阅读说明：本技术 一种基于座椅的大型公共场所实景导航系统及其工作方法 (seat-based large public place live-action navigation system and working method thereof ) 是由 黄胜伟 詹建军 李明 于 2018-07-20 设计创作，主要内容包括：本发明公开了一种基于座椅的大型公共场所实景导航系统及其工作方法,所述实景导航系统包括云计算中心和智能交通节点,所述智能交通节点位于座椅上。所述座椅为公共场所例如机场、车站、银行、医院等场所的座椅。座椅包括座椅主体、座椅扶手和智能终端,所述智能终端位于所述座椅扶手上。云计算中心包括数据处理模块、存储模块和第一传输模块。智能交通节点包括识别模块、交互模块和第二传输模块。当用户坐在座椅上时用户通过识别模块对用户进行识别,识别模块为人脸识别或指纹识别。用户可以使用自己的手机扫描智能交通节点上的二维码,扫码后实景导航系统会显示在用户手机上面,用户根据导航提示到达目的地。(The invention discloses seat-based large-scale public place live-action navigation systems and working methods thereof, wherein each live-action navigation system comprises a cloud computing center and an intelligent transportation node, the intelligent transportation node is positioned on a seat, the seat is a seat of a public place such as an airport, a station, a bank, a hospital and the like, the seat comprises a seat main body, a seat armrest and an intelligent terminal, the intelligent terminal is positioned on the seat armrest, the cloud computing center comprises a data processing module, a storage module and a transmission module, the intelligent transportation node comprises an identification module, an interaction module and a second transmission module, when a user sits on the seat, the user is identified through the identification module, the identification module is face identification or fingerprint identification, the user can scan a two-dimensional code on the intelligent transportation node by using a mobile phone of the user, the live-action navigation system can be displayed on the mobile phone of the user after the code is scanned, and the user can reach a destination according to a navigation.)

The seat-based large public place live-action navigation system is characterized by comprising a cloud computing center and intelligent traffic nodes, wherein the intelligent traffic nodes are located on seats, and the cloud computing center comprises a navigation server.

2. The seat-based large public space live action navigation system according to claim 1, wherein the cloud computing center further comprises a data processing module, a storage module, an th transmission module, a position calculation module and an update module.

3. The seat-based large public place live action navigation system according to claim 1, wherein the intelligent transportation node comprises an identification module, an interaction module, a second transmission module, and a positioning module.

4. A large public place live-action seat-based navigation system according to claim 1, wherein said intelligent transportation node is located on a seat, and wherein said seat comprises a seat body, a seat armrest and an intelligent terminal, and said intelligent terminal is located on said seat armrest.

5. The seat-based large public space live action navigation system according to claim 1, further comprising a mobile intelligent device, wherein the mobile intelligent device comprises a positioning module, a feedback module, a display module, a camera module, and a third transmission module.

6. A large public space live action navigation system based on seats as claimed in claim 3, wherein said interactive module comprises an acquisition unit, a sensing unit and a display unit.

7, method for operating a seat-based large public space live action navigation system according to claims 1-6, comprising the steps of:

a: inputting a destination on an intelligent terminal of a seat by a user;

b: the system retrieves a destination, and the user selects the destination;

c: starting navigation, and displaying the two-dimensional code by an intelligent terminal on the seat;

d, judging whether the navigation data are sent to the movable intelligent equipment, if the navigation data do not need to be sent, recording the instruction of the intelligent terminal of the seat by the user to go to the destination so as to finish the navigation, and if the navigation data need to be sent, entering a step ;

e: a user uses movable intelligent equipment to scan the two-dimensional code;

f: the cloud computing center pushes the live-action navigation to the movable intelligent equipment;

g: the movable equipment shoots a live-action picture and sends the live-action picture to the cloud computing center;

h: judging whether the walking speed of the user is matched with the advancing speed of the live-action navigation, if so, continuing the navigation, and if not, adjusting the advancing speed of the live-action navigation by the cloud computing center and continuing the navigation;

i: and ending the navigation when the destination is reached.

8. The method of claim 7, wherein the step E: the user uses a mobile intelligent device to scan the two-dimensional code, wherein the mobile device is a smart phone or a tablet.

