CN116560502A - Cultural data communication system and method thereof - Google Patents

Abstract

The invention provides a cultural data communication system and a method thereof, belonging to the communication field, wherein the system comprises: a processing device; a content conversion device; a terminal device. When the terminal device detects that the user enters the range of the communication system, the communication system is configured to perform the following operations: acquiring a plurality of files from an external network according to the reserved cultural data and the biological characteristics of the user; adding a plurality of content tags to each of a plurality of files; writing a script of the cultural data according to content tags related to the cultural data in a plurality of content tags of each of the plurality of files, wherein the script comprises a plurality of feedback tags, and each of the plurality of feedback tags comprises a plurality of corresponding operations and a plurality of user feedback levels; according to the script, the terminal device is instructed to present at least one of a plurality of files to a user; and instructing the terminal device to sense feedback of the user, and performing at least one of corresponding operations and determining at least one of user feedback levels in response to the feedback of the user.

Description

Cultural data communication system and method thereof

The application is a divisional application of a patent application named as an information data transmission communication system and a method thereof, and the application date of the original application is 2018, 09 and 26, and the application number is 201811125155.2.

Technical Field

The present invention relates to a communication system and method, and more particularly, to a communication system and method for digitizing a specific cultural content and cooperating with a plurality of devices to communicate the specific cultural content, and guiding a user to receive the cultural data content after receiving feedback from the user.

Background

Electronic display devices (including televisions, computer displays, electronic billboards, mobile device screens, etc.) and audio playback devices have been widely used in everyday life to communicate information. Electronic display devices and audio playback apparatus for use as billboards are also used in workplaces, homes and residences, commercial facilities, and outdoor locations including large signs, billboards, stadiums, and public areas.

Electronic display devices and audio playback apparatuses used today as billboards are usually fixed content or play back previously stored content in a set sequence in a loop. The electronic display device and the audio playing device cannot change the displayed content according to feedback of the user, and cannot be combined with other devices (such as a 3D projector device, a 3D printing device, a projector device, an audio playing device, an audio receiving device, a biosensor device, a camera device, a light control device, an environmental parameter sensor device, an odor control device and an environmental control device) to enable the user to receive information more easily.

Therefore, there is a need for a communication system and method that can cooperate with a variety of devices and that allows users to more easily receive specific cultural data content transmissions based on their feedback.

Disclosure of Invention

One embodiment of the present invention provides a cultural data communication system, the cultural data communication system comprising: a processing device; a content conversion (content metamorphosis) device; a terminal device. When the terminal device detects that a user enters the range of the cultural data communication system, the cultural data communication system is configured to: acquiring a plurality of files from an external network according to the reserved cultural data and the biological characteristics of the user; adding a plurality of content tags to each of the plurality of archives; writing a script of the cultural data according to content tags related to the cultural data in a plurality of content tags of each of the plurality of files, wherein the script comprises a plurality of feedback tags, and each of the plurality of feedback tags comprises a plurality of corresponding operations and a plurality of user feedback levels; according to the script, instructing the terminal device to present at least one of the plurality of profiles to the user; and instructing the terminal device to sense feedback of the user, and in response to the feedback of the user, at least one of performing the corresponding operation and determining at least one of the user feedback levels.

Another embodiment of the present invention provides a cultural data communication method, the method comprising: acquiring a plurality of files from an external network according to the reserved cultural data and the biological characteristics of the user; adding a plurality of content tags to each of the plurality of files, the plurality of content tags being associated with cultural data; writing a script of the cultural data according to a plurality of content tags of each of a plurality of files, wherein the script comprises a plurality of feedback tags, and each of the plurality of feedback tags comprises a plurality of corresponding operations and a plurality of user feedback levels; according to the script, a terminal device is instructed to present at least one of a plurality of files to the user; and instructing the terminal device to sense feedback of the user and perform at least one of the corresponding operations according to the feedback of the user and to determine at least one of the user feedback levels.

Yet another embodiment of the present invention provides a cultural data communication system, the cultural data communication system comprising: processing device, content conversion device and terminal device. The processing device is configured to perform the following operations: acquiring a plurality of files from an external network according to the reserved cultural data; adding a plurality of content tags to each of the plurality of archives, the plurality of content tags being related to the cultural data; writing a script of the cultural data according to a plurality of content tags of each of the plurality of archives; and transmitting the files, the content labels and the script to a content conversion device. The content conversion device is configured to perform the following operations: converting a profile related to the terminal device from the plurality of profiles into a first converted profile corresponding to the terminal device; labeling the first transition scheme with a corresponding first atmosphere label; and transmitting the first conversion file and the first atmosphere tag to the terminal device to instruct the terminal device to present the conversion file to a user.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects: the invention can cooperate with various devices and can make the user easier to receive information according to feedback of the user.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a communication system according to some embodiments of the invention;

FIG. 2 is a schematic diagram of a cultural data content communication system, according to some embodiments of the invention;

FIG. 3 is a schematic diagram of a cultural data content delivery communication system architecture model, according to some embodiments of the invention;

FIG. 4 is another schematic diagram of a cultural data content communication system, according to some embodiments of the invention;

FIG. 5 is a schematic diagram of a network topology of a cultural data content delivery communication system, according to some embodiments of the invention;

FIG. 6 is a schematic diagram of an information packet according to some embodiments of the invention;

FIG. 7 is a schematic diagram of a data record and content tag according to some embodiments of the invention;

FIG. 8 is a schematic diagram of an electronic archive in accordance with certain embodiments of the present invention;

fig. 9 is a first schematic diagram of a network topology according to some embodiments of the present invention;

fig. 10 is a second schematic diagram of a network topology according to some embodiments of the present invention;

FIG. 11 is a third schematic diagram of a network topology according to some embodiments of the present invention;

FIG. 12 is a schematic diagram of a feedback tag according to some embodiments of the invention;

FIG. 13 is a first state diagram of an algorithm according to some embodiments of the invention;

FIG. 14 is a second state diagram of an algorithm according to some embodiments of the invention;

FIG. 15 is a third state diagram of an algorithm according to some embodiments of the invention;

FIG. 16 is a first schematic illustration of a cultural data content communication system application, according to some embodiments of the invention;

FIG. 17 is a second schematic illustration of a cultural data content communication system application, according to some embodiments of the invention;

FIG. 18 is a third schematic diagram of a cultural data content communication system application, according to some embodiments of the invention;

FIG. 19 is a schematic diagram of a processing device, content conversion device, or terminal device in a cultural data content communication system according to some embodiments of the invention;

FIG. 20 is a flow chart of a data record digitizing process according to some embodiments of the invention;

FIG. 21 is a flow chart according to some embodiments of the invention;

FIG. 22 is a state diagram of a cultural data content communication system, according to some embodiments of the invention;

FIG. 23 is a data processing flow diagram according to some embodiments of the invention;

FIG. 24 is an atmosphere tag encoding scheme according to some embodiments of the invention;

FIG. 25 is a flowchart of a process for converting an electronic file according to some embodiments of the present invention;

FIG. 26 is a schematic diagram of data flow in different modes of an application layer according to some embodiments of the invention;

fig. 27 is a schematic illustration of the internet of things in accordance with some embodiments of the invention.

Symbol description

101: cultural content, 102: magnetic tape, 103: hard disk, 104: solid state disk, 105: optical disc, 106: content cloud, 107: internet, 108: mobile device, 109: computer, 110: projection device, 111: video and audio equipment, 112: a television wall;

200: cultural data content communication system, 201: data recording, 202: electronic files, 202-1 to 202-p: electronic files, 204-11 to 204-1n: content tags, 204-21 to 204-2m: content tags, 204-p1 to 204-pq: content tag, 203: processing device, 204: content tag, 205: content conversion apparatus, 210: environmental control device, 211: odor control device, 212: environmental parameter sensing means, 213: light control device, 214: image capturing device, 215: bio-sensing device, 216: audio receiving apparatus, 217: audio playback device, 218: projection device, 219: display device, 220:3D printing apparatus, 221:3D projection device, 222: a living being;

301: cultural data layer, 302: digital layer, 303: editing layer, 304: application layer, 305: conversation layer, 306: network layer, 307: architecture layer, 308: a physical layer;

401: processing means 401-1 to 401-3: processing means, 402: content conversion apparatuses 402-1 to 402-3: content conversion apparatuses 403-1 to 403-n: terminal apparatus, 404-1 and 404-2: other devices, 410: communication unit, 420: interaction space, 421: environmental parameters, 422: a living being;

600: information package, 610: access code, 611: preamble, 612: synchronization code, 613: suffix, 620: header, 621: network domain identifier of destination, 622: destination content conversion device identifier, 623: destination terminal device identifier, 624: domain identifier of source, 625: source content conversion device identifier, 626: source terminal device identifier 627: link control message, 630: protection segment, 640: payload, 650: a suffix;

704-1 to 704-n: the parameters of the parameters are set to be,

1600: interaction space, 1601: cultural data, 1602: processing means, 1603: content conversion apparatus 1604: environmental control device, 1605: light control device 1606: image capturing device, 1607: audio playback device, 1608: display device, 1609: odor control device, 1610:3D projection device, 1611: projection device, 1612: a user;

1700: interaction space, 1701: cultural data, 1702: processing device 1703: content conversion apparatus 1704: environment control device, 1705: light control device, 1706: image capturing device, 1707: audio playback apparatus, 1708: display device, 1709: odor control device 1710: production facility sensing device, 1711: optical scanning device, 1712: projection device, 1713: audio playback apparatus, 1714: odor control device, 1715:3D printing apparatus, 1716: user, 1717: user, 1750: an interaction space;

1800: interaction space, 1801: display device 1802: display device, 1803: light control device, 1804: image capturing device, 1805: traffic sign control device, 1806: electronic billboard, 1807: electronic billboard, 1808: electronic billboard, 1809: audio playing device, 1810: user, 1811: small vehicle, 1812: a large vehicle;

1910: control device 1911: haptic integration device 1912:3D projection device, 1913:3D printing apparatus, 1914: virtual reality glasses, 1915: light control device 1916: display device 1917: audio playback device, 1918: odor control device, 1919: infrared input/output device 1920: environmental control device, 1930: sensing device, 1931: global positioning system chip, 1932: man-machine input interface, 1933: image capturing device, 1934: audio input device, 1935: smell sensing device, 1936: biometric sensing device, 1937: environmental parameter sensing means, 1938: tactile sensing device, 1939: scanning device, 1940: input-output drive interface device, 1951: central processing unit, 1952: memory, 1953: power management control device, 1954: cellular network modem, 1955: wireless network modem apparatus, 1956: wired network modem apparatus, 1960: cellular network base station, 1970: a network;

2010: editing layer, 2011: script, 2012: scenario compilation, 2020: digital layer, 2021: labeling of content tags, 2022:2D electronic archive, 2023: atmosphere electronic profile, 2024: video and audio electronic files, 2025:3D electronic archive, 2026: multi-format digitizing, 2027: composition formula analysis, 2030: cultural data layer, 2031:2D scanning device, 2032: digital camera, 2033: odor sensing device, 2034: analog-to-digital conversion device, 2035:3D hologram imaging device, 2036:3D scanning device, 2037: text, 2038: image, 2039: smell, 2040: audio-visual, 2041: models, 2101-1 to 2101-n: electronic archive 2102: content tag, 2110: content tag index sets, 2110-1 to 2110-m: content tag index, 2120: cultural data summary and content configuration 2130: electronic file playing program 2140: feedback tag sets 2140-1 to 2140-p: feedback tag 2150: user feedback hierarchy set 2150-1 to 2050-q: user feedback level, 2160: corresponding operation sets, 2160-1 to 2160-w: corresponding operation, 2170: script, 2171: scenario summary, 2172: configuring an electronic file;

2301: processing apparatus, 2302: content conversion apparatus 2302-1: content conversion apparatuses 2303-1 to 2303-n: terminal apparatus, 2303-u: terminal apparatus, 2304: data recording, 2305: digitization, 2306: adding content tags, 2307: script writing, 2308: electronic files, 2308-1 through 2308-n: electronic archive, 2309: content tag, 2309S: content tab set, 2310: script, 2311: electronic archive database 2312: electronic file buffer 2313: conversion archive editing 2314: conversion file buffer 2315: conversion files 2315-1 through 2315-m: convert files, 2315-1 through 2315-n: convert files, 2315-1 through 2315-p: convert file, 2315-x: conversion archive 2316: atmosphere tags 2316-1 through 2316-n: atmosphere tag, 2316-u: atmosphere tag, 2316-x: atmosphere tag, 2316S: oxygen perimeter tag set, 2316S-1: oxygen perimeter tag set, 2317: scenario timing, 2318: signal, 2319: digitization, 2320: atmosphere label editing and identification 2321: controller 2322: control unit 2323: sensing component 2324: user, 2325: environment 2326: a translator 2327: electronic file collection 2328: conversion archive database 2310-1: first order, 2310-2: second order, 2310-m: mth order, 2311-1 through 2311-p: bits 2312-1 through 2312-q: bits 2313-1 through 2313-r: a bit;

