CN116049332B - Library resource navigation system and method based on high-frequency RFID - Google Patents

Abstract

The invention provides a library resource navigation system and a method based on high-frequency RFID, wherein the system comprises: the high-frequency RFID navigation map subsystem is characterized in that a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf, and book resource wireless radio frequency information is identified; generating a three-dimensional navigation map of book resources in a library space area; the wireless radio frequency robot inspection subsystem is used for inspecting and identifying scattered books in real time through the high-frequency RFID wireless radio frequency identification robot and automatically collecting and placing the scattered books in the position of a bookshelf space area where the books are located; the library digital management center subsystem uploads the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the library digital management center and distributes the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the mobile phone library APP platform; and the mobile phone library APP planning navigation subsystem receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of the library resource and intelligent indication space position navigation of the library resource.

Description

Library resource navigation system and method based on high-frequency RFID

Technical Field

The invention relates to the technical field of radio frequency identification resource management navigation, in particular to a library resource navigation system and method based on high-frequency RFID.

Background

At present, a library resource navigation system is generally difficult to accurately navigate spatial positions and library seats; specific problems include: how to identify book resource wireless radio frequency information, how to generate a book resource three-dimensional navigation map of a library space area, how to inspect and identify scattered books in real time and automatically collect and place book shelf space area positions where the books should be, how to upload book resource three-dimensional navigation maps and book resource three-dimensional navigation map update data, how to conduct book resource three-dimensional navigation map route planning, book resource intelligent indication space position navigation and other problems; accordingly, there is a need for a high frequency RFID-based library resource navigation system and method that at least partially addresses the problems of the prior art.

Disclosure of Invention

A series of concepts in simplified form are introduced in the summary section, which will be described in further detail in the detailed description section; the summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a library resource navigation system based on high frequency RFID, comprising:

the high-frequency RFID navigation map subsystem is characterized in that a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf, and book resource wireless radio frequency information is identified; generating a three-dimensional navigation map of book resources in a library space area;

the wireless radio frequency robot inspection subsystem is used for inspecting and identifying scattered books in real time through the high frequency RFID wireless radio frequency identification robot and automatically collecting and placing the scattered books in the position of a bookshelf space area where the books are located, so as to obtain book resource three-dimensional navigation map updating data;

the library digital management center subsystem uploads the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the library digital management center and distributes the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the mobile phone library APP platform;

and the mobile phone library APP platform receives library resource query information through a query input interface, performs three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources.

Optionally, the high frequency RFID navigation map subsystem includes:

The wireless radio frequency read-write setting subsystem is used for setting a plurality of high-frequency RFID wireless radio frequency read-write units on the library bookshelf;

the high-frequency RFID identification marking subsystem is used for identifying and identifying book resource wireless radio frequency information through the high-frequency RFID wireless radio frequency reading and writing unit; identifying and marking the position of a bookshelf space area of a library where book resources are located;

and the bookshelf space navigation map subsystem is used for generating a library space region book resource three-dimensional navigation map according to the position of the library bookshelf space region where the book resource is located.

Optionally, the wireless radio frequency robot inspection subsystem includes:

the inspection scattered book identification subsystem is used for inspecting a high-frequency RFID wireless radio frequency signal source of scattered books of the library in real time through the high-frequency RFID wireless radio frequency identification robot;

the book state identification and judgment subsystem is used for identifying and judging the scattering position and the moving state of a scattered book resource high-frequency RFID wireless radio frequency signal source;

and the scattered book collecting and placing subsystem collects and places scattered book resources in a non-bookshelf space area position to the bookshelf space area position where the books should be placed according to the scattered book resource scattering position and the moving state, and acquires the book resource three-dimensional navigation map updating data.

Optionally, the library digital management center subsystem includes:

the library digital management uploading subsystem is used for setting a library digital management center at a library management end and uploading a book resource three-dimensional navigation map and book resource three-dimensional navigation map updating data to the library digital management center;

and the library digital management center distributes the book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to the mobile phone library APP platform.

Optionally, the mobile phone library APP planning navigation subsystem comprises:

the mobile phone library APP transmission subsystem is used for setting a mobile phone library APP platform and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface;

the inquiry information analysis and identification subsystem is used for analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information and confirming final accurate and real library resource inquiry information;

and the seat recommending three-dimensional navigation subsystem is used for recommending routes in the library and reading seats in the range of RFID signals according to the final accurate real library resource inquiry information, and carrying out book resource three-dimensional navigation map route planning and book resource intelligent indication space position navigation.

The invention discloses a library resource navigation method based on high-frequency RFID, which comprises the following steps:

s100, arranging a plurality of high-frequency RFID wireless radio frequency read-write units on a library bookshelf, and identifying book resource wireless radio frequency information; generating a three-dimensional navigation map of book resources in a library space area;

s200, carrying out real-time inspection and identification on scattered books through a high-frequency RFID wireless radio frequency identification robot, and automatically collecting and placing the scattered books in the position of a bookshelf space region where the books are located to obtain book resource three-dimensional navigation map updating data;

s300, uploading a book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to a library digital management center and distributing the book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to a mobile library APP platform;

and S400, the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of the library resource and intelligent indication space position navigation of the library resource.