9. The method of claim 7, wherein the step F: the cloud computing center pushing the live-action navigation to the movable intelligent equipment comprises the following steps:

f1: the mobile intelligent equipment requests navigation data from the cloud computing center through the two-dimension code link;

f2: the cloud computing center identifies the IP address of the movable intelligent equipment and establishes a wireless transmission channel with the movable intelligent equipment;

f3: the cloud computing center sends navigation live-action data, and the mobile equipment receives and displays the live-action navigation data.

10. The method of claim 7, wherein the step H: judging whether the walking speed of the user is matched with the advancing speed of the live-action navigation, if so, continuing the navigation, and if not, adjusting the advancing speed of the live-action navigation and continuing the navigation by the cloud computing center comprises the following steps:

h1: the cloud computing center receives pictures shot by the movable equipment:

h2, the cloud computing center compares the received pictures with the pictures in the live-action navigation system and finds out the most acquainted frames;

h3, calculating the time difference between the frames of the most similar pictures and the real-time sent pictures sent to the mobile intelligent equipment from the cloud computing center;

h4: and the cloud computing center adjusts the navigation propulsion speed according to the time difference.

Technical Field

The invention relates to the technical field of mass transit, in particular to intelligent traffic systems based on intelligent terminal operation in public places.

Background

Public places such as airport, station, hospital, bank etc. all can set up a lot of seats usually, these seats all can set up to the seat handrail, the user places the arm on the handrail when the rest can slow down the pressure at back, along with the development of internet technique and intelligent terminal technique, people also have a large amount of information interaction demands in the in-process of waiting for having a rest on the seat, the demand that uses intelligent terminal is more and more on the seat handrail, it is especially important to develop the mass transit application that is fit for the user trip on intelligent terminal.

Disclosure of Invention

In order to meet travel demands of users, the invention provides seat-based large public place live-action navigation systems and working methods thereof, as shown in fig. 1, the live-action navigation system comprises a cloud computing center and an intelligent transportation node, the intelligent transportation node is positioned on a seat, the seat is a seat of a public place such as an airport, a station, a bank, a hospital and the like, the seat comprises a seat main body, a seat armrest and an intelligent terminal, the intelligent terminal is positioned on the seat armrest, the cloud computing center comprises a data processing module, a storage module and a transmission module, the intelligent transportation node comprises an identification module, an interaction module and a second transmission module, when a user sits on the seat, the user identifies the user through the identification module, the identification module is face identification or fingerprint identification, the user can scan a two-dimensional code on the intelligent transportation node by using a mobile phone or a tablet of the user, the live-action navigation system can be displayed on the mobile phone of the user after scanning the code, and the user can reach a destination according to a navigation prompt on.

The intelligent terminal can adopt tablet computers, the intelligent terminal can directly communicate with the cloud computing center by wireless communication or limited communication, the preferred mode is wireless communication, because the installation position of the intelligent terminal is the seat in the public place, the construction difficulty is higher, communication can be carried out between different intelligent terminals, the cloud computing center can ensure that two intelligent terminals needing data transmission are connected under the action of the cloud computing center, the data can be directly transmitted from intelligent terminals to intelligent terminals, benefits are designed, the intelligent terminals which are closer to each other are in the same local area networks, the data transmission is convenient, the cloud computing center can reduce the burden of navigation functions and can display different navigation computing functions through a navigation computing server.

The data processing module mainly comprises software platforms, the operation of the software platforms has higher requirements on hardware, and the software platforms cannot work on the intelligent terminal, the storage module mainly stores data with large capacity, when the intelligent terminal needs to inquire data, requests are sent to the cloud computing center, the cloud computing center inquires according to instructions of the intelligent terminal and feeds back corresponding results to the intelligent terminal, so that can greatly reduce the hardware cost of the intelligent terminal, the live-action navigation module adopts live-actions formed by picture frames, the picture frames are sequentially displayed from a starting point to an end point according to a navigation path, the position module is the position of a certain frame of picture in the cloud computing center, the updating module updates the picture stored in the cloud computing center, and the picture displayed in the live-action navigation is ensured to be kept with the actual picture of the large public place.