2501: the conversion process flow of the electronic file, 2502: script, 2503-1 to 2503-n: electronic files, 2504-1 to 2504-n: content tags, 2505-1 to 2505-n: terminal apparatus, 2506: virtual screen functions 2510-1 to 2510-n: conversion archive process flow, 2511: layout selection, 2512: window content settings, 2513: the cut-out effect of the virtual screen, 2514: animation effects of objects, 2515-1 to 2515-n: conversion profile, 2516-1 to 2516-n: atmosphere tag 2517-1 and 2517-2: control unit, 2518: screen, 2519: object, 2520: a sensing unit 2521: lamp configuration, 2522: setting a lamplight cut, 2523: light situation effects, 2524: projected patterns 2525-1 to 2525-n: electronic archive flow settings, 2526: a conversion flow;

2601: processing apparatus 2602-1: content conversion apparatus 2602-2: content conversion apparatus 2603-1: terminal apparatus 2603-2: terminal apparatus, 2604: electronic archive, 2605: content tag, 2606: script, 2607: conversion archive, 2608: atmosphere tags, 2620 to 2633: a data stream;

2701: processing device, 2702: content conversion apparatuses 2703-1 to 2703-n: content conversion apparatuses 2704-1 to 2704-m: terminal apparatuses 2705-1 to 2705-p: a terminal device;

A: content tag, B: content tag, C: content tags, S1 to Sm: state, A1 to Am-1: states, G1 to Gm-1: states, L1 to L3: lamps and lanterns, O0 to O3: states, P0 to P2: state, R0 to R2: states, T0 to T2: state, W1 to W4: and (5) a virtual screen.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a cultural data content transmission communication system and a cultural data content transmission communication method, which can cooperate with various devices and enable a user to receive information more easily according to feedback of the user.

The invention provides a cultural data content communication system, which comprises a cloud device with high operation capability in the Internet of things, wherein the cloud device can digitize various cultural contents into data files with different formats, or can collect data files with different formats about various cultural contents from an external or internal network. The content of the feature values, keywords, etc. in such data files may be labeled as content tags. The processed data files with different formats can be transmitted to a gateway with routing capability through the Internet of things and then forwarded to a plurality of terminal devices with different functions. A cultural data content communication system includes a processing device, a content conversion (content metamorphosis) device, and one or more terminal devices. The cultural data content communication system may identify images of living beings (e.g., a user) entering the unit and identify biological features thereof, wherein the biological features may include skin color, pupil color, height, weight, gender, age, etc. The cultural data content communication system plays the content according to a predetermined cultural data and the biological characteristics of the user. The cultural data content communication system can also sense feedback of organisms (such as users) and change the content played in the next time period. If the culture data content communication system does not have the content which can be played, the content conversion device of the culture data content communication system can acquire the content which is matched with other culture data content communication systems through the network for playing.

Fig. 1 is a schematic diagram of a communication system according to some embodiments of the invention. Cultural contents 101 are derivatives created by human in the evolution process, such as literature, art, science, religion …, etc., which are all information generated in the life or evolution process of human through one mode of symbols, characters, voice laws, pictures …, etc., or through the combination mode. Fig. 1 discloses various electronic storage devices and types in widespread use today. After the electronic storage device is widely used, various cultural contents 101 can be converted into electronic signals, and the electronic signals are stored in recording media such as a magnetic tape 102, a hard disk 103, a solid state disk 104 or an optical disk 105, and the contents in the recording media are reproduced via various playing devices. In addition, in the internet of things, the contents may be stored in the content cloud (or server) 106, and transmitted to a specific playing device, such as the mobile device 108 (e.g. mobile phone, tablet computer), the computer 109, the projection device 110, the video/audio device 111, the television wall 112, etc. via the internet 107 (or mobile communication and radio broadcasting station), etc.

Fig. 2 is a schematic diagram of a cultural data content communication system according to some embodiments of the invention. Fig. 2 discloses a cultural data content communication system 200 in which cultural content 101 may have a plurality of constituent sources, or may be expressed in a plurality of different formats of data records such as entities, sizes, drawings, compositions, manufacturing processes, owner history, multi-lingual, etc. In the cultural data content communication system shown in fig. 2, a processing device 203 (such as a high-computing processing cloud or a server) is provided in a network (such as the internet of things), and data records with different formats are digitized into electronic files 202 with different formats. In the digitizing process, various data records 201 are converted into a plurality of electronic files 202 of images, engineering drawings, voice …, etc. in different formats. The characteristic values and keywords (e.g., climate, taste, location, element, person name, etc.) in each electronic file 202 are labeled as content tags 204.

These electronic files 202 containing cultural data contents of the content tag 204 are transmitted by the network to a specific content conversion device 205, and the content conversion device 205 is further connected to the terminal device via a wired or wireless method. The terminal device includes an environment control device 210 (such as a temperature and humidity control device), an odor control device 211 (such as a fragrance device or a fragrance-expanding device), an environmental parameter sensing device 212 (such as sensing temperature and humidity), a light control device 213, an image capturing apparatus 214, a bio-sensing device 215, an audio receiving device 216, an audio playing device 217, a projecting device 218, a display apparatus 219, a 3D printing device 220, a 3D projecting device 221, a human-machine input interface (not shown), a position detecting device (not shown), and the like. The terminal device may be used to present the electronic file 202 in a particular configuration. For example, the terminal device may present the specific electronic file 202 on a schedule. For example, when a living being 222 (e.g., a user) enters the cultural data content communication system 200, the image capturing device 214 can obtain images (e.g., eye and face images) to identify the living being 222, and can obtain biological characteristics (e.g., fingerprint, DNA, pupil film, voiceprint) via the biological sensing device 215, and can obtain passwords and user input via the HID human input interface. Other terminal devices may obtain GPS coordinates, temperature, humidity, air quality, etc. environmental parameters to further adjust the environmental control device 210. Further, the 3D projection device 221 may present a virtual entity and the 3D printing device 220 may be instantiated for viewing or stroking by the living being 222.

The projector 218 and the display device 219 can display a description of the multi-screen video and image data. Other controlled devices such as audio playback device 217, light control device 213, environmental control device 210, and odor control device 211 may further shape the feeling of being in the scene. The living being 222 may also be able to feedback via the terminal device, for example, the image capturing device 214 and the audio receiving device 216 may obtain feedback of gestures, body gestures, and voices. Through the content tag 204 in the electronic file 202, the terminal device can retrieve the related electronic file 202 for playing. If the terminal device cannot retrieve the desired electronic file 202 from the internal network, the content conversion device 205 can obtain the desired electronic file 202 from the processing device 203 via the network for playing.

Fig. 3 discloses an architectural model of the cultural data content communication system of the present invention. Table 1 provides a further description of an architectural model of the cultural data content conveying communication system of the present invention.

As shown in fig. 3, the architecture model of the cultural data content communication system of the present invention comprises an 8-layer architecture comprising: the connection between the cultural data layer 301, the digital layer 302, the editing layer 303, the application layer 304, the session layer 305, the network layer 306, the architecture layer 307 and the physical layer 308 is shown in fig. 3. Wherein the physical layer 308, the architecture layer 307 and the network layer 306 respectively correspond to the hardware device architecture and the network topology of the processing device 203, the content conversion device 205 and the terminal device in the cultural data content transmission communication system 200.

TABLE 1

Cultural data layer 301, digital layer 302, and editing layer 303 illustrate how various data records 201 are digitized into electronic files 202 in a variety of data formats. Content tags 204 are added to the electronic archive 202 for retrieval and subsequent retrieval, analysis, and application. The collected data records and/or the organized arrangement of electronic files are organized into a script by the content tags 204. The script provides information such as summaries and schemas to the electronic file 202 associated with a cultural datum, so that the electronic file can be more correctly and efficiently used when it is transferred in the network.

The session layer 305 and the application layer 304 illustrate the process of communicating cultural data and the scene mode of the application in a cultural data content communication system.

As shown in FIG. 3, the layer 8 model includes a physical layer 308 corresponding to the various hardware devices implementing the cultural data content delivery communication system on the network. The hardware device may be divided into a processing device, a content conversion device, and a terminal device. The processing device, the content conversion device and the terminal device all have the functions of calculation, memory, sensing, control, networking and the like.

Table 2 functional comparisons of terminal apparatus, processing apparatus, content conversion apparatus.

Function of	Processing device	Content conversion device	Terminal device
				Computing power	Good (good)	In (a)	Weak and weak
Memory capacity	Good (good)	In (a)	Weak and weak
				Networking capability	In (a)	Good (good)	Weak and weak
Sensing capability and control capability	Weak and weak	Weak and weak	Good (good)

As shown in table 2, the functions of the terminal device, the processing device, and the content conversion device are different. For example, the processing device is a high-performance computing processor and a high-capacity memory, and is responsible for digitizing various data records 201 into various formats of electronic files 202, marking keywords in the digitized electronic files as content tags 204, and organizing a script according to a cultural data and the content tags 204 in the electronic files 202 to manage, store, delete and spread the electronic files 202 of the cultural data.

The content conversion device can convert the script from the processing device into an electronic file format which can be played by different terminal devices. The electronic file converted to be played by a specific terminal device is called a conversion file. The content tag of the electronic file is also converted into a format recognizable by the terminal device, and is called an atmosphere tag. The content conversion device can generate a flow for controlling different terminal devices according to the flow played in the script. The flow of the cultural data transmission is one of the methods of the cultural data transmission. The content conversion device can receive the feedback of the user to adjust the transmitted cultural data content and guide the user to receive the specific cultural data content to be transmitted. The content conversion device has various heterogeneous networking capabilities, long-distance networking capabilities (such as GSM, wifi, CATM and NB_IOT) for connecting with the processing device, short-distance communication capabilities (including wireless WiFi/Bluetooth/ZigBee/RFID/RF/IR/ultrasonic/optical carrier … or wired LAN/RS485/RS232/I2C/SPI/GPIO … or the like) for connecting with a plurality of terminal devices, and a computing processor for managing applications in a cultural data content transmission communication system and a cultural data content transmission method. The terminal device has computing, memory and networking capabilities, as well as control capabilities for rendering electronic files and sensing capabilities for sensing environmental parameters and biological characteristics.

The sensing capability of the terminal device for sensing environmental parameters and biological access and biological characteristics can be realized by input devices (such as touch pad, infrared detection, audio receiving device, image capturing device, HMI human-machine interface), environmental parameter detection devices (such as detecting brightness, ultraviolet light, humidity, temperature) or biological sensing devices (such as identifying physiological characteristics of fingerprint, voiceprint, retina, DNA, face, etc.).

The control capability shown in table 2 can control the odor control device, electronic paper, display device, audio playback device, light control device, 3D printing device, 3D laser developing device, air temperature and humidity control device, etc. to present electronic files. Several terminal devices may be deployed in a predetermined area, such as a building, machine, vehicle, or cell, to form an interaction area. The terminal device detects environmental parameters (such as light, temperature, humidity, fragrance and the like) and further controls other terminal devices so as to present vision, hearing, touch and smell in the electronic file to organisms (such as people, animals, plants and the like) in the preset area.

As shown in fig. 3, the 8-layer model includes an architecture layer 307. The architecture layer describes how the processing device, the content conversion device and the terminal device construct a cultural data content transmission communication system.

Fig. 4 is a schematic diagram of a cultural data content communication system according to some embodiments of the invention. As shown in fig. 4, the data record 201 is digitized and processed by a processing device 401 into an electronic archive 202 containing content tags 204 and a script. The electronic file 202 including the content tag 204 and the scenario are transmitted from the processing device 401 to the content conversion device 402 via a network (e.g. internet of things). The content conversion means 402 connects the terminal means 403-1 to 403-n, wherein the terminal means 403-1 to 403-n comprise sensing means or control means. The electronic file 202 has different formats, each of which is playable in accordance with a particular terminal device. Fig. 4 illustrates that the basic components of a cultural data content communication system may include a processing device 401, a content transforming device 402, and a plurality of terminal devices 403-1 to 403-n.