Optionally, S100 includes:

s101, arranging a plurality of high-frequency RFID wireless radio frequency read-write units on a library bookshelf;

s102, identifying book resource wireless radio frequency information through a high-frequency RFID wireless radio frequency read-write unit; identifying and marking the position of a bookshelf space area of a library where book resources are located;

And S103, generating a spatial region book resource three-dimensional navigation map of the library according to the spatial region position of the bookshelf of the library where the book resource is located.

Optionally, S200 includes:

s201, a high-frequency RFID wireless radio frequency signal source of books scattered in a library is inspected in real time through a high-frequency RFID wireless radio frequency identification robot;

s202, recognizing and judging scattering positions and moving states of scattered book resources and high-frequency RFID wireless radio frequency signal sources;

s203, according to the scattered book resource scattering position and the moving state, the scattered book resource of the non-bookshelf space region position is collected and placed at the bookshelf space region position where the book is located, and the book resource three-dimensional navigation map updating data are obtained.

Optionally, S300 includes:

s301, setting a library digital management center at a library management end, and uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center;

s302, the library digital management center distributes the book resource stereoscopic navigation map and the book resource stereoscopic navigation map update data to the mobile phone library APP platform.

Optionally, S400 includes:

s401, setting a mobile phone library APP platform, and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface;

S402, analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information, and confirming final accurate and real library resource inquiry information;

s403, according to the final accurate real library resource query information, recommending the routes in the library and reading seats in the range of RFID signals, and performing three-dimensional navigation map route planning of the book resources and intelligent indication space position navigation of the book resources.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides a library resource navigation system and a method based on high-frequency RFID, which are characterized in that a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf by utilizing a high-frequency RFID navigation map subsystem to identify book resource wireless radio frequency information; generating a three-dimensional navigation map of book resources in a library space area; the wireless radio frequency robot inspection subsystem is used for inspecting and identifying scattered books in real time through the high frequency RFID wireless radio frequency identification robot and automatically collecting and placing the scattered books in the position of a bookshelf space area where the books are located, so as to obtain book resource three-dimensional navigation map updating data; the library digital management center subsystem uploads the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the library digital management center and distributes the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the mobile phone library APP platform; the mobile phone library APP planning navigation subsystem is used for receiving library resource query information through a query input interface and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; the method has the advantages that the specific position of the book can be displayed, a complete navigation path is generated, picture navigation and voice navigation information is provided for a user, so that the position of the book can be impressed, and the purpose that the user can quickly and accurately find a target book is achieved; the method can be used for recommending routes in libraries and reading seats in the range of RFID signals, and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; the library resource and the reading space resource are reasonably utilized, the utilization rate of the library resource is greatly improved, and precious library resources are saved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a diagram of a library resource navigation system based on high frequency RFID according to the present invention.

FIG. 2 is a diagram of an embodiment of a library resource navigation method based on high frequency RFID according to the present invention.

FIG. 3 is a diagram of another embodiment of a library resource navigation method based on high frequency RFID according to the present invention.

Detailed Description

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the same and to refer to the description; as shown in fig. 1-3, the present invention provides a library resource navigation system based on high frequency RFID, comprising:

the high-frequency RFID navigation map subsystem is characterized in that a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf, and book resource wireless radio frequency information is identified; generating a three-dimensional navigation map of book resources in a library space area;

The wireless radio frequency robot inspection subsystem is used for inspecting and identifying scattered books in real time through the high frequency RFID wireless radio frequency identification robot and automatically collecting and placing the scattered books in the position of a bookshelf space area where the books are located, so as to obtain book resource three-dimensional navigation map updating data;

the library digital management center subsystem uploads the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the library digital management center and distributes the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the mobile phone library APP platform;

and the mobile phone library APP platform receives library resource query information through a query input interface, performs three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources.

The working principle of the technical scheme is as follows: the invention provides a library resource navigation system based on high-frequency RFID, which is characterized in that a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf through a high-frequency RFID navigation map subsystem to identify book resource wireless radio frequency information; generating a three-dimensional navigation map of book resources in a library space area; the wireless radio frequency robot inspection subsystem is used for inspecting and identifying scattered books in real time through the high frequency RFID wireless radio frequency identification robot and automatically collecting and placing the scattered books in the position of a bookshelf space area where the books are located, so as to obtain book resource three-dimensional navigation map updating data; the library digital management center subsystem uploads the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the library digital management center and distributes the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the mobile phone library APP platform; the mobile phone library APP planning navigation subsystem is used for receiving library resource query information through a query input interface and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; a plurality of high-frequency RFID wireless radio frequency read-write units mutually correct and accurately identify book resource wireless radio frequency information; the library space region book resource three-dimensional navigation map is generated by precisely identifying the book resource wireless radio frequency information and combining the library space region book resource; the scattered books are identified through real-time inspection by a high-frequency RFID wireless radio frequency identification robot, and the positions of the bookshelf space areas where the books are placed are automatically collected, so that book resource three-dimensional navigation map updating data are obtained; transmitting a high-frequency RFID detection signal and receiving a high-frequency RFID wireless radio frequency signal for sensing books around in the process of inspecting the high-frequency RFID wireless radio frequency identification robot, and identifying the book position in the library space area; setting up a library digital management center at a library management end through a detection induction signal position identification coordinate system and a digital management system, creating a user-end mobile phone library APP through an APP system module, uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center and distributing the library resource three-dimensional navigation map update data to a mobile phone library APP platform; and the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources by utilizing mobile phone library APP planning navigation.