Preferably, the intelligent transportation node of the seat-based large public place live-action navigation system comprises an identification module, an interaction module, a second transmission module and a positioning module, wherein the second transmission module is arranged opposite to the th transmission module, the th transmission module receives data sent by the second transmission module, the th transmission module also sends data to the second transmission module, the interaction module is in a hardware representation form of a display screen, a user inputs own requirements in the interaction module, the system feeds back results required by the user through the interaction module, in the user interaction process, the cloud computing center provides inquiry, retrieval and analysis services, in the retrieval process, the system configures corresponding keywords for each stored content, the keywords are configured with determined levels, in the milk tea classification mode with a certain name, in the milk tea classification mode with the lowest milk tea classification, in the milk tea classification mode with the name of "XX", in the last classification of the name, the milk tea classification is displayed with other storefront information, in the milk tea classification mode with the beverage , in the beverage classification mode with the name of "XX", in the retail center, in the retail navigation, in the retail center, the retail image classification mode, the mobile phone navigation information of the mobile phone is displayed, the mobile phone navigation information of the mobile phone navigation, the mobile phone navigation module is also can be displayed with the matching of the retail navigation, and the mobile phone navigation information, and the mobile phone navigation information of the mobile phone navigation.

Preferably, the intelligent transportation node of the seat-based large public place live-action navigation system is located on a seat, as shown in fig. 2: the seat comprises a seat body, seat armrests and an intelligent terminal, wherein the intelligent terminal is located on the seat armrests. When a person sits on the seat for rest, the arm is naturally placed on the armrest of the seat, and the intelligent terminal is also arranged on the armrest of the seat, so that the user can operate the intelligent terminal conveniently.

Preferably, the seat-based large public place live-action navigation system is provided with an identification module, including a face identification module and a fingerprint identification module. The identification module identifies the user and then sends the information to the cloud computing center, the cloud computing center judges whether the user uses the system for the first time through comparison, if the user uses the system for the first time, historical data can be called out, and if the historical data contains information such as train number, flight number and identity card, more attentive personalized service can be provided for the information. In addition, the seat-based large-scale public place live-action navigation system further comprises movable equipment, wherein the movable equipment is a mobile phone or a tablet personal computer of a user, movable intelligent equipment is arranged on the movable equipment, and the movable intelligent equipment comprises a positioning module, a feedback module, a display module, a camera module and a third transmission module. The camera module is transmitted to the cloud computing center through the third transmission module, and the result is fed back to the movable intelligent equipment through the feedback module after the cloud computing center operates.

Preferably, the seat-based large public place live-action navigation system is characterized in that the interaction module comprises a collection unit, a sensing unit and a display unit.

The invention also comprises an operation method of seat-based large public place live-action navigation systems, as shown in figure 3, the method comprises the following steps:

a: inputting a destination on an intelligent terminal of a seat by a user;

b: the system retrieves a destination, and the user selects the destination;

c: starting navigation, and displaying the two-dimensional code by an intelligent terminal on the seat;

d, judging whether the navigation data are sent to the movable intelligent equipment, if the navigation data do not need to be sent, recording the instruction of the intelligent terminal of the seat by the user to go to the destination so as to finish the navigation, and if the navigation data need to be sent, entering a step ;

e: a user uses movable intelligent equipment to scan the two-dimensional code;

f: the cloud computing center pushes the live-action navigation to the movable intelligent equipment;

g: the movable equipment shoots a live-action picture and sends the live-action picture to the cloud computing center;

h: judging whether the walking speed of the user is matched with the advancing speed of the live-action navigation, if so, continuing the navigation, and if not, adjusting the advancing speed of the live-action navigation by the cloud computing center and continuing the navigation;

i: and ending the navigation when the destination is reached.

Preferably, the step E of the working method of the seat-based large public place live-action navigation system is as follows: the user uses a mobile intelligent device to scan the two-dimensional code, wherein the mobile device is a smart phone or a tablet.

Preferably, the working method of the seat-based large public place live-action navigation system comprises the following steps: the cloud computing center pushing the live-action navigation to the movable intelligent equipment comprises the following steps:

f1: the mobile intelligent equipment requests navigation data from the cloud computing center through the two-dimension code link;

f2: the cloud computing center identifies the IP address of the movable intelligent equipment and establishes a wireless transmission channel with the movable intelligent equipment;

f3: the cloud computing center sends navigation live-action data, and the mobile equipment receives and displays the live-action navigation data.