A content conversion device 402 and a plurality of terminal devices 403-1 to 403-n may be configured as a communication unit 410 in a building, a moving vehicle, or any predetermined area. The communication unit 410 may further include environmental parameters 421 and living things (e.g., human or animal) 422 to form an interaction space 420. The processing device 401 may obtain various environmental parameters and biometric data via the sensing devices in the terminal devices 403-1 to 403-n. The cultural data content conveys that the communication system presents different electronic files according to the change of environment and different biological objects. For example, the cultural data content communication system can determine the presented electronic files and the presentation modes of the electronic files according to the height, sex or age of the living beings 422 and different environmental parameters.

As shown in fig. 3, the 8-layer model includes a network layer 306. The network layer conveys the network topology of each device of the communication system for cultural data content. The network topology of the devices in the cultural data content delivery communication system is described with reference to fig. 5.

Fig. 5 illustrates an exemplary network topology of a cultural data content communication system according to the present invention, the network topology comprising processing devices 401-1 to 401-3, content transformation devices 402-1 to 402-3, terminal devices 403-1 to 403-7 and other devices 404-1 and 404-2 outside the system. As shown in fig. 5, the processing device 401, the content conversion device 402, and the terminal device 403 may be connected to each other, for example, by wireless connection or wired connection, as long as the processing device 401, the content conversion device 402, and the terminal device 403 are within the range and capability of being connected.

As described above with respect to fig. 4, the basic components of a cultural data content delivery communication system include a processing device, a content conversion device and a plurality of terminal devices. However, each of the processing devices 401-1 to 401-3 may be connected to a plurality of content conversion devices 402. Thus, each of the processing devices 401-1 through 401-3 may support a plurality of different cultural data content communication systems. For example, the processing device 401-1 in FIG. 5 may be connected to the content conversion devices 402-1 and 402-2 and form a cultural data content communication system with the content conversion devices 402-1 and 402-2.

Each of the content conversion devices 402-1 to 402-3 may be connected to a plurality of processing devices 401, and one content conversion device 402 may receive data from the plurality of processing devices 401, as the content conversion device 402-2 in fig. 5 is connected to the processing devices 401-1 and 401-2. Different content conversion devices may also be connected to each other to increase the communication distance, such as content conversion device 402-1 in fig. 5 connecting content conversion devices 402-2 and 402-3.

Each of the terminal devices 403-1 to 403-7 may be connected to one or more content conversion devices to join a plurality of cultural data content communication systems, such as the terminal device 403-2 in fig. 5 may be connected to the content conversion devices 402-1 and 402-2 at the same time. Each of the terminal devices 403-1 to 403-7 may also be connected to each of the processing devices 401-1 to 401-3, as the terminal device 403-7 is connected to the processing device 401-3 in fig. 5. Each of the terminal devices 403-1 to 403-7 may directly serve as a sensing device or a control device of any one of the processing devices 401-1 to 401-3. Each of the terminal devices 403-1 through 403-7 may be interconnected with each other to operate in a harmonic mode (harmony) as in fig. 5, where terminal device 403-5 connects terminal device 403-6. In some embodiments, each of the processing devices 401-1 through 401-3 may send a transcript to any of the terminal devices 403-1 through 403-7 via the content conversion device. In some embodiments, content conversion devices 402-1 and 402-2 may send a script to another processing device or another content conversion device. In some embodiments, each of the terminal devices 403-1 through 403-7 may send a transcript to another terminal device.

Fig. 6 is a schematic diagram of an information packet according to some embodiments of the invention. Fig. 6 discloses an exemplary information package 600 for use in a cultural data content-conveying communication system, according to some embodiments of the invention. The information package 600 includes an access code 610, a header 620, a guard segment 630, a payload 640, and a suffix 650. The access code 610 includes a preamble 611, a synchronization code (synchronization word) 612, and a suffix 613.

Header 620 includes 6 identifiers, identifiers 621 through 623 being identifiers of destinations and identifiers 624 through 626 being identifiers of sources. Identifiers 621 through 626 are hardware that identifies the received packet and the hardware that sent the packet. The header 620 includes a destination domain identifier 621, a destination content conversion device identifier 622, a destination terminal device identifier 623, a source domain identifier 624, a source content conversion device identifier 625, a source terminal device identifier 626, and a link control message 627. In addition, the header code 620 includes other link control messages 627 such as packet type codes, traffic handles, or acknowledgement indication codes for sequence numbers that order data in packet transmissions and header error checking.

Each processing device is responsible for network domain management of a cultural data content delivery communication system. Each processing device has a network domain identifier.

Each content conversion device is responsible for management of an area under construction in a cultural data content communication system, and each content conversion device is provided with an area identifier.

Each terminal device has a device identifier that, via the area identifier of the networked upper layer routing device (gateway), can be combined into a device identifier that is unique within the network domain of the same processing device.

As shown in fig. 3, the 8-layer model includes a cultural data layer 301. Cultural data is a means of presenting human culture. Is a derivative of the history of humans, such as literature, art, science, religion, politics, history, and the like. The derivatives of human culture are all preserved in the modes of symbols, characters, sounds, entities and the like. One idea may be a combination of multiple data records. In the past, some data recording materials were used to preserve human cultures, and these data recordings can be broadly classified as follows:

3D: real object, 3D map, model …;

2D: pictures, 2D drawings, photographs …;

Video and audio: magnetic tape, audio tape, spoken language, score …;

engineering: building map, mold map, equation, mathematical formula …;

smell: recipe, process ….

As shown in fig. 3, the 8-layer model includes a digital layer 302. The digital layer is an electronic file that digitally processes the data record into a content tag. The data record 201 may be a movie, a drawing, a text, an engineering drawing, an equation, etc.

FIG. 7 is a schematic diagram of a data record and content tag according to some embodiments of the invention. As shown in fig. 7, the data record 201 is digitized into electronic files 202 in different formats. The electronic files may include video, audio, image, engineering drawings, and documents. Video formats include AVI, FLV, WMV, MOV, MPEG, etc.; the audio format includes MP3, WAV, AAC, BWF, etc. The image format includes GIF, PNG, X, 3, D, JPEG, RAW, etc. Engineering drawing formats include building drawings, structural drawings, mold drawings, mechanical drawings, electrical drawings, piping drawings, procedures, equations, chemical formulas, and the like. The file format contains DOC, PDF, TIFF, INI, RSS, etc.

The format has a corresponding terminal that can be played. If the data is recorded as a physical object, the data can be digitized into the electronic file 202 after 3D scanning and photographing. Keywords (e.g., specific meanings, features, and values) in the electronic file 202 may be labeled as content tags 204. In some embodiments, the content tag 204 may be: the time position and pixel position of the video file, the time position of the audio file, the pixel position of the image file, the number of pages and lines of the file, the pixel position, the number of pages and lines of the engineering drawing file, and the like, and marks the meaning, the characteristics, the numerical value, and the like of the positions. Each content tag may include parameters 704-1 through 704-n. Parameters 704-1 through 704-n may be light parameters, environmental parameters, odor parameters, terrain parameters, climate parameters, contextual parameters, tool parameters, biometric parameters. Parameters 704-1 through 704-n provide a summary of the content of electronic archive 202 to compose a transcript.

FIG. 8 is a schematic diagram of an electronic archive in accordance with certain embodiments of the present invention. FIG. 8 discloses that data record 201 is digitized into p electronic files 202-1 through 202-p, where electronic file 202-1 has n content tags 204-11 through 204-1n, electronic file 202-2 has m content tags 204-21 through 204-2m, and electronic file 202-p has q content tags 204-p1 through 204-pq. The content tags 204-11 through 204-pq may be considered a two-dimensional data structure.

As shown in fig. 3, an editing layer 303 is included in the 8-layer model. After the data record 201 is digitized into the electronic archive 202 with the content tag 204, each cultural data needs to have a script, so as to describe information such as abstract, outline, etc. of the cultural data. The summaries in the transcript are a collection of content tags 204 of the electronic archive 202, but content tags in different electronic archives may have the same keyword attributes. A scenario may instruct the terminal device in the communication unit 410 to play at least one electronic file in each time section, and the functions and applications of the scenario will be described later. One of the functions of the editing layer is to sort the content tags into n-dimensional (e.g., 2-dimensional) data arrays. The script of the cultural data can search, classify, search and identify the electronic files in the cultural data.

As shown in fig. 3, a session layer 305 is included in the 8-layer model. The session layer is the interactive management in the process of cultural data transmission. The processing device can set the scheduling of the electronic files in the cultural data according to the interaction space 420. The terminal device can obtain the biological characteristics in the interaction space 420, and can transmit and play the electronic file in the cultural data after the biological characteristics are identified, and the playing can be stopped when the biological characteristics leave the interaction space 420. The living things can be fed back by the terminal device (e.g., the input/output device or the sensing device) to control the playing of the electronic file in the communication unit 410. The creature can also input an electronic file from a terminal device, which will broadcast the input electronic file and content tag to the content conversion device and terminal device of the communication unit 410 for presentation of the relevant cultural data.

As shown in fig. 3, an application layer 304 is included in the 8-layer model. The application layer initiates an application mode of the communication broadcast for the communication unit 410. The application modes include: a collaboration mode (collaboration mode), a collaboration mode (collaboration mode), and a collaboration mode (harmony mode).

Fig. 9 is a schematic diagram of a network topology according to some embodiments of the invention. Fig. 9 discloses a collaboration mode of a cultural data content delivery communication system in accordance with some embodiments of the invention. In the collaboration mode, the scheduling and management of the broadcasting of the electronic file 202 is performed by the processing device 401 on the content transformation device 402 and the terminal devices 403-1 to 403-n in the communication unit 410.

Fig. 10 is a schematic diagram of a network topology according to some embodiments of the present invention. Fig. 10 discloses a collaboration mode of a cultural data content delivery communication system in accordance with some embodiments of the invention. In the network, a break in communication or a degradation in the quality of the connection (e.g., a delay) may be caused. In the collaboration mode, if the processing device 401 is disconnected, the content conversion device 402 will be responsible for the broadcast management of the electronic file. In addition, as shown in fig. 10, the content conversion device 402 may broadcast when receiving an electronic file input from the terminal device 403-1. Furthermore, in some embodiments, as shown in fig. 10, if the content conversion device 402 receives an electronic file (or conversion file) input from the terminal device 403-1, the input electronic file (or conversion file) may be translated into a related content tag, the electronic file (or conversion file) suitable for a selected cultural data may be edited in the database of the content conversion device 402, and then translated into a conversion file suitable for other terminal devices (e.g., 403-2, 403-3, etc.), and then broadcast to other terminal devices (e.g., 403-2, 403-3, etc.).

Fig. 11 is a schematic diagram of a network topology according to some embodiments of the present invention. Fig. 11 discloses a mode of tuning of a cultural data content communication system in accordance with certain embodiments of the invention. In the harmonic mode, when the content conversion device 402 in the communication unit 410 is disconnected, if the input of the electronic file is received from the terminal device 403-1, the terminal device 403-1 can add a content tag to the input electronic file and broadcast to other terminal devices (e.g. 403-2, 403-3, etc.). In addition, other terminal devices can present corresponding electronic files from the storage space of the terminal devices to carry out harmonic broadcasting. After disconnecting from the content conversion device 402, the terminal device 403-1 may transmit and receive signals through the infrared sensor, may broadcast and receive data in the space where the cultural data is transmitted through the signal modulated by the carrier, and may notify other terminal devices (e.g., 403-2, 403-3, etc.) to perform the local tuning mode. The microphone and the loudspeaker can also be transceivers of ultrasonic signal carriers. The acoustic wave is modulated by the carrier wave, and then data is transmitted, and the terminal device 403-1 is notified to perform the local resonance mode by the ultrasonic carrier wave. The lamp controller and the photosensitive sensor can also be used as carriers of light wave data. A stereo ring-field loudspeaker is provided with a microphone, a photoresistor and other sensing components, and can receive data of ultrasonic carriers and optical carriers. When the wired and wireless networking is disconnected, the communication can be communicated with other terminal devices through other heterogeneous networking capabilities, so that the application of the local mode of coordination can be performed.

Fig. 12 is a schematic diagram of a feedback tag according to some embodiments of the invention. The present invention provides a method for providing feedback to a cultural data content communication system by a living being (such as a user).