The beneficial effects of the technical scheme are as follows: the invention provides a library resource navigation system based on high-frequency RFID, which utilizes a high-frequency RFID navigation map subsystem to set a plurality of high-frequency RFID wireless radio frequency read-write units on a library bookshelf to identify book resource wireless radio frequency information; generating a three-dimensional navigation map of book resources in a library space area; the wireless radio frequency robot inspection subsystem is used for inspecting and identifying scattered books in real time through the high frequency RFID wireless radio frequency identification robot and automatically collecting and placing the scattered books in the position of a bookshelf space area where the books are located, so as to obtain book resource three-dimensional navigation map updating data; the library digital management center subsystem uploads the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the library digital management center and distributes the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the mobile phone library APP platform; the mobile phone library APP planning navigation subsystem is used for receiving library resource query information through a query input interface and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; the method has the advantages that the specific position of the book can be displayed, a complete navigation path is generated, picture navigation and voice navigation information is provided for a user, so that the position of the book can be impressed, and the purpose that the user can quickly and accurately find a target book is achieved; the method can be used for recommending routes in libraries and reading seats in the range of RFID signals, and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; the library resource and the reading space resource are reasonably utilized, the utilization rate of the library resource is greatly improved, and precious library resources are saved.

In one embodiment, a high frequency RFID navigation map subsystem, comprising:

the wireless radio frequency read-write setting subsystem is used for setting a plurality of high-frequency RFID wireless radio frequency read-write units on the library bookshelf;

the high-frequency RFID identification marking subsystem is used for identifying and identifying book resource wireless radio frequency information through the high-frequency RFID wireless radio frequency reading and writing unit; identifying and marking the position of a bookshelf space area of a library where book resources are located;

and the bookshelf space navigation map subsystem is used for generating a library space region book resource three-dimensional navigation map according to the position of the library bookshelf space region where the book resource is located.

The working principle of the technical scheme is as follows: a plurality of high-frequency RFID wireless radio frequency read-write units mutually correct and accurately identify book resource wireless radio frequency information; the library book shelf is provided with a plurality of high-frequency RFID wireless radio frequency read-write units by accurately identifying the wireless radio frequency information of book resources and combining the book resources of the library space region and through a wireless radio frequency read-write setting subsystem; the high-frequency RFID identification marking subsystem is used for identifying and identifying book resource wireless radio frequency information through the high-frequency RFID wireless radio frequency reading and writing unit; identifying and marking the position of a bookshelf space area of a library where book resources are located; the bookshelf space navigation map subsystem generates a library space region book resource three-dimensional navigation map according to the position of the library bookshelf space region where the book resource is located; the plurality of high-frequency RFID wireless radio frequency read-write units comprise: the first high-frequency RFID wireless radio frequency read-write unit and the second high-frequency RFID wireless radio frequency read-write unit; the first high-frequency RFID wireless radio frequency read-write unit identifies the position of a first area of the bookshelf; the second high-frequency RFID wireless radio frequency read-write unit identifies the position of a second area of the bookshelf; the bookshelf position first area and the bookshelf position second area are sequentially arranged, and the signal recognition area boundary of the first high-frequency RFID wireless radio frequency reading and writing unit and the second high-frequency RFID wireless radio frequency reading and writing unit is provided with a signal shielding layer.

The beneficial effects of the technical scheme are as follows: a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf by utilizing a wireless radio frequency read-write setting subsystem; the high-frequency RFID identification marking subsystem is used for identifying and identifying book resource wireless radio frequency information through the high-frequency RFID wireless radio frequency reading and writing unit; identifying and marking the position of a bookshelf space area of a library where book resources are located; the bookshelf space navigation map subsystem generates a library space region book resource three-dimensional navigation map according to the position of the library bookshelf space region where the book resource is located; the plurality of high-frequency RFID wireless radio frequency read-write units can be mutually corrected to accurately identify book resource wireless radio frequency information; the wireless radio frequency information of the library resources can be accurately identified, and the library resources in the library space region are combined to generate a three-dimensional navigation map of the library resources in the library space region; the library space region book resource identification is more accurate, the book resource three-dimensional navigation coverage is wider, and the book resource three-dimensional navigation map content is more comprehensive; the plurality of high-frequency RFID wireless radio frequency read-write units comprise: the first high-frequency RFID wireless radio frequency read-write unit and the second high-frequency RFID wireless radio frequency read-write unit; the first high-frequency RFID wireless radio frequency read-write unit identifies the position of a first area of the bookshelf; the second high-frequency RFID wireless radio frequency read-write unit identifies the position of a second area of the bookshelf; the bookshelf position first area and the bookshelf position second area are sequentially arranged, and signal shielding layers are arranged on the boundaries of the signal identification areas of the first high-frequency RFID wireless radio frequency reading and writing unit and the second high-frequency RFID wireless radio frequency reading and writing unit, so that disorder of bookshelf position identification is avoided.

In one embodiment, a wireless radio frequency robotic inspection subsystem includes:

the inspection scattered book identification subsystem is used for inspecting a high-frequency RFID wireless radio frequency signal source of scattered books of the library in real time through the high-frequency RFID wireless radio frequency identification robot;

the book state identification and judgment subsystem is used for identifying and judging the scattering position and the moving state of a scattered book resource high-frequency RFID wireless radio frequency signal source;

and the scattered book collecting and placing subsystem collects and places scattered book resources in a non-bookshelf space area position to the bookshelf space area position where the books should be placed according to the scattered book resource scattering position and the moving state, and acquires the book resource three-dimensional navigation map updating data.