Preferably. The working method of the seat-based large public place live-action navigation system comprises the following steps: judging whether the walking speed of the user is matched with the advancing speed of the live-action navigation, if so, continuing the navigation, and if not, adjusting the advancing speed of the live-action navigation and continuing the navigation by the cloud computing center comprises the following steps:

h1: the cloud computing center receives pictures shot by the movable equipment:

h2, the cloud computing center compares the received pictures with the pictures in the live-action navigation system and finds out the most acquainted frames;

h3, calculating the time difference between the frames of the most similar pictures and the real-time sent pictures sent to the mobile intelligent equipment from the cloud computing center;

h4: and the cloud computing center adjusts the navigation propulsion speed according to the time difference.

Drawings

The invention is further illustrated in the accompanying drawings, which are not to be construed as limiting the invention in any way, and other drawings will become apparent to those skilled in the art without the benefit of the teaching herein.

FIG. 1 is a component architecture diagram according to an embodiment of the present invention;

FIG. 2 is a schematic view of a seat configuration according to the present invention;

FIG. 3 is a flow chart of a method of operation according to an embodiment of the present invention;

reference numerals: 1: an intelligent terminal; 2: a seat armrest; 3: a seat body.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in order to provide a better understanding of the present application in various embodiments of the present invention. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

The invention provides seat-based large public place live-action navigation systems and working methods thereof, in order to meet travel demands of users, the live-action navigation system comprises a cloud computing center and intelligent transportation nodes, wherein the intelligent transportation nodes are positioned on seats, the seats are seats of public places such as airports, stations, banks, hospitals and the like, the seats comprise seat bodies, seat handrails and intelligent terminals, the intelligent terminals are positioned on the seat handrails, the cloud computing center comprises a data processing module, a storage module and a transmission module, the intelligent transportation nodes comprise an identification module, an interaction module and a second transmission module, when a user sits on the seats, the user is identified through the identification module, the identification module is face identification or fingerprint identification, the user can scan two-dimensional codes on the intelligent transportation nodes by using own mobile phones or tablets, the live-action navigation system can be displayed on mobile phones of the users after code scanning, and the users can reach destinations according to navigation prompts on the mobile phones or tablets.

In embodiments, seat-based large public place live-action navigation systems comprise a cloud computing center and intelligent traffic nodes, wherein the intelligent traffic nodes are located on seats, the cloud computing center comprises a navigation server, the cloud computing center provides background support for the whole system and stores historical data generated on the intelligent nodes, the intelligent traffic nodes are located on the seats, users can conveniently use the intelligent terminals when sitting on the seats for rest, the intelligent terminals can use tablet computers, the intelligent terminals can directly communicate with the cloud computing center through wireless communication or limited communication, the preferred mode is wireless communication, the installation positions of the intelligent terminals are the seats located in public places, construction difficulty is high, communication can be carried out between different intelligent terminals, connection of the two intelligent terminals needing data transmission can be guaranteed under the action of the cloud computing center, the data can be directly transmitted to the other intelligent terminals from the intelligent terminals, advantages are designed, the closer intelligent terminals are often located in the same position as intelligent terminals, data transmission is convenient, the cloud computing function of the cloud computing can be relieved, and the cloud computing server can display the cloud computing function of the cloud computing center.

In embodiments, the cloud computing center of the seat-based large public place live-action navigation system comprises a data processing module, a storage module, a transmission module, a position module and an updating module, wherein the data processing module mainly comprises software platforms, the operation of the software platforms has higher requirements on hardware, and the software platforms cannot work on an intelligent terminal, the storage module mainly stores data with large capacity, when the intelligent terminal needs to query data, only requests are sent to the cloud computing center, the cloud computing center queries according to instructions of the intelligent terminal and feeds corresponding results back to the intelligent terminal, so the hardware cost of the intelligent terminal can be greatly reduced, the live-action navigation module adopts live-actions formed by picture frames, the picture frames are sequentially displayed from a starting point to an end point according to a navigation path, the position module is the position of a certain frame of picture in the cloud computing center, the updating module updates the picture stored in the cloud computing center, and ensures that the picture displayed in the live-action navigation keeps with the actual picture of the large public place.