The sensing device in the cultural data content communication system can detect the gesture and physiological parameters of a living being (such as a user), so as to obtain the intuitive response of the living being. As shown in fig. 12, the user's reactions include facial expression, pupil, gesture, posture, voice, physiology, etc. In detail, the facial expression reaction includes happiness, anger, sadness, happiness, etc.; pupil responses include enlargement, constriction, eye closure, etc.; gesture reactions include waving hands, thumb, holding chest, etc.; the gesture reaction comprises standing gesture, walking, head deflection, sitting and the like; physiological reactions include sweating, heart rate changes, blood pressure changes, etc.; and voice reactions include spoken language, volume changes, commands, etc. The user response can express the user's will, and then provide feedback to the cultural data content communication system.

User feedback in a time segment is highly dependent on the electronic file presented by the cultural data content delivery communication system in the time segment. For example, with a finger ratio V, may represent a victory, a letter V, or a number 2. Thus, the same user may feedback different willingness expressed at different time segments.

Assuming that the person being conveyed (user) is a rational response, the user feedback may be tested first to set the desired response. In a cultural data transmission, a scenario includes playing a plurality of different electronic files, each electronic file to be played having a feedback tag in each time segment, including, for example, a user feedback list. The user's will expressed by the response of each time segment can be understood by querying the user feedback list in the feedback tag of each time segment. The same reaction may represent different willingness in different situations. For example, in a happy situation, the clapping response has a user feedback level of +1, but in a sad situation, the clapping response has a user feedback level of-1.

After the electronic file is played in a certain time section, the sensing function of the terminal device 403 can obtain the response of the user, and the processing device 401 compares the script of the cultural data to obtain the feedback level of the user in the time section. The user feedback levels of each time segment are summed up to obtain the satisfaction of the user for the cultural data. In addition, according to the user response of each time section, the script of the cultural data is compared, and the electronic files to be presented in the next time section and the playing modes of the electronic files to be presented can be further changed. Further, in the collaborative mode, the content transformation device 402 may be responsible for the comparison of user reactions to cultural data scripts. In the harmonic mode, the terminal device 403 may also be responsible for the comparison of the user response with the cultural data script.

A scenario may instruct the terminal device in the communication unit 410 to play at least one electronic file in each time period. The script also comprises a plurality of feedback labels, and each time section comprises at least one feedback label. Each feedback tag includes a plurality of corresponding operations and a plurality of user feedback levels. Regarding the corresponding operation, for example, a feedback tag indicates: if the user feedback is "happy" of facial expression reaction in the time period, there is a corresponding operation; if the user feedback is "chest holding" in the gesture response in this time period, there is another corresponding operation; if the user feedback is not indicated in the feedback label during this time period, there is another corresponding operation. The corresponding operation includes changing the file to be played in the next time section or the playing mode of the files to be played. In some embodiments, the corresponding operation includes changing a playback time position and a playback pixel position of the video file to be played in the next time section, a playback time position of the audio file to be played, a playback pixel position of the image file to be played, a playback number of pages and a playback number of lines of the file to be played, or a playback pixel position, a playback number of pages and a playback number of lines of the engineering drawing file to be played.

Regarding the user feedback level, for example, a feedback tag indicates: if the user feedback is "happy" for the facial expression response during this time period, there is a user feedback level (e.g., +10); if the user feedback is "chest hug" in the gesture response during this time period, there is another user feedback level (e.g., -5); if the user feedback is not indicated in the feedback tag during this time period, there is another user feedback level (e.g., +0). Each presentation of cultural data may result in multiple user feedback levels. The cultural data content transmission communication system of the invention can respond to the user feedback to judge a user feedback level, and continuously update a user satisfaction degree based on the judged user feedback level in each time section, and obtain an end user satisfaction degree after the electronic file is played. In some embodiments, end user satisfaction is obtained by summing the multiple user feedback levels.

The propagation of cultural data may include the following four modes depending on the purpose: cultural data broadcasting ", cultural data modeling", interest acquisition ", and cultural data satisfaction.

"cultural data broadcasting" refers to broadcasting an electronic file of specific cultural data to general and specific users. For example, an electronic archive of specific cultural data is broadcast to users of different groups of users of a specific gender, a specific age, a specific height, guests, staff, etc. For example, the cultural data to be transmitted in the "cultural data broadcasting" mode is ordered according to the biological characteristics of the user (the transmitter).

The "culture data modeling" refers to playing a specific electronic file to a user in a communication unit, creating an atmosphere through a control device of a terminal device, and obtaining feedback from the user through a sensing device of the terminal device, and timely adjusting the played electronic file so that the user can be immersed in the culture data. For example, in the "cultural data shaping" mode, at least one of the corresponding operations is performed in response to feedback from the user (the converterless) so that the user satisfaction is maintained within a predetermined range. In other words, at least one of the corresponding operations to be performed is selected with the aim of maintaining the user satisfaction within the predetermined range in response to the feedback of the user.

The "interest acquisition" refers to the step of playing a specific electronic file for a user, acquiring the response of the user to a specific feedback label and the feedback level of the user, and acquiring various interest orientations of the user after statistical analysis. For example, in the "interest acquisition" mode, user feedback levels determined in response to feedback from the user (the conveyed party) may be transmitted to a processing device, content conversion device, or terminal device, where various orientations of interest of the user may be acquired through statistical analysis.

The term "cultural data satisfaction" refers to that a specific electronic file is played for a user, and after feedback of the user and a feedback level of the user are obtained, the played electronic file is further adjusted so as to improve the satisfaction degree of the user. For example, in the "cultural data satisfying" mode, at least one of the corresponding operations is performed in response to feedback from the user (the converterless) to maximize user satisfaction. In other words, at least one of the corresponding operations to be performed is selected with the objective of maximizing user satisfaction in response to feedback from the user.

The four cultural data transmission modes can be achieved by the same algorithm but different electronic file playing and environment control under different conditions. In some embodiments, the four cultural data propagation modes above may be achieved with different algorithms in the present invention.

Fig. 13 is an algorithm state diagram according to some embodiments of the invention.

The propagation of a cultural data can be divided into a plurality of time segments according to the playing time. The script provides the type and presentation of the electronic file 202 to be presented in each time segment.

The cultural data propagation in fig. 13 is divided into m time segments. Each time segment is the smallest algorithm unit, and each time segment comprises an S state, an A state and a G state. The S state is a playing state, the A state is to obtain the environment condition and the response of the user and judge the corresponding operation, and the G state is to judge the feedback level of the user.

S1, S2, S3. A1, A2, A3 were sequentially arranged on the time axis. G1, G2, G3.. Gm-1 are sequentially arranged on a time axis.

In the S1 state, the terminal device is initialized according to the scenario configured by the processing device, and then the electronic file is played. The subsequent S1 state to Sm state adjusts the electronic files to be played in the next time section and the presentation mode of the electronic files according to the cultural data transmission mode in the script. After the terminal device starts playing the electronic file in the S1 state, the sensing device in the terminal device enters the a state to obtain the user response of the user to a feedback tag, obtain the environmental parameters of the interaction space 420 and determine the corresponding operation as the reference for playing the electronic file in the S2 state. In the G state, the feedback level of the user is determined according to the corresponding feedback label in the user response comparison scenario.

Fig. 14 is an algorithm state diagram according to some embodiments of the invention. When operating in the "cultural data broadcast" mode, the system algorithm status is shown in FIG. 14. After the electronic file set by the scenario is played from the S1 end, in the a state of each time section, the sensing device in the terminal device confirms the environmental parameters and the response of the user, such as temperature and light are correct? Is the user changed? After confirming the changed condition, the corresponding operation is determined to adjust the electronic file played in the next S state. When operating in the cultural data broadcasting mode, the feedback level of the user is not determined according to the response of the user, so that the G state is not entered. The obvious difference between fig. 14 and 13 is that the G state is not included in fig. 14.

Fig. 15 is an algorithm state diagram according to some embodiments of the invention. The system algorithm states are shown in FIG. 15 when operating in the "cultural data modeling" mode, the "interest acquisition" mode, and the "cultural data satisfying" mode. All three modes determine the feedback level of the user according to the response of the user, so that the G state is calculated. According to the feedback level of the user, the electronic file to be played is adjusted in the next S state according to the conditions of different modes, and the environmental parameters and the user response which need to be acquired by the sensing device in the terminal device in the next A state are adjusted.

The "cultural data shaping" mode instructs the user to feel the same scene and atmosphere as the cultural data. For example, if the communicated cultural data is set to be comfortable, the electronic files indicated to be played in the script may be soft music, light, moderate temperature and fresh taste. After the response of the user is obtained through the A state, the feedback label is compared with the G state and the user feedback layer is judged, and the terminal device can be adjusted at the lower position of the user feedback layer in the specific feedback label in the next S state. For example, the user experiences too hot or too noisy, the air conditioning or musical content may be adjusted. The operation in the culture data modeling mode can make the user feel the situation of the culture data to be modeled.

The "interest acquisition" mode refers to communicating a particular cultural data and acquiring a user feedback level for a user for a particular feedback tag. For example, a series of electronic files are set for the user, and the user feedback level of the feedback label is recorded. In the interest acquisition mode, the electronic file schedule played in the S state is the same as the cultural data broadcast mode, and the electronic file set according to the scenario is played in each time section. However, the G state is increased in the interest acquisition mode to acquire the user feedback level of the user for the specific feedback tag for further statistical analysis. In general, the interest acquisition mode may be applied to market research or opinion research. The user can also conduct statistical analysis on the played electronic files while receiving the propagation of the cultural data. In addition, the interest acquisition mode may further include an interest acquisition confirmation state. In the interest acquisition confirmation state, after acquiring the user feedback level of the user for the specific feedback label, the electronic file with the similar content label can be further provided for the feedback label of the higher user feedback level, and the user feedback level can be further acquired, so as to confirm the highest user feedback level of the electronic file of the similar content label.

The "cultural data satisfying" mode shapes a cultural data scene to be transmitted and makes the user satisfied with the cultural data. The cultural data satisfying mode is similar to the interest obtaining mode, and a specific cultural data is to be transmitted to a user, and the positive satisfaction of the user such as interest and liking of the cultural data is improved. For example, in a gymnasium environment, when the cultural data set by a user is to increase the heat consumption of exercise, the electronic files related to the cultural data are played, the related environmental control devices are adjusted, and the physiological condition of the user is sensed, so that the heat consumption of exercise can reach the meeting conditions set by the script of the original cultural data. The cultural data meeting mode meets specific cultural data, and the interest acquisition mode sets cultural data with multiple testing purposes so as to acquire the interest orientation of the user.

Fig. 16 is a schematic diagram of a cultural data content communication system application, in accordance with some embodiments of the invention. Fig. 16 discloses cultural data 1601, a processing device 1602, a content conversion device 1603, an environmental control device (air conditioner) 1604, a light control device 1605, an image capturing apparatus 1606, an audio playing device 1607, a display apparatus 1608, an odor control device (fragrance expanding device) 1609, a 3D projection device 1610, a projection device 1611, and a user 1612. The environment control device 1604, the light control device 1605, the image capturing apparatus 1606, the audio playing device 1607, the display apparatus 1608, the odor control device 1609, the 3D projection device 1610, and the projection device 1611 are terminal devices.

In this embodiment, user 1612 is a potential customer with dog walking. The content conversion device 1603, the environment control device 1604, the light control device 1605, the image capturing device 1606, the audio playing device 1607, the display device 1608, the odor control device 1609, the 3D projection device 1610, the projection device 1611 and the user 1612 form an interaction space 1600.

Fig. 16 discloses a scenario in which the present invention is applied to product sales. Fig. 16 discloses an interaction space 1600 of product sales culture data to shape the culture data scene of product sales. An interactive space 1600 with proper temperature, light, music and smell is formed by an environment control device 1604, a light control device 1605, an audio playing device 1607 and a smell control device 1609. The user's interest in feedback tags is captured by image capture device 1606, e.g., image capture device 1606 detects that the user's 1612 pupil is looking at sports shoes or hat merchandise in the file being played on display device 1608. Then, the 3D projection device 1610 and the projection device 1611 present further information of the sports shoes or caps to the user 1612 through setting of the script, so as to achieve the purpose of improving the consumer wish of the user 1612.