The working principle of the technical scheme is as follows: transmitting a high-frequency RFID detection signal and receiving a high-frequency RFID wireless radio frequency signal for sensing books around in the process of inspecting the high-frequency RFID wireless radio frequency identification robot, and identifying the book position in the library space area; the wireless radio frequency robot inspection subsystem utilizes an inspection scattered book identification subsystem to inspect a high-frequency RFID wireless radio frequency signal source of scattered books of a library in real time through the high-frequency RFID wireless radio frequency identification robot; the book state identification and judgment subsystem is used for identifying and judging the scattering position and the moving state of a scattered book resource high-frequency RFID wireless radio frequency signal source; the scattered book collecting and placing subsystem collects and places scattered book resources in a bookshelf space area position where books are located according to scattered book resource scattering positions and moving states, and acquires book resource three-dimensional navigation map updating data;

Calculating the radio frequency induction range value of the high-frequency RFID wireless radio frequency read-write unit:

the RFSFW represents a radio frequency induction range value of a high-frequency RFID wireless radio frequency reading and writing unit, rtag represents an effective induction vector length, fo represents a space wave impedance, W1 represents a first impedance modulation index, W2 represents a second impedance modulation index, rsd represents an effective wireless radio frequency reading and writing antenna induction length, K represents a voltage difference adjustment coefficient, U represents an induction open circuit voltage difference of the wireless radio frequency reading and writing antenna, rant represents a radiation resistance, L represents linear polarization mismatch loss, we represents effective isotropic radiation power, and pi represents a circumference rate.

The beneficial effects of the technical scheme are as follows: the scattered book inspection subsystem is utilized, and a high-frequency RFID wireless radio frequency signal source of the scattered books of the library is inspected in real time through a high-frequency RFID wireless radio frequency identification robot; the book state identification and judgment subsystem is used for identifying and judging the scattering position and the moving state of a scattered book resource high-frequency RFID wireless radio frequency signal source; the scattered book collecting and placing subsystem collects and places scattered book resources in a bookshelf space area position where books are located according to scattered book resource scattering positions and moving states, and acquires book resource three-dimensional navigation map updating data; the high-frequency RFID wireless radio frequency identification robot can be flexibly utilized to carry out real-time inspection, identify scattered books and automatically collect and place the scattered books in the position of a bookshelf space region where the books are located, so as to obtain book resource three-dimensional navigation map updating data; the book resource three-dimensional navigation map is updated more timely, and the book resource three-dimensional navigation map updating data is finer; transmitting a high-frequency RFID detection signal and receiving a high-frequency RFID wireless radio frequency signal for sensing books around in the process of inspecting the high-frequency RFID wireless radio frequency identification robot, and identifying the book position in the library space area; the book position data of the library space region are reflected more comprehensively and timely; by calculating the radio frequency induction range value of the high-frequency RFID radio frequency reading and writing unit, the radio frequency induction area of the high-frequency RFID radio frequency reading and writing unit can be accurately quantized, and the bookshelf area position identification is more accurate.

In one embodiment, a library digital management center subsystem, comprising:

the library digital management uploading subsystem is used for setting a library digital management center at a library management end and uploading a book resource three-dimensional navigation map and book resource three-dimensional navigation map updating data to the library digital management center;

and the library digital management center distributes the book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to the mobile phone library APP platform.

The working principle of the technical scheme is as follows: the library digital management center subsystem is used for setting a library digital management center at a library management end through the library digital management uploading subsystem, and uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map updating data to the library digital management center; the system comprises a navigation map updating data distribution subsystem, a library digital management center and a mobile phone library APP platform, wherein the library digital management center distributes book resource stereoscopic navigation maps and book resource stereoscopic navigation map updating data to the mobile phone library APP platform; through detecting induction signal position identification coordinate system and digital management system construction, set up library digital management center at library management end, establish user side cell-phone library APP through APP system module, with library's resource stereoscopic navigation map and library's resource stereoscopic navigation map update data upload to library digital management center and distribute cell-phone library APP platform.

The beneficial effects of the technical scheme are as follows: the library digital management uploading subsystem is utilized, a library digital management center is arranged at a library management end, and a book resource three-dimensional navigation map and book resource three-dimensional navigation map updating data are uploaded to the library digital management center; the system comprises a navigation map updating data distribution subsystem, a library digital management center and a mobile phone library APP platform, wherein the library digital management center distributes book resource stereoscopic navigation maps and book resource stereoscopic navigation map updating data to the mobile phone library APP platform; setting up a library digital management center at a library management end through a detection induction signal position identification coordinate system and a digital management system, creating a user-end mobile phone library APP through an APP system module, uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center and distributing the library resource three-dimensional navigation map update data to a mobile phone library APP platform; the position recognition and the digital management of the sensing signals can be detected, and the position recognition and the digital management efficiency are greatly improved.

In one embodiment, a mobile library APP planning navigation subsystem, comprising:

the mobile phone library APP transmission subsystem is used for setting a mobile phone library APP platform and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface;

The inquiry information analysis and identification subsystem is used for analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information and confirming final accurate and real library resource inquiry information;

the seat recommending three-dimensional navigation subsystem is used for recommending routes in the library and reading seats in the range of RFID signals according to the final accurate real library resource inquiry information, and performing book resource three-dimensional navigation map route planning and book resource intelligent indication space position navigation;

read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; and recommending the reading seat in the range of the RFID signal according to whether the reading seat is in the reading occupied state or not.