In embodiments, the intelligent transportation node of the seat-based large public place live-action navigation system includes an identification module, an interaction module, a second transmission module and a positioning module, the second transmission module is arranged opposite to the th transmission module, the th transmission module receives data sent by the second transmission module, the th transmission module also sends data to the second transmission module, the interaction module is in a hardware representation form of a display screen, a user inputs own requirements in the interaction module, the system feeds back results required by the user through the interaction module, in a user interaction process, a cloud computing center provides inquiry, retrieval and analysis services, the system configures corresponding keywords for each stored content, the keywords are configured with grade determined by , milk tea "XX" with a certain name is taken as an example, the lowest grade is the name "XX", milk tea grades on the name are "milk tea", other storefront information is displayed when the inputted milk tea is displayed, grade on the milk tea is constantly set as "", the beverage grade is also configured with a new drink grade obtained by a mobile phone navigation server, and the obtained through comparison of the obtained through the actual navigation picture, so that the retrieval, the corresponding keyword is obtained through the matching of the navigation information of a corresponding image obtained through a comparison of a mobile phone navigation module, and the obtained through the matching of a comparison of a corresponding image obtained through the searching, so that the actual dietary information is obtained through the matching of a mobile phone navigation module.

In embodiments, the intelligent transportation node of the seat-based large public place live-action navigation system is located on a seat, wherein the seat comprises a seat body, a seat armrest and an intelligent terminal, the intelligent terminal is located on the seat armrest, when a person sits on the seat for rest, the arm naturally rests on the seat armrest, and the intelligent terminal is also arranged on the seat armrest, so that the user can conveniently operate the intelligent terminal.

In embodiments, the seat-based large public place live-action navigation system comprises an identification module, including a face identification module and a fingerprint identification module, wherein the identification module identifies a user and then sends information to a cloud computing center, the cloud computing center judges whether the user uses the system for the first time through comparison, history data can be called out if the history data exists, and if the history data includes information such as vehicle number, flight number and identity card, more careful personalized services can be provided for the information.

In of the embodiments, the seat-based large public space live action navigation system is characterized in that the interaction module comprises an acquisition unit, a sensing unit and a display unit.

The invention also discloses an working method of the seat-based large public place live-action navigation system, which comprises the following steps:

a: inputting a destination on an intelligent terminal of a seat by a user;

b: the system retrieves a destination, and the user selects the destination;

c: starting navigation, and displaying the two-dimensional code by an intelligent terminal on the seat;

d, judging whether the navigation data are sent to the movable intelligent equipment, if the navigation data do not need to be sent, recording the instruction of the intelligent terminal of the seat by the user to go to the destination so as to finish the navigation, and if the navigation data need to be sent, entering a step ;

e: a user uses movable intelligent equipment to scan the two-dimensional code;

f: the cloud computing center pushes the live-action navigation to the movable intelligent equipment;

g: the movable equipment shoots a live-action picture and sends the live-action picture to the cloud computing center;

h: judging whether the walking speed of the user is matched with the advancing speed of the live-action navigation, if so, continuing the navigation, and if not, adjusting the advancing speed of the live-action navigation by the cloud computing center and continuing the navigation;

i: and ending the navigation when the destination is reached.

In embodiments, in step E of the working method of the seat-based large public space live-action navigation system, the user scans the two-dimensional code by using a mobile intelligent device, wherein the mobile device is a smart phone or a tablet.

In embodiments, the step F of the working method of the seat-based large public place live-action navigation system, wherein the pushing of the live-action navigation to the movable intelligent equipment by the cloud computing center comprises the following steps:

f1: the mobile intelligent equipment requests navigation data from the cloud computing center through the two-dimension code link;

f2: the cloud computing center identifies the IP address of the movable intelligent equipment and establishes a wireless transmission channel with the movable intelligent equipment;

f3: the cloud computing center sends navigation live-action data, and the mobile equipment receives and displays the live-action navigation data.

In embodiments, the working method of the seat-based large public place live-action navigation system comprises the following steps of H, judging whether the walking speed of the user is matched with the live-action navigation propelling speed, if so, continuing the navigation, and if not, adjusting the live-action navigation propelling speed by the cloud computing center and continuing the navigation, wherein the steps comprise:

h1: the cloud computing center receives pictures shot by the movable equipment:

h2, the cloud computing center compares the received pictures with the pictures in the live-action navigation system and finds out the most acquainted frames;

h3, calculating the time difference between the frames of the most similar pictures and the real-time sent pictures sent to the mobile intelligent equipment from the cloud computing center;

h4: and the cloud computing center adjusts the navigation propulsion speed according to the time difference.