Fig. 17 is a schematic diagram of a cultural data content communication system application, in accordance with some embodiments of the invention. Fig. 17 discloses cultural data 1701, a processing means 1702, a content converting means 1703, an environment control means (air conditioner) 1704, a light control means 1705, an image capturing device 1706, audio playing means 1707 and 1713, a display device 1708, odor control means (fragrance expanding means) 1709 and 1714, a production device sensing means 1710, an optical scanning means 1711, a projecting means 1712, a 3D printing means 1715, and users 1716 and 1717.

The environment control device 1704, the light control device 1705, the image capturing apparatus 1706, the audio playing devices 1707 and 1713, the display device 1708, the odor control devices 1709 and 1714, the production equipment sensing device 1710, the optical scanning device 1711, the projection device 1712, and the 3D printing device 1715 are all terminal devices.

In this embodiment, the user 1716 is an on-line operator and the user 1717 is a manager in the control room. The content conversion device 1703, the environment control device 1704, the light control device 1705, the image capturing device 1706, the audio playing device 1707, the display device 1708, the odor control device 1709, the production device sensing device 1710 and the optical scanning device 1711 form an interactive space 1700 for production on-line. The content conversion device 1703, light control device 1705, audio playback device 1713, odor control device 1714, projection device 1712, and 3D printing device 1715 comprise an interaction space 1750 in the control room.

Fig. 17 discloses a scenario where the present invention is applied to production lines and control rooms in a factory. In an online interactive space 1700, the present invention shapes the work environment that the user 1716 operator can satisfy. The mental state of the operator 1716 may be obtained by the image capturing device 1706. Quality conditions of the production equipment and products can be obtained by the production equipment sensing device 1710 and the optical scanning device 1711. By analyzing the data acquired by the image capturing device 1706, the production device sensor 1710 and the optical scanning device 1711, the operator's current response and feedback (e.g., work efficiency) can be presented. The display device 1708 may display a produced SOP job description to provide description assistance when an operator presents a reduced quality or poor efficiency of work. Interaction with interaction space 1700 is also possible in interaction space 1750 of the control room.

Fig. 18 is a schematic diagram of a cultural data content communication system application, according to some embodiments of the invention. Fig. 18 discloses display devices 1801 and 1802, light control device 1803, image capturing apparatus 1804, traffic sign control device 1805, electronic billboards 1806, 1807 and 1808, audio playback device 1809, user 1810, small vehicle 1811 and large vehicle 1812. The display devices 1801 and 1802, the light control device 1803, the image capturing apparatus 1804, the traffic sign control device 1805, the electronic billboards 1806, 1807 and 1808, and the audio playback device (broadcasting device) 1809 are terminal devices.

The user 1810 is a public receiving evacuation instructions, and the small vehicle 1811 and the large vehicle 1812 are respectively a small vehicle and a large vehicle receiving evacuation instructions. Fig. 18 is an application of the present invention to outdoor public service, more specifically, public service application of outdoor evacuation indication. Fig. 18 shows an interaction space 1800 at the street corner. The display devices 1801 and 1802 play electronic files, and the light control device 1803, traffic sign control device 1805, and electronic billboards 1806 to 1808 provide more information to the user 1810, small vehicle 1811, and large vehicle 1812. For example, the image capturing device 1804 is used to learn that the pedestrian intends to pass through the intersection, and the traffic sign control device 1805 can be used to control the traffic light to make the pedestrian pass through; the road where the large vehicle 1812 is to enter is known to only allow pedestrians to pass through the image capturing device 1804, the electronic billboards 1806 display signs that vehicles are prohibited from entering, and the electronic billboards 1807 and 1808 further display the direction of the pedestrians and vehicles.

The embodiment of fig. 18, tsunami evacuation culture data, provides evacuation directions for users 1810, small vehicles 1811, and large vehicles 1812. The embodiment of fig. 18 operates in a cultural data satisfaction mode. The directions of movement of the user 1810, the small vehicle 1811 and the large vehicle 1812 acquired by the image capturing apparatus 1804 can be regarded as the interests of the user 1810, the small vehicle 1811 and the large vehicle 1812. The directions of interest in movement of the user 1810, the small vehicle 1811 and the large vehicle 1812 are guided to default directions of movement in the text data via the light control device 1803, the traffic sign control device 1805 and the audio playback device 1809.

Further, the embodiment of FIG. 18 may operate in any of a collaborative mode, and a harmonic mode. The embodiment of fig. 18 shows devices 1801 and 1802, light control 1803, image capture device 1804, traffic sign control 1805, electronic billboards 1806, 1807 and 1808, and audio playback device (broadcaster) 1809 all having computing processors, memory, and communication interfaces to enable processing, storage, and networking capabilities. In the embodiment of fig. 18, the interactive space 1800 may not be connected to the processing device or the terminal device may not be connected to the content conversion device in case of a major emergency. In such cases, the interactive space 1800 may continue to operate by power within the interactive space 1800 and operate in either a collaborative mode (where it may still be connected to the content conversion device) or a harmonic mode (where it may not be connected to the content conversion device). In the cooperation mode and the coordination mode, the communication system for communicating the cultural data content can be prevented from being disabled under the condition that the network is disconnected or the power is interrupted and the network cannot be connected to the processing device or the content conversion device. The 8-layer model in the cultural data content communication system of the invention is a specific application adopting the concept of edge operation and fog operation. In case of network disconnection, each interaction space or each terminal device can still continue to spread cultural data.

Fig. 19 is a schematic diagram of a processing device, content conversion device or terminal device in a cultural data content communication system according to some embodiments of the invention. Fig. 19 shows an exemplary block diagram of a processing device, content conversion device, or terminal device in accordance with some embodiments of the present invention. According to table 2 of the present invention, one of the processing means, the content conversion means and the terminal means may comprise a control means 1910 and a sensing means 1930, wherein the control means 1910 comprises a haptic integration means 1911, a 3D projection means 1912, a 3D printing means 1913, virtual reality glasses 1914, a light control means 1915, a display device 1916, an audio playing means 1917, an odor control means (e.g. fragrance spreading means) 1918, an infrared input output means 1919 and an environmental control means (e.g. air conditioner) 1920. The sensing device 1930 includes a global positioning system chip 1931, a human input interface 1932, an image capturing device 1933, an audio input device 1934, an odor sensing device (e.g., an electronic nose) 1935, a biometric sensing device 1936, an environmental parameter sensing device (e.g., a temperature and humidity sensing device) 1937, a touch sensing device 1938, an infrared input and output device 1919, and a scanning device 1939.

According to table 2 of the present invention, one of the processing device, the content conversion device, and the terminal device may include the i/o driving interface device 1940. The i/o driving interface device 1940 integrates the data from the sensing device 1930 and transmits the integrated data to the central processing unit 1951, and the i/o driving interface device 1940 transmits the instructions from the central processing unit 1951 to the control device 1910, respectively. According to the present invention, one of the processing device, the content converting device and the terminal device may include a central processing device 1951, a memory 1952, a power management control device 1953, a cellular network modem device 1954, a wireless network modem device 1955 and a wired network modem device 1956.

Wherein cellular network modem 1954 communicates with cellular network base station 1960 and wireless network modem 1955 and wired network modem 1956 communicate with network 1970. In some embodiments, the cellular modem 1954 is connected to the wide area cellular network through a cellular base station 1960. The central processing unit 1951 is coupled to a memory 1952, the memory 1952 storing computer programs, code and databases for execution by the processing device. The central processing unit 1951 is connected to a power management controller 1953. The power management controller 1953 will implement a power saving schedule for the processing device, responsible for timing the powering on and off of the processing device.

The central processing unit 1951 is connected to the i/o driving interface device 1940, and the i/o driving interface device 1940 transmits data and instructions of the central processing unit 1951 to the control device 1910 to control the control device 1910 to play the electronic file. The i/o drive interface device 1940 transmits the data acquired from the sensing device 1930 to the central processing unit 1951 for analysis of the data.

The global positioning system chip 1931 in the sensing device 1930 can obtain geographic coordinates. The man-machine input interface 1932 may accept data input from a keyboard, a tablet, a touchpad, or a recording medium such as a solid-state memory, an optical disk, or a hard disk. Image capture device 1933 may perform image recognition.

Audio input device 1934 may record ambient sounds and speech. The scent sensing device 1935 may take an ambient air quality indicator such as CO, gas, smoke, etc. The biometric sensing device 1936 may obtain data such as fingerprints, voiceprints, DNA, electrocardiography, pupils, etc. The tactile sensing device 1938 may sense the roughness of the object. The ir i/o device 1919 may transmit and receive signals to detect the presence and distance of objects in the environment, and may transmit and receive modulated signals to broadcast and receive data in spaces where cultural data is communicated. The scanning device 1939 may be a 3D scanning device and a 2D scanning device to obtain 3D stereo data and 2D plane data of the object.

The haptic integrating device 1911 in the control device 1910 may be a haptic brush that provides a sense of touch. The 3D projection device 1912 may provide 3D projection. The 3D printing device 1913 may print out the 3D model. Virtual reality glasses 1914 may acquire virtual reality. The light control 1915 may provide various light sources to provide different light scenes within the interactive space. The display device 1916 includes a projector, a panel, a television wall, and the like, and may be a multi-screen display. The audio playing device 1917 may be a mono speaker or a stereo surround speaker with high sound quality, or may be an ultrasonic speaker to transmit modulated acoustic signals. The odor control device 1918 may provide a scene of an odor atmosphere. The environmental control 1920 may provide on-site temperature and humidity control.

FIG. 20 is a flow chart of a data record digitizing process according to some embodiments of the invention. FIG. 20 shows an exemplary process for generating a scenario based on various data records in a cultural data content delivery communication system model according to the present invention. A cultural datum may be expressed by various data records, such as a text 2037, an image 2038, a smell 2039, a video 2040, a model (or object) 2041, and the like. The cultural data layer 2030 contains records for these raw materials.

Depending on the nature of the data recording, the processing device may decide to digitize it using different sensing devices. For example, the model 2041 may use a 3D holographic imaging device 2035 or a 3D scanning device 2036 (e.g., with X-rays and laser light) to acquire images in multiple layers. Audio video 2040 may be passed through analog to digital conversion 2034. The scent 2039 may be sampled via a scent sensing device (e.g., electronic nose) 2033. The image 2038 may be sampled via a 2D scanning device 2031 or a digital camera 2032.

These data records are initially sampled and then processed by multi-format digitizing 2026. The control means of the terminal device have different capabilities. Such as display devices including projectors, televisions, tablets, etc. with different resolutions. Or the format of the optimal playback by the control device of the terminal device is also different. The data record is processed for multi-format digitizing 2026. The smell 2039 sampled by the smell sensing device 2033 is analyzed 2027 by the composition formula to complete the digitization.

The text 2037 and the image 2038 may be digitized as a 2D electronic file 2022, the smell may be digitized as an atmosphere electronic file 2023, the audio-visual 2040 may be digitized as an audio-visual electronic file 2024, and the model 2041 may be digitized as a 3D electronic file 2025. The digitized electronic file has different attributes, such as 3D, audio-visual, atmosphere, image, description, touch and the like. The electronic files of the different attributes may be used to describe the same or different cultural data, so the content of the electronic files may or may not have relevance. After analysis by the processing device or human verification, the content tag is labeled 2021 for the features in the content of each electronic file. Each electronic file contains a plurality of content tags. The above procedure is the digital layer 2020 in the 8-layer model.

Next, a plurality of electronic files containing a plurality of content tags are compiled 2012 according to the cultural data to be transmitted and based on the content tags related to the cultural data, and the script 2011 is completed. More specifically, the scenario compiling 2012 confirms the content tag and the parameter related to the cultural data according to the cultural data to be transmitted, and compiles a plurality of electronic files having the content tag related to the cultural data into the scenario 2011 based on the content tag and the parameter related to the cultural data. The above process occurs at the editing layer 2010 in the 8-layer model of the present disclosure.

The processing device and the content conversion device also have internet networking capability, and besides the capability of locally digitizing the data records to generate electronic files as shown in fig. 20, the data records can also be collected and digitized for use via the internet.

FIG. 21 is a flow chart according to some embodiments of the invention. Fig. 21 discloses further details of editing layer 2010 of fig. 20. One cultural datum may be expressed via a plurality of electronic files (e.g., electronic files 2101-1 through 2101-n), each having a plurality of content tags 2102. In each electronic file, there are content tags 2102 with high repeatability, which can be labeled as important content tags (as shown in fig. 21, A, B and C). Editing of the content tag index set 2110 may be performed at the processing device based on the important content tags. The content tag index set 2110 includes content tag indexes 2110-1 to 2110-m. 2110-1 to 2110-3 in the embodiment of fig. 21 may be indexes of content tags A, B, C.