The working principle of the technical scheme is as follows: the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources by utilizing mobile phone library APP planning navigation; the mobile phone library APP planning navigation subsystem is used for setting a mobile phone library APP platform through a mobile phone library APP transmission subsystem, and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface; the inquiry information analysis and identification subsystem is used for analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information and confirming final accurate and real library resource inquiry information; the seat recommending three-dimensional navigation subsystem is used for recommending routes in the library and reading seats in the range of RFID signals according to the final accurate real library resource inquiry information; read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; recommending the reading seat in the range of the RFID signal according to whether the reading seat is in a reading occupied state or not; and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources.

The beneficial effects of the technical scheme are as follows: setting a mobile phone library APP platform by utilizing a mobile phone library APP transmission subsystem, and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface; the inquiry information analysis and identification subsystem is used for analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information and confirming final accurate and real library resource inquiry information; the seat recommending three-dimensional navigation subsystem is used for recommending routes in the library and reading seats in the range of RFID signals according to the final accurate real library resource inquiry information; read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; recommending the reading seat in the range of the RFID signal according to whether the reading seat is in a reading occupied state or not; carrying out three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; the library APP platform of the mobile phone is utilized to receive library resource query information through the query input interface, so that the library resource query information is more convenient and faster; planning navigation by utilizing a mobile phone library APP, planning a three-dimensional navigation map route of book resources and performing intelligent indication space position navigation of the book resources; the library resource and the reading space resource are reasonably utilized, the utilization rate of the library resource is greatly improved, and precious library resources are saved.

The invention discloses a library resource navigation method based on high-frequency RFID, which comprises the following steps:

s100, arranging a plurality of high-frequency RFID wireless radio frequency read-write units on a library bookshelf, and identifying book resource wireless radio frequency information; generating a three-dimensional navigation map of book resources in a library space area;

s200, carrying out real-time inspection and identification on scattered books through a high-frequency RFID wireless radio frequency identification robot, and automatically collecting and placing the scattered books in the position of a bookshelf space region where the books are located to obtain book resource three-dimensional navigation map updating data;

s300, uploading a book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to a library digital management center and distributing the book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to a mobile library APP platform;

and S400, the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of the library resource and intelligent indication space position navigation of the library resource.

The working principle of the technical scheme is as follows: the invention discloses a library resource navigation method based on high-frequency RFID, which comprises the following steps:

a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf, and book resource wireless radio frequency information is identified; generating a three-dimensional navigation map of book resources in a library space area; the scattered books are identified through real-time inspection by a high-frequency RFID wireless radio frequency identification robot, and the positions of the bookshelf space areas where the books are placed are automatically collected, so that book resource three-dimensional navigation map updating data are obtained; uploading book resource stereoscopic navigation map and book resource stereoscopic navigation map update data to a library digital management center and distributing the book resource stereoscopic navigation map and book resource stereoscopic navigation map update data to a mobile phone library APP platform; the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of library resources and intelligent indication space position navigation of the library resources; a plurality of high-frequency RFID wireless radio frequency read-write units mutually correct and accurately identify book resource wireless radio frequency information; the library space region book resource three-dimensional navigation map is generated by precisely identifying the book resource wireless radio frequency information and combining the library space region book resource; the scattered books are identified through real-time inspection by a high-frequency RFID wireless radio frequency identification robot, and the positions of the bookshelf space areas where the books are placed are automatically collected, so that book resource three-dimensional navigation map updating data are obtained; transmitting a high-frequency RFID detection signal and receiving a high-frequency RFID wireless radio frequency signal for sensing books around in the process of inspecting the high-frequency RFID wireless radio frequency identification robot, and identifying the book position in the library space area; setting up a library digital management center at a library management end through a detection induction signal position identification coordinate system and a digital management system, creating a user-end mobile phone library APP through an APP system module, uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center and distributing the library resource three-dimensional navigation map update data to a mobile phone library APP platform; and the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources by utilizing mobile phone library APP planning navigation.

The beneficial effects of the technical scheme are as follows: the invention relates to a library resource navigation method based on high-frequency RFID, which is characterized in that a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf to identify book resource wireless radio frequency information; generating a three-dimensional navigation map of book resources in a library space area; the scattered books are identified through real-time inspection by a high-frequency RFID wireless radio frequency identification robot, and the positions of the bookshelf space areas where the books are placed are automatically collected, so that book resource three-dimensional navigation map updating data are obtained; uploading book resource stereoscopic navigation map and book resource stereoscopic navigation map update data to a library digital management center and distributing the book resource stereoscopic navigation map and book resource stereoscopic navigation map update data to a mobile phone library APP platform; the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of library resources and intelligent indication space position navigation of the library resources; the method has the advantages that the specific position of the book can be displayed, a complete navigation path is generated, picture navigation and voice navigation information is provided for a user, so that the position of the book can be impressed, and the purpose that the user can quickly and accurately find a target book is achieved; the method can be used for recommending routes in libraries and reading seats in the range of RFID signals, and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; the library resource and the reading space resource are reasonably utilized, the utilization rate of the library resource is greatly improved, and precious library resources are saved.

