navigation data corresponding to the scenic spots by updating the scenic spot reference data corresponding to the scenic spots through the interaction module. For two scenic spots with close distances, the initial scenic spot viewing ranges and electronic scenic spot navigation ranges may overlap, which results in inaccurate route pushing or navigation, and the scenic spot service system of the embodiment of the invention can update the reference data including route deviation and/or navigation deviation through the interaction module, so as to optimize the respective scenic spot viewing ranges and electronic navigation ranges of the two scenic spots.

In addition, the scenic spot service system can be wirelessly connected with a receiving device, and after the receiving device acquires the scenic spot line data and the electronic navigation data, the receiving device can transmit related evaluation contents to the scenic spot service system, wherein the evaluation contents can comprise route deviation related to the scenic spot line data and/or navigation deviation related to the electronic navigation range and the electronic navigation data, and the like, so that the scenic spot service system can timely and accurately obtain feedback of the provided navigation service, and the output is optimized through dynamically updated reference data, and the quality and level of service can be improved.

The receiving device can be a mobile phone of the tourist, and not only is the improvement of the service facilitated by widely acquiring the feedback of the tourist in real time, but also the interactivity of the tourist can be increased, the satisfaction of the tourist is improved, and the precision and the individuation of the touring service are facilitated to be realized.

The embodiment of the invention also comprises a scenic spot service method, and fig. 6 is a flow chart of the scenic spot service method of the embodiment of the invention. Referring to fig. 6, a scenic spot service method of an embodiment of the present invention includes the following steps:

s1: analyzing and determining the viewing range of the scenic spot according to the geographic data and the reference data of the scenic spot;

s2: analyzing and determining an electronic navigation range according to the scenic spot viewing range and the reference data;

s3: outputting corresponding scenic spot line data according to the scenic spot viewing range and the reference data, and outputting corresponding electronic navigation data according to the electronic navigation range and the reference data;

s4: the reference data is updated.

Wherein the reference data includes a scenic spot route deviation, which is a deviation value of the scenic spot route data from an actual viewing route. The reference data may further include a navigation deviation reflecting a deviation value of the electronic navigation range from an actual viewing angle and/or a deviation value of the electronic navigation data from an actual viewing effect.

Specifically, step S1 can be executed by the analysis module 110 to analyze and determine the viewing range of the scenic region according to the geographic data and the reference data of the scenic region. For example, the geographic data may be GPS positioning data of the scene or data in a geographic coordinate system, and the initial value of the reference data may be 0, i.e., the reference data may not be considered when the analysis module and the output module are first run.

The step S2 can also be executed by the analysis module 110 to analyze and determine the electronic navigation range corresponding to the scenic region according to the scenic region viewing range and the reference data. Preferably, the viewing range of the scenic spot is greater than or equal to the electronic navigation range.

The step S3 can be executed by the output module 120 to output the corresponding scenic spot route data according to the scenic spot viewing range and the reference data, and output the corresponding electronic navigation data according to the electronic navigation range and the reference data. For example, a receiving device 200 located outside the scenic spot service system 100 can be connected with the scenic spot service system 100 in a wired or wireless manner to acquire the scenic spot line data and/or the electronic navigation data.

The step S4 may be performed by the interaction module 130 to update the reference data, for example, the interaction module 130 may obtain the content fed back by the receiving apparatus 200, perform processing to update the reference data, and perform the steps S1 to S3 by using the updated reference data, so as to implement dynamic adjustment of one or more of the viewing range, the electronic navigation range, the line data of the scenic spot, and the electronic navigation data, which is beneficial to optimizing the navigation service.

The reference data may also include climate data, human activity data, and the like. For a scenic spot comprising a plurality of sights, corresponding to each sight, the geographic data may further comprise sight geographic data corresponding to the sight, the reference data further comprises sight reference data corresponding to the sight, the sight spot viewing range corresponding to the sight spot can be determined according to the sight spot geographic data and the sight spot reference data, and further, the sight spot electronic navigation range corresponding to the sight spot can be analyzed and determined according to the sight spot viewing range and the sight spot reference data, outputting sight spot line data and sight spot electronic navigation data corresponding to the sight spots according to the sight spot viewing range and the sight spot reference data, updating the sight spot reference data, the dynamic adjustment of one or more of the sight spot viewing range, the sight spot electronic navigation range, the sight spot route data and the sight spot electronic navigation data corresponding to the sight spot can be realized.

The above steps S1 to S4 may be repeated a plurality of times, and the contents fed back by a plurality of receiving devices may be processed to update the reference data. The receiving device is, for example, a mobile phone of a tourist, and the scenic spot service method is beneficial to improving the service level and quality of the scenic spot through interaction with the tourist.

It should be noted that the embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from the previous embodiment, and the same and similar places among the various embodiments are referred to each other. For the method disclosed by the embodiment, the structure is corresponding to that disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the description of the structure.