Editing of the cultural data summary and the content configuration 2120 is performed according to the content tag index set 2110. Editing of the electronic archive broadcast program 2130 is performed in accordance with the content tag index set 2110. Editing of feedback tab set 2140 is performed according to content tab index set 2110. Editing of the user feedback hierarchy set 2150 and the corresponding action set 2160 is performed according to the content tab index set 2110. Feedback tag set 2140 includes feedback tags 2140-1 through 2140-p, a feedback tag including a user feedback level set 2150 and a corresponding action set 2160. A set of user feedback levels 2150 includes user feedback levels 2150-1 through 2150-q, and a corresponding set of operations 2160 includes corresponding operations 2160-1 through 2160-w.

The processing device edits the script 2170 according to the content tag index set 2110, the cultural data summary and the content configuration 2120, the electronic file playing program 2130, the feedback tag set 2140, the user feedback hierarchy set 2150 and the corresponding operation set 2160. According to the cultural data summary and content configuration 2120, the processing device edits the script summary 2171 and the electronic file configuration 2172 of the script 2170, wherein the electronic file configuration 2172 includes what kind of control device the format of each electronic file is suitable for the terminal device, and the script summary 2171 can be automatically written or manually input through the processing device. In some embodiments, content tags and parameters thereof associated with the cultural data are compiled into a content tag index set 2110 according to the cultural data to be communicated, and a specific portion of the script 2170 is compiled based on the content tag index set 2110, wherein the parameters are used to provide content summaries of the plurality of files to compose the script.

The electronic file playing program 2130 in the scenario 2170 includes a playing relationship of each electronic file, so that the electronic files can be synchronized when played. Scenario 2170 further includes electronic files 2101-1 through 2101-n, content tag indexes 2110-1 through 2110-m, and feedback tags 2140-1 through 2140-p. The operations shown in FIG. 21 are defined in the semantic layer of the 8-layer model of the present invention. The scenario 2170 is transmitted to the content conversion device by the processing device, and then the scenario 2170 is interpreted by the content conversion device and setup is completed for each terminal device in the communication unit.

It should be understood that the operations shown in fig. 20 and 21 are performed at the processing device in some embodiments, the scenario 2170 is transferred from the processing device to the content conversion device, and the content conversion device interprets the scenario 2170 and performs the setting for each terminal device in the communication unit. However, in the embodiment that the connection to the processing device is impossible, the content conversion device and the terminal device may operate in the cooperation mode, and the content conversion device may complete the operations shown in fig. 20 and 21, interpret scenario 2170 and complete the setting for each terminal device in the communication unit. In addition, in the embodiment that the connection to the processing device and the content conversion device is impossible, the terminal device can be operated in the harmonic mode, and the terminal device can complete the operations shown in fig. 20 and 21, interpret scenario 2170 and complete the setting for each terminal device in the communication unit.

Fig. 22 is a state diagram of a cultural data content communication system, according to some embodiments of the invention. The processing device initial state is the P0 state. In the P0 state, the processing device is on standby. The processing device enters a P1 state, gathers data records and processes the data records into a script. The processing device returns to the P0 state and then enters the P2 state, and the processing device transmits the script to the content conversion device in the P2 state. After the processing device completes the processing and the sending of the script, the processing device returns to the standby state of P0.

The initial state of the content conversion device is the R0 state. In the R0 state, the content conversion device is on standby. After receiving the scenario transmitted by the processing device in the P2 state, the processing device enters the R1 state, interprets the scenario, distributes the electronic file to each terminal device of the communication unit, and returns to the R0 state.

At R0, the content conversion device notifies each terminal device to play the electronic file according to the electronic file playing program (e.g., the electronic file playing program 2130 of fig. 21). In the collaboration mode of the application layer in the 8-layer model of the present disclosure, the script may be conveyed by the processing device, and then the cultural data may be conveyed according to the program and the condition after being distributed to the terminal device by the content conversion device.

When the terminal device plays the electronic file in the T0 state, the living things (such as users) can feed back by means of gestures, a man-machine interface, voice and the like. When the terminal device playing the electronic file receives feedback, the terminal device enters a T1 state, and the feedback is digitized and then is transmitted to the content conversion device in an R0 state, or the original data is directly transmitted to the content conversion device in the R0 state. And the content conversion device receives the feedback data, the free R0 state enters the R2 state, and the content conversion device returns to the R0 state and informs the terminal device to perform corresponding operation after searching the relevant feedback label in the script to judge the feedback level and the corresponding operation of the user. In the collaboration mode of the application layer in the 8-layer model of the invention, the content conversion device takes charge of distributing the electronic file under the condition of not being connected with the processing device, and when feedback is received from the terminal device, the content conversion device firstly searches the relevant feedback labels in the script to judge the feedback level of the user and the corresponding operation.

When the terminal device stands by in the T0 state and receives feedback of the played electronic file from the organism, the terminal device enters the T2 state to identify the relevant feedback label of the feedback, and enters the O2 state to request the other terminal devices for resonance. All other terminal devices enter the application layer tuning mode in the 8-layer model of the present disclosure without the participation of the content conversion device.

The terminal device stands by in the T0 state, and if the terminal device receives the requests of other terminal devices in the O3 state to carry out the tuning, the terminal device in the T0 state searches whether the local electronic file which accords with the request is available for tuning and playing. If the content conversion device receives a request from other content conversion devices in the O1 state to request to retrieve the corresponding electronic file, the content conversion device in the R0 state will enter the R2 state to retrieve whether the corresponding electronic file is available for playing. If the content conversion device receives a request from other processing devices in the O4 state to request to retrieve the corresponding electronic file, the content conversion device in the R0 state will enter the R2 state to retrieve whether the corresponding electronic file is available for playing.

FIG. 23 is a data processing flow diagram according to some embodiments of the invention. Fig. 23 shows a data processing flow of the localized data content delivery communication system, which includes a data recording processing flow of the processing device 2301, a conversion processing flow of the content conversion device 2302, and a conversion profile processing flow of the terminal devices 2303-1 to 2303-n. As shown in fig. 23, the processing device 2301 digitizes 2305 the data record 2304 to generate an electronic file, and adds a content tag 2306 and a script 2307 to the electronic file. The processing device 2301 transmits the electronic file 2308, the content tag 2309 and the scenario 2310 to the content conversion device 2302.

As shown in fig. 23, the content conversion device 2302 receives the electronic file 2308 from the processing device 2301 and stores it in the electronic file database 2311 for use in different modes. The electronic archive database 2311 has electronic archives 2308-1 through 2308-n and a set of content tags 2309S, where the set of content tags 2309S are packaged into content tags 2309 corresponding to the electronic archives 2308-1 through 2308-n. The electronic file 2308 received from the processing device 2301 is also sent to the electronic file buffer 2312, and after the electronic file is edited 2313, the converted file is stored in the converted file buffer 2314 according to the different file requirements of the terminal devices 2303-1 to 2303-n. The scenario received from the processing apparatus 2301 may be written into the scenario 2307 via the content conversion apparatus 2302, or the scenario timing 2317 may be generated after the scenario 2307 is written without the content conversion apparatus 2302 and stored in the converted content buffer 2314. After the received scenario 2310 generates the scenario timing 2317, the conversion files 2315-1 through 2315-m in the conversion file buffer 2314 are controlled to be outputted to the respective terminal devices 2303-1 through 2303-n to control the transmission of the cultural data thereof. The conversion content buffer 2314 has an atmosphere tag set 2316S comprising a plurality of atmosphere tags 2316, wherein each atmosphere tag is associated with a corresponding conversion profile 2315, electronic profile 2308 and content tag 2309.

The sensing unit of the terminal devices 2303-1 to 2303-n can obtain the signal 2318 from the user 2324 or the signal 2318 from the environment 2325, digitize 2319 the signal 2318 in the terminal devices 2303-1 to 2303-n, compare the data in the internal conversion file database 2328 and edit 2320 the atmosphere tag, and the terminal devices 2303-1 to 2303-n can generate the conversion file 2315-x and the atmosphere tag 2316-x related to the signal to be fed back to the content conversion device 2302. After receiving the converted file, the content conversion device 2302 translates the converted file into a corresponding electronic file 2308 and a content tag 2309 by the translator 2326, and performs electronic file collection 2327 on the electronic file database 2311 to collect the appropriate electronic file 2308 and send the electronic file to the converted content editing 2313 for the converted content register 2314.

The content conversion device 2302 may perform the application layer collaboration mode, create scenario timing 2317 for each terminal device after writing a scenario 2307 in the content conversion device 2302 with a set of suitable electronic files, and sequentially transmit the conversion file 2315 to each terminal device 2303-1 to 2303-n. As shown in fig. 23, after receiving the conversion file 2315-1 and the atmosphere tag 2316-1 from the content conversion device 2302, the terminal device 2303-1 performs cultural data transmission and playing to the control unit 2322 via the controller 2321. The converted file 2315-1 and the atmosphere tag 2316-1 received from the content conversion device 2302 are also stored in the converted file database 2328 as samples for comparison after the sensing unit 2323 obtains the signal 2318. The terminal device 2303-1 may also receive the request from the other terminal device 2303-u for the atmosphere tag 2316-u and the execution of the tuning mode in the application layer, and after the atmosphere tag 2316-u is edited and identified 2320 by the atmosphere tag, the appropriate corresponding atmosphere tag 2316 may be found in the conversion archive database 2328, and the control unit 2322 may be transmitted with cultural data via the controller 2321. The content conversion device 2302 may also be requested to operate in a harmonic mode via a conversion profile 2315 and an atmosphere tag 2316 from other content conversion devices 2302-1, or may be requested to operate in a harmonic mode via an electronic profile 2308 and a content tag 2309. After the conversion file 2315 and the atmosphere tag 2316 from the other content conversion device 2302-1 are translated by the translator 2326, the content conversion device 2302 can perform electronic file collection 2327 in the electronic file database 2311 to collect appropriate electronic files, and then control the terminal device 2303 to perform cultural data content transmission.

As shown in fig. 7, the content tags are multi-dimensional data organizations with a semantic meaning and multiple feature values. In some embodiments, the content tags are preferably used to write the script 2307 at the processing device and the content conversion device to complete the scheduling of the script. In some embodiments, after the terminal device 2303 obtains the sensing signals 2318 from the sensing component 2323, the signals 2318 are digitized 2319 and the atmosphere label editing and identifying 2320 to generate an atmosphere label 2316, and the atmosphere label 2316 is transmitted to the content conversion device for user feedback or environment feedback identification. In some implementations, the atmosphere tag 2316 may be transmitted to other terminal devices in a harmonic mode of operation at the application layer. It should be appreciated that the atmosphere tag 2316 may serve as a content tag 2309 that all devices may share in recognition.

Fig. 24 is an atmosphere tag encoding scheme according to some embodiments of the invention. One exemplary encoding of the atmosphere tag shown in fig. 24. Atmosphere labels can be in a coding mode of 2 carry, 3 carry and even multiple carry. The atmosphere tag is an N-bit length code, and may include m different levels of codes of first level 2310-1, second level 2310-2, … …, mth level 2310-m, etc. Each stage includes a different number of bits. For example, the first order 2310-1 contains bits 2311-1 through 2311-p, the second order 2310-2 contains bits 2312-1 through 2312-q, and the mth order 2310-m contains bits 2313-1 through 2313-r. The first order is the highest-level classification, such as Du-Wipe decimal book classification (Dewey Decimal Classification), and each atmosphere label is given a group of identifiers according to hierarchical classification, and the coding method can enable the atmosphere labels of two different codes to be sequentially compared with the bit codes, and the correlation of the atmosphere can be judged from the same byte number of the codes of the higher-level codes to the lower-level codes. The classification criteria of the atmosphere label are the criteria of common basis of the devices in the invention.