In one embodiment, S100 comprises:

s101, arranging a plurality of high-frequency RFID wireless radio frequency read-write units on a library bookshelf;

s102, identifying book resource wireless radio frequency information through a high-frequency RFID wireless radio frequency read-write unit; identifying and marking the position of a bookshelf space area of a library where book resources are located;

and S103, generating a spatial region book resource three-dimensional navigation map of the library according to the spatial region position of the bookshelf of the library where the book resource is located.

The working principle of the technical scheme is as follows: a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf; the book resource wireless radio frequency information is identified through the high-frequency RFID wireless radio frequency read-write unit; identifying and marking the position of a bookshelf space area of a library where book resources are located; generating a three-dimensional navigation map of the library space region book resource according to the position of the library bookshelf space region where the book resource is located; the plurality of high-frequency RFID wireless radio frequency read-write units comprise: the first high-frequency RFID wireless radio frequency read-write unit and the second high-frequency RFID wireless radio frequency read-write unit; the first high-frequency RFID wireless radio frequency read-write unit identifies the position of a first area of the bookshelf; the second high-frequency RFID wireless radio frequency read-write unit identifies the position of a second area of the bookshelf; the bookshelf position first area and the bookshelf position second area are sequentially arranged, and the signal recognition area boundary of the first high-frequency RFID wireless radio frequency reading and writing unit and the second high-frequency RFID wireless radio frequency reading and writing unit is provided with a signal shielding layer.

The beneficial effects of the technical scheme are as follows: a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf; the book resource wireless radio frequency information is identified through the high-frequency RFID wireless radio frequency read-write unit; identifying and marking the position of a bookshelf space area of a library where book resources are located; generating a three-dimensional navigation map of the library space region book resource according to the position of the library bookshelf space region where the book resource is located; the plurality of high-frequency RFID wireless radio frequency read-write units can be mutually corrected to accurately identify book resource wireless radio frequency information; the wireless radio frequency information of the library resources can be accurately identified, and the library resources in the library space region are combined to generate a three-dimensional navigation map of the library resources in the library space region; the library space region book resource identification is more accurate, the book resource three-dimensional navigation coverage is wider, and the book resource three-dimensional navigation map content is more comprehensive; the plurality of high-frequency RFID wireless radio frequency read-write units comprise: the first high-frequency RFID wireless radio frequency read-write unit and the second high-frequency RFID wireless radio frequency read-write unit; the first high-frequency RFID wireless radio frequency read-write unit identifies the position of a first area of the bookshelf; the second high-frequency RFID wireless radio frequency read-write unit identifies the position of a second area of the bookshelf; the bookshelf position first area and the bookshelf position second area are sequentially arranged, and signal shielding layers are arranged on the boundaries of the signal identification areas of the first high-frequency RFID wireless radio frequency reading and writing unit and the second high-frequency RFID wireless radio frequency reading and writing unit, so that disorder of bookshelf position identification is avoided.

In one embodiment, S200 comprises:

s201, a high-frequency RFID wireless radio frequency signal source of books scattered in a library is inspected in real time through a high-frequency RFID wireless radio frequency identification robot;

s202, recognizing and judging scattering positions and moving states of scattered book resources and high-frequency RFID wireless radio frequency signal sources;

s203, according to the scattered book resource scattering position and the moving state, the scattered book resource of the non-bookshelf space region position is collected and placed at the bookshelf space region position where the book is located, and the book resource three-dimensional navigation map updating data are obtained.

The working principle of the technical scheme is as follows: transmitting a high-frequency RFID detection signal and receiving a high-frequency RFID wireless radio frequency signal for sensing books around in the process of inspecting the high-frequency RFID wireless radio frequency identification robot, and identifying the book position in the library space area; the library scattered book high-frequency RFID wireless radio frequency signal source is inspected in real time through the high-frequency RFID wireless radio frequency identification robot; identifying and judging scattering positions and moving states of scattered book resources and high-frequency RFID wireless radio frequency signal sources; according to the scattered book resource scattering position and the moving state, collecting and placing book resources which are not scattered in the bookshelf space region position to the bookshelf space region position where books are located, and acquiring book resource three-dimensional navigation map updating data;

Calculating the radio frequency induction range value of the high-frequency RFID wireless radio frequency read-write unit:

the RFSFW represents a radio frequency induction range value of a high-frequency RFID wireless radio frequency reading and writing unit, rtag represents an effective induction vector length, fo represents a space wave impedance, W1 represents a first impedance modulation index, W2 represents a second impedance modulation index, rsd represents an effective wireless radio frequency reading and writing antenna induction length, K represents a voltage difference adjustment coefficient, U represents an induction open circuit voltage difference of the wireless radio frequency reading and writing antenna, rant represents a radiation resistance, L represents linear polarization mismatch loss, we represents effective isotropic radiation power, and pi represents a circumference rate.

The beneficial effects of the technical scheme are as follows: the library scattered book high-frequency RFID wireless radio frequency signal source is inspected in real time through the high-frequency RFID wireless radio frequency identification robot; identifying and judging scattering positions and moving states of scattered book resources and high-frequency RFID wireless radio frequency signal sources; according to the scattered book resource scattering position and the moving state, collecting and placing book resources which are not scattered in the bookshelf space region position to the bookshelf space region position where books are located, and acquiring book resource three-dimensional navigation map updating data; the book resource three-dimensional navigation map is updated more timely, and the book resource three-dimensional navigation map updating data is finer; transmitting a high-frequency RFID detection signal and receiving a high-frequency RFID wireless radio frequency signal for sensing books around in the process of inspecting the high-frequency RFID wireless radio frequency identification robot, and identifying the book position in the library space area; the book position data of the library space region are reflected more comprehensively and timely; by calculating the radio frequency induction range value of the high-frequency RFID radio frequency reading and writing unit, the radio frequency induction area of the high-frequency RFID radio frequency reading and writing unit can be accurately quantized, and the bookshelf area position identification is more accurate.