The processes and executions in the above embodiments are generally implemented by way of software programs and hardware, however, all (or a part of) them may also be implemented by way of software or electronic hardware. Whether implemented in software or hardware, the details of which are not repeated in this specification since those skilled in the electronic and software arts can implement them. The software program can be stored in a computer readable medium, such as an optical disc or a memory in a computer system; when loaded on a computer, the software may have its instructions executed by a Central Processing Unit (CPU) and/or a Graphics Processing Unit (GPU).

The above description is only for the purpose of describing the preferred embodiments of the present invention and is not intended to limit the scope of the claims of the present invention, and any person skilled in the art can make possible the variations and modifications of the technical solutions of the present invention using the methods and technical contents disclosed above without departing from the spirit and scope of the present invention, and therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention belong to the protection scope of the technical solutions of the present invention.

Claims (12)

1. A scenic spot service system, comprising:

the analysis module analyzes and determines a scenic region viewing range according to geographical data and reference data of a scenic region, and also analyzes and determines an electronic navigation range of the scenic region according to the scenic region viewing range and the reference data, wherein the electronic navigation range refers to a range for playing voice explanation;

the output module outputs scenic spot line data according to the scenic spot viewing range and the reference data, and also outputs electronic navigation data according to the electronic navigation range and the reference data, wherein the electronic navigation data refers to voice explanation multimedia data played in the electronic navigation range; and the number of the first and second groups,

the interactive module is used for updating the reference data, the analysis module dynamically adjusts the scenic spot viewing range and the electronic navigation range by using the updated reference data, and the output module dynamically adjusts the scenic spot line data and the electronic navigation data;

wherein the reference data includes a scenic spot route deviation reflecting a deviation value of the scenic spot route data from an actual viewing route and a navigation deviation reflecting a deviation value of the electronic navigation range from an actual viewing angle.

2. The scenic spot service system as claimed in claim 1, wherein the geographic data includes map information and/or GPS positioning information of the scenic spot.

3. The scenic spot service system as claimed in claim 1, wherein the scenic spot viewing range is greater than or equal to the electronic navigation range.

4. The scenic spot service system as claimed in claim 1, wherein the reference data further includes meteorological data; the scenic spot route data comprises a plurality of groups of scenic spot route data classified according to the meteorological data, and/or the electronic navigation data comprises a plurality of groups of electronic navigation data classified according to the meteorological data.

5. The scenic spot service system as claimed in claim 1, further comprising a storage module for storing the geographic data, the scenic spot route data, and the electronic navigation data.

6. The scenic spot service system as claimed in claim 1, wherein the scenic spot service system is wirelessly connected to a receiving device, the receiving device obtains the scenic spot line data and/or the electronic navigation data, the receiving device comprises a display module and/or a voice playing module, the display module is configured to display the scenic spot line data, and the voice playing module is configured to play the electronic navigation data.

7. The scenic spot service system as claimed in claim 6, wherein the receiving device further comprises a GPS positioning module for determining a location of the receiving device; when the receiving device is located in the viewing range of the scenic spot, the output module outputs the scenic spot line data to the receiving device, and/or when the receiving device is located in the electronic navigation range, the output module outputs the electronic navigation data to the receiving device.

8. The scenic spot service system as claimed in claim 6, wherein the navigation deviation further reflects a deviation value of the electronic navigation data from an actual viewing effect.

9. The scenic spot service system as claimed in claim 8, wherein after the receiving means acquires the scenic spot line data and/or the electronic navigation data, the receiving means sends evaluation contents regarding the scenic spot line data and/or the electronic navigation data, the evaluation contents reflecting the scenic spot route deviation and/or the navigation deviation, to the interaction module, and the interaction module processes the evaluation contents to update the reference data.

10. The scenic spot service system as claimed in claim 6, wherein the receiving device is a mobile phone.

11. A scenic spot service system as claimed in any one of claims 1 to 10, wherein the scenic spot includes one or more attractions, the geographic data includes attraction geographic data corresponding to the attraction, the reference data includes attraction reference data corresponding to the attraction, the attraction reference data has an initial value of 0.

12. A scenic spot service method, comprising:

analyzing and determining a scenic region viewing range according to geographical data and reference data of a scenic region, and analyzing and determining an electronic navigation range according to the scenic region viewing range and the reference data, wherein the electronic navigation range refers to a range for playing voice explanation;

outputting corresponding scenic spot line data according to the scenic spot viewing range and the reference data, and outputting corresponding electronic navigation data according to the electronic navigation range and the reference data, wherein the electronic navigation data refers to voice explanation multimedia data played in the electronic navigation range; and the number of the first and second groups,

updating the reference data, and dynamically adjusting the scenic region viewing range, the electronic navigation range, the scenic region line data and the electronic navigation data by using the updated reference data;

wherein the reference data includes a scenic spot route deviation reflecting a deviation value of the scenic spot route data from an actual viewing route and a navigation deviation reflecting a deviation value of the electronic navigation range from an actual viewing angle.

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