The processing device 2301 and the content conversion device 2302 are capable of rendering the electronic file 2308 to generate a converted file 2315 and an atmosphere tag 2316. The processing device 2301 typically creates templates for converting the contents of the file 2315 and the atmosphere label 2316, and the templates are transmitted to all the terminal devices 2303 via the content conversion device 2302, and when the terminal device 2301 or the content conversion device 2302 obtains the signal 2318 fed back by the user 2324 or fed back by the environment 2325, the templates can be compared with the templates for converting the file 2315 in the conversion file database 2328 to obtain the corresponding atmosphere label 2316, or the similar atmosphere label 2316. The same atmosphere tag 2316 may have different conversion profiles 2315 for different terminal devices 2303. For example, an atmosphere tag 2316 describing lightning strike may be used to change files corresponding to terminals such as electronic billboards, surround sound controls, and light controls. Furthermore, even for the same type of terminal 2303, different conversion files 2315 are required for driving because of different control element specifications. After acquiring the electronic file 2308 and the content tag 2309 of the processing device 2301, the content conversion device 2302 needs to re-translate the cultural data content of the electronic file 2308, and drives the control components of the different types of terminal devices 2303 connected thereto. This process is referred to as conversion of electronic file 2308, and the data generated by this process is conversion file 2315, and the features of conversion file 2315 are labeled, and atmosphere label 2316.

FIG. 25 is a flowchart of a process for converting an electronic file according to some embodiments of the present invention. Fig. 25 discloses a process flow 2501 for converting a child archive. Fig. 25 discloses a scenario 2502 and electronic files 2503-1 to 2503-n and content tags 2504-1 to 2504-n associated with the scenario. Taking a terminal device 2505-1 of an electronic billboard type as an example, the terminal device 2505-1 has a virtual screen function 2506, the virtual screen function 2506 may divide a screen 2518 into a plurality of screens, such as virtual screens W1, W2, W3 and W4. Each of the virtual screens W1, W2, W3, and W4 can support the playback of text, photo, or movie formats, and can provide animated special effects to the objects 2519 in the associated electronic file. Fig. 25 discloses a conversion profile processing flow 2510-1 of the terminal device 2505-1.

The "electronic file flow configuration 2525-1" in the conversion file process flow 2510-1 determines the flow of the electronic file to be played. The "layout selection 2511" in the conversion profile process 2510-1 determines how many virtual screens are used and determines the size, location, resolution, etc. characteristics of each virtual screen. The "window content settings 2512" in the transition profile process flow 2510-1 may determine the electronic profile to be played by each virtual screen, the cut-in effect 2513 of each virtual screen, the animation effect 2514 of the object in the electronic profile, and so on. The conversion profile process 2510-1 is used for re-translating the electronic profile into a data stream playable by the terminal 2505-1 according to the control specification of the terminal 2505-1, the functions provided by the terminal 2505-1 and the script to be transmitted.

The electronic file translated in the conversion file processing flow 2510-1 is referred to as a conversion file 2515-1, and the conversion file 2515-1 is applicable to a specific terminal device (i.e., the terminal device 2505-1) and is not commonly used for all terminal devices. Atmosphere tag 2516-1 is given to the terminal device 2505-1 in the section of the conversion file 2515-1, so that the terminal device 2505-1 can sort and manage the transferred conversion file 2515-1 in the database local to the terminal device according to the atmosphere tag 2516-1. Based on the conversion profile 2515-1, the control unit 2517-1 will control the terminal device 2505-1 to communicate the contents of the conversion profile 2515-1. In addition, the terminal device 2505-1 may have a sensing unit 2520 (e.g., an image capturing device and an audio capturing device) to obtain feedback from the user or the external environment.

Fig. 25 further discloses a lamp-controlled terminal 2515-2. The terminal device 2515-2 includes lamps L1, L2, and L3 having different functions. The "electronic file flow settings 2525-2" in the conversion file process flow 2510-2 determines the flow of the electronic file to be presented. The "lamp configuration 2521" in the conversion profile process 2510-2 determines how many lamps are used and determines the characteristics of each lamp, such as brightness, color light combination, location, projection mode, and projected pattern 2524. The "light cut setting 2522" in the transition profile process 2510-2 may determine the light situation effect 2523 for each light fixture, etc. The control unit 2517-2 can control the brightness, color light combination, position, projection mode, and projected pattern of the lamps L1, L2, and L3, so that visual selection, field crossing, fantasy, simulation, atmosphere, and the like can be provided. In the conversion profile processing flow 2510-2 of converting an electronic profile into a terminal device 2505-2, since the electronic profiles 2503-1 to 2503-n associated with a script may not include the electronic profile for the terminal device 2505-2 (i.e., may not include the electronic profile for controlling the light), the conversion profile processing flow 2510-2 may control the lamp configuration, the light cut setting, the light situation effect and the projected lamp pattern in the terminal device according to the content tag in the script, an Paideng, and then mark the atmosphere tag 2516-2.

For the terminal device 2505-n shown in FIG. 25, the "electronic file flow setting 2525-2" in the conversion file processing flow 2510-n determines the flow of the electronic file to be presented. The "conversion process 2526" in the conversion profile process 2510-n may determine the characteristics associated with the terminal device 2505-n, and translate into a conversion profile 2515-n specific to the terminal device 2505-n and indicate the atmosphere tag 2516-n.

Fig. 26 is a schematic diagram of data flow in different modes of operation of an application layer in accordance with some embodiments of the invention. The data streams 2620, 2623, 2626, and 2629 are data streams in a collaborative mode, wherein the data streams 2620 and 2623 include the electronic file 2604, the content tags 2605, and the script 2606, and the data streams 2626 and 2629 include the conversion file 2607 and the atmosphere tags 2608. The data streams 2621, 2624, 2627, and 2630 are data streams in a collaborative mode, wherein the data streams 2621 and 2624 include the electronic file 2604 and the content tags 2605, and the data streams 2627 and 2630 include the conversion file 2607 and the atmosphere tags 2608. The data streams 2622, 2625, 2628, 2631, 2632, and 2633 are data streams in harmonic mode, wherein the data streams 2622 and 2625 include the electronic file 2604 and the content tag 2605, the data stream 2632 includes the electronic file 2604 and the atmosphere tag 2608, and the data streams 2628, 2631, and 2633 include the conversion file 2607 and the atmosphere tag 2608.

Fig. 26 discloses a data flow diagram among the processing device 2601, the content conversion devices 2602-1 and 2602-2, and the terminal devices 2603-1 and 2603-2 when operating in a collaboration mode, and a resonance mode at an application layer. In collaboration mode, the electronic file is digitally processed from the data record by the processing device 2601 into an electronic file 2604. The processing device 2601 adds a content tag 2605 to the electronic archive 2604, and composes a scenario 2606 based on the content tag 2605. The processing device 2601 creates the electronic archive 2604, the content tag 2605, and the scenario 2606 as a data stream 2620 or 2623 in a collaborative mode. After the data stream 2620 or 2623 including the electronic file 2604, the content tag 2605 and the script 2606 is transmitted to the content conversion device 2602-1 or 2602-2, the data stream 2626 or 2629 including the corresponding conversion file 2607 and the atmosphere tag 2608 is transmitted to the connected terminal device 2603-1 or 2603-2 according to the process of the script arrangement after the compiling of the content conversion process into the conversion file 2607 and the atmosphere tag 2608.

And starting a terminal device of the culture data transmission system according to the setting conditions of the script to transmit the culture data. After the processing device 2601 digitizes the data and records it as an electronic file and composes it as a script, it is transmitted to the content conversion device 2602-1 or 2602-2, and then the content is converted into a format playable by the terminal device 2603-1 or 2603-2, and this flow is called a collaboration mode. The content conversion device and terminal device will store the received, edited and used electronic file 2604 and content tags 2605 (i.e., data streams 2621, 2622, 262, 2625 and 2632) or conversion file 2607 and atmosphere tags 2608 (i.e., data streams 2627, 2628, 2630, 2631, 2633) in their local databases as related materials for use in the collaborative mode and the harmonic mode.

In the cooperative mode of the application layer, the content conversion device 2602-1 or 2602-2 is a control center for cultural data communication. When the scenario 2606 cannot be obtained by the processing device 2601 during network disconnection (i.e., the data streams 2620 to 2622 and the data streams 2623 to 2625 are disconnected), or when the terminal device 2603-1 or 2603-2 obtains feedback from the user, the content conversion device 2602-1 or 2602-2 analyzes the feedback content, edits the appropriate electronic file 2604 from the local database, and finds the corresponding conversion file 2607 or the atmosphere tag 2608. The content conversion device 2603-1 or 2603-2 can compile a plurality of suitable electronic files 2603 into a conversion file 2607 and an atmosphere tag 2608 applicable to different terminal devices. The communication of cultural data by the content conversion device 2603-1 or 2603-2, which is a master of its connected terminal device, is referred to as a cooperation mode. The processing device 2601 may transfer the digitized electronic archive 2604 and corresponding content tags 2605 associated with the particular cultural data to an in-memory database (i.e., data streams 2621, 2622, 262, and 2625) of the content conversion device 2602-1 or 2602-2. These data may not contain a transcript, so cultural data communication in the collaboration mode is not initiated, allowing the content conversion device to use these content as cultural data content reference material in the collaboration mode.

In the harmonic mode of the application layer, no means act as a dominant control center. When the terminal device 2603-1 or 2603-2 and the associated content conversion device 2602-1 or 2602-2 are in a disconnection state, if the terminal device 2603-1 or 2603-2 obtains feedback from the user or information such as environmental change, the terminal device digitizes the feedback content, translates the feedback content into a conversion file 2607 and an atmosphere tag 2608, and transmits the conversion file 2607 and the atmosphere tag 2608 to the content conversion device 2603-1 or 2603-2 for cooperation mode support. If a response from the content conversion device 2603-1 or 2603-2 cannot be obtained, the conversion file 2607 and the atmosphere tag 2608 are broadcasted to other terminal devices or other content conversion devices, and a tuning mode is requested. When other devices receive the requirement of the harmonic mode and related contents, the other devices search the local memory database for proper contents and transmit the contents back to the device sending the requirement for cultural data transmission.

When the content conversion device receives the request of the harmonic mode data of other content conversion devices, the data between the content conversion devices is mainly the unconverted electronic files, and the data are transmitted to the terminal device to be converted files. The cultural data transmission initiated by the terminal device is that each terminal device obtains proper electronic files by the local processing device and participates in the cultural data transmission, and the process is called as a harmonic mode. The processing device 2601 transmits the specific, personalized, obvious and digitized electronic file 2604 and the corresponding content tag 2605 to the content conversion device 2602-1 or 2602-2 (i.e., the data streams 2622 and 2625), converts the electronic file 2604 and the atmosphere tag 2608, and then transmits the electronic file to the terminal device (i.e., the data streams 2628 and 2631) as a reference database of the tuning mode. The electronic files used in the harmonic mode may be electronic files having the same content tag. The electronic archive used in the collaboration mode may be a collection of electronic archives of one or several related content tags.

Fig. 27 is a schematic illustration of the internet of things in accordance with some embodiments of the invention. Fig. 27 discloses a processing device 2701 connected to two-stage content conversion devices 2702 and 2703-1 to 2703-n. The front-stage content conversion device 2702 is connected to one or a plurality of rear-stage content conversion devices 2703-1 to 2703-n. As shown in the network architecture of fig. 27, the two-stage content conversion device has the same functional architecture and processing operation flow, the front-stage content conversion device 2702 has a very high capacity electronic archive database and a high capability scenario editing function, and can provide electronic archives and scenarios of the other content conversion devices 2703-1 to 2703-n in the collaboration mode and the tuning mode of the application layer on the local network. The content conversion devices 2703-1 to 2703-n of the latter stage deal mainly with the conversion file editing capability of each terminal device to control various different, more and complex terminal devices 2704-1 to 2704-m and 2705-1 to 2705-p so as to provide better cultural data content transmission environment and to deal with the coordination mode of the application layer.

The foregoing description describes features of various embodiments to provide those skilled in the art with a more complete understanding of the various aspects of the present disclosure. Those skilled in the art will appreciate that the present disclosure can be readily utilized as a basis for designing a method and structure for carrying out the same purposes and/or achieving the same purposes of the embodiments described herein. Such modifications, substitutions and variations do not depart from the spirit and scope of the present disclosure.

Claims (37)

1. A cultural data communication system, comprising:

one or more processing devices;

one or more content conversion devices;

one or more terminal devices;

it is characterized in that the method comprises the steps of,

when the terminal device detects that a user enters the coverage range of the cultural data communication system, the cultural data communication system performs the following operations:

acquiring a plurality of files from a network according to the biological characteristics of the user, the feedback of the user or the response of the user;

adding or modifying a plurality of content tags to one or more files;

writing or modifying a set of operating procedures according to the content tags of one or more files and a plurality of content tags of the cultural data; the operation program is used for meeting the wish of a user; the operation procedure comprises a plurality of feedback labels; one or more feedback tags describe a plurality of corresponding operations for the user scenario, or a plurality of user feedback levels;

according to the operation program, the terminal device presents or plays at least one of the files to the user;

the terminal device senses feedback or reaction of the user and performs at least one of the corresponding operations based on the feedback or reaction of the user.