In one embodiment, S300 includes:

s301, setting a library digital management center at a library management end, and uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center;

s302, the library digital management center distributes the book resource stereoscopic navigation map and the book resource stereoscopic navigation map update data to the mobile phone library APP platform.

The working principle of the technical scheme is as follows: setting up a library digital management center at a library management end through a detection induction signal position identification coordinate system and a digital management system, creating a user-end mobile phone library APP through an APP system module, uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center and distributing the library resource three-dimensional navigation map update data to a mobile phone library APP platform; setting a library digital management center at a library management end, and uploading a library resource stereoscopic navigation map and library resource stereoscopic navigation map update data to the library digital management center; and the library digital management center distributes the book resource stereoscopic navigation map and the book resource stereoscopic navigation map update data to the mobile phone library APP platform.

The beneficial effects of the technical scheme are as follows: setting a library digital management center at a library management end, and uploading a library resource stereoscopic navigation map and library resource stereoscopic navigation map update data to the library digital management center; the library digital management center distributes the book resource stereoscopic navigation map and the book resource stereoscopic navigation map updating data to the mobile phone library APP platform; setting up a library digital management center at a library management end through a detection induction signal position identification coordinate system and a digital management system, creating a user-end mobile phone library APP through an APP system module, uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center and distributing the library resource three-dimensional navigation map update data to a mobile phone library APP platform; setting up a library digital management center at a library management end through a detection induction signal position identification coordinate system and a digital management system, creating a user-end mobile phone library APP through an APP system module, uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center and distributing the library resource three-dimensional navigation map update data to a mobile phone library APP platform; the position recognition and the digital management of the sensing signals can be detected, and the position recognition and the digital management efficiency are greatly improved.

In one embodiment, S400 includes:

s401, setting a mobile phone library APP platform, and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface;

s402, analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information, and confirming final accurate and real library resource inquiry information;

s403, according to the final accurate real library resource query information, recommending routes in the library and reading seats in the range of RFID signals, and performing three-dimensional navigation map route planning of the library resources and intelligent indication space position navigation of the library resources;

read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; and recommending the reading seat in the range of the RFID signal according to whether the reading seat is in the reading occupied state or not.

The working principle of the technical scheme is as follows: setting a mobile phone library APP platform, and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface; analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information, and confirming final accurate and real library resource inquiry information; according to the final accurate real library resource inquiry information, recommending routes in the library and reading seats in the range of RFID signals, planning a three-dimensional navigation map route of the library resource and intelligently indicating space position navigation of the library resource; read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; and recommending the reading seat in the range of the RFID signal according to whether the reading seat is in the reading occupied state or not.

The beneficial effects of the technical scheme are as follows: setting a mobile phone library APP platform, and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface; analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information, and confirming final accurate and real library resource inquiry information; according to the final accurate real library resource inquiry information, recommending routes in the library and reading seats in the range of RFID signals, planning a three-dimensional navigation map route of the library resource and intelligently indicating space position navigation of the library resource; read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; recommending the reading seat in the range of the RFID signal according to whether the reading seat is in a reading occupied state or not; the method can be used for recommending routes in libraries and reading seats in the range of RFID signals, and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources; the library resource and the reading space resource are reasonably utilized, the utilization rate of the library resource is greatly improved, and precious library resources are saved.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (8)

1. A high frequency RFID-based library resource navigation system, comprising:

the high-frequency RFID navigation map subsystem is characterized in that a plurality of high-frequency RFID wireless radio frequency read-write units are arranged on a library bookshelf, and book resource wireless radio frequency information is identified; generating a three-dimensional navigation map of book resources in a library space area;

the wireless radio frequency robot inspection subsystem is used for inspecting and identifying scattered books in real time through the high frequency RFID wireless radio frequency identification robot and automatically collecting and placing the scattered books in the position of a bookshelf space area where the books are located, so as to obtain book resource three-dimensional navigation map updating data;

the library digital management center subsystem uploads the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the library digital management center and distributes the library resource stereoscopic navigation map and the library resource stereoscopic navigation map update data to the mobile phone library APP platform;

The mobile phone library APP planning navigation subsystem is used for receiving library resource query information through a query input interface and performing three-dimensional navigation map route planning of book resources and intelligent indication space position navigation of the book resources;

the mobile phone library APP planning navigation subsystem comprises:

the mobile phone library APP transmission subsystem is used for setting a mobile phone library APP platform and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface;

the inquiry information analysis and identification subsystem is used for analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information and confirming final accurate and real library resource inquiry information;

the seat recommending three-dimensional navigation subsystem is used for recommending routes in the library and reading seats in the range of RFID signals according to the final accurate real library resource inquiry information, and performing book resource three-dimensional navigation map route planning and book resource intelligent indication space position navigation;

read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; and recommending the reading seat in the range of the RFID signal according to whether the reading seat is in the reading occupied state or not.

2. The high frequency RFID-based library resource navigation system of claim 1, wherein the high frequency RFID navigation map subsystem comprises:

the wireless radio frequency read-write setting subsystem is used for setting a plurality of high-frequency RFID wireless radio frequency read-write units on the library bookshelf;

the high-frequency RFID identification marking subsystem is used for identifying book resource wireless radio frequency information through the high-frequency RFID wireless radio frequency reading and writing unit; identifying and marking the position of a bookshelf space area of a library where book resources are located;

and the bookshelf space navigation map subsystem is used for generating a library space region book resource three-dimensional navigation map according to the position of the library bookshelf space region where the book resource is located.

3. The library resource navigation system based on high frequency RFID of claim 1, wherein the wireless radio frequency robotic inspection subsystem comprises:

the inspection scattered book identification subsystem is used for inspecting a high-frequency RFID wireless radio frequency signal source of scattered books of the library in real time through the high-frequency RFID wireless radio frequency identification robot;

the book state identification and judgment subsystem is used for identifying and judging the scattering position and the moving state of a scattered book resource high-frequency RFID wireless radio frequency signal source;

and the scattered book collecting and placing subsystem collects and places scattered book resources in a non-bookshelf space area position to the bookshelf space area position where the books should be placed according to the scattered book resource scattering position and the moving state, and acquires the book resource three-dimensional navigation map updating data.

4. The high frequency RFID-based library resource navigation system of claim 1, wherein the library digital management center subsystem comprises:

the library digital management uploading subsystem is used for setting a library digital management center at a library management end and uploading a book resource three-dimensional navigation map and book resource three-dimensional navigation map updating data to the library digital management center;

and the library digital management center distributes the book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to the mobile phone library APP platform.

5. The library resource navigation method based on the high-frequency RFID is characterized by comprising the following steps of:

s100, arranging a plurality of high-frequency RFID wireless radio frequency read-write units on a library bookshelf, and identifying book resource wireless radio frequency information; generating a three-dimensional navigation map of book resources in a library space area;

s200, carrying out real-time inspection and identification on scattered books through a high-frequency RFID wireless radio frequency identification robot, and automatically collecting and placing the scattered books in the position of a bookshelf space region where the books are located to obtain book resource three-dimensional navigation map updating data;

s300, uploading a book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to a library digital management center and distributing the book resource three-dimensional navigation map and book resource three-dimensional navigation map update data to a mobile library APP platform;

S400, the mobile phone library APP platform receives library resource query information through a query input interface, and performs three-dimensional navigation map route planning of the library resource and intelligent indication space position navigation of the library resource;

s400, comprising:

s401, setting a mobile phone library APP platform, and transmitting the mobile phone library APP platform to a user side through mobile communication; the mobile phone library APP platform receives library resource query information through a query input interface;

s402, analyzing and identifying library resource inquiry information, identifying error-free library resource inquiry information, and confirming final accurate and real library resource inquiry information;

s403, according to the final accurate real library resource query information, recommending routes in the library and reading seats in the range of RFID signals, and performing three-dimensional navigation map route planning of the library resources and intelligent indication space position navigation of the library resources;

read seat recommendations within the range of RFID signals include: the high-frequency RFID wireless radio frequency identification robot senses whether book resource wireless radio frequency signals exist on a reading seat within the range of the RFID signals; when the book resource wireless radio frequency signals are arranged on the reading seat in the range of the RFID signals and accord with the dynamic response characteristics of the reading state, the reading seat is judged to be in the reading occupied state; the reading state dynamic response characteristics include: the book resource wireless radio frequency signals slightly move in the reading state in the area range of the reading seat; when the book resource wireless radio frequency signals are not arranged on the reading seat in the range of the RFID signals, or the book resource wireless radio frequency signals do not accord with the dynamic response characteristics of the reading state, the reading seat is judged to be not in the reading occupied state; and recommending the reading seat in the range of the RFID signal according to whether the reading seat is in the reading occupied state or not.

6. The method for navigating library resources based on high frequency RFID of claim 5, wherein S100 comprises:

s101, arranging a plurality of high-frequency RFID wireless radio frequency read-write units on a library bookshelf;

s102, identifying book resource wireless radio frequency information through a high-frequency RFID wireless radio frequency read-write unit; identifying and marking the position of a bookshelf space area of a library where book resources are located;

and S103, generating a spatial region book resource three-dimensional navigation map of the library according to the spatial region position of the bookshelf of the library where the book resource is located.

7. The method for navigating library resources based on high frequency RFID as claimed in claim 5, wherein S200 comprises:

s201, a high-frequency RFID wireless radio frequency signal source of books scattered in a library is inspected in real time through a high-frequency RFID wireless radio frequency identification robot;

s202, recognizing and judging scattering positions and moving states of scattered book resources and high-frequency RFID wireless radio frequency signal sources;

s203, according to the scattered book resource scattering position and the moving state, the scattered book resource of the non-bookshelf space region position is collected and placed at the bookshelf space region position where the book is located, and the book resource three-dimensional navigation map updating data are obtained.

8. The method for navigating library resources based on high frequency RFID as claimed in claim 5, wherein S300 comprises:

s301, setting a library digital management center at a library management end, and uploading a library resource three-dimensional navigation map and library resource three-dimensional navigation map update data to the library digital management center;

s302, the library digital management center distributes the book resource stereoscopic navigation map and the book resource stereoscopic navigation map update data to the mobile phone library APP platform.