2. The cultural data communication system of claim 1, wherein the cultural data communication system stores a set of operating programs; the operation program is a script; in an initial state, the operation program comprises a time sequence or a flow of each operation in the program; the scenario is used for describing the initial setting of the cultural data transmission communication system to the user's will.

3. The cultural data communication system according to claim 2, wherein one or more terminal devices are arranged in a physical space; the physical space is an interaction space; and detecting the environmental parameters through the terminal device, and presenting visual information, auditory information, tactile information, olfactory information or text information described in the electronic file to the organism in the interaction space.

4. A cultural data communication system according to claim 3, wherein said processing means is responsible for a domain management of said cultural data communication system, the processing means having a domain identifier; or/and (or)

The content conversion device is responsible for the management of the area under the cultural data communication system, and is provided with an area identifier; or/and (or)

The terminal device has a device identifier which becomes a unique device identifier in a network domain in the cultural data communication system via a region identification.

5. The cultural data communication system of claim 2, wherein the compiling of the script is performed two or more times: compiling a plurality of electronic files into different scripts based on the update of the content tags related to the cultural data and/or the update of the plurality of feedback tags; the number of the scripts is one or more.

6. A cultural data transmission communication system according to claim 3, wherein the method of playing the file to be presented and the file to be presented in the cultural data transmission communication system in the next time period is changed according to at least one of the feedback, the response or the change of the interactive space environment of the user and the corresponding operation; the reaction is completed for the terminal device by detecting the device operated by the user.

7. The cultural data communication system according to claim 1, wherein the terminal device comprises at least one of: the device comprises a 3D projection device, a 3D printing device, a display device, a projection device, an audio playing device, an audio receiving device, a biological sensing device, a photographing device, a light control device, an environment parameter sensing device, an odor control device and an environment control device.

8. The cultural data communication system of claim 1, wherein the plurality of files comprises one or more of: video files, audio files, image files, document files, and engineering drawing files.

9. The cultural data communication system of claim 8, wherein the plurality of content tags comprises one or more of: the temporal position and pixel position of the video file, the temporal position of the audio file, the pixel position of the image file, the number of pages and lines of the file or the pixel position, number of pages and lines of the engineering drawing file.

10. The cultural data communication system according to claim 2, wherein the script comprises files to be played by the cultural data communication system and a playing mode of the files to be played in each time section.

11. A cultural data communication system according to claim 1, wherein the terminal device comprises one or more sensing means capable of acquiring the geospatial position of the user.

12. A cultural data communication system according to claim 1, wherein the terminal device is adapted to sense environmental parameters, biological access and biological characteristics, the terminal device comprising an inputtable device, environmental parameter detection means or biological sensing means; the inputtable device comprises, but is not limited to, a touch pad, infrared detection, an audio receiving device, an image capturing device, an HMI human-machine interface; the environmental parameter detection device comprises, but is not limited to, detection of brightness, ultraviolet light, humidity and temperature; the biosensing device includes, but is not limited to, identifying fingerprints, voiceprints, retina, DNA, facial physiological features.

13. A cultural data communication system, comprising:

one or more processing devices;

one or more content conversion devices;

one or more terminal devices;

it is characterized in that the method comprises the steps of,

when the terminal device detects that a user enters the coverage range of the cultural data communication system, the cultural data communication system performs the following operations:

based on the response or feedback of the user detected by the terminal device, the cultural data communication system composes a plurality of feedback tags including a plurality of corresponding operations for the user and a plurality of detected user feedback levels;

acquiring a plurality of files from a network according to the biological characteristics of the user, the feedback of the user or the response of the user;

the terminal device presents or plays at least one of the plurality of files to the user;

wherein the cultural data communication system operates in one of four modes:

information broadcast mode: the electronic file to be communicated is customized according to the biological characteristics of the user, the feedback of the user or the response of the user;

atmosphere modeling mode: the cultural data communication system builds atmosphere by controlling the terminal device; the feedback or reaction of the user is obtained through the sensing device of the terminal device, and the cultural data transmission communication system timely adjusts the played electronic file to ensure that the feedback satisfaction degree of the user is maintained within a preset range;

Interest acquisition mode: the cultural data communication system obtains feedback or response of a user and obtains the interest orientation of the user through statistical analysis; communicating the user feedback level to a processing device, a content conversion device or a terminal device based on the user feedback or response;

willingness meeting mode: based on feedback or response of the user, the cultural data communication system adjusts the played electronic file so that the feedback level of the user is improved.

14. The cultural data communication system of claim 13, wherein the cultural data communication system stores a set of operating programs; the operation program is a script; in an initial state, the operation program comprises a time sequence or a flow of each operation in the program; the scenario is used for describing the initial setting of the cultural data transmission communication system to the user's will.

15. The cultural data communication system according to claim 14, wherein one or more terminal devices are arranged in a physical space; the physical space is an interaction space; and detecting the environmental parameters through the terminal device, and presenting visual information, auditory information, tactile information, olfactory information or text information described in the electronic file to the organism in the interaction space.

16. A cultural data communication system according to claim 15, wherein said processing means is responsible for a domain management of said cultural data communication system, the processing means having a domain identifier; or/and (or)

The content conversion device is responsible for the management of the area under the cultural data communication system, and is provided with an area identifier; or/and (or)

The terminal device has a device identifier which becomes a unique device identifier in a network domain in the cultural data communication system via a region identification.

17. The cultural data communication system of claim 14, wherein the compiling of the script is performed two or more times: compiling a plurality of electronic files into different scripts based on the update of the content tags related to the cultural data and/or the update of the plurality of feedback tags; the number of the scripts is one or more.

18. The cultural data transmission communication system according to claim 15, wherein a file to be presented by the cultural data transmission communication system and a playing mode of the file to be presented in a next time section are changed according to at least one of the feedback, the response or the change of the interactive space environment of the user and the corresponding operation; the reaction is completed for the terminal device by detecting the device operated by the user.

19. The cultural data communication system of claim 13, wherein the terminal device comprises at least one of: the device comprises a 3D projection device, a 3D printing device, a display device, a projection device, an audio playing device, an audio receiving device, a biological sensing device, a photographing device, a light control device, an environment parameter sensing device, an odor control device and an environment control device.

20. The cultural data communication system of claim 13, wherein the plurality of files comprises one or more of: video files, audio files, image files, document files, and engineering drawing files.

21. The cultural data communication system of claim 20, wherein the plurality of content tags comprises one or more of: the temporal position and pixel position of the video file, the temporal position of the audio file, the pixel position of the image file, the number of pages and lines of the file or the pixel position, number of pages and lines of the engineering drawing file.

22. The cultural data transmission communication system according to claim 14, wherein the script comprises files to be played by the cultural data transmission communication system and a playing mode of the files to be played in each time section.

23. A cultural data communication system according to claim 13, wherein the terminal means comprises one or more sensing means capable of acquiring the geospatial position of the user.

24. A cultural data communication system according to claim 13, wherein the terminal device is adapted to sense environmental parameters, biological access and biological characteristics, the terminal device comprising an inputtable device, environmental parameter detection means or biological sensing means; the inputtable device comprises, but is not limited to, a touch pad, infrared detection, an audio receiving device, an image capturing device, an HMI human-machine interface; the environmental parameter detection device comprises, but is not limited to, detection of brightness, ultraviolet light, humidity and temperature; the biosensing device includes, but is not limited to, identifying fingerprints, voiceprints, retina, DNA, facial physiological features.

25. A cultural data communication system, comprising:

one or more processing devices;

one or more content conversion devices;

one or more terminal devices;

it is characterized in that the method comprises the steps of,

when the terminal device detects that a user enters the coverage range of the cultural data communication system, the cultural data communication system performs the following operations:

Based on the response or feedback of the user detected by the terminal device, the cultural data communication system composes a plurality of feedback tags including a plurality of corresponding operations for the user and a plurality of detected user feedback levels;

acquiring a plurality of files from a network according to the biological characteristics of the user, the feedback of the user or the response of the user;

the terminal device presents or plays at least one of the plurality of files to the user;

wherein the cultural data communication system operates in one of the following 3 modes:

collaboration mode: the processing device establishes a communication schedule in the cultural data communication system and manages the content conversion device and the terminal device in the cultural data communication system;

cooperative mode: the processing device does not participate in the communication scheduling and management of the cultural data communication system, and the content conversion device is responsible for the communication scheduling and propagation management of the cultural data communication system;

harmonic mode: neither the processing device nor the content conversion device participates in the communication scheduling and management of the cultural data communication system, but one or more of the terminal devices adds or modifies content tags to the electronic file and puts out the electronic file from the storage space of the terminal device for broadcasting or spreading.

26. A cultural data communication system according to claim 25, wherein the cultural data communication system stores a set of operating procedures; the operation program is a script; in an initial state, the operation program comprises a time sequence or a flow of each operation in the program; the scenario is used for describing the initial setting of the cultural data transmission communication system to the user's will.

27. The cultural data communication system according to claim 26, wherein one or more terminal devices are arranged in a physical space; the physical space is an interaction space; and detecting the environmental parameters through the terminal device, and presenting visual information, auditory information, tactile information, olfactory information or text information described in the electronic file to the organism in the interaction space.

28. A cultural data communication system according to claim 27, wherein said processing means is in charge of a domain management of said cultural data communication system, the processing means having a domain identifier; or/and (or)

The content conversion device is responsible for the management of the area under the cultural data communication system, and is provided with an area identifier; or/and (or)

The terminal device has a device identifier which becomes a unique device identifier in a network domain in the cultural data communication system via a region identification.

29. A cultural data communication system according to claim 26, wherein the compiling of the script is performed two or more times: compiling a plurality of electronic files into different scripts based on the update of the content tags related to the cultural data and/or the update of the plurality of feedback tags; the number of the scripts is one or more.

30. The cultural data transmission communication system according to claim 27, wherein a file to be presented by the cultural data transmission communication system and a playing mode of the file to be presented in a next time section are changed according to at least one of the feedback, the response or the change of the interactive space environment of the user and the corresponding operation; the reaction is completed for the terminal device by detecting the device operated by the user.

31. The cultural data communication system of claim 25, wherein the terminal device comprises at least one of: the device comprises a 3D projection device, a 3D printing device, a display device, a projection device, an audio playing device, an audio receiving device, a biological sensing device, a photographing device, a light control device, an environment parameter sensing device, an odor control device and an environment control device.

32. A cultural data communication system according to claim 25, wherein said plurality of files comprises one or more of: video files, audio files, image files, document files, and engineering drawing files.

33. The cultural data communication system of claim 25, wherein the plurality of content tags comprises one or more of: the temporal position and pixel position of the video file, the temporal position of the audio file, the pixel position of the image file, the number of pages and lines of the file or the pixel position, number of pages and lines of the engineering drawing file.

34. The cultural data transmission communication system according to claim 26, wherein the script comprises files to be played by the cultural data transmission communication system and a playing mode of the files to be played in each time section.

35. A cultural data communication system according to claim 25, wherein the terminal means comprises one or more sensing means capable of acquiring the geospatial position of the user.

36. A cultural data communication system according to claim 25, wherein the terminal device is adapted to sense environmental parameters, biological access and biological characteristics, the terminal device comprising an inputtable device, environmental parameter detection means or biological sensing means; the inputtable device comprises, but is not limited to, a touch pad, infrared detection, an audio receiving device, an image capturing device, an HMI human-machine interface; the environmental parameter detection device comprises, but is not limited to, detection of brightness, ultraviolet light, humidity and temperature; the biosensing device includes, but is not limited to, identifying fingerprints, voiceprints, retina, DNA, facial physiological characteristics, and the like.

37. A cultural data communication method, the cultural data communication method comprising:

acquiring a plurality of files from an external network according to the reserved cultural data and the biological characteristics of the user;

adding a plurality of content tags to each of a plurality of files; a plurality of content tags associated with the cultural data;

writing a script of the cultural data according to a plurality of content tags of each of the plurality of files; the script comprises a plurality of feedback labels; each of the plurality of feedback labels includes a plurality of corresponding operations and a plurality of user feedback levels;

according to the scenario, a terminal device is instructed to present at least one of a plurality of files to the user; and instructing the terminal device to sense feedback of the user, and performing at least one of corresponding operations and determining at least one of the user feedback levels according to the feedback of